Relay Catalogue Part 1: Electromechanical Relays. Part 2: PhotoMOS and Semiconductor Relays

Transcription

1 Relay Catalogue Part : Electromechanical Relays Part : PhotoMOS and Semiconductor Relays

2 Notes and Guidelines Panasonic is part of a large worldwide group selling relays and associated switching products under different brand names in different territories. The conditions of use in some territories may differ from those customary in Europe. In particular there are often major differences in regard to national and international specifications, such as UL, CSA, VDE, SEV, EVE, SEMKO, etc. Thus, when considering contact loads as stated in this catalogue (e.g. A, VDC for the SP relay) it should be understood that these values are not necessarily an absolute maximum but tested ratings. Mostly the stated value has been tested for a certain life expectancy as stated by the manufacturer or the respective test house. Thus, under different conditions, the stated maximum may, in practice, be safely exceeded. Therefore consideration should be given to each specific application for: rating and type of load In case of uncertainty, contact should be made with Panasonic locally to ascertain the likelihood of the relay meeting the required life expectancy in the specific planned operational circumstances. It is also pointed out that in this book, and in deviation from EN / IEC 8-, operational life data is given under a normal ambient temperature of about C. The features and specifications quoted have been carefully tested using modern methods and represent the values which are to be expected with a product in new condition at room temperature. They are not guaranteed values and may change during operational life or due to ambient influences. Statistical test information covering major operating features is available on request. Panasonic reserves the right to make alterations and changes to specifications without notice from time to time as may be deemed necessary. switching frequency - cycles per second (or minute) environmental conditions A general statement of compliance on data sheets, publicity, etc. concerning industrial standards, approvals or certification may imply compliance to a certain standard is available. However, because of the multiplicity of types available, in general not all types within the product family are covered to the same extent by the standard. Thus, in the event of a specific query regarding a particular product and its compliance with the standard, users are asked to refer to Panasonic for detailed information.

3 Application of the EC Directives to All-or-Nothing Relays As of this moment, none of the directives require CE marking for all-or-nothing relays. With respect to the three EC directives potentially to be taken into account, the following applies to all-or-nothing relays. EMC Directive All-or-nothing - be they electro-mechanical relays or solid state relays - shall not be labeled with a CE marking nor shall a declaration of conformity be issued within the scope of the EMC Directive. The EMC Directive concerns primarily the finished products. In applying the Directive to components, the Guidelines should be consulted to determine whether the component in question has a direct function. Electric motors, power supply units or temperature controls represent examples of such components with direct function. These types of components must be provided with a CE marking. Components which are integrated into a device, such as relays, do not have an independent function of their own. A given relay may perform differing functions in different devices. Consequently, all-or-nothing relays must be considered components without direct function which are not subject to the EMC Directive. shall not be CE marked. The Guidelines 3 specifically cite electro-mechanical basic components such as connectors, relays with terminals for printed circuit boards and micro switches. Except for larger relays which may, for example, find application in switching cabinets, the same considerations apply to common-place relays with plug-in connections available also with printed board terminals. Here again, safety is a function of the individual application. In evaluating these relays performance from the perspective of the Low Voltage Directive, the same conclusion is reached as with the printed board relay. As such, CE marking is not mandatory for this type of relay. 3 Machinery Directive The Machinery Directive differentiates between machines, machine parts and safety components. Relays are not part of any of these categories. The listing of safety components in Appendix IV is conclusive and does not include relays. Consequently, a CE marking shall not be affixed nor shall a declaration of conformity or manufacturer s declaration be issued under the Machinery Directive. Low Voltage Directive Relays with terminals for printed boards/plug-andsocket connections do not come within the purview of the Low Voltage Directive. The Low Voltage Directive concerns electrical equipment intended for incorporation into a device as well as equipment intended for direct use. In the case of electrical equipment which is considered a basic component intended for incorporation into other electrical equipment, the properties and safety of the final product will be largely dependent on how it is integrated: as such, these components do not come within the Machinery Directive and. This writing deals exclusively with non-specified-time all-or-nothing relays. The abbreviated term all-or-nothing relay has been introduced merely for purposes of convenience. The term includes solid state all-or-nothing relays.. Guidelines (version dated May, 997) for the Application of the Council Directive 89/33/EEC. 3. Guidelines (version dated July 997) for the Application of the Council Directive 73/3/EEC.

4 Table of Contents Selector Chart... Signal Relays... 3 DS RELAYS... 3 DSY RELAYS... GN RELAYS (AGN)... GQ RELAYS (AGQ)... 9 HY RELAYS... 3 SX RELAYS (ASX)... TK RELAYS... TN RELAYS... TQ RELAYS... 7 TQ SMD RELAYS TX RELAYS... 8 TX-D RELAYS TX-S RELAYS... 9 High-Frequency Relays... 3 RA RELAYS (ARA)... RD COAXIAL SWITCHES (ARD)... 8 RE RELAYS (ARE)... 8 RJ RELAYS (ARJ)... RK RELAYS... RP RELAYS... 3 RX RELAYS (ARX)... 3 Polarized Power Relays DE RELAYS (ADE)... DJ RELAYS (ADJ)... DK RELAYS... 3 DQ RELAYS (ADQ)... 8 DSP RELAYS... DY RELAYS (ADY)... S RELAYS... 9 SP RELAYS... 7 ST RELAYS... 8 Non-Polarized Power Relays... 8 HC RELAYS... 8 HE RELAYS HG RELAYS... HJ RELAYS... 9 HL RELAYS... HP RELAYS... JC RELAYS... 3 JC RELAY (Special Type)... 3 HN RELAYS (AHN) JM RELAYS... 3 JQ RELAYS... 7 JS RELAYS... JT-V RELAYS... JV-N RELAYS... 8 JW RELAYS... LA RELAYS (ALA)... LD RELAYS (ALD)... 8 LE RELAYS (ALE)... 7 LF RELAYS (ALF)... 7 LK RELAYS LK-P RELAYS... 8 LK-S RELAYS... 8 LZ RELAYS (ALZ) MC Mini-Contactor... 9 PA RELAYS... 9 PE RELAYS (APE) PQ RELAYS... Automotive Relays... 3 CA RELAYS... CB RELAYS... CF RELAYS CJ RELAYS (ACJ)... 3 CM RELAYS... 3 CP RELAYS... 3 CQ RELAYS CR RELAYS CT RELAYS (ACT)... 3 CV RELAYS (ACV) EV RELAYS (AEV)... 3 JJ-M RELAYS JJ-M RELAYS (Double make type)... 3 JS-M RELAYS... 3 JT-N RELAYS Safety Relays SFD RELAY SF3 RELAY SFD RELAY SFND RELAY Relay Technical Information Definition of Relay Terminology General Application Guidelines Reliability... Applications of Relays in Electronic Circuits... Relay Soldering and Cleaning Guidelines... 3 SMT Soldering Guidelines... 3

5 Signal Relays Selector Chart About the Selector Chart This selector chart is designed to help you quickly select a relay best suited for your needs. Please note: the values given for switching current and switching voltage do not necessarily indicate standard operating conditions. For the nominal switching capacity and other critical values, please refer to the respective data sheet. In case of doubt, please contact your Panasonic representative. Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals : GN (SMD) Compact slim body saves space Outstanding surge resistance The use of twin crossbar contacts ensures high contact reliability RoHS compliant Max: A Min: µa V AC c (DC)., 3,.,, 9,, V Single side stable: mw (. - ) mw () coil latching: mw (.V - ) mw () 7Vrms Vrms Vrms,V FCC,V Bellcore PCB, SMT PCB UL, CSA, BSI dia. SMD x.7 x 9.mm.8 : GQ (SMD) Compact flat body saves space Outstanding surge resistance The use of twin crossbar contacts ensures high contact reliability RoHS compliant Max: A Min: µa V AC c (DC)., 3,.,, 9,, V Single side stable: mw (. - ) mw () coil latching: mw (.V - ) mw () 7Vrms Vrms Vrms,V FCC,V Bellcore 3. PCB, SMT 9 PCB UL, CSA, BSI dia.. x 7. x./.mm 3. SMD : TQ x 9 x mm,v FCC -pole model available RoHS compliant Max: A Min: µa V AC c, c (DC) 3,.,,, 9,,, 8V Single side stable: mw (3 - ) mw () mw (8) coil latching: mw (3 - ) mw () coil latching: mw (3 - ) mw () 7Vrms Vrms Vrms,V FCC PCB Grid.mm 7 UL, CSA, BSI c c : TQ (SMD) x 9 x.mm Ultra low profile.8mm Surge withstand,v 3 types of surface-mount terminals available RoHS compliant Max: A Min: µa V AC c (DC)., 3,.,,, 9,,, 8V Single side stable: mw (up to ) mw () mw (8) coil latching: 7mW (up to ) mw () coil latching: mw (up to ) mw () Vrms Vrms Vrms,V FCC,V Bellcore.9.3 SMT. 77 UL, CSA 9. For glue-pad

6 Signal Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals : TX (SMD) Surge withstand,v High contact capacity A Breakdown voltage between contacts and coil,v 3 types of surface-mount terminals available RoHS compliant Max: A Min: µa V AC c (DC)., 3,.,,, 9,,, 8V Single side stable: mw (up to ) 7mW (8) coil latching: mw coil latching: mw Vrms Vrms Vrms,V FCC,V Bellcore PCB, SMT 8 PCB, grid.mm UL, CSA, BSI SMD For glue-pad x 7. x 8.mm : TX-S (SMD) Higher sensitivity operating power, mw,v FCC 3 types of surface-mount terminals available RoHS compliant Max: A Min: µa V AC c (DC)., 3,.,,, 9,, V(DC) Single side stable: mw (. - ) 7mW () coil latching: 3mW (. - ) mw () coil latching: 7mW (. - ) mw () 7Vrms Vrms 8Vrms, V FCC,V Bellcore PCB, SMT 9 PCB, grid.mm UL, CSA, BSI SMD For glue-pad x 7. x 8./8.mm : SX (SMD) High contact reliability over a long life has been made possible for low level loads High sensitivity of mw Low thermal electromotive force RoHS compliant Max:.A Min: µa c (DC)., 3,.,, 9,, V Single side stable: mw (. - ) mw () coil latching: 3mW (. - ) mw () coil latching: 7mW (. - ) mw () 7Vrms Vrms Vrms - PCB, SMT PCB, grid.mm UL, CSA, BSI. 3. SMD x 7. x 8./mm : TX-D (SMD) High-insulation relay that conforms to the insulation level provided for in the EN3 3 types of surface-mount terminals available RoHS compliant Max: A Min: µa Break Before Make: V AC Make Before Break: V AC c (DC)., 3,.,,, 9,, V Single side stable: mw (. - ) mw () coil latching: mw (. - ) 7mW () Vrms Vrms Vrms,V FCC,V Bellcore PCB, SMT 89 UL, CSA, BSI PCB, grid.mm SMD For glue-pad x 7. x 8./8.mm TN Slim size Max: A c (DC) 3,.,,, 9, Single side stable: 7Vrms Vrms Vrms,V FCC PCB :,V FCC V AC,, 8V mw (up to ) Grid.mm UL, CSA RoHS compliant Min: µa mw () mw (8) x. x 9.8mm coil latching: mw (3 - ) mw () coil latching: mw (3 - ) mw () 7

7 Signal Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals TK Low profile mm Max: A c (DC)., 3,.,, Single side stable: 7Vrms Vrms Vrms,V FCC PCB : High contact capacity A V AC, 9,, V mw (up to ),V Bellcore Grid.mm UL, CSA Surge withstand voltage Min: µa 7mW () between contact and coil coil latching:,v RoHS compliant mw (3 - ) mw (). x 9 x mm coil latching: mw (. - 9) mw () mw () : DS V FCC High switching power RoHS compliant Max: A Min: µa V AC c, c, c (DC)., 3,,, 9,,, 8V M type: Single side stable: mw Vrms (DS-S: Vrms) Vrms Vrms (Vrms for DS-S),V FCC PCB 3 Grid.mm UL, CSA coil latching: 8mW c x 9.9 x 9.8mm coil latching: 3mW S type: Single side stable: mw coil latching: 9mW coil latching: 8mW c c : DSY High sensitivity Form C contact,v FCC Sealed construction RoHS compliant Max: A Min: µa V AC c (DC)., 3,,, 9,,, 8V Single side stable: mw (mw: 8V) coil latching: 8mW (3mW: 8V) 7Vrms Vrms Vrms,V FCC PCB Grid.mm UL, CSA x 9.9 x 9.3mm HY High sensitivity mw / Max: A c (DC)., 3,.,, Standard: Vrms - Vrms - PCB 3 : mw, 9,, V mw Grid.mm UL, CSA RoHS compliant Min: ma High sensitivity: mw x 7. x.mm 8 9

8 High-Frequency Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals : RA.7 x 9.7 x.9mm HF relay in SMT version Up to GHz Impedance Ω RoHS compliant HF Characteristics at GHz: Isolation min. db Insertion loss max..3db V.S.W.R. max.. DC: A HF: 3W (GHz) c (DC)., 3,.,,, 9,,, 8V Single side stable: mw (. - V) mw (V) mw (8V) coil latching: 7mW (. - V) mw (V) coil latching: mw (. - V) mw (V) 7Vrms Vrms Vrms - SMT Suggested mounting pads - (Top view) for glue pad earth : RJ Shielded HF relay Up to GHz Impedance Ω RoHS compliant HF Characteristics at GHz: Isolation min. 3dB Insertion loss max..db V.S.W.R. max.. DC:.3A HF: W (GHz) c (DC) 3,.,, V Single side stable: mw coil latching: mw Vrms Vrms Vrms - PCB, SMT - Com NC NO Com...3. x 9 x 8.mm : RX. x. x 9.mm Shielded HF-Relay Up to 3 GHz Impedance Ω RoHS compliant HF Characteristics at.ghz Isolation min. db Insertion loss max..db V.S.W.R. max.. DC:.A HF: W (.GHz) c (DC) 3,.,, 9,, V Single side stable: mw coil latching: mw coil latching: mw Vrms - Vrms - PCB dia hole ( coil latching type only) R. : RE (SMD) HF relay for broadcasting Up to.ghz Impedance /7Ω RoHS compliant DC:.A HF: W (.GHz) c (DC) 3,.,, 9,, V Single side stable: mw Vrms - Vrms - PCB, SMT 8 Grid.mm - HF Characteristics at.ghz Isolation min db Insertion loss max..7db V.S.W.R. max..7 SMT and PCB version available x. x 8.9/9.mm RK :. x. x 9.7mm HF relay for broadcasting Up to.ghz Impedance /7Ω RoHS compliant HF Characteristics: Isolation min. db (at.ghz) Insertion loss max..3db (at 9MHz) V.S.W.R. max..db (at 9MHz) Latching types available DC:.A HF: W (.GHz) c (DC) 3,.,,, 9,, V Single side stable: mw coil latching: mw coil latching: mw Vrms - Vrms - PCB Grid.mm - Single side stable coil latching

9 High-Frequency Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals : RD SPDT 3 x 3. x 39mm Coaxial relay Up to.ghz (8GHz) Impedance Ω RoHS compliant HF Characteristics at 8GHz: Isolation min. db Insertion loss max..db V.S.W.R. max.. TTL Version available SPST high power version available DC: ma HF: W (3GHz) SPDT (DC).,, V Single side stable: 8-97mW (.,, V) coil latching: 7-9mW (.,, V) Latching with TTL driver (with self cut-off function):,, V Vrms Vrms Vrms - SMA : RD TRANSFER 3 x 3 x 39mm Coaxial relay Up to.ghz (8GHz) Impedance Ω RoHS compliant HF Characteristics at 8GHz: Isolation min. db Insertion loss max..db V.S.W.R. max.. TTL Version available SPST high power version available DC: ma HF: W (3GHz) DPDT (DC),, V Single side stable: -7mW (.,, V) coil latching: -mw (.,, V) Latching with TTL driver (with self cut-off function):,, V Vrms Vrms Vrms - SMA : RP Low profile HF relay Up to.8ghz Impedance Ω RoHS compliant DC:.A HF: W (.8GHz) c (DC)., 3,.,,, 9,,V Single side stable: mw (. - V) 7mW (V) 7Vrms - Vrms - PCB 3 Grid.mm -. x 9 x mm HF Characteristics at.8ghz: Isolation min. db Insertion loss max. db V.S.W.R. max..3 3

10 Polarized Power Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals Polarized Power Relays DE : x. x.mm Conforms to VDE3 Low operating power Compact body saves space Creepage&clearance distance >Min 8mm RoHS compliant Max: 8A (ab, a) /A (a) V AC a, ab, a (DC)., 3,.,,, 9,,, 8V Single side stable: mw coil latching: mw coil latching: mw Vrms Vrms (ab, a) Vrms,V PCB Grid.mm UL, CSA, VDE, TÜV DSP :. x x.mm High switching capacity High sensitivity High contact welding resistance High breakdown voltage RoHS-compliant types available Max: 8A (a) A (ab, a) V AC a, ab, a (DC) 3,,, 9,, V Single side stable: mw coil latching: mw coil latching: mw Vrms Vrms (ab, a) Vrms,V PCB Grid.mm TÜV, UL, CSA, SEV a ab, a : DK x x mm Large capacity in small size High sensitivity High breakdown voltage RoHS-compliant types available Max: A (a) 8A (ab, a) V AC a, ab, a (DC) 3,,, 9,, V Single side stable: mw coil latching: mw Vrms Vrms Vrms,V PCB Grid.mm 3 VDE, TÜV, UL, CSA, SEV a ab, a : DY Latching types available ROHS compliant Socket available Max: A (a) 8A (a,b) 38V AC a, ab (DC) 3,,,, V Single side stable: mw coil latching: mw Vrms Vrms Vrms,V PCB Grid.mm - x x 9.7mm Single side stable ab coil latching : DJ Latching type Compact with high capacity Creepage & clearance distance > 8mm Optional available with manual test button RoHS compliant Max: A V AC a, b, c, ab, a, b, c (DC),,,, 8V Single side stable: mw coil latching: mw coil latching: mw Vrms - Vrms,V PCB Grid.mm VDE, TÜV, UL, CSA, SEV Single side stable, coil latching (c) 9 x 3 x /.mm coil latching (c) : DQ Latching type Compact with high capacity High insulation RoHS compliant Max: A V AC a (DC).,, 9,, V coil latching: mw coil latching: mw Vrms - Vrms,V PCB 8 Grid.mm UL, CSA coil latching 38 x 9 x 7.3mm coil latching

11 Non-Polarized Power Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals : S 8 x x.mm High sensitivity High vibration and shock resistance Low thermal electromotive force (approx. 3µV) RoHS compliant Max: A Min: µa V AC ab, 3ab, a (DC) 3,,,,, 8V Single side stable: 8-3mW coil latching: mw coil latching: mw 7Vrms Vrms Vrms - PCB 9 Grid.mm UL, CSA : ST 3 x x.3mm High capacity in small size High inrush capability RoHS-compliant types available Max: 8A Min: ma V AC ab, a (DC) 3,,, 9,,, 8V Single side stable mw coil latching: mw coil latching: mw Vrms Vrms 37Vrms,V PCB Grid.mm 8 UL, CSA, SEV, VDE, TV rating (Single side stable) : SP High sensitivity High vibration and shock resistance Wide switching range RoHS compliant Max: A V AC c, c (DC) 3,,,,, 8V Single side stable: mw coil latching: mw Vrms Vrms Vrms - PCB, Plug-in 7 Grid.mm UL, CSA, TÜV c c: x. x mm c: x 3.8 x mm c Non-Polarized Power Relays : LD Slim type: width 7mm RoHS compliant Max: 3A 77V AC a (DC).,,, 9,, 8, V mw 7Vrms - Vrms,V PCB 8 TÜV, UL, CSA, VDE.3 x 7 x mm PA Slim size permits higher density mounting V AC V Grid.mm TÜV, UL, CSA Max: A a (DC),, 9,, 8, mw ( - 8V) Vrms - Vrms,V PCB 9 : Wide switching capacity 8mW (V) High surge voltage,v High breakdown voltage x x.mm,v RoHS compliant : PE 8 x x mm Slim size permits higher density mounting Wide switching capacity High surge voltage,v High breakdown voltage,v Creepage & clearance distance > 8mm Form B available upon request RoHS compliant Max: A V AC a, c (DC).,,,, 8,, 8, V 7mW ( - V) 7mW (8V) 7mW (V) Vrms - Vrms,V PCB UL, CSA, VDE : LA Slim type: Form A High insulation resistance between contact and coil RoHS compliant Standard: Max: 3A (3A rated) Power type: Max: A (A, TV- rated) 77V AC a (DC), V mw Vrms Vrms Vrms,V PCB. -.9 Ø. -.3 Ø 7. TÜV, UL, CSA, SEV, SEMKO x x mm 7

12 Non-Polarized Power Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals LK LK-P LK-S High inrush current capability High insulation resistance between contact and coil RoHS compliant High switching capacity High insulation High inrush current capability RoHS compliant High sensitivity mv High inrush current capability High insulation resistance between contact and coil RoHS compliant Max: A : A : A 77V AC 77V AC 77V AC a (DC), 9,, V mw Vrms - Vrms,V PCB. 78 UL, CSA, TÜV, SEV, 7. SEMKO, VDE, TV rating : -.9 Ø -.3 Ø x x mm a (DC), V mw Vrms - Vrms,V PCB. 8 UL, CSA, TÜV, SEV, 7. SEMKO, VDE,. TV rating : -.9 Ø -.3 Ø x x mm a (DC), 9,, V mw Vrms - Vrms,V PCB. 8 UL, CSA, TÜV, SEV, 7. SEMKO, VDE,. TV-rating : -.9 Ø -.3 Ø x x mm : JQ High electrical noise immunity High switching capacity High surge voltage 8,V RoHS-compliant types available Max: A 77V AC a, c (DC) 3,,, 9,,8,, 8V mw (a) mw (c) Vrms (a) 7Vrms (c) - Vrms 8,V PCB Ø UL, CSA, TÜV, VDE, SEMKO 7. x x.mm. a Ø 7. c PQ High electrical noise immunity Max: A a (DC) 3,,, 9,, mw Vrms - Vrms 8,V PCB : High sensitivity mw High surge voltage 8,V RoHS compliant V AC 8, V Grid.mm UL, CSA, TÜV, SEV, SEMKO, VDE x x.mm : JS Ultra-miniature size with universal terminal footprint High switching capacity A RoHS-compliant types available Max: A 77V AC a, c (DC),, 9,, 8,, 8V 3mW 7Vrms - Vrms - PCB a -.3 Ø TÜV, VDE, UL, CSA, complies with TV. x x mm c -.3 Ø. 8 9

13 Non-Polarized Power Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals : JW High dielectric withstanding for transient protection Class B coil insulation types available RoHS-compliant types available Standard: Max: A (a, c) High capacity: Max: A (a, c) V AC a, c, a, c (DC),, 9,, 8,, 8V mw Vrms Vrms (a, c) Vrms,V PCB a 3. TÜV, VDE,. UL, CSA,.8 7. SEV, complies with -.3 Ø c Ø TV, SEMKO 8. x.8 x mm 7. a Ø 7. c Ø 7. : LE Ideal for magnetron and heater loads Excellent heat resistance High sensitive version available RoHS compliant Max: A 77/V AC a (DC),, 9,, 8,, 8V Standard: mw High sensitivity: mw Vrms - Vrms,V PCB, Top-mounting PCB type -.3 Ø 3-.3 Ø 7 TÜV, UL, CSA, VDE Ø x. x.9mm. 3. TMP type : LZ Low profile relay (.7mm) Low operating power (mv) High temperature resistant ( C) RoHS compliant Max: A V AC a, c (DC), 9,, 8,, 8V mw Vrms - Vrms,V PCB 87 c VDE, UL, CSA Ø 8.8 x. x.7mm a -.3 Ø 7. : LF Ideal for compressor and inverter loads High insulation resistance RoHS compliant Max: A V AC a (DC),, 9,, 8, V 9mW Vrms - Vrms,V PCB, Top-mounting ±. 3.8 ± Ø 7 UL, CSA, TÜV, VDE, SEMKO ±.. ±.. ±.. TMP type. x.7 x 3.3mm : JM Super welding resistance High surge resistance Compact high capacity relay for inductive load RoHS-compliant types available Max: A V AC a (DC),, 9,,, 8V 9mW Vrms - Vrms,V PCB, Top mount contact, coil to PCB..±. COM ±. Coil N.O..±. 3 TÜV, UL, CSA, VDE Slim:. x x.mm Flat: 3 x 8. x 7.mm. ±. Flat TMP type -.8 Ø

14 Non-Polarized Power Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals : JT-V Surge withstand voltage: kv High switching capacity contact arrangements Class F type as standard RoHS compliant Max: A 77V AC a, c (DC), 8,, 8V mw - Vrms Vrms,V PCB Top-mounting a.±. -. Ø..93±.. UL, C-UL PCB: 3.9 x.9 x.mm TMP: 3. x 7. x 7.9mm c 3.8.±. -. Ø Ø 7..93± (TMP) -. Ø : JV-N Compact, flat type with low.9mm profile RoHS-compliant types available Max: A 77V AC a (DC).,, 9,,, 8, V mw mw (V coil) Vrms - Vrms,V PCB Ø UL, CSA, TÜV..7 x x.9mm (R) (R)... : JC x 9 x.mm Class B coil type available TV-rated type available High dielectric withstanding,v surge Special type with blow-out magnet for high DC loads available RoHS-compliant types available Max: A V AC Blow-out magnet type: a, a (DC),,,, 8V 9 mw (a) mw (a) Vrms Vrms (a) Vrms,V PCB, Plug-in, Topmounting a -. Ø a -. Ø Ø UL, VDE, SEV, SEMKO CSA, complies with TV Ø : HL Large capacity Compact size Footprint compatible with competitive types RoHS-compliant types available Max: A Min: ma V AC c, c (DC),,, 8, V (AC),,, 8,, (DC) 9 - mw (AC). -.3VA Vrms Vrms Vrms - PCB, Plug-in, Topmounting c UL, CSA, complies with TV 7. x.8 x 3.mm c : HJ 8 x. x 3/38mm contact arrangements same footprint as our popular HC relay Coil breakdown detectionfunction (AC type with LED only) Convenient Screw terminal sockets with finger protection also available Test button type available RoHS compliant Max: 7A V AC c, c (DC),, 8, V (AC),, 8,,,, /V (DC) 9 mw (AC). -.VA Vrms Vrms Vrms - Plug-in c..3 9 VDE, UL, CSA, SEV, TV rating c

15 Non-Polarized Power Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals : HC Wide applications Versatile range Foot print compatible with competitive types RoHS-compliant types available Max: A Min: ma V AC c, c, 3c, c (DC),,, 8, V (AC),,, 8,, V (DC) 9mW (AC).VA 7Vrms 7Vrms Vrms - PCB, Plug-in, Topmounting c. - Ø c Ø.3 8 VDE, UL, CSA, SEV, TV rating.. 7. x.8 x 3.mm 3.3 3c Ø Ø c : HN Slim and compact size High reliability RoHS compliant Max: A V AC c, c (DC),,,, 8V (AC),, V (DC) mw (AC).9VA Vrms Vrms Vrms - Plug-in, Screw terminal - 37 UL, C-UL, (VDE) 9 x 3 x 8mm HP High reliability Max: A c, 3c, c (DC),,, 8, (DC) mw Vrms Vrms Vrms - Plug-in : RoHS-compliant types available (AC),,, 8, V AC V c 3c (AC).9 -.9VA,, V VDE, UL, CSA, SEV c x x.mm :3 HG High capacity A RoHS-compliant types available Max: A V AC c, 3c, c (DC),,, 8, V (AC),,, 8,,, V (DC) - mw (AC) VA Vrms Vrms Vrms - Plug-in UL, CSA c c c: x 3 x mm 3c: 3 x 3 x mm c: 8 x 3 x mm c :3 HE High dielectric withstanding,v surge High inrush resistance (TV-: form A) (TV-: form A) RoHS compliant Max: A 77V AC a, a (DC),,, 8, V (AC),, 8,, V (DC) 9mW (AC).7 -.7VA Vrms Vrms Vrms,V Top-mounting Panel cutout -.±. Ø ±. 98 TÜV, UL, CSA, VDE, TV rating (Plug-in terminal type) (Screw terminal type) x 33 x 3.8mm -.±. Ø 7.±. (NEMA terminal type) (Screw terminal type, wide pitch) :3 MC Minicontactor for controlling motor, air-conditioning and heating loads Energy saving Also available in PCB version 3mm contact opening Max: A V AC a, 3ab, ab (DC) 3,,,,, 8V (AC),,,,,, ;, 38V (DC) mw (AC) VA Vrms Vrms Vrms - PCB, screw, plugin, DIN rail - 9 UL, CSA. x x.mm

16 Automotive Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals Twin : CF 7A steady/a inrush current capability Simple footprint enables ease of PC board layout RoHS compliant Max: A (N.O.) A (N.C.) c x (DC) V mw Vrms - Vrms - PCB Ø x. x.mm : CJ 3.7 x. x 3.mm Super miniature size 3.7(L) x.(w) x 3.(H) High capacity (A) in a compact body RoHS compliant Max: A (N.O.) A (N.C.) c x (DC) V Standard: 8mW High sensitivity: mw Vrms - Vrms - PCB Ø -. Ø -. Ø.. : CR Quiet Twin ( Form C x ) Simple footprint enable ease of PC board layout RoHS compliant Max: A (N.O.) A (N.C.) c x (DC) V mw Vrms - Vrms PCB Ø x 7 x 8.mm : CT Ultra small size Twin ( Form C x ) H-bridge type available Pin&Paste type available RoHS compliant Max: A (N.O.) A (N.C.) c, c x (DC) V 8mW Vrms - Vrms - PCB Ø 7. x x 3.mm Ø 8 terminals Ø Ø terminals Single : CA Small size Light weight Completely water tight Automotive direct plug-in RoHS compliant Max: A (a,.w type) A (a,.8w type) A (b, c) (c; type) (a, b; type) (c; type) a, b, c (DC), V 8mW mw (type S) Vrms - Vrms - Plug-in 9. - Sealed with epoxy resin 9 a, b x. x 37mm : CB A rating at 8 C (8 F) ISO type terminals High shock resistance for drop test requirements Low temperature rise RoHS compliant Max: 7A (H type) A (a, c N.O.) A (c) ( type) 3 ( type) a, c (DC), V mw ( type) 8mW ( type) 8mW (, H type) Vrms - Vrms - PCB, Plug-in (PCB standard type) x x mm 7

17 Automotive Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals : CM Half the size, replaces Mini- ISO relay Wide line-up Micro-ISO terminal type RoHS compliant Max: 3A (N.O.) A (N.C.) ( type) 3 ( type) a, c (DC), V mw ( type) 8mW ( type) Vrms - Vrms - PCB, Plug-in x x mm Low profile Max: a, c (DC) V, V mw Vrms - Vrms - PCB, SMT 3 CP (SMD) High capacity A (N.O.) PCB type - : Simple footprint enables ease A (N.C.) of PC board layout RoHS compliant Ø.7 (R) x 3 x 9.mm Surface mount type : CQ Quiet Less space required RoHS compliant Max: A (N.O.) A (N.C.) c (DC) V mw Vrms - Vrms - PCB Ø -. 7 x 3 x.mm.. : CT Ultra small size Twin ( Form C x ) H-bridge type available Pin&Paste type available RoHS compliant Max: A (N.O.) A (N.C.) c, c x (DC) V 8mW Vrms - Vrms - PCB Ø Ø 7. x 7. x 3.mm CV Low profile Max: a, c (DC) V 8mW Vrms - Vrms - PCB, Plug-in 37 : Low temperature rise Low sound pressure level Wide line-up Micro-ISO terminal type A (N.O.) A (N.C.) Micro 8. - RoHS compliant a 8 8. x x.7mm Sealed by epoxy resin : JJM Compact (half-size) Perfect for automobile electrical systems RoHS compliant Max: A (N.O.) A (N.C.) a, c (DC) V mw Vrms - Vrms - PCB Ø -.. Ø. x x 3.9mm.. : JJM-DM. x x 3.9mm Small size Standard terminal pitch employed Double make contact arrangement RoHS compliant Max: x A Double make contact (DC) V mw Vrms - Vrms - PCB 3 -. Ø -.. Ø.. 8 9

18 Automotive Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals : JS-M Low pick-up voltage for high ambient use RoHS compliant Standard: Max: A High capacity: Max: A a, c (DC) 9, V mw 7Vrms - Vrms - PCB 3 a -.3 Ø - x x.mm c. -.3 Ø. : JT-N High switching capacity RoHS compliant Max: A (a) A (c N.O.) A (c N.C.) 77V AC a, c (DC),, 9,,, 8, V 8mW Vrms - Vrms - PCB, Top-mounting a.±. -. Ø..93±. 38 UL, CSA. C.± Ø Ø.93±... PCB: 3.9 x.9 x.mm TMP: 3. x 7. x 7.9mm (TMP) -. Ø Special Types : EV Small size & light weight No arc space is required Safety construction Low operating noise High contact reliability RoHS-compliant types available Max: A (a, a) A (a) A (a) a (A/A/ A) a (A) (DC), V W (stable) 3W (inrush for A type) Vrms - Vrms - Screw terminal x 87 x 87mm 8 x 38 x 7mm 3

19 Safety Relays Selector Chart Type = PopularType (Picture scale: DIN A) Features Switching current (max., min.) switching voltage Contact arrangement Coil voltage Coil power Breakdown voltage Between open contacts Between contact sets Contacts to coil Surge withstand voltage Mounting method (bottom view) Page Approvals :3 SFND 3.3 x 33 x.mm Polarised relay with forcibly guided contacts according to EN Safety double contact Extremely small total power loss Relay height:.mm RoHS compliant Max: 8A Min: ma V AC ab (DC), 9,,, 8,,, 3, 8, V 39mW ( - V) mw (3 - V) Vrms Vrms Vrms - PCB 38 Grid.mm UL, CSA, SEV, TÜV ab :3 SFD Polarised relay with forcibly guided contacts according to EN Safety double contact RoHS compliant Max: 8A Min: ma V AC ab (DC), 9,, 8,,, 3, 8, V mw Vrms Vrms Vrms - PCB 378 Grid.mm UL, CSA, SEV, TÜV 3.3 x 33 x.mm ab :3 SFD Polarised relay with forcibly guided contacts according to EN Safety double contact RoHS compliant Max: 8A Min: ma V AC ab (DC), 9,, 8,,, 3, 8, V mw Vrms Vrms Vrms - PCB 37 Grid.mm UL, CSA, SEV, TÜV ab 3.3 x x.mm :3 SF3 Polarised relay with forcibly guided contacts according to EN RoHS compliant Max: 8A Min: ma V AC 3ab (DC), 9,, 8,,, 3, 8, V mw Vrms Vrms Vrms - PCB 37 Grid.mm UL, CSA, SEV, TÜV 3ab 3.3 x x.mm 3 33

20 Signal Relays

21 DS HIGHLY SENSITIVE V FCC SURGE WITHSTANDING MINIATURE RELAY DS RELAYS DSE DSE DSE mm inch FEATURES High sensitivity: mw pick-up power mw pick-up power types available Latching types available High switching capacity: W, V A High breakdown voltage:, V FCC surge between open contacts, V AC between open contacts DIP-C type can be used with pin IC socket C type can be used with pin IC socket, C type can be used with sets of pin IC sockets Gold-cap silver palladium types available for Form C type Bifurcated contacts are standard SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material switching power Rating switching voltage (resistive) switching current carrying current Expected life (min. operations) Mechanical (at cpm) Electrical A VDC resistive * Gold capped silver-palladium contact also available for Form C 7 operations at. A resistive Coil (polarized) (at C 8 F) M type S type Single side stable coil latching coil latching Single side stable coil latching coil latching Minimum operating power operating power Minimum set and reset power set and reset power Minimum set and reset power set and reset power Minimum operating power operating power Minimum set and reset power set and reset power Minimum set and reset power set and reset power * For Form C high sensitive types. Form C, Form C, Form C mω Gold-clad silver W, VA, V AC A DC, AC 3 A DC, AC 8 ( Form C coil latching type: 7 ) Approx. mw Approx. mw Approx. 9 mw Approx. 8 mw Approx. 8 mw Approx. 3 mw Approx. mw (8 mw)* Approx. mw Approx. mw (8 mw)* Approx. 9 mw Approx. 9 mw ( mw)* Approx. 8 mw FCC (Federal Communication Commission) requests following standard as Breakdown Voltage specification. V 7V Characteristics (at C 8 F) operating speed cpm at rated load cps at low level load MΩ (at ) Type of relay (DS-S type) (Other types) Between open contacts Vrms, Vrms Between contacts sets, Vrms Between contacts and coil, Vrms, Vrms Initial insulation resistance* Initial breakdown voltage* FCC surge voltage between contacts and coil Operate time* 3 (at nominal voltage) Release time (without diode)* 3 (at nominal voltage) Set time* 3 (at nominal voltage) Reset time* 3 (at nominal voltage) Temperature rise (at nominal Contact current: A) Shock resistance Vibration resistance Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight, V (Expect DS-S type) Approx. 3 ms Approx. ms Approx. 3 ms Approx. 3 ms C C, C: 9 m/s Functional* { G} C: 9 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Ambient temp. Humidity to Hz at double amplitude of 3.3 mm to Hz at double amplitude of mm C to +7 C F to +8 F to 8% R.H. Form C Approx. 3.g.oz Form C Approx. g.oz Form C Approx. 7g.oz Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). µs µs 3 en_ds : J

22 TYPICAL APPLICATIONS Telecommunication equipment Office equipment Computer peripherals Security equipment Measuring instrumentation TYPES Single side stable Voltage, Part No. Form C Form C Form C. DSE-M-DC.V DSE-M-DC.V DSE-M-DC.V 3 DSE-M-DC3V DSE-M-DC3V DSE-M-DC3V DSE-M-DCV DSE-M-DCV DSE-M-DCV M DSE-M-DCV DSE-M-DCV DSE-M-DCV ( mw) 9 DSE-M-DC9V DSE-M-DC9V DSE-M-DC9V type DSE-M-DCV DSE-M-DCV DSE-M-DCV DSE-M-DCV DSE-M-DCV DSE-M-DCV 8 DSE-M-DC8V DSE-M-DC8V DSE-M-DC8V. DSE-S-DC.V DSE-S-DC.V DSE-S-DC.V 3 DSE-S-DC3V DSE-S-DC3V DSE-S-DC3V DSE-S-DCV DSE-S-DCV DSE-S-DCV S DSE-S-DCV DSE-S-DCV DSE-S-DCV ( mw) 9 DSE-S-DC9V DSE-S-DC9V DSE-S-DC9V type DSE-S-DCV DSE-S-DCV DSE-S-DCV DSE-S-DCV DSE-S-DCV DSE-S-DCV 8 DSE-S-DC8V DSE-S-DC8V DSE-S-DC8V coil latching Voltage, Part No. Form C Form C Form C. DSE-ML-DC.V DSE-ML-DC.V DSE-ML-DC.V 3 DSE-ML-DC3V DSE-ML-DC3V DSE-ML-DC3V DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV M DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV (8 mw) 9 DSE-ML-DC9V DSE-ML-DC9V DSE-ML-DC9V type DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV 8 DSE-ML-DC8V DSE-ML-DC8V DSE-ML-DC8V. DSE-SL-DC.V DSE-SL-DC.V DSE-SL-DC.V 3 DSE-SL-DC3V DSE-SL-DC3V DSE-SL-DC3V DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV S DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV (9 mw) 9 DSE-SL-DC9V DSE-SL-DC9V DSE-SL-DC9V type DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV 8 DSE-SL-DC8V DSE-SL-DC8V DSE-SL-DC8V coil latching Voltage, Part No. Form C Form C Form C. DSE-ML-DC.V DSE-ML-DC.V DSE-ML-DC.V 3 DSE-ML-DC3V DSE-ML-DC3V DSE-ML-DC3V DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV M DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV (3 mw) 9 DSE-ML-DC9V DSE-ML-DC9V DSE-ML-DC9V type DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV DSE-ML-DCV 8 DSE-ML-DC8V DSE-ML-DC8V DSE-ML-DC8V. DSE-SL-DC.V DSE-SL-DC.V DSE-SL-DC.V 3 DSE-SL-DC3V DSE-SL-DC3V DSE-SL-DC3V DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV S DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV (8 mw) 9 DSE-SL-DC9V DSE-SL-DC9V DSE-SL-DC9V type DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV DSE-SL-DCV 8 DSE-SL-DC8V DSE-SL-DC8V DSE-SL-DC8V Notes:. Reverse polarity types available (add suffix-r).. Standard packing: carton: pcs.; case: pcs. en_ds : J ORDERING INFORMATION Contact arrangement : Form C : Form C : Form C Ex DS Classification of type E: Amber sealed type E M L DC 8 V R * Sensitivity M: mw nominal operating power S: mw nominal operating power Operating function Nil: Single side stable L: coil latching L: coil latching DS Coil voltage DC., 3,,, 9,,, 8 V *Reverse polarity types available (add suffix-r). Standard packing: Carton: pcs.; Case: pcs. 37 Signal

23 DS COIL DATA (at C 8 F) Single side stable M type S type coil latching M type S type coil latching M type S type Pick-up (max.) Drop-out Maximum allowable, Coil resistance, Ω (±%) (at C F) Form C, Form C (min.) Form C, Form C Maximum allowable, Reset Set, (max.) Coil resistance, Ω (±%) (at C F) Form C, Form C Form C, Form C Maximum allowable, Reset Set, (max.) Coil resistance, Ω (±%) (at C F) Form C, Form C Coil l Coil ll Form C, Form C en_ds : J

24 DIMENSIONS Form C Single side stable, coil latching, coil latching PC board pattern (Copper-side view) Single side stable, coil latching coil latching dia -.3 dia dia -.3 dia.. DS mm inch Tolerance: ±. ±. Signal Schematic (Bottom view) Single side stable Deenergized condition + - General tolerance: ±.3 ±. coil latching + coil latching + SET 3 RST + N.O. N.C. COM 7 A polarity bar showing the relay direction can replace the schematic. SET RST COM SET RST 7 Diagram shows the reset position when terminals and are energized. Energize with reverse polarity to transfer contacts. COM 7 Diagram shows the reset position when terminals 3 and are energized. Energize terminals and 3 to transfer contacts. Form C Single side stable, coil latching, coil latching General tolerance: ±.3 ±. PC board pattern (Copper-side view) Single side stable, coil latching coil latching dia 8-.3 dia dia -.3 dia.. matching pin IC socket Tolerance: ±. ±. Schematic (Bottom view) Single side stable Deenergized condition 9 3 N.O. N.C. COM - N.O. N.C. 8 COM + A polarity bar showing the relay direction can replace the schematic. coil latching 9 3 SET RST COM + SET 8 RST COM Diagram shows the reset position when terminals and are energized. Energize with reverse polarity to transfer contacts. coil latching 9 3 SET COM RST SET 8 Reset RST COM Set + + Diagram shows the reset position when terminals and are energized. Energize terminals and to transfer contacts. en_ds : J 39

25 DS Form C mm inch Single side stable, coil latching, coil latching General tolerance: ±.3 ±. PC board pattern (Copper-side view) Single side stable, coil latching dia -.3 dia.. coil latching dia -.3 dia Schematic (Bottom view) Single side stable Deenergized condition 9 3 N.O. COM N.C. - COM N.C. N.O. coil latching 9 3 SET COM RST + COM RST SET Tolerance: ±. ±. coil latching 9 3 SET COM RST COM RST SET Reset Set N.O. N.C. COM + COM N.C. N.O A polarity bar showing the relay direction can replace the schematic. SET RST COM 8 COM RST SET SET RST COM + + COM RST SET Diagram shows the reset position when terminals and are energized. Energize with reverse polarity to transfer contacts. Diagram shows the reset position when terminals and are energized. Energize terminals and to transfer contacts. REFERENCE DATA. Maximum switching capacity. Life curve (Resistive load) 3. Contact reliability for AC loads Sample: DSE-M-DCV pcs. Cycle rate: cpm. Detection level: mω Contact voltage,v V V mv µa ma A Switching current No. of operations,, Switching current, A F(t), % A V AC. Weibull. probability data., No. of operations,.a V AC.3A V AC.A V AC en_ds : J

26 -(). Coil temperature rise ( Form C single side stable type) Point measured: Inside the coil Ambient temperature: 8 to 9 C to F -(). Coil temperature rise ( Form C single side stable type) Point measured: Inside the coil Ambient temperature: 7 to 8 C 3 to F -(3). Coil temperature rise ( Form C coil latching type) Point measured: Inside the coil Ambient temperature: to C 8 to 7 F DS Temperature rise, C 3A A A Temperature rise, C 3A A A Temperature rise, C 3A A A Reset coil Set coil Signal Coil applied %V Coil applied %V Coil applied %V -(). Coil temperature rise ( Form C coil latching type) Point measured: Inside the coil Ambient temperature: C 8 F Temperature rise, C 3A A A Reset coil Set coil Coil applied %V -(). Influence of adjacent mounting ( Form C). Operate and release time characteristics ( Form C single side stable type) Test condition: Without diode connected to coil in parallel Operate and release time, ms 3 Operate time (mean) Release time (mean) 8 Coil applied % -(3). Influence of adjacent mounting ( Form C) -(). Influence of adjacent mounting ( Form C) Rate of change, % Rate of change, % - - Pick-up voltage Drop-out voltage () () (3) OFF OFF Inter-relay distance, mm inch ON OFF ON ON OFF ON Rate of change, % Rate of change, % - - Pick-up voltage Drop-out voltage () () (3) OFF OFF ON ON OFF OFF ON ON Rate of change, % Pick-up voltage () () (3) OFF OFF ON ON OFF OFF ON ON Rate of change, % Drop-out voltage () () (3) OFF OFF ON ON OFF OFF ON ON Inter-relay distance, mm inch Inter-relay distance, mm inch Inter-relay distance, mm inch For Cautions for Use, see Relay Technical Information (page 39). en_ds : J

27 DSY MINIATURE RELAY DSY RELAYS mm inch FEATURES Form C contact High sensitivity- mw nominal operating power High breakdown voltage V FCC surge between open contacts DIP-C type matching pin IC socket Sealed construction SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating (resistive) Expected life (min. operations) switching power switching voltage switching current carrying current Coil (polarized) (at C 8 F) Single side stable coil latching Form C mω Gold-clad sliver W,. VA, V AC A 3 A Mechanical 8 Electrical A A Minimum operating power operating power Minimum set and reset power set and reset power Approx. 98 mw (7 mw: 8 V) Approx. mw ( mw: 8 V) Approx. 88 mw (77 mw: 8 V) Approx. 8 mw (3 mw: 8 V) Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms, detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics (at C 8 F) Initial insulation resistance* Initial Between open contacts breakdown Between contact sets voltage* Between contact and coil FCC surge voltage between contacts and coil Operate time* 3 (at nominal voltage) Release time* 3 (at nominal voltage) Set time* 3 (latching) (at nominal voltage) Reset time* 3 (latching) (at nominal voltage) Temperature rise Shock resistance Vibration resistance Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight MΩ (at ) 7 Vrms, Vrms, Vrms, V Approx. ms Approx. 3 ms Approx. 3 ms Approx. 3 ms C with nominal voltage across coil and at nominal switching capacity Functional* 9 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Ambient temp. Humidity to Hz at double amplitude of 3.3 mm to Hz at double amplitude of mm C to +7 C F to +8 F to 8% R.H. Approx. g oz. FCC (Federal Communication Commission) requests following standard as Breakdown Voltage specification. V 7V µs µs TYPICAL APPLICATIONS Telecommunication equipment Office equipment Computer peripherals Security alarm systems Medical equipment ORDERING INFORMATION Ex DSY-S Operating function Nil: Single side stable L: coil latching L DC V Coil voltage DC., 3,,, 9,,, 8 V (Notes). Standard packing: Carton: pcs. Case: pcs.. coil latching type available. R Polarity Nil: Standard polarity R: Reverse polarity en_ds : J

28 TYPES AND COIL DATA (at C 8 F) Single side stable Part No. Pick-up (max.) (Note) Standard packing: Carton: pcs. Case: pcs. Drop-out (min.) operating current ma (±%) Coil resistance, Ω (±%) operating power mw DSY Maximum allowable (at C F). DSY-S-DC.V DSY-S-DC3V..3.7 DSY-S-DCV 3.. DSY-S-DCV DSY-S-DC9V DSY-S-DCV DSY-S-DCV , DSY-S-DC8V ,8 8 Signal coil latching Reset set, (max.) (Note) Standard packing: Carton: pcs. Case: pcs. operating current ma (±%) Coil resistance, Ω (±%) operating power, mw Maximum allowable (at C F) Part No. Set Reset Set Reset Set Reset. DSY-SL-DC.V DSY-SL-DC3V. 8 8 DSY-SL-DCV DSY-SL-DCV DSY-SL-DC9V DSY-SL-DCV DSY-SL-DCV , 3, DSY-SL-DC8V ,, DIMENSIONS mm inch Single side stable General tolerance: ±.3 ± PC board pattern (Copper-side view) dia 8-.3 dia.. matching pin IC socket Tolerance: ±. ±. Schematic (Bottom view) (Deenergized position) 9 N.O. N.O. 8 N.C. N.C. Direction indication* 3 COM COM *A polarity bar shows the relay direction. + coil latching PC board pattern (Copper-side view) dia -.3 dia.. matching pin IC socket Tolerance: ±. ±. Schematic (Bottom view) (Reset position) 9 SET SET 8 RST RST Direction indication* 3 COM - COM Reset *A polarity bar shows the relay direction Set General tolerance: ±.3 ±. Diagram shows the "reset" position when terminals and are energized. Energize terminals and to transfer contacts. en_ds : J 3

29 DSY REFERENCE DATA. Maximum switching capacity -() Coil temperature rise (Single side stable) Tested sample: DSY-S-DCV, pcs. Measured portion: Inside the coil Ambient temperature: C to C 7 F to 77 F, V Contact voltage V V Temperature rise, C 3 A A A -() Coil temperature rise coil latching Tested sample: DSY-SL-DCV, pcs. Measured portion: Inside the coil Ambient temperature: C to C 7 F to 77 F Temperature rise, C Set coil Reset coil 3 A A A ma µa ma A Switching current Coil applied %V Coil applied %V 3. Operate/release time for single side stable (Without diode) Tested sample: DSY-S-DCV, pcs. Ambient temperature: C 8 F -() Influence of adjacent mounting Tested sample: DSY-S-DCV, pcs. Ambient temperature: C 8 F TEST METHOD. Apply nominal voltage to No. () and (3) DSY relays.. Measure pick-up voltage and drop-out voltage of No. () relay when inter-relay distance ( ) changes. -() Influence of adjacent mounting Tested sample: DSY-S-DCV, pcs. Ambient temperature: C 8 F TEST METHOD. Apply nominal voltage to No. () and (3) DSY relays.. Measure pick-up voltage and drop-out voltage of No. () relay when inter-relay distance ( ) changes. Time, ms 3 Operate time Release time Mean value Mean value 8 Pick-up/Drop-out V Pick-up voltage Drop-out voltage () OFF ON OFF ON () (3) OFF ON OFF ON 8 Pick-up/Drop-out V Pick-up voltage Drop-out voltage () OFF ON OFF ON () (3) OFF ON OFF ON 8 Coil applied %V Inter-relay distance, mm inch Inter-relay distance, mm inch For Cautions for Use, see Relay Technical Information (page 39). en_ds : J

30 GN (AGN) TESTING ULTRA-SMALL PACKAGE SLIM POLARIZED RELAY GN RELAYS (AGN) FEATURES mm inch Compact slim body saves space Thanks to the small surface area of.7 mm. mm. inch.7 inch and low height of 9. mm.3 inch, the packaging density can be increased to allow for much smaller designs. Outstanding surge resistance. Surge withstand between open contacts:, V µs (FCC part 8) Surge withstand between contacts and coil:, V µs (Telcordia) The use of twin crossbar contacts ensures high contact reliability. AgPd contact is used because of its good sulfide resistance. Adopting low-gas molding material. Coil assembly molding technology which avoids generating volatile gas from coil. Increased packaging density Due to highly efficient magnetic circuit design, leakage flux is reduced and changes in electrical characteristics from components being mounted closetogether are minimized. This all means a packaging density higher than ever before. operating power: mw Outstanding vibration and shock resistance. Functional shock resistance: 7 m/s {7G} Destructive shock resistance:, m/s {G} Functional vibration resistance: to Hz (at double amplitude of 3.3 mm. inch) Destructive vibration resistance: to Hz (at double amplitude of mm.97 inch) Signal SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A ) Contact material Rating operating power Expected life (min. operations) switching capacity (resistive load) switching power (resistive load) switching voltage switching current switching capacity Single side stable coil latching Remarks: * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma. * 3 voltage applied to the coil, excluding contact bounce time. * By resistive method, nominal voltage applied to the coil; contact carrying current: A. * Half-wave pulse of sine wave: ms; detection time: µs. * Half-wave pulse of sine wave: ms. * 7 Detection time: µs. * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). en_ds_7_: J Form C mω Stationary: AgPd+Au clad Movable: AgPd A.3 A V AC W, 37. V A, V AC A µa m mw (. to ) mw ( ) mw (. to ) mw ( ) Mechanical (at 8 cpm) 7 Electrical (at cpm) A resistive.3 A V AC resistive Characteristics Initial insulation resistance* Initial Between open contacts breakdown Between contact sets voltage* Between contacts and coil Initial surge voltage Between open contacts ( µs) Between contacts and coil ( µs) Operate time [Set time]* 3 (at C) Release time (without diode) [Reset time]* 3 (at C),MΩ (at ) 7 Vrms for min., Vrms for min., Vrms for min., V (FCC Part 8), V (Telcordia) ms (Approx. ms) [ ms (Approx. ms)] ms (Approx. ms) [ ms (Approx. ms)] Temperature rise* (at C) C Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Functional* Destructive* Functional* 7 Destructive Ambient temperature Humidity 7 m/s {7G], m/s {G] to Hz at double amplitude of 3.3 mm to Hz at double amplitude of mm C to 8 C F to 8 F to 8% R.H. Unit weight Approx. g.3 oz Notes: This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. The upper limit for the ambient temperature is the maximum temperature that can satisfy the coil temperature rise. Under the packing condition, allowable temperature range is from to +7 C to +8 F.

31 GN (AGN) TYPICAL APPLICATIONS Communications (XDSL, Transmission) Measurement Security Home appliances, and audio/visual equipment Automotive equipment Medical equipment ORDERING INFORMATION Ex. AGN A H Z Contact arrangement Operating function : Form C : Single side stable : coil latching Type of operation : Standard type (B.B.M.) Terminal shape Nil: Standard PC board terminal A: Surface-mount terminal A type S: Surface-mount terminal S type Coil voltage (DC) H:.V 3 : 3V H:.V : V 9 : 9V : V : V Packing style Nil: Tube packing Z: Tape and reel packing (picked from //7/8 pin side) Note: Tape and reel packing symbol "-Z" is not marked on the relay. "X" type tape and reel packing (picked from //3/-pin side) is also available. Suffix "X" instead of "Z". TYPES AND COIL DATA (at C 8 F) () Standard PC board terminal Operating Function Single side stable Operating Function coil latching Part No. Standard PC board terminal Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) ) Standard packing: pcs. in an inner package (tube);, pcs. in an outer package ) Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse. operating power, mw allowable AGNH AGN AGNH AGN AGN AGN 9..7,8 8 AGN 8. 9., 8.8 Part No. Standard PC board terminal Coil Rating, Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable AGNH AGN AGNH AGN AGN AGN , 8 AGN 8 8.,8 3 () Surface-mount terminal Operating Function Single side stable Tube packing Part No. Tape and reel packing Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) operating current, ma (±%) : For each surface-mounted terminal variation, input the following letter. A type: A, S type: S ) Standard packing: pcs.(tube), pcs. (tape and reel)in an inner package;, pcs. in an outer package ) Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse. Coil resistance, Ω (±%) operating power, mw allowable AGN H AGN HZ AGN 3 AGN 3Z AGN H AGN HZ AGN AGN Z AGN 9 AGN 9Z AGN AGN Z 9..7,8 8 AGN AGN Z 8. 9., 8.8 en_ds_7_: J

32 GN (AGN) Operating Function coil latching Tube packing Part No. Tape and reel packing Coil Rating, Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) : For each surface-mounted terminal variation, input the following letter. A type: A, S type: S ) Standard packing: pcs.(tube), pcs. (tape and reel)in an inner package;, pcs. in an outer package ) Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse. Coil resistance, Ω (±%) operating power, mw allowable AGN H AGN HZ AGN 3 AGN 3Z AGN H AGN HZ AGN AGN Z AGN 9 AGN 9Z AGN AGN Z , 8 AGN AGN Z 8 8.,8 3 Signal DIMENSIONS mm inch. PC board terminal (.) (.) PC board pattern Schematic (Bottom view) Single side stable (Deenergized condition) 3 coil latching (Reset condition) (.) (.9) dia dia..87 Tolerance: ±. ±. 8 7 Direction indication 8 7 Direction indication. Surface-mount terminal ) A type (.) (.) Suggested mounting pad Single side stable (Deenergized condition) 8 7 Schematic (Top view) coil latching (Reset condition) (.) (.9) Tolerance: ±. ±. 3 Direction indication 3 Direction indication Suggested mounting pad ) S type (.) (.) (.) (.9) Tolerance: ±. ±. REFERENCE DATA. switching capacity. Life curve Switching current, A..3 DC resistive load AC resistive load No. of operations, DC V resistive load AC V resistive load Contact V Switching current, A en_ds_7_: J 7

33 GN (AGN) NOTES. Packing style ) The relay is packed in a tube with the relay orientation mark on the left side, as shown in the figure below. Orientation (indicates PIN No.)stripe Stopper (green) Stopper (red). Automatic insertion To maintain the internal function of the relay, the chucking pressure should not exceed the values below. Chucking pressure in the direction A:.9 N {gf} or less Chucking pressure in the direction B: 9.8 N { kgf} or less Chucking pressure in the direction C: 9.8 N { kgf} or less ) Tape and reel packing (A type) ()- Tape dimensions mm inch A ; C B Relay polarity bar (Z type) GN relays. +. dia.9 +. dia.dia.79dia Tape coming out direction General tolerance. mm. inch Please chuck the portion. Avoid chucking the center of the relay. In addition, excessive chucking pressure to the pinpoint of the relay should be avoided. ; (S type) ()- Tape dimensions Relay polarity bar (Z type).. +. dia dia..7.dia.79dia GN relays Tape coming out direction General tolerance. mm. inch () Dimensions of plastic peel mm inch.8 dia dia dia dia. 37 dia dia. 3. dia...8 dia For Cautions for Use, see Relay Technical Information (page 39). 8 en_ds_7_: J

34 GQ (AGQ) TESTING ULTRA-SMALL PACKAGE FLAT POLARIZED RELAY GQ RELAYS (AGQ) FEATURES mm inch Compact flat body saves space With a small footprint of. mm (L) 7. mm (W).7 inch (L).83 inch (W) for space savings, it also has a very short height of. mm. inch. (Standard PC board type.) Outstanding surge resistance. Surge withstand between open contacts:, V µs (FCC part 8) Surge withstand between contacts and coil:, V µs (Telcordia) The use of twin crossbar contacts ensures high contact reliability. AgPd contact is used because of its good sulfide resistance. Adopting low-gas molding material. Coil assembly molding technology which avoids generating volatile gas from coil. Increased packaging density Due to highly efficient magnetic circuit design, leakage flux is reduced and changes in electrical characteristics from components being mounted closetogether are minimized. This all means a packaging density higher than ever before. operating power: mw Outstanding vibration and shock resistance. Functional shock resistance: 7 m/s {7G} Destructive shock resistance:, m/s {G} Functional vibration resistance: to Hz (at double amplitude of 3.3 mm. inch) Destructive vibration resistance: to Hz (at double amplitude of mm.97 inch) Signal SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A ) Contact material Rating operating power Expected life (min. operations) switching capacity (resistive load) switching power (resistive load) switching voltage switching current switching capacity Single side stable coil latching Remarks: * Specifications will vary with foreign standards certification ratings. * Measurement at same location as "Initial breakdown voltage" section. * Detection current: ma. * 3 voltage applied to the coil, excluding contact bounce time. * By resistive method, nominal voltage applied to the coil; contact carrying current: A. * Half-wave pulse of sine wave: ms;detection time: µs. * Half-wave pulse of sine wave: ms. * 7 Detection time: µs. * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). en_ds_8_: J Form C mω Stationary: AgPd+Au clad Movable: AgPd A.3 A V AC W, 37. V A, V AC A µa m mw (. to ) mw ( ) mw (. to ) mw ( ) Mechanical (at 8 cpm) 7 Electrical (at cpm) A resistive.3 A V AC resistive Characteristics Initial insulation resistance* Initial Between open contacts breakdown Between contact sets voltage* Between contacts and coil Initial surge voltage Between open contacts ( µs) Between contacts and coil ( µs) Operate time [Set time]* 3 (at C) Release time (without diode) [Reset time]* 3 (at C),MΩ (at ) 7 Vrms for min., Vrms for min., Vrms for min., V(FCC Part 8), V(Telcordia) ms (Approx. ms) [ ms (Approx. ms)] ms (Approx. ms) [ ms (Approx. ms)] Temperature rise* (at C) C Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Functional* Destructive* Functional* 7 Destructive Ambient temperature Humidity 7 m/s {7G], m/s {G] to Hz at double amplitude of 3.3 mm to Hz at double amplitude of mm C to 8 C F to 8 F to 8% R.H. Unit weight Approx. g.3 oz Notes: This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. The upper limit for the ambient temperature is the maximum temperature that can satisfy the coil temperature rise. Under the packing condition, allowable temperature range is from to +7 C to +8 F. 9

35 GQ (AGQ) TYPICAL APPLICATIONS Communications (XDSL, Transmission) Measurement Security Home appliances, and audio/visual equipment Automotive equipment Medical equipment ORDERING INFORMATION Ex. AGQ A H Z Contact arrangement Operating function : Form C : Single side stable : coil latching Type of operation : Standard type (B.B.M.) Terminal shape Nil: Standard PC board terminal A: Surface-mount terminal A type S: Surface-mount terminal S type Coil voltage (DC) H:.V 3 : 3V H:.V : V 9 : 9V : V : V Packing style Nil: Tube packing Z: Tape and reel packing (picked from //7/8 pin side) Note: Tape and reel packing symbol "-Z" is not marked on the relay. "X" type tape and reel packing (picked from //3/-pin side) is also available. Suffix "X" instead of "Z". TYPES AND COIL DATA (at C 8 F) () Standard PC board terminal Operating Function Single side stable Operating Function coil latching Part No. Standard PC board terminal Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) ) Standard packing: pcs. in an inner package (tube);, pcs. in an outer package ) Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse. operating power, mw allowable AGQH AGQ AGQH AGQ AGQ AGQ 9..7,8 8 AGQ 8. 9., 8.8 Part No. Standard PC board terminal Coil Rating, Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable AGQH AGQ AGQH AGQ AGQ AGQ , 8 AGQ 8 8.,8 3 () Surface-mount terminal Operating Function Single side stable Tube packing Part No. Tape and reel packing Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw : For each surface-mounted terminal variation, input the following letter. A type: A, S type: S ) Standard packing: pcs.(tube), 9pcs. (tape and reel)in an inner package;, pcs.(tube),,8pcs. (tape and reel) in an outer package ) Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse. allowable AGQ H AGQ HZ AGQ 3 AGQ 3Z AGQ H AGQ HZ AGQ AGQ Z AGQ 9 AGQ 9Z AGQ AGQ Z 9..7,8 8 AGQ AGQ Z 8. 9., 8.8 en_ds_8_: J

36 GQ (AGQ) Operating Function coil latching Tube packing Part No. Tape and reel packing Coil Rating, Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw : For each surface-mounted terminal variation, input the following letter. A type: A, S type: S ) Standard packing: pcs.(tube), 9pcs. (tape and reel)in an inner package;, pcs.(tube),,8pcs. (tape and reel) in an outer package ) Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse. allowable AGQ H AGQ HZ AGQ 3 AGQ 3Z AGQ H AGQ HZ AGQ AGQ Z AGQ 9 AGQ 9Z AGQ AGQ Z , 8 AGQ AGQ Z 8 8.,8 3 Signal DIMENSIONS mm inch. PC board terminal PC board pattern dia dia Tolerance: ±. ±. Schematic (Bottom view) Single side stable (Deenergized condition) Direction indication coil latching (Reset condition) Direction indication. Surface-mount terminal ) A type Suggested mounting pad Single side stable/ coil latching Single side stable (Deenergized condition) Direction indication Schematic (Top view) coil latcing (Reset condition) Direction indication ) S type REFERENCE DATA switching capacity. Life curve Suggested mounting pad Single side stable/ coil latching Tolerance: ±. ±. Switching current, A..3 DC resistive load AC resistive load No. of operations, DC V resistive load AC V resistive load Contact V Switching current, A en_ds_8_: J

37 GQ (AGQ) NOTES. Packing style ) The relay is packed in a tube with the relay orientation mark on the left side, as shown in the figure below. Stopper (green) Orientation (indicates PIN No.)stripe Stopper (red). Automatic insertion To maintain the internal function of the relay, the chucking pressure should not exceed the values below. Chucking pressure in the direction A : 9.8 N { kgf} or less Chucking pressure in the direction B : 9.8 N { kgf} or less Chucking pressure in the direction C : 9.8 N { kgf} or less Orientation (indicates PIN No.)stripe A C B Stopper (green) ) Tape and reel packing (A type) ()- Tape dimensions Stopper (red) mm inch Please chuck the portion. Avoid chucking the center of the relay. In addition, excessive chucking pressure to the pinpoint of the relay should be also avoided. ; ; Relay polarity bar (Z type) GQ relays +.. dia dia (S type) ()- Tape dimensions dia..79dia Tape coming out direction General tolerance. mm. inch Relay polarity bar (Z type) GQ relays +.. dia dia dia..7.79dia Tape coming out direction General tolerance. mm. inch.. () Dimensions of plastic peel mm inch.8 dia dia dia dia dia dia. 3 dia dia For Cautions for Use, see Relay Technical Information (page 39). en_ds_8_: J

38 HY Non-polarized Form C Relay HY RELAYS FEATURES High sensitivity: mw/ mw A wide range of ambient temperature: C to +7 C F to +8 F Sealed construction Rating: A Signal mm inch SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating (resistive) Expected life (min. operations) Coil operating power switching capacity switching power switching voltage switching current carrying current Form C mω Gold-clad silver A W A A Mechanical (at 8 cpm) 7 Electrical (at cpm) A Standard type High sensitivity type Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). mw mw Characteristics (at C 77 F, % Relative humidity) operating speed cpm (at nominal voltage) Initial Between contacts MΩ at insulation Between contact and resistance* MΩ at coil Initial breakdown voltage* Between open contacts Between contacts and coil Operate time* 3 (at nominal voltage) Release time (without diode)* 3 (at nominal voltage) Temperature rise at nominal voltage Contact carrying current A at C Shock resistance Vibration resistance Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight Vrms, Vrms ms (approx. ms) ms (approx. ms) C Functional* 98 m/s ( G) Destructive* 98 m/s ( G) Functional* Destructive Ambient temp. Humidity 8.8 m/s { G}, to Hz at double amplitude of mm 7. m/s { G}, to Hz at double amplitude of mm C to +7 C F to +8 F to 8% R.H..8 g.3 oz TYPICAL APPLICATIONS Automotive: Switching to small motor ) Automirrow controller )Retractable head light controller Push button device: Dial pulsing ORDERING INFORMATION Low-voltage signal switching and motor control of small home appliances such as portable video tape recorders and audio devices. Operating of dish-control motors for PCs and word processors Ex. HY Z 3V Contact arrangement Sensitivity Coil voltage (DC) : Form C Nil: High sensitivity mw., 3,.,,, 9,, V Z: Standard mw Standard packing: Carton: pcs. Case pcs. en_ds : J 3

39 HY TYPES AND COIL DATA (at C 8 F) Standard packing: Carton: pcs. Case:, pcs. mw Standard type Part No. mw High sensitivity type DIMENSIONS Pick-up (max.) Drop-out (min.) Coil resistance, Ω (±%) operating current, ma operating power, mw allowable (at 7 C 8 F) HYZ-.V HYZ-3V HYZ-.V HYZ-V 3.7. HYZ-V HYZ-9V HYZ-V HYZ-V 8., Part No. Pick-up (max.) Drop-out (min.) Coil resistance, Ω (±%) operating current, ma operating power, mw allowable (at 7 C 8 F) HY-.V.... HY-3V HY-.V HY-V HY-V.. 8. HY-9V HY-V HY-V 8. 3, PC board pattern (Copper-side view) mm inch (.8) (.3) - dia dia dia.. dia. 7.. (.8) (.3).... Schematic (Bottom view) N.C. COM REFERENCE DATA General tolerance: ±.3 ±. Tolerance: ±. ±.. Maximum switching power. Life curve 3. Mechanical life Tested sample: HYZ-V, pcs. Ambient temperature: C to C 8 F to 77 F Contact current, A..... DC resistive AC resistive. Contact V Life, resistive load V AC resistive load Switching current, A en_ds : J Ratio against the rated %V N.O. Pick-up voltage Drop-out voltage,, No. of operations,

40 . Electrical life Tested sample: HY-V, pcs. Condition: A resistive load, cpm Circuit: N.C. side: 3 pcs. N.O. side: 3 pcs. Change of pick-up and drop-out voltage Ratio against the rated %V Pick-up voltage Drop-out voltage No. of operations, Change of contact resistance Contact resistance, mω 8 No. of operations, HY Signal -(). Coil temperature rise ( mw high sensitivity type) Tested sample: HY-9V, pcs. Ambient temperature: C 7 F Coil temperature rise, C A A 8 8 Coil applied %V 7. Distribution of pick-up and drop-out voltages Tested sample: HY-V, pcs. Ambient temperature: 3 C 7 F -(). Coil temperature rise ( mw Standard type) Tested sample: HYZ-V, pcs. Ambient temperature: 3 C 7 F Coil temperature rise, C A A 8 8 Coil applied %V 8. Distribution of contact resistance Tested sample: HY-V, pcs. N.C. side N.O. side. Operate/release time characteristics Tested sample: HYZ-V, pcs. Ambient temperature: C 77 F Operate/release time, ms 3 Operate time Release time x x 8 Coil applied %V 9. Malfunction shock Tested sample: HYZ-V, pcs. Quantity Drop-out voltage Pick-up voltage Quantity N.C. side N.O. side Z X X Y Z 98m/s Y Y 98m/s X Deenergized condition Energized condition Z 98m/s 98m/s 98m/s Z X Pick-up/drop-out V Contact resistance mω 98m/s Y NOTE Soldering and cleaning HY relays have the sealed construction. It is possible to do automatic soldering and automatic cleaning, but avoid the ultrasonic cleaning. For cleaning, it is recommended that a fluorinated hydrocarbon or other alcoholic solvent be used. For Cautions for Use, see Relay Technical Information (page 39). en_ds : J

41 SX (ASX) TESTING HIGH SENSITIVITY RELAY WITH GUARANTEED LOW LEVEL SWITCHING CAPACITY SX RELAYS (ASX) FEATURES. High contact reliability over a long life has been made possible for low level loads. Using a low level load ( mv µa to V ma) 7 operations were achieved with a static contact resistance of mω (voltage drop of mv, ma, khz) and a dynamic contact resistance of Ω (Measurement delay ms, voltage drop of mv, ma, khz).. High sensitivity of mw By using the highly efficient polar magnetic circuit seesaw balance armature mechanism, a rated power consumption of mw (for single side stable type) has been achieved. 3. Low thermal electromotive force Reducing the heat from the coil enables a thermal electromotive force of 3 µv or less. mm inch SPECIFICATIONS Contact Arrangement Static contact resistance (During initial and electric life tests)* (By voltage drop of mv ma [khz]) Dynamic contact resistance (During initial and electric life tests)* (By voltage drop of mv ma[ khz], Measurement delay ms after applying nominal coil voltage) Contact material Rating operating power switching capacity (resistive load) switching power switching voltage switching current switching capacity** Single side stable coil latching coil latching Thermal electromotive force, max. (at nominal voltage applied to the coil** ) Expected life (min. operations) Form C mω Ω Gold-clad silver alloy ma VDC. W VDC ma DC µa mvdc mw (. to ) 7mW ( ) 3mW (. to ) mw ( ) 7mW (. to ) mw ( ) 3 µv Mechanical (at 7 cpm) 7 Electrical (at 7 cpm) ( ma resistive load) Notes: ** This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. ** For single side stable only. 7 Characteristics Initial insulation resistance* Initial breakdown voltage* 3 Between open contacts Between contact sets Between contact and coil Operate time [Set time]* (at C) Release time (without diode) [Reset time]* (at C),MΩ (at ) 7 Vrms for min., Vrms for min.,8 Vrms for min. ms (Approx. 3 ms) [ ms (Approx. 3 ms)] ms (Approx.. ms) [ ms (Approx. 3 ms)] Temperature rise* (at C) C Shock resistance Vibration resistance Conditions for operation, transport and storage* 9 (Not freezing and condensing at low temperature) Functional* Destructive* 7 Functional* 8 Destructive Ambient temperature Humidity 7 m/s {7G], m/s {G] to Hz at double amplitude of 3.3 mm to Hz at double amplitude of mm C to 7 C F to 8 F to 8% R.H. Unit weight Approx. g.7 oz Remarks: * Specifications will vary with foreign standards certification ratings. * By nominal switching capacity: No. of operations: 7 * Measurement at same location as "Initial breakdown voltage" section. * 3 Detection current: ma. * voltage applied to the coil, excluding contact bounce time. * By resistive method, nominal voltage applied to the coil; contact carrying current: ma. * Half-wave pulse of sine wave: ms; detection time: µs. * 7 Half-wave pulse of sine wave: ms. * 8 Detection time: µs. * 9 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). TYPICAL APPLICATIONS This relay will be used for the small load for measuring instruments or others where a stable contact resistance is required. en_ds_3_: J

42 ORDERING INFORMATION SX (ASX) Ex. ASX A H Z Contact arrangement Operating function : Form C : Single side stable : coil latching : coil latching TYPES AND COIL DATA (at C 8 F) () Standard PC board terminal ) Standard packing: pcs. in an inner package (tube);, pcs. in an outer package ) Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse. Single side stable Part No. Standard PC board terminal Coil Rating, Type of operation : Standard type (B.B.M.) Pick-up (max.) (initial) Drop-out (min.) (initial) Terminal shape Nil: Standard PC board terminal A: Surface-mount terminal operating current, ma (±%) Coil resistance, Ω (±%) Coil voltage (DC) H:.V 3 : 3V H:.V : V 9 : 9V : V : V operating power, mw Packing style Nil: Tube packing Z: Tape and reel packing (piked from 8/9// pin side) Note: Tape and reel packing symbol "-Z" is not marked on the relay. "X" type tape and reel packing (picked from /3//-pin side) is also available. Suffix "X" instead of "Z". allowable ASXH ASX ASXH ASX ASX , 3. ASX 9...,88 8 ASX ,9 7 3 Signal coil latching Part No. Standard PC board terminal coil latching Coil Rating, Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable ASXH ASX ASXH ASX.8.8.8,9 3 9 ASX , ASX , 3 8 ASX , 3 Part No. Standard PC board terminal Coil Rating, Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) Set coil Reset coil Coil resistance, Ω (±%) Set coil Reset coil operating power, mw Set coil Reset coil allowable ASXH ASX ASXH ASX ASX ,7, ASX ,7, ASX ,8 3,8 3 en_ds_3_: J 7

43 SX (ASX) () Surface-mount terminal ) Standard packing: pcs.(tube),,pcs. (tape and reel)in an inner package; pcs.(tube),,pcs. (tape and reel)in an outer package ) Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse. Single side stable Tube packing Part No. coil latching type coil latching type DIMENSIONS Tape and reel packing Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable ASXAH ASXAHZ ASXA3 ASXA3Z ASXAH ASXAHZ ASXA ASXAZ ASXA9 ASXA9Z , 3. ASXA ASXAZ 9...,88 8 ASXA ASXAZ ,9 7 3 Tube packing Part No. Tape and reel packing Coil Rating, Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable ASXAH ASXAHZ ASXA3 ASXA3Z ASXAH ASXAHZ ASXA ASXAZ.8.8.8,9 3 9 ASXA9 ASXA9Z , ASXA ASXAZ , 3 8 ASXA ASXAZ , 3 Tube packing Part No. Tape and reel packing Coil Rating, Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) Set coil Reset coil Coil resistance, Ω (±%) Set coil Reset coil operating power, mw Set coil Reset coil allowable ASXAH ASXAHZ ASXA3 ASXA3Z ASXAH ASXAHZ ASXA ASXAZ ASXA9 ASXA9Z ,7, ASXA ASXAZ ,7, ASXA ASXAZ ,8 3,8 3. PC board terminal Single side stable/ coil latching PC board pattern dia dia..8. mm inch Schematic (Bottom view) Single side stable coil latching (Deenergized condition) (Reset condition) Direction indication Direction indication coil latching dia dia..8. coil latching (Reset condition) Direction indication General tolerance: ±.3 ±. Tolerance: ±. ±. 8 en_ds_3_: J

44 SX (ASX). Surface-mount terminal mm inch Single side stable/ coil latching Suggested mounting pad Single side stable (Deenergized condition) Schematic (Top view) Direction indication coil latching (Reset condition) Direction indication coil latching coil latching (Reset condition) Direction indication Signal General tolerance: ±.3 ±. Tolerance: ±. ±. REFERENCE DATA. Switching capacity range -(). Change in dynamic contact resistance ( ma resistive load) Tested: ASX, Quantity: n= Operating frequency: 7 cpm Measured condition: ms after applying nominal coil using voltage drop of mv, ma, khz. -(). Change in dynamic contact resistance ( µa m resistive load) Tested: ASX, Quantity: n= Operating frequency: 7 cpm Measured condition: ms after applying nominal coil using voltage drop of mv, ma, khz... Contact current ma Contact resistance, Ω Contact resistance, Ω µa mv V Contact voltage., No. of operations,.,, No. of operations, 3-(). Change in static contact resistance ( ma resistive load) Tested: ASX, Quantity: n= Operating frequency: 7 cpm 3-(). Change in static contact resistance ( µa m resistive load) Tested: ASX, Quantity: n= Operating frequency: 7 cpm Contact resistance, mω N.C. side contact N.O. side contact Contact resistance, mω N.C. side contact N.O. side contact, No. of operations,, No. of operations,, en_ds_3_: J 9

45 SX (ASX) NOTES. Packing style ) The relay is packed in a tube with the relay orientation mark on the left side, as shown in the figure below. Orientation (indicates PIN No.)stripe Stopper (gray) Stopper (green) ) Tape and reel packing () Tape dimensions mm inch Relay polarity bar (Z type) +.. dia dia SX relays Tape coming out direction General tolerance. mm. inch () Dimensions of plastic reel mm inch.8 dia dia dia dia. 37 dia dia. 3. dia...8 dia For Cautions for Use, see Relay Technical Information (page 39). en_ds_3_: J

46 TK TESTING ULTRA LOW PROFILE A POLARIZED RELAY TK RELAYS mm inch FEATURES Low profile mm.7 inch height High contact capacity: A Surge withstand voltage between contact and coil:, V (Telcordia) Signal SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating operating power Expected life (min. operations) switching capacity (resistive load) Switching power (resistive load) switching voltage switching current switching capacity Single side stable coil latching coil latching Mechanical (at 8 cpm) Electrical (at cpm) A resistive Form C mω Gold-clad silver alloy A W A µa m mw (. to ) 7 mw ( ) mw (. to ) mw ( ) mw (. to 9 ) mw ( ) mw ( ) 8 (Single side stable) 7 ( or coil latching) Note: This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. (SX relays are available for low level load switching [ µa m ma ]) Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * By resistive method, nominal voltage applied to the coil; contact carrying current: A. * 3 voltage applied to the coil, excluding contact bounce time. * voltage applied to the coil, excluding contact bounce time without diode. * Half-wave pulse of sine wave: ms; detection time: µs. * Half-wave pulse of sine wave: ms. Characteristics Initial insulation resistance* Initial breakdown voltage Between open contacts Between contact and coil, MΩ (at ) 7 Vrms for min. (Detection current: ma), Vrms for min. (Detection current: ma) FCC surge voltage between open contacts ( µs), V Surge voltage between contacts and coil ( µs) [Telcordia], V Temperature rise* (at C) C Operate time [Set time]* 3 (at C) Release time [Reset time]* (at C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low Unit weight 3 ms (Approx.. ms) [ 3 ms (Approx. ms)] ms (Approx. ms) [ 3 ms (Approx. ms)] Functional* 7 m/s {7 G} Destructive*, m/s { G} Functional* 7 Destructive Ambient temperature* 9 Humidity 9 m/s {G}, to Hz at double amplitude of 3.3 mm 9 m/s {G}, to Hz at double amplitude of mm C to +8 C F to +8 F to 8% R.H. Approx. g.3 oz. * 7 Detection time: µs. * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). * 9 The maximum ambient temperature allows for coil temperature rise at maximum allowable coil voltage. As for the applicable range of continuous carrying current against temperature, please refer to Maximum value of continuous carrying current chart. (Page 3) ORDERING INFORMATION EX. TK L H V Contact arrangement Operating function Terminal shape Coil voltage (DC) : Form C Nil: Single side stable Nil: Standard PC board terminal., 3,.,,, L: coil latching H: Self-clinching terminal 9,, V L: coil latching en_ds_8_: J

47 TK TYPES AND COIL DATA (at C 8 F). Single side stable Standard PC board terminal Part No.. Coil latching 3. Coil latching Notes:. Specified value of the pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.. Standard packing: Tube: pcs.; Case;, pcs. 3. In case of V transistor drive circuit, it is recommended to use. V type relay. DIMENSIONS Self-clinching terminal Pick-up (max.) Drop-out (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TK-. V TK-H-. V TK-3 V TK-H-3 V TK-. V TK-H-. V TK- V TK-H- V TK- V TK-H- V TK-9 V TK-H-9 V TK- V TK-H- V 9..7,8 8 TK- V TK-H- V 8..3, Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TK-L-. V TK-L-H-. V TK-L-3 V TK-L-H-3 V TK-L-. V TK-L-H-. V TK-L- V TK-L-H- V TK-L- V TK-L-H- V TK-L-9 V TK-L-H-9 V TK-L- V TK-L-H- V , 8 TK-L- V TK-L-H- V ,8 8.8 Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TK-L-. V TK-L-H-. V TK-L-3 V TK-L-H-3 V TK-L-. V TK-L-H-. V TK-L- V TK-L-H- V TK-L- V TK-L-H- V TK-L-9 V TK-L-H-9 V TK-L- V TK-L-H- V TK-L- V TK-L-H- V 8 8.7,. Standard PC board terminal Self-clinching terminal General tolerance: ±.3 ±. PC board pattern (Copper-side view).... mm inch en_ds_8_: J dia. holes -. dia. holes 7.. Schematic (Bottom view) Single side stable -coil latching (Deenergized condition) (Reset condition) 3 + Direction indication* 3 + Direction indication* Tolerance: ±. ±. -coil latching (Reset condition) Direction indication* *Orientation stripe located on top of relay.

48 REFERENCE DATA. Maximum value of continuous carrying current Test conditions: Coil applied voltage: % of rated voltage Continuous carrying current:, hours. Maximum switching capacity 3. Life curve TK Continuous carrying current, A Switching current, A DC load No. of operations, resistive Signal Ambient temperature, C Switching V Switching current, A. Mechanical life Tested sample: TK-V, 8 pcs. Switching frequency: Hz Ratio against the rated %V Pick-up voltage Drop-out voltage,, No. of operations,. Electrical life (DC load) Tested sample: TK-V, pcs. Condition: A resistive load, cpm Circuit + Change of pick-up and drop-out voltage Ratio against the rated %V Pick-up voltage Drop-out voltage No. of operations, Change of contact resistance Contact resistance, mω No. of operations, 7. Operate/release time characteristics Tested sample: TK- V, pcs. <With diode>. Coil temperature rise Tested sample: TK-V, pcs. Measured portion: Inside the coil Carrying current: A, A, A Ambient temperature: C 77 F Ambient temperature: 7 C 8 F Temperature rise, C <Without diode> A A A 8 9 Coil applied %V x - Temperature rise, C A A A 8 9 Coil applied %V 8. Distribution of pick-up and drop-out voltage Tested sample: TK-V, pcs. x - Drop-out voltage Operate/release time, ms 3 Release time Operate time 8 9 Coil applied %V Operate/release time, ms 3 Operate time Release time 8 9 Coil applied %V Quantity Pick-up voltage Ratio against the rated %V en_ds_8_: J 3

49 TK 9. Distribution of set and reset voltage Tested sample: TK-L-V, pcs.. Ambient temperature characteristics Tested sample: TK-V, pcs.. Distribution of contact resistance Tested sample TK-V, pcs. ( contacts) Quantity Set voltage Reset voltage Variation ratio, % Drop-out voltage x x Pick-up voltage 8 Ambient - temperature, C - - Quantity Ratio against the rated %V Contact resistance. mω. Distribution of operate/release bounce time Tested sample: TK-V, pcs. 3.-() High-frequency characteristics Isolation characteristics <Operate bounce time> <Release bounce time> Quantity Quantity Isolation, db N.O. N.C Operate bounce time, ms Release bounce time, ms Frequency,MHz, 3.-() High-frequency characteristics Insertion loss characteristics 3.-(3) High-frequency characteristics V.S.W.R.. Malfunctional shock Tested sample: TK-V, pcs. (single side stable); TK-L-V, pcs. (latching) Insertion loss, db N.O. N.C., Frequency,MHz V.S.W.R N.O... N.C... Frequency,GHz Y Y Z, Z X X, 98m/s Y, X 98m/s Z, 98m/s 9m/s 39m/s 88m/s 78m/s Y, 98m/s Deenergized condition (Reset state) Energized condition (Set state) Z 98m/s 98m/s X,.-() Influence of adjacent mounting.-() Influence of adjacent mounting.-(3) Influence of adjacent mounting Rate of change, % Rate of change, % - - Pick-up voltage ON ON ON Drop-out voltage OFF OFF OFF.97 Inter-relay distance, mm inch Rate of change, % Rate of change, % - - ON Pick-up voltage ON ON OFF Drop-out voltage OFF OFF.97 Inter-relay distance, mm inch Rate of change, % Rate of change, % Pick-up voltage - ON Drop-out voltage OFF - ON ON ON OFF OFF OFF.97 Inter-relay distance, mm inch en_ds_8_: J

50 TK. Actual load test (3 ma 8 wire spring relay load) Change of pick-up and drop-out voltage Change of contact resistance Circuit Wire spring relay 8 Ω +.8 µf.8 µf 8-8 Ω Ratio against the rated %V Pick-up voltage Drop-out voltage Contact resistance, mω N.C. N.O. Signal No. of operations, No. of operations, For Cautions for Use, see Relay Technical Information (page 39). en_ds_8_: J

51 TN SLIM POLARIZED RELAY TN RELAYS FEATURES Small header area makes higher density mounting possible High sensitivity: mw nominal operating power (single side stable 3- V type) Surge voltage withstand: V FCC Part 8 Self-clinching terminal also available mm inch SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating operating power Expected life (min. operations) switching capacity (resistive load) switching power (resistive load) switching voltage switching current switching capacity Single side stable coil latching coil latching Form C mω Gold-clad silver A,. A V AC W,. VA, V AC A µa m mw (3 to ) mw ( ) mw (8 ) mw (3 to ) mw ( ) mw (3 to ) mw ( ) Mechanical (at 8 cpm) 8 Electrical (at cpm) A resistive load. A V AC resistive load Note: This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. (SX relays are available for low level load switching [ µa m ma ]) Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as "Initial breakdown voltage" section. * By resistive method, nominal voltage applied to the coil; contact carrying current: A. * 3 voltage applied to the coil, excluding contact bounce time. Characteristics Initial insulation resistance* Initial breakdown voltage Between open contacts Between contact and coil Between contact sets, MΩ (at ) 7 Vrms for min. (Detection current: ma), Vrms for min. (Detection current: ma), Vrms for min. (Detection current: ma) FCC surge voltage between open contacts, V Temperature rise* (at C) C Operate time [Set time]* 3 (at C) Release time [Reset time]* (at C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight Functional* Destructive* Functional* 7 Destructive Ambient temperature Humidity 3 ms (Approx. ms) [ 3 ms (Approx. ms)] 3 ms (Approx. ms) [ 3 ms (Approx. ms)] 9 m/s {G} 98 m/s {G} 7. m/s {8G}, to Hz at double amplitude of 3 mm 9 m/s {G}, to Hz at double amplitude of mm C to +7 C F to +8 F to 8% R.H. Approx.. g.3 oz * voltage applied to the coil, excluding contact bounce time without diode. * Half-wave pulse of sine wave: ms; detection time: µs. * Half-wave pulse of sine wave: ms. * 7 Detection time: µs. * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). ORDERING INFORMATION Ex. TN L H V Contact arrangement Operating function Terminal shape Coil voltage(dc) : Form C Nil: Single side stable L: coil latching L: coil latching Nil: Standard PC board terminal H: Self-clinching terminal 3,.,,,9,,,8*V *8 V coil type: Single side stable only Note: AgPd stationary contact types available for high resistance against contact sticking. When ordering, please add suffix "-3" like TN-V-3. en_ds_9_: J

52 TYPES AND COIL DATA (at C 8 F). Single side stable Standard PC board terminal Part No.. Coil latching 3. Coil latching Notes:. Specified value of the pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.. Standard packing: Tube: pcs.; Case:, pcs. 3. In case of V drive circuit, it is recommended to use. V type relay.. AgPd stationary contact types available for high resistance against contact sticking. When ordering, please add suffix " 3" like TN-V-3. DIMENSIONS Self-clinching terminal Pick-up (max.) Drop-out (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw TN allowable TN-3 V TN-H-3 V TN-. V TN-H-. V TN- V TN-H- V TN- V TN-H- V TN-9 V TN-H-9 V TN- V TN-H- V 9..7,8 8 TN- V TN-H- V ,88 3 TN-8 V TN-H-8 V ,8 7. Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TN-L-3 V TN-L-H-3 V TN-L-. V TN-L-H-. V TN-L- V TN-L-H- V TN-L- V TN-L-H- V TN-L-9 V TN-L-H-9 V TN-L- V TN-L-H- V , 8 TN-L- V TN-L-H- V ,8 3 Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TN-L-3 V TN-L-H-3 V TN-L-. V TN-L-H-. V TN-L- V TN-L-H- V TN-L- V TN-L-H- V TN-L-9 V TN-L-H-9 V TN-L- V TN-L-H- V TN-L- V TN-L-H- V 8 8., Standard PC board terminal.... Self-clinching terminal PC board pattern (Copper-side view) Schematic (Bottom view) Single side stable -coil latching (Deenergized condition) (Reset condition) mm inch -. dia. hole -.39 dia. hole Tolerance: ±. ±. -coil latching (Reset condition) Signal General tolerance: ±.3 ± Direction indication* Direction indication* Direction indication* *Orientation stripe located on top of relay en_ds_9_: J 7

53 TN REFERENCE DATA. Maximum switching capacity. Life curve 3. Mechanical life Tested sample: TN-V, pcs. Switching current, A DC load (cosϕ=) AC load (cosϕ=) Switching V No. of operations, resistive load V AC resistive load.. Switching current, A Ratio against the rated %V Pick-up voltage Drop-out voltage,, No. of operations,. Electrical life (DC load) Tested sample: TN-V, pcs. Condition: A resistive load, cpm Change of pick-up and drop-out voltage Ratio against the rated voltage %V Pick-up voltage Drop-out voltage No. of operations,. Operate/release time characteristics Tested sample: TN-V, pcs. Operate and release time, ms 3 Operate time Release time Change of contact resistance Contact resistance,mω Terminal No Terminal No No.of operations, 7. Set/reset time characteristics Tested sample: TN-L-V, pcs. Set time Reset time Set and reset time, ms 3. Coil temperature rise Tested sample: TN-V Point measured: Inside the coil Ambient temperature: Room temperature ( to C), 7 C (77 to 79 F), 8 F Temperature rise, C 7 Carrying current A (Room temp.) A (Room temp.) A (7 C) A (7 C) 8 9 Coil applied %V 8. Distribution of pick-up and drop-out voltages Tested sample: TN-V, pcs. Quantity Drop-out voltage Pick-up voltage 8 9 Coil applied %V 8 9 Coil applied %V Ratio against the rated %V 9. Distribution of set and reset voltage Tested sample: TN-L-V, 3 pcs. Quantity Ratio against the rated %V ;; ;;. Ambient temperature characteristics Tested sample: TN-V, pcs.. Distribution of contact resistance Tested sample: TN-V, 38 pcs. (38 contacts) 8 en_ds_9_: J ;; ; voltage ;Set Reset voltage x Drop-out voltage x Pick-up voltage Ambient temperature, C - 8 Variation ratio, % Quantity Terminal No. 7,8,9 Side Terminal No.,3, side Contact resistance,mω

54 -(). Malfunctional shock (single side stable) Tested sample: TN-V, pcs. -(). Malfunctional shock (latching) Tested sample: TN-L-V, pcs. TN X Z Z, Y Y, Y 98m/s Deenergized condition Energized condition X Z Z, Y Y, Y 98m/s Deenergized condition Energized condition X, X 98m/s Z 98m/s X, X 98m/s Z 98m/s Z, X, 98m/s 98m/s 98m/s Y, Z, X, 98m/s 98m/s 98m/s Y, Signal 3-(). Influence of adjacent mounting 3-(). Influence of adjacent mounting Rate of change, % Rate of change, % Pick-up voltage Drop-out voltage ON ON ON OFF OFF OFF Rate of change, % Rate of change, % Pick-up voltage Drop-out voltage ON ON ON OFF OFF OFF.97 Inter-relay distance, mm inch.97 Inter-relay distance, mm inch. Actual load test (3 ma 8 wire spring relay load) Change of pick-up and drop-out voltage Change of contact resistance Circuit 8 V DC. µf. µf Ω 3 Ω Wire spring relay Circuit diagram Ratio against the rated %V Pick-up voltage Drop-out voltage Contact resistance, mω Terminal No. 3 No. of operations, No. of operations, -(). High-frequency characteristics Tested sample: TN-xxV Isolation characteristics -(). High-frequency characteristics Tested sample: TN-xxV Insertion loss characteristics -(3). High-frequency characteristics Tested sample: TN-xxV V.S.W.R. Isolation, db Terminal No Terminal No Frequency, MHz Insertion loss, db Terminal No. 3 Terminal No Frequency, MHz V.S.W.R Terminal No. -3- Terminal No Frequency, MHz For Cautions for Use, see Relay Technical Information (page 39). en_ds_9_: J 9

55 TQ TESTING LOW PROFILE FORM C RELAY TQ RELAYS mm inch FEATURES High sensitivity: Form C: mw power consumption (single side stable type) Form C: 8 mw power consumption (single side stable type) Surge voltage withstand: V FCC Part 8 Sealed construction allows automatic washing Self-clinching terminal also available M.B.B. contact types available SPECIFICATIONS Contact Standard (B.B.M) type M.B.B.type Arrangement Form C Form C Form D Initial contact resistance, max. (By voltage drop A) mω Contact material Rating operating power Expected life (min. operations) switching capacity (resistive load) switching power (resistive load) Gold-clad silver A. A V AC A V DC W,. V A W switching voltage, V AC switching current A switching capacity µa m Single side stable coil latching mw (3 to ) mw ( ) mw (8 ) mw (3 to ) mw ( ) 8 mw (3 to ) mw (8 ) mw mw coil latching mw (3 to ) mw ( ) mw Mechanical (at 8 cpm) 8 7 Electrical (at cpm) ( A V DC resistive) A resistive. A V AC resistive Note: This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. (SX relays are available for low level load switching [ µa m ma ]) Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * By resistive method, nominal voltage applied to the coil; contact carrying current: A. * 3 voltage applied to the coil, excluding contact bounce time. * voltage applied to the coil, excluding contact bounce time without diode. * Half-wave pulse of sine wave: ms; detection time: µs. * Half-wave pulse of sine wave: ms. * 7 Detection time: µs. Characteristics Initial insulation resistance* Initial breakdown voltage Between open contacts Between contact and coil Between contact sets FCC surge voltage between open contacts Operate time [Set time]* 3 (at C) Release time [Reset time]* (at C) Standard M.B.B.type (B.B.M) type, MΩ (at ) 7 Vrms for min. (Detection current: ma) Vrms for min. (Detection current: ma), Vrms for min. (Detection current: ma), Vrms for min. (Detection current: ma), V 3 ms (Approx. ms) [ 3 ms (Approx. ms)] 3 ms (Approx. ms) [ 3 ms (Approx. ms)] M.B.B. time* 8 µs. Temperature rise* (at C) C Shock resistance Vibration resistance Conditions for operation, transport and storage* 9 (Not freezing and condensing at low temperature) Unit weight * 8 M.B.B. time: Functional* Destructive* Functional* 7 Destructive Ambient temperature Humidity 9 m/s {G} 98 m/s {G} 7. m/s {8G}, to Hz at double amplitude of 3 mm 9 m/s {G}, to Hz at double amplitude of mm C to +7 C F to +8 F to 8% R.H. C to + C F to + F Form C: Approx.. g.3 oz Form C: Approx. 3 g. oz. Measuring condition µs Ω * 9 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). 7 en_ds : J

56 ORDERING INFORMATION TQ EX. TQ H L M 3V Contact arrangement : Form C : Form C TYPES AND COIL DATA (at C 8 F). Standard (B.B.M.) type Form C type. Single side stable Standard PC board terminal Part No.. Coil latching 3. Coil latching Self-clinching terminal Pick-up (max.) Drop-out (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TQ-3 V TQH-3 V TQ-. V TQH-. V TQ- V TQH- V TQ- V TQH- V TQ-9 V TQH-9 V TQ- V TQH- V 9..7,8 8 TQ- V TQH- V ,88 3 TQ-8 V TQH-8 V ,8 7. Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TQ-L-3 V TQH-L-3 V TQ-L-. V TQH-L-. V TQ-L- V TQH-L- V TQ-L- V TQH-L- V TQ-L-9 V TQH-L-9 V TQ-L- V TQH-L- V , 8 TQ-L- V TQH-L- V ,8 3 Standard PC board terminal Part No. Terminal shape Self-clinching terminal Operating function MBB function Coil voltage (DC) Nil: Standard PC board terminal H: Self-clinching terminal Nil: Single side stable L: coil latching L: coil latching Nil: Standard (B.B.M.) type M: M.B.B. type *8 V coil type: Single side stable only Notes:. AgPd stationary contact types available for high resistance against contact sticking. When ordering, please add suffix "-3" like TQ-V-3.. M.B.B. contact types are available only for TQ type. Set (max.) Reset (min.) 3,.,,, 9,,, 8* V operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TQ-L-3 V TQH-L-3 V TQ-L-. V TQH-L-. V TQ-L- V TQH-L- V TQ-L- V TQH-L- V TQ-L-9 V TQH-L-9 V TQ-L- V TQH-L- V TQ-L- V TQH-L- V 8 8.,9 8.8 Notes:. Specified value of the pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.. Standard packing: Tube: pcs.; Case:, pcs. 3. In case of V transistor drive circuit, it is recommend to use. V type relay.. AgPd stationary contact types available for high resistance against contact sticking. When ordering, please add suffix 3 like TQ-V-3. Signal en_ds : J 7

57 TQ Form C type. Single side stable Standard PC board terminal Part No.. Coil latching 3. Coil latching Notes:. Specified value of the pick-up, drop-out, voltage is with the condition of square wave coil pulse.. Standard packing: Tube: pcs.; Case:, pcs. 3. In case of V transistor drive circuit, it is recommend to use. V type relay.. coil latching and coil latching types are also available by request. Please consult us for details.. AgPd stationary contact types available for high resistance against contact sticking. When ordering, please add suffix 3 like TQ-V-3.. M.B.B. type Single side stable Self-clinching terminal Pick-up (max.) Drop-out (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TQ-3 V TQH-3 V TQ-. V TQH-. V TQ- V TQH- V TQ- V TQH- V TQ-9 V TQH-9 V TQ- V TQH- V TQ- V TQH- V 8..7, 8 3 TQ-8 V TQH-8 V ,7 7. Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TQ-L-3 V TQH-L-3 V TQ-L-. V TQH-L-. V TQ-L- V TQH-L- V TQ-L- V TQH-L- V TQ-L-9 V TQH-L-9 V TQ-L- V TQH-L- V TQ-L- V TQH-L- V ,88 3 Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TQ-L-3 V TQH-L-3 V TQ-L-. V TQH-L-. V TQ-L- V TQH-L- V TQ-L- V TQH-L- V TQ-L-9 V TQH-L-9 V TQ-L- V TQH-L- V TQ-L- V TQH-L- V 8 8.7, 3 Standard PC board terminal Part No. Self-clinching terminal Pick-up (max.) Drop-out (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TQ-M-3 V TQH-M-3 V TQ-M-. V TQH-M-. V TQ-M- V TQH-M- V. 7. TQ-M- V TQH-M- V TQ-M-9 V TQH-M-9 V TQ-M- V TQH-M- V TQ-M- V TQH-M- V ,88 3 Notes:. Specified value of the pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.. Standard packing: Tube: pcs.; Case:, pcs. 3. In case of V transistor drive circuit, it is recommend to use. V type relay.. AgPd stationary contact types available for high resistance against contact sticking. When ordering, please add suffix 3 like TQ-V-3. 7 en_ds : J

58 DIMENSIONS ) Form C, Form D Standard PC board terminal Self-clinching terminal Single side stable (Deenergized condition) PC board pattern (Copper-side view) dia dia Schematic (Bottom view) -coil latching (Reset condition) TQ mm inch Tolerance: ±. ±. -coil latching (Reset condition) Signal General tolerance: ±.3 ±. Direction indication* Direction indication* Direction indication* *Orientation stripe typical-located on top of relay ) Form C Standard PC board terminal PC board pattern (Copper-side view) dia dia Tolerance: ±. ± Self-clinching terminal General tolerance: ±.3 ±. Single side stable (Deenergized condition) Direction indication* Schematic (Bottom view) -coil latching (Reset condition) Direction indication* -coil latching (Reset condition) Direction indication* *Orientation stripe typical-located on top of relay REFERENCE DATA. Maximum switching capacity. Life curve 3. Mechanical life Tested sample: TQ-V, pcs. Switching current, A DC load (cosϕ=) AC load (cosϕ=) Switching V No. of operations, resistive load V AC resistive load.. Switching current, A Ratio against the rated %V Pick-up voltage Drop-out voltage,, No. of operations, en_ds : J 73

59 TQ.-() Electrical life (DC load) Tested sample: TQ-V, pcs. Condition: A resistive load, cpm Change of pick-up and drop-out voltage Change of contact resistance.-() Electrical life (AC load) Tested sample: TQ-V, pcs. Condition:. A V AC resistive load, cpm Change of pick-up and drop-out voltage Ratio against the rated %V Pick-up voltage Drop-out voltage Contact resistance, mω Ratio against the rated %V Pick-up voltage Drop-out voltage No. of operations, No. of operations, No. of operations, Change of contact resistance Contact resistance, mω No. of operations,.-() Coil temperature rise (C) Tested sample: TQ-V Measured portion: Inside the coil Ambient temperature: C 8 F Temperature rise, C 7 coil voltage 3 to type type A A A Coil applied %V.-() Coil temperature rise (C) Tested sample: TQ-V Measured portion: Inside the coil Ambient temperature: C 8 F Temperature rise, C 7 A A Coil applied %V.-() Operate/release time characteristics Tested sample: TQ-V, pcs..-() Operate/release time characteristics Tested sample: TQ-V, pcs. 7. Distribution of pick-up and drop-out voltages Tested sample: TQ-V, pcs. Operate/release time, ms 3 Release time Operate time 8 9 Coil applied %V Operate/release time, ms 3 Operate time Release time 8 9 Coil applied %V Quantity Pick-up voltage Drop-out voltage Ratio against the rated %V 8. Distribution of set and reset voltage Tested sample: TQ-L-V, 3 pcs. 9. Ambient temperature characteristics Tested sample: TQ-V, pcs.. Distribution of contact resistance Tested sample: TQ-V, pcs. ( contacts) Quantity ; y ;; ;;; ;; yy yyy yy Set voltage Ratio against the rated %V ;y Reset voltage ;;; yyy yy ;; ; y yyy ;;; - - Variation ratio,% Drop-out voltage x x Pick-up voltage 8 Ambient temperature, C - - Quantity Contact resistance, mω 7 en_ds : J

60 TQ.-() High-frequency characteristics Isolation characteristics.-() High-frequency characteristics Insertion loss characteristics.-(3) High-frequency characteristics V.S.W.R Isolation, db Insertion loss, db V.S.W.R Signal, Frequency,MHz, Frequency,MHz.. Frequency,GHz.-() Malfunctional shock (single side stable) Tested sample: TQ-V, pcs..-() Malfunctional shock (latching) Tested sample: TQ-L-V, pcs. 3.-() Influence of adjacent mounting Z, Z X X, Y Y Y, 98m/s X 98m/s Deenergized condition Energized condition 9m/s 98m/s 39m/s 98m/s Z, 88m/s X, 78m/s 98m/s Y, Z 98m/s Z, Z X X, Y Y Y, 98m/s X 98m/s Reset state Set state 9m/s 98m/s 39m/s 98m/s Z, 88m/s X, 78m/s 98m/s Y, Z 98m/s Rate of change, % Rate of change, % Pick-up voltage Drop-out voltage.97 Inter-relay distance ON ON ON OFF OFF OFF, mm inch 3.-() Influence of adjacent mounting 3.-(3) Influence of adjacent mounting.-() Contact reliability ( ma resistive load) Tested sample: TQ-V Condition: Detection level W Rate of change, % Rate of change, % Pick-up voltage Drop-out voltage.97 Inter-relay distance ON ON OFF OFF ON OFF, mm inch Rate of change, % Rate of change, % Pick-up voltage ON ON ON Drop-out voltage OFF OFF OFF.97 Inter-relay distance ON OFF, mm inch F(t), % m=. µ=.7 7 9% reliability limit = 7. (Weibull probability paper). No. of operations,.-() Contact reliability ( µa resistive load) Tested sample: TQ-V Condition: Detection level Ω F(t), % m=. µ=. 7 9% reliability limit = 9. (Weibull probability paper). No. of operations, 7. Actual load test (3 ma 8 wire spring relay load) Circuit 8 V DC Ω Ω Hz Wire spring relay Circuit diagram Change of pick-up and drop-out voltage Ratio against the rated %V Pick-up voltage Drop-out voltage No. of operations, en_ds : J 7

61 TQ Change of contact resistance.. A 3 resistive load test Change of pick-up and drop-out voltage Change of contact resistance Contact resistance, mω Ratio against the rated %V Pick-up voltage Drop-out voltage Contact resistance, mω No. of operations,,,, No. of operations,,,, No. of operations, 7.-() Distribution of M.B.B. time Sample: TQ-M-V, 8 pcs. Terminal Nos. -3-: ON Terminal Nos. -3-: OFF x:. µs 3σn-: 3.8 µs : 3 µs :3 µs x:7. µs 3σn-: 7. µs : 7 µs :87 µs ~ µs min. ~ ~ ~ ~ ~ ~ µs min. µs max. ~ ~ ~ 7 ~ ~ ~ ~ µs max. 7.-() Distribution of M.B.B. time Sample: TQ-M-V, 8 pcs. Terminal Nos : ON Terminal Nos : OFF x:. µs 3σn-: 7.3 µs :3 µs : µs x:8.7 µs 3σn-:.7 µs : 9 µs :98 µs 3 3 ~ µs min. ~ ~ ~ ~ ~ ~ µs max. ~ µs min. ~ ~ ~ ~ ~ ~ µs max. For Cautions for Use, see Relay Technical Information (page 39). 7 en_ds : J

62 LOW-PROFILE SURFACE-MOUNT RELAY TQ SMD TESTING TQ SMD RELAYS FEATURES mm inch Low-profile: mm.3 inch (Tape height: max.. mm. inch) Tape and reel package is available as standard packing style Surge withstand between contacts and coil:, V Breakdown voltage between contacts and coil:, V Capacity: A High sensitivity: Form C; mw power consumption (Single side stable type) Signal SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating operating power Expected life (min. operations) switching capacity (resistive load) switching power (resistive load) switching voltage switching current switching capacity Single side stable coil latching coil latching Form C 7 mω Gold-clad silver alloy A,. A V AC W,. VA, V AC A µa m mw (. to ) mw ( ) mw (8 ) 7 mw (. to ) mw ( ) mw (. to ) mw ( ) Mechanical (at 8 cpm) 8 Electrical (at cpm) A resistive A resistive. A V AC resistive Note: This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. (SX relays are available for low level load switching [ µa m ma ]) Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as "Initial breakdown voltage" section. * By resistive method, nominal voltage applied to the coil; contact carrying current: A. * 3 voltage applied to the coil, excluding contact bounce time. * voltage applied to the coil, excluding contact bounce time without diode. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics Initial insulation resistance* Initial breakdown voltage Initial surge voltage Between open contacts Between contact sets Between contact and coil Between open contacts ( µs) Between contacts and coil ( µs), MΩ (at ), Vrms for min. (Detection current: ma), Vrms for min. (Detection current: ma), Vrms for min. (Detection current: ma), V (FCC Part 8), V (Telcordia) Temperature rise* (at C) C Operate time [Set time]* 3 (at C) Release time [Reset time]* (at C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight ms (Approx. ms) [ ms (Approx. ms)] ms (Approx. ms) [ ms (Approx. ms)] Functional* 7 m/s {7 G} Destructive*, m/s { G} Functional* 7 Destructive Ambient temperature Humidity m/s {G}, to Hz at double amplitude of 3.3 mm 9 m/s {G}, to Hz at double amplitude of mm C to +8 C* 3 F to +8 F to 8% R.H. Approx. g.7 oz en_ds : J 77

63 TQ SMD ORDERING INFORMATION Ex. TQ SA - L - 3V - Z Contact arrangement Surface-mount availability Operating function Coil voltage (DC) Packing style : Form C SA: Standard surface-mount Nil: Single side stable., 3,.,,, Nil: Tube packing SA: terminal type L: coil latching 9,,, 8* V Z: Tape and reel packing (picked from the /7/8/9/-pin side) SL: High connection reliability L: coil latching SA: surface-mount terminal type SS: Space saving surface- SA: mount terminal type Notes:. Tape and reel (picked from //3//-pin side) is also available by request. Part No. suffix "-X" is needed when ordering. (ex.) TQSA-3V-X. Tape and reel packing symbol "-Z" or "-X" are not marked on the relay. TYPES. Single side stable Part No.. coil latching 3. coil latching Pick-up (max.) Drop-out (min.) operating current, ma (±%) Coil resistance, Ω (±%) : For each surface-mounted terminal variation, input the following letter. SA type: A, SL type: L, SS type: S Notes:. Specified value of the pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.. Standard packing: Tube: pcs.; Case;, pcs.; Tape and reel: pcs./reel 3. In case of V transistor drive circuit, it is recommended to use. V type relay. operating power, mw allowable TQS -. V TQS -3 V TQS -. V TQS - V TQS - V TQS -9 V TQS - V 9..7,8 8 TQS - V ,88 3 TQS -8 V ,8 7. Part No. Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TQS -L-. V TQS -L-3 V TQS -L-. V TQS -L- V TQS -L- V TQS -L-9 V , TQS -L- V 9 9.8,7 7 8 TQS -L- V 8 8.,7 3 Part No. Set (max.) Reset (max.) operating current, ma (±%) *8 V coil type: Single side stable only Coil resistance, Ω (±%) operating power, mw allowable TQS -L-. V TQS -L-3 V TQS -L-. V TQS -L- V TQS -L- V TQS -L-9 V TQS -L- V 9 9.7,8 8 TQS -L- V , en_ds : J

64 DIMENSIONS SA type SL type SS type General tolerance: ±.3 ±. Recommendable mounting pad (Top view) SA type SL type.. SS type For glue-pad Tolerance: ±. ±. TQ SMD mm inch Schematic (Top view) Single side stable (Deenergized condition) Direction indication* *Orientation stripe located on top of relay. -coil latching (Reset condition) Direction indication* *Orientation stripe located on top of relay. -coil latching (Reset condition) Direction indication* *Orientation stripe located on top of relay. 3 Signal REFERENCE DATA. Maximum switching capacity. Life curve 3. Mechanical life (mounting by IRS method) Tested sample: TQSA-V, pcs. Switching current, A AC resistive load DC resistive load No. of operations, V AC resistive load resistive load Ratio against the rated %V Pick-up voltage Drop-out voltage Contact V.. Switching current, A IRS,, No. of operations,.-() Electrical life ( A resistive load) Tested sample: TQSA-V, pcs. Operating frequency: cpm Change of pick-up and drop-out voltage (mounting by IRS method) Change of contact resistance (mounting by IRS method).-() Electrical life (. A V AC resistive load) Tested sample: TQSA-V, pcs Operating frequency: cpm Change of pick-up and drop-out voltage (mounting by IRS method) Ratio against the rated %V Pick-up voltage Drop-out voltage Contact resistance, m Ratio against the rated %V Pick-up voltage Drop-out voltage IRS No. of operations, IRS No. of operations, IRS No. of operations, en_ds : J 79

65 TQ SMD Change of contact resistance (mounting by IRS method). Coil temperature rise Tested sample: TQSA-V, pcs. Point measured: Inside the coil Ambient temperature: C 77 F. Operate/release time Tested sample: TQSA-V, pcs. Contact resistance, m Temperature rise, C 7 Coil voltage DC V type DC 8V type A A A A Operate and release time, ms 3 Operate time Release time IRS No. of operations, Coil applied %V Coil applied %V 7. Distribution of pick-up and drop out voltage Tested sample: TQSA-V, pcs. 8. Distribution of set and reset voltage Tested sample: TQSA-L-V, pcs. 9. Ambient temperature characteristics Tested sample: TQSA-V, pcs. Quantity Pick-up voltage Drop-out voltage Quantity Set voltage Reset voltage - - Rate of change, % Pick-up voltage x Drop-out voltage 8 Ambient temperature, C Ratio against the rated %V Ratio against the rated %V. Distribution of contact resistance Tested sample: TQSA-V, pcs. ( contacts).-() High-frequency characteristics Isolation characteristics.-() High-frequency characteristics Insertion loss characteristics Quantity Terminal Nos. 3-, (TOP VIEW) Terminal Nos. -3, 8-9 Isolation, db Insertion loss, db Contact resistance, m, Frequency, MHz, Frequency, MHz.-() Malfunctional shock (single side stable) Tested sample: TQSA-V, pcs Z Y Y Z X X Y m/s Deenergized condition Energized condition X Z m/s m/s.-() Malfunctional shock (latching) Tested sample: TQSA-L-V, pcs. Z Y Y Z X X Y m/s Reset condition Set condition X Z m/s m/s m/s m/s Z X m/s m/s Z X m/s Y m/s Y 8 en_ds : J

66 3.-() Influence of adjacent mounting Tested sample: TQSA-V, pcs. 3.-() Influence of adjacent mounting Tested sample: TQSA-V, pcs. TQ SMD 3.-(3) Influence of adjacent mounting Tested sample: TQSA-V, pcs. Rate of change, % Rate of change, % ON ON Pick-up voltage - ON OFF OFF Drop-out voltage - OFF Inter-relay distance, mm inch Rate of change, % Rate of change, % ON Pick-up voltage ON - ON OFF Drop-out voltage OFF - OFF Inter-relay distance, mm inch Rate of change, % Rate of change, % - ON Pick-up voltage ON ON OFF Drop-out voltage OFF ON - OFF OFF Inter-relay distance, mm inch Signal. Pulse dialing test Tested sample: TQSA-V, pcs. (3 ma 8 wire spring relay load) Circuit +.8 µf 8-8 Ω 8 Ω.8 µf Wire spring relay TQ-SMD 3 relay Change of pick-up and drop-out voltage (mounting by IRS method) Ratio against the rated %V Pick-up voltage Drop-out voltage Change of contact resistance (mounting by IRS method) Contact resistance, m IRS No. of operations, IRS No. of operations, NOTES. Packing style ) The relay is packed in a tube with the relay orientation mark on the left side, as shown in the figure below. Stopper (gray) Orientation (indicates PIN No.)stripe Stopper (green) ) Tape and reel packing (surface-mount terminal type) () Tape dimensions (i) SA type mm inch Relay polarity bar (Z type)..7. dia dia dia dia TQ-SMD relays.. Tape coming out direction (ii) SL, SS type mm inch () Dimensions of plastic reel mm inch dia dia. 3 dia dia Relay polarity bar +. (Z type). dia dia dia dia TQ-SMD relays. Tape coming out direction ( )* Note) *SS type.3.. For Cautions for Use, see Relay Technical Information (page 39). en_ds : J 8

67 TX TESTING A CAPACITY RELAY WITH HIGH SURGE VOLTAGE & HIGH BREAKDOWN VOLTAGE TX RELAYS FEATURES Breakdown voltage between contacts and coil:, V Surge withstand between contacts and coil:, V High contact capacity: A Surface-mount type available mm inch SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating operating power Expected life (min. operations) switching capacity (resistive load) switching power (resistive load) switching voltage switching current switching capacity Form C mω Gold-clad silver alloy A W A µa m Single side stable mw (. to ) 7 mw (8 ) coil latching mw (. to ) coil latching mw (. to ) Mechanical (at 8 cpm) 8 Electrical (at cpm) A resistive A resistive Notes: This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. (SX relays are available for low level load switching [ µa m ma ]) The upper limit for the ambient temperature is the maximum temperature that can satisfy the coil temperature rise. Under the packing condition, allowable temperature range is from to +7 C C to +8 F. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as "Initial breakdown voltage" section. * By resistive method, nominal voltage applied to the coil; contact carrying current: A. * 3 voltage applied to the coil, excluding contact bounce time. * voltage applied to the coil, excluding contact bounce time without diode. * Half-wave pulse of sine wave: ms; detection time: µs. * Half-wave pulse of sine wave: ms. * 7 Detection time: µs. * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics Initial insulation resistance* Initial breakdown voltage Initial surge voltage Between open contacts Between contact sets Between contact and coil Between open contacts ( µs) Between contacts and coil ( µs), MΩ (at ), Vrms for min. (Detection current: ma), Vrms for min. (Detection current: ma), Vrms for min. (Detection current: ma), V (FCC Part 8), V (Telcordia) Temperature rise* (at C) C Operate time [Set time]* 3 (at C) Release time [Reset time]* (at C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight ms (Approx. ms) [ ms (Approx. ms)] ms (Approx. ms) [ ms (Approx. ms)] Functional* 7 m/s {7 G} Destructive*, m/s { G} Functional* 7 Destructive Ambient temperature Humidity 9 m/s { G}, to Hz at double amplitude of 3.3 mm 9 m/s {G}, to Hz at double amplitude of mm C to +8 C (up to V coil) F to +8 F (up to V coil) C to +7 C (8 V coil) F to +8 F (8 V coil) to 8% R.H. Approx. g.7 oz 8 en_ds : J

68 ORDERING INFORMATION TX Ex. TX SA L H 3V Z Contact arrangement Surface-mount availability Operating function Terminal shape Coil voltage (DC) Packing style : Form C Nil: Standard PC board terminal type or Nil: Single side Nil: Standard PC., 3,.,,, Nil: Tube packing Nil: self-clinching terminal type Nil: stable board terminal or 9,,, 8* V Z: Tape and reel SA: Standard surface-mount terminal type L: coil latching surface-mount packing(picked SL: High connection reliability surface-mount L: coil latching terminal from the 8/9// SL: terminal type H: Self-clinching SS: Space saving surface-mount terminal type terminal -pin side Notes:. Tape and reel (picked from /3//-pin side) is also available by request. Part number suffix "-X" is needed when ordering. (ex.) TXSA-3 V-X. Tape and reel packing symbol "-Z" or "-X" are not marked on the relay. *8 V coil type: Single side stable only Signal TYPES AND COIL DATA (at C 8 F) ) Standard PC board terminal type and self-clinching terminal type. Single side stable Standard PC board terminal Part No.. Coil latching 3. Coil latching Self-clinching terminal Pick-up (max.) Drop-out (min.) operating current, ma (±%) Notes:. Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.. Standard packing: Tube: pcs.; Case:, pcs. 3. In case of V transistor drive circuit, it is recommended to use. V type relay. Coil resistance, Ω (±%) operating power, mw allowable TX-. V TX-H-. V TX-3 V TX-H-3 V TX-. V TX-H-. V TX- V TX-H- V TX- V TX-H- V TX-9 V TX-H-9 V TX- V TX-H- V 9..7,8 8 TX- V TX-H- V 8..8, 3 TX-8 V TX-H-8 V , Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TX-L-. V TX-L-H-. V TX-L-3 V TX-L-H-3 V TX-L-. V TX-L-H-. V TX-L- V TX-L-H- V TX-L- V TX-L-H- V TX-L-9 V TX-L-H-9 V TX-L- V TX-L-H- V , 8 TX-L- V TX-L-H- V 8 8.,7 3 Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TX-L-. V TX-L-H-. V TX-L-3 V TX-L-H-3 V TX-L-. V TX-L-H-. V TX-L- V TX-L-H- V TX-L- V TX-L-H- V TX-L-9 V TX-L-H-9 V TX-L- V TX-L-H- V TX-L- V TX-L-H- V ,88 3 en_ds : J 83

69 TX ) Surface-mount terminal type. Single side stable Part No.. coil latching 3. coil latching Pick-up (max.) Drop-out (min.) operating current, ma (±%) Coil resistance, Ω (±%) : For each surface-mounted terminal variation, input the following letter. SA type: A, SL type: L, SS type: S Notes:. Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.. Standard packing: Tube: pcs.; Case:, pcs. 3. Tape and reel packing is also available for surface-mount type by request. Part number suffix -X or -Z is needed when ordering. In this case, X or Z are not marked on the relay. Quantity in tape and reel: pcs. (ex.) TXSA-3V-X TXSA-L-3V-Z Picked from the /3//-pin side Picked from the 8/9//-pin side. In case of V transistor drive circuit, it is recommended to use. V type relay. operating power, mw allowable TXS -. V TXS -3 V TXS -. V TXS - V TXS - V TXS -9 V TXS - V 9..7,8 8 TXS - V 8..8, 3 TXS -8 V , Part No. Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TXS -L-. V TXS -L-3 V TXS -L-. V TXS -L- V TXS -L- V TXS -L-9 V TXS -L- V , 8 TXS -L- V 8 8.,7 3 Part No. Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable TXS -L-. V TXS -L-3 V TXS -L-. V TXS -L- V TXS -L- V TXS -L-9 V TXS -L- V TXS -L- V , en_ds : J

70 DIMENSIONS. Single side stable and coil latching type Standard PC board terminal Self clinching terminal Surface-mount terminal SA type SL type SS type General tolerance: ±.3 ± General tolerance: ±.3 ±. PC board pattern (Copper-side view) dia dia.8. Tolerance: ±. ±. Suggested mounting pad (Top view) For glue-pad Tolerance: ±. ±. Schematic (Bottom view) Single side stable (Deenergized condition) 3 + TX mm inch coil latching (Reset condition) Direction indication* Direction indication* *Orientation stripe located on top of relay. + Schematic (Top view) Single side stable (Deenergized condition) Direction indication coil latching (Reset condition) Direction indication Signal. Coil latching type Standard PC board terminal Self clinching terminal PC board pattern (Copper side view) dia -.39 dia.8. Tolerance: ±. ±. Schematic (Bottom view) coil latching (Reset condition) Direction indication* Surface-mount terminal SA type SL type SS type General tolerance: ±.3 ± General tolerance: ±.3 ±. Suggested mounting pad (Top view) Tolerance: ±. ±. For glue-pad Schematic (Top view) coil latching (Reset condition) Direction indication 3 en_ds : J 8

71 TX REFERENCE DATA. Maximum switching capacity. Life curve 3. Mechanical life Tested sample: TX-V, pcs. Operating frequency: 8 cpm Switching current, A DC resistive load Contact V No. of operations resistive load.. Switching current, A Ratio against the rated %V Pick-up voltage Drop-out voltage,, No. of operations,. Electrical life Tested sample: TX-V, pcs. Operating frequency: cpm Change of pick-up and drop-out voltage Change of contact resistance -(). Coil temperature rise Tested sample: TX-V, pcs. Point measured: Inside the coil Ambient temperature: C 77 F, 8 C 8 F Ratio against the rated %V Pick-up voltage Drop-out voltage Contact resistance, mω Temperature rise, C 7 + C +77 F +8 C +8 F A A A A No. of operations, No. of operations, No. of operate, -(). Coil temperature rise Tested sample: TX-8V, pcs. Point measured: Inside the coil Ambient temperature: C 77 F, 7 C 8 F -(). Operate and release time (with diode) Tested sample: TX-V, pcs. -(). Operate and release time (without diode) Temperature rise, C 7 + C +77 F +7 C +8 F A A A A Operate and release time, ms 3 Operate time Release time Operate and release time, ms 3 Operate time Release time No. of operations, Coil applied %V Coil applied %V 7. Distribution of pick-up and drop-out voltage Tested sample: TX-V, pcs. 8. Distribution of set and reset voltage Tested sample: TX-L-V, pcs. 9. Ambient temperature characteristics Tested sample: TX-V, pcs. Quantity Drop-out voltage Pick-up voltage Quantity Set voltage Reset voltage Rate of change, % Drop-out voltage x x Pick-up voltage Ambient temperature, C Ratio against the rated %V Ratio against the rated %V - 8 en_ds : J

72 TX. Distribution of contact resistance Tested sample: TX-V, pcs. ( contacts) -(). High frequency characteristics Tested sample: TX-V, pcs. Isolation characteristics -(). High frequency characteristics Tested sample: TX-V, pcs. Insertion loss characteristics Quantity 3 Terminal Nos. -, (BOTTOM VIEW) Terminal Nos. 3-, 9- Isolation, db Insertion loss, db Signal Contact resistance, m, Frequency, MHz, Frequency, MHz -(). Malfunctional shock (single side stable) Tested sample: TX-V, pcs -(). Malfunctional shock (latching) Tested sample: TX-L-V, pcs. Z Y Y Z X X Y m/s Deenergized condition Energized condition Z Y Y Z X X Y m/s Reset state Set state X m/s Z m/s X m/s Z m/s m/s m/s Z X m/s m/s Z X m/s Y m/s Y 3-(). Influence of adjacent mounting 3-(). Influence of adjacent mounting 3-(3). Influence of adjacent mounting Rate of change, % Rate of change, % ON ON Pick-up voltage - - Drop-out voltage ON OFF OFF OFF Inter-relay distance, mm inch Rate of change, % Rate of change, % ON - Pick-up voltage Drop-out voltage ON OFF ON OFF - OFF Inter-relay distance, mm inch Rate of change, % Rate of change, % ON Pick-up voltage ON - ON ON OFF Drop-out voltage OFF - OFF OFF Inter-relay distance, mm inch. Pulse dialing test Tested sample: TX-V, pcs. (3 ma 8 wire spring relay load) Change of pick-up and drop-out voltage Change of contact resistance Circuit +.8 µf 8 8 Ω 8 Ω.8 µf Wire spring relay 3 Ratio against the rated %V Pick-up voltage Drop-out voltage Contact resistance, m No. of operation, No. of operations, Note: Data of surface-mount type are the same as those of PC board terminal type. en_ds : J 87

73 TX NOTES. Packing style ) The relay is packed in a tube with the relay orientation mark on the left side, as shown in the figure below. Stopper (gray) Orientation (indicates PIN No.)stripe Stopper (green) ) Tape and reel packing (surface-mount terminal type) () Tape dimensions (i) SA type mm inch Relay polarity bar (Z type) TX/TX-D/TX-S -SMD relays (ii) SL type +.. dia dia Tape coming out direction A D C B mm inch () Dimensions of plastic reel dia. dia. dia. dia mm inch dia dia. 37 dia dia Relay polarity bar (Z type) +.. dia dia TX/TX-D/TX-S -SMD relays Tape coming out direction (iii) SS type mm inch Relay polarity bar (Z type) +.. dia dia dia..87 dia TX/TX-D/TX-S -SMD relays Tape coming out direction For Cautions for Use, see Relay Technical Information (page 39). 88 en_ds : J

74 TX-D TESTING HIGH INSULATION RELAYS (Conforming to the supplementary insulation class of EN Standards (EN3)) TX-D RELAYS FEATURES mm inch Approved to the supplementary insulation class in the EN standards (EN3). The insulation distance between the contact and coil meet the supplementary insulation class of the EN3 standards as required for equipment connected to the telephone lines in Europe. Satisfies the following conditions: Clearances:. mm.79 inch or more Creepage distance:. mm.98 inch or more, V breakdown voltage between contact and coil. Outstanding surge resistance. Surge withstand between open contacts:, V µsec. (FCC part 8) Surge withstand between contact and coil:, V µsec. (Telcordia) High contact capacity: A (Standard type) M.B.B. type available The use of gold-clad twin crossbar contacts ensures high contact reliability. Signal SPECIFICATIONS Contact Standard (B.B.M) type M.B.B.type Arrangement Form C Form D Initial contact resistance, max. (By voltage drop A) mω Contact material Gold-clad silver switching capacity (resistive load) A A switching power (resistive load) W W switching voltage switching current A A switching capacity µa m Rating Expected life (min. operations) operating power Single side stable coil latching mw (. to ) mw ( ) mw (. to ) 7 mw ( ) mw (. to ) 7 mw ( ) Mechanical (at 8 cpm) 8 7 Electrical (at cpm) ( A resistive), ( A V DC resistive) Notes: This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. (SX relays are available for low level load switching [ µa m ma ]) The upper limit for the ambient temperature is the maximum temperature that can satisfy the coil temperature rise. Under the packing condition, allowable temperature range is from to +7 C C to +8 F. ( A resistive) Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 By resistive method; nominal voltage applied to the coil; contact carrying current: A. * By resistive method; nominal voltage applied to the coil; contact carrying current: A. * voltage applied to the coil, excluding contact bounce time. * voltage applied to the coil, excluding contact bounce time without diode. * 7 Half-wave pulse of sine wave: ms.; detection time: µs. * 8 Half-wave pulse of sine wave: ms.; detection time: µs. * 9 Half-wave pulse of sine wave: ms. * Detection time: µs. * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics Initial insulation resistance* Initial breakdown voltage* Initial surge voltage Between open contacts Between contact and coil Between contact sets Between contacts, µs Between contact and coil, µs Standard (B.B.M) type M.B.B.type, MΩ (at ), Vrms for min. Vrms for min., V [FCC Part 8], Vrms for min., Vrms for min., V [Telcordia] Temperature rise (at C) C* 3 C* Operate time [Set time]* (at C) Release time [Reset time]* (at C) ms (Approx. ms) [ ms (Approx. ms)] ms (Approx. ms) [ ms (Approx. ms)] ms (Approx. ms) ms (Approx. ms) M.B.B. time* µs Shock resistance Vibration resistance Conditions for operation, transport and storage* (Not freezing and condensing at low temperature) Unit weight * M.B.B. time: Functional 7 m/s {7 G}* 7 m/s { G}* 8 Destructive* 9, m/s { G} Functional* to Hz at double amplitude of 3.3 mm Destructive to Hz at double amplitude of mm Ambient temp. Humidity Measuring condition C to +8 C F to +8 F to 8%R.H. Approx. g.7 oz. µs en_ds 7: J 89

75 TX-D TYPICAL APPLICATIONS Communications (XDSL, Transmission) Measurement Security Home appliances, and audio/visual equipment Automotive equipment Medical equipment ORDERING INFORMATION ) Standard (B.B.M.)type Ex. TXD SA L.V Z Contact arrangement Surface-mount availability Operating function Terminal shape : Form C Nil: Standard PC board terminal or Nil: Single side Nil: Standard PC self-clinching terminal stable board terminal SA: Standard surface-mount terminal L: coil latching or surfacemount SL: High connection reliability surface-mount type terminal type H: Self-clinching SS: Space saving surface-mount terminal type terminal Coil voltage (DC)., 3,.,,, 9,, V Nil: Z: Packing style Tube packing Tape and reel packing (Picked from the 8/9/ /-pin side) ) M.B.B.type Ex. TXD SA M.V Z Contact arrangement Surface-mount availability Operating function Terminal shape : Form D Nil: Standard PC board terminal or M: M.B.B. type Nil: Standard PC self-clinching terminal board terminal SA: Standard surface-mount terminal or surfacemount SL: High connection reliability surface-mount type terminal type H: Self- clinching SS: Space saving surface-mount terminal type terminal Coil voltage (DC)., 3,.,,, 9,, V Notes:. Tape and reel (picked from /3//-pin side) is also available by request. Part number: suffix "-X" is needed when ordering. (ex.) TXDSA-3V-X. Tape and reel packing symbol "-Z" or "-X" are not marked on the relay. Nil: Z: Packing style Tube packing Tape and reel packing (Picked from the 8/9/ /-pin side) TYPES AND COIL DATA (at C 8 F). Standard (B.B.M.) type () Standard PC board terminal and self-clinching terminal. Single side stable Coil Rating,. coil latching Standard PC board terminal Part No. Self-clinching terminal Pick-up (max.) (initial) Standard packing: pcs. in an inner package (tube);, pcs. in an outer package. Note: In case of V transistor drive circuit, it is recommended to use. V type relay. Drop-out (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable. TXD-.V TXD-H-.V TXD-3V TXD-H-3V TXD-.V TXD-H-.V TXD-V TXD-H-V TXD-V TXD-H-V TXD-9V TXD-H-9V TXD-V TXD-H-V TXD-V TXD-H-V 8. 9., 8.8 Coil Rating, Standard PC board terminal Part No. Self-clinching terminal Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable. TXD-L-.V TXD-L-H-.V TXD-L-3V TXD-L-H-3V TXD-L-.V TXD-L-H-.V TXD-L-V TXD-L-H-V TXD-L-V TXD-L-H-V TXD-L-9V TXD-L-H-9V TXD-L-V TXD-L-H-V TXD-L-V TXD-L-H-V , en_ds 7: J

76 () Surface-mount terminal. Single side stable Coil Rating,. coil latching Tube packing : For each surface-mounted terminal variation, input the following letter. SA type: A, SL type: L, SS type: S Standard packing: pcs. (tube), pcs. (tape and reel) in an inner package;, pcs. in an outer package Notes:. Tape and reel packing symbol -Z is not marked on the relay. X type tape and reel packing (picked from /3//-pin side) is also available.. In case of V transistor drive circuit, it is recommended to use. V type relay.. M.B.B. Type () Standard PC board terminal and self-clinching terminal Single side stable () Surface-mount terminal Single side stable. TXDS -M-.V TXDS -M-.V-Z TXDS -M-3V TXDS -M-3V-Z TXDS -M-.V TXDS -M-.V-Z TXDS -M-V TXDS -M-V-Z TXDS -M- TXDS -M-V-Z TXDS -M-9 TXDS -M-9V-Z TXDS -M- TXDS -M-V-Z TXDS -M- TXDS -M-V-Z 8..3, : For each surface-mounted terminal variation, input the following letter. SA type: A, SL type: L, SS type: S Standard packing: pcs. (tube), pcs. (tape and reel) in an inner package;, pcs. in an outer package Notes:. Tape and reel packing symbol -Z is not marked on the relay. X type tape and reel packing (picked from /3//-pin side) is also available.. In case of V transistor drive circuit, it is recommended to use. V type relay. en_ds 7: J Part No. Tape and reel packing Pick-up (max.) (initial) Drop-out (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw TX-D allowable. TXDS -.V TXDS -.V-Z TXDS -3V TXDS -3V-Z TXDS -.V TXDS -.V-Z TXDS -V TXDS -V-Z TXDS -V TXDS -V-Z TXDS -9V TXDS -9V-Z TXDS -V TXDS -V-Z TXDS -V TXDS -V-Z 8. 9., 8.8 Coil Rating, Tube packing Part No. Tape and reel packing Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable. TXDS -L-.V TXDS -L-.V-Z TXDS -L-3V TXDS -L-3V-Z TXDS -L-.V TXDS -L-.V-Z TXDS -L-V TXDS -L-V-Z TXDS -L-V TXDS -L-V-Z TXDS -L-9V TXDS -L-9V-Z TXDS -L-V TXDS -L-V-Z TXDS -L-V TXDS -L-V-Z , Part No. Coil Pick-up Drop-out Coil operating operating allowable Rating, Standard PC board Self-clinching resistance, current, power, terminal terminal (max.) (min.) Ω (±%) ma (±%) mw. TXD-M-.V TXD-M-H-.V TXD-M-3V TXD-M-H-3V TXD-M-.V TXD-M-H-.V TXD-M-V TXD-M-H-V TXD-M-V TXD-M-H-V TXD-M-9V TXD-M-H-9V TXD-M-V TXD-M-H-V TXD-M-V TXD-M-H-V 8..3, Standard packing: pcs. in an inner package (tube);, pcs. in an outer package Coil Rating, Tube packing Part No. Tape and reel packing Set (max.) Reset (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable 9 Signal

77 TX-D DIMENSIONS. Standard PC board terminal and self-clinching terminal Standard PC board terminal PC board pattern (Copper side view) dia dia.8. Tolerance: ±. ±. Schematic (Bottom view) Single side stable (Deenergized condition) Direction indication* mm inch coil latching (Reset condition) Direction indication* *Orientation stride located on top of relay. + Self clinching terminal General tolerance: ±.3 ±.. Surface-mount terminal SA type Suggested mounting pad (Top view) For glue-pad Schematic (Top view) Single side stable (Deenergized condition) Direction indication coil latching (Reset condition) Direction indication SL type SS type General tolerance: ±.3 ± Tolerance: ±. ±. REFERENCE DATA. Maximum switching capacity. Life curve 3. Mechanical life Tested sample: TXD-V, pcs. Operating frequency: 8 cpm Switching current, A DC resistive load Contact V No. of operations resistive load.. Switching current, A Ratio against the rated %V Pick-up voltage Drop-out voltage No. of operations, 9 en_ds 7: J

78 . Electrical life ( A resistive load) Tested sample: TXD-V, pcs. Operating frequency: cpm Change of pick-up and drop-out voltage Change of contact resistance -(). Coil temperature rise Tested sample: TXD-V, pcs. Measured portion: Inside the coil Ambient temperature: C 77 F, 7 C 8 F TX-D Ratio against the rated %V 9 8 Pick-up voltage 7 Drop-out voltage 8 No. of operations, Contact resistance, mω No. of operations, Temperature rise, C 7 A A A A Coil applied %V + C +77 F +7 C +8 F Signal -(). Coil temperature rise Tested sample: TXD-V, pcs. Measured portion: Inside the coil Ambient temperature: C 77 F, 7 C 8 F -(). Operate/release time characteristics (with diode) Tested sample: TXD-V, pcs. -(). Operate/release time characteristics (without diode) Tested sample: TXD-V, pcs. Temperature rise, C 7 A A A A + C +77 F +7 C +8 F Operate and release time, ms 3 Operate time Release time Operate and release time, ms 3 Operate time Release time Coil applied %V Coil applied %V Coil applied %V 7. Distribution of pick-up and drop-out voltage Tested sample: TXD-V, pcs. 8. Distribution of set and reset voltage Tested sample: TXD-L-V, pcs. 9. Ambient temperature characteristics Tested sample: TXD-V, pcs. Quantity 3 Pick-up voltage Drop-out voltage Quantity Set voltage Reset voltage Variation ratio, % x Drop-out voltage x Pick-up voltage Ambient temperature, C Ratio against the rated %V Ratio against the rated %V. Distribution of contact resistance Tested sample: TXD-V, pcs. ( contacts) -(). High-frequency characteristics Isolation characteristics Tested sample: TXD-V, pcs. -(). High-frequency characteristics Insertion loss characteristics Tested sample: TXD-V, pcs. Quantity 3 Terminal Nos. -, 8-9 Terminal Nos. 3-, 9- Isolation, db Insertion loss, db Contact resistance, mω, Frequency, MHz, Frequency, MHz en_ds 7: J 93

79 TX-D -(). Malfunctional shock (single side stable) Tested sample: TXD-V, pcs -(). Malfunctional shock (latching) Tested sample: TXD-L-V, pcs. Z Y Y X m/s Z X X Y m/s Deenergized condition Energized condition Z m/s Z Y Y X m/s Z X X Y m/s Reset state Set state Z m/s m/s m/s Z X m/s m/s Z X m/s Y m/s Y 3-(). Influence of adjacent mounting Tested sample: TXD-V, pcs. 3-(). Influence of adjacent mounting Tested sample: TXD-V, pcs. 3-(3). Influence of adjacent mounting Tested sample: TXD-V, pcs. Rate of change, % Rate of change, % ON ON Pick-up voltage - - ON OFF OFF Drop-out voltage OFF Inter-relay distance, mm inch Rate of change, % Rate of change, % ON Pick-up voltage ON - ON OFF Drop-out voltage OFF - OFF Inter-relay distance, mm inch Rate of change, % Rate of change, % - - Pick-up voltage ON ON ON ON OFF Drop-out voltage OFF OFF OFF Inter-relay distance, mm inch. Actual load test (3 ma 8 wire spring relay load) Tested sample: TXD-V, pcs. Change of pick-up and drop-out voltage Change of contact resistance Circuit 8 Ω µf µf 8-8 Ω Wire spring relay 3 TXD Ratio against the rated %V Pick-up voltage Drop-out voltage Contact resistance, mω Max No. of operation, No. of operation, -(). Distribution of M.B.B. time Tested sample: TXD-M-V, pcs. Terminal No. 3--: ON Terminal No. 3--: OFF x:. µs σn-:.3 µs : µs : µs x: 98.8 µs σn-:.8 µs : µs : 3 µs 7 µs min. µs max. ~ ~ ~ ~ ~ ~ ~ 3 8 µs min. µs max. ~ ~ ~ ~ ~ ~ ~ 9 en_ds 7: J

80 TX-D -(). Distribution of M.B.B. time Tested sample: TXD-M-V, pcs. Terminal No. 8-9-: ON Terminal No. 8-9-: OFF x: 93. µs σn-:. µs : µs : µs x: 8. µs σn-:.8 µs : µs : µs 8 3 µs min. µs max. ~ ~ ~ ~ ~ ~ ~ 9 µs min. µs max. ~ ~ ~ ~ ~ ~ ~ Signal NOTES. Packing style ) The relay is packed in a tube with the relay orientation mark on the left side, as shown in the figure below. Stopper (gray) Orientation (indicates PIN No.)stripe Stopper (green) ) Tape and reel packing (surface-mount terminal type) () Tape dimensions (i) SA type mm inch Relay polarity bar (Z type) TX/TX-D/TX-S -SMD relays (ii) SL type +.. dia dia Tape coming out direction A D C B mm inch () Dimensions of plastic reel dia. dia. dia. dia mm inch dia dia. 37 dia dia Relay polarity bar (Z type) +.. dia dia TX/TX-D/TX-S -SMD relays Tape coming out direction (iii) SS type mm inch Relay polarity bar (Z type) +.. dia dia dia..87 dia TX/TX-D/TX-S -SMD relays Tape coming out direction For Cautions for Use, see Relay Technical Information (page 39). en_ds 7: J 9

81 TX-S SMALL POLARIZED RELAY WITH HIGH SENSITIVITY mw TX-S RELAYS TESTING.9 mm inch SPECIFICATIONS SA type Contact Arrangement Initial contact resistance, max. (By voltage drop A ) Contact material switching capacity (resistive load) switching power Rating (resistive load) switching voltage switching current switching capacity operating power Expected life (min. operations) Single side stable coil latching coil latching TYPICAL APPLICATIONS ORDERING INFORMATION FEATURES High sensitivity mw nominal operating power (single side stable.-v) Useful for electric-power-saving Approx..3µV low thermal electromotive force Form C mω Gold-clad silver alloy A W (DC) A µa m mw (. to ) 7 mw ( ) 3 mw (. to ) mw ( ) 7 mw (. to ) mw ( ) Mechanical (at 8 cpm) 7 Electrical A (at cpm) resistive Note: This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. (SX relays are available for low level load switching [ µa m ma ]) Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 Excluding contact bounce time. * By resistive method; nominal voltage applied to the coil; contact carrying current: A. Communications (XDSL, Transmission) Measurement Security Home appliances, and audio/visual equipment Characteristics Initial insulation resistance* Initial Between open contacts breakdown Between contact sets voltage* Between contacts and coil Between open contacts Initial surge ( µs) voltage Between contacts and coil ( µs) Operate time [Set time]* 3 (at C)(at nominal voltage) Release time (without diode) [Reset time]* 3 (at C)(at nominal voltage) Outstanding surge resistance Surge withstand between open contacts:,v µs (FCC part 8) Surge withstand between contacts and coil:,v µs (Telcordia), MW (at ) 7 Vrms for min., Vrms for min.,8 Vrms for min.,v (FCC Part 8),V (Telcordia) ms (Approx. 3 ms) [ ms (Approx. 3 ms)] ms (Approx.. ms) [ ms (Approx. 3 ms)] Temperature rise* (at C) C Shock resistance Functional* 7 m/s {7 G} Destructive*, m/s { G} Vibration resistance Functional* 7 to Hz at double amplitude of 3.3 mm Destructive to Hz at double amplitude of mm Conditions for operation, transport and storage* 8 Ambient temperature C to +7 C F to +8 F (Not freezing and condensing at low temperature) Humidity to 8% R.H. Unit weight Approx. g.7 oz * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Automotive equipment Medical equipment Ex. TXS SA L H 3V Z Contact arrangement Surface-mount availability Operating function Terminal shape Coil voltage (DC) Packing style : Form C Nil: Standard PC board terminal type or Nil: Single side Nil: Standard PC., 3,.,, 9, Nil: Tube packing Nil: self-clinching terminal type Nil: stable board terminal or, V Z: Tape and reel SA: Standard surface-mount terminal type L: coil latching surface-mount packing(piked SL: High connection reliability surface-mount L: coil latching terminal from the 8/9// SL: terminal type H: Self-clinching SS: Space saving surface-mount terminal type terminal -pin side Notes:. Tape and reel (picked from /3//-pin side) is also available by request. Part number suffix -X is needed when ordering. (ex.) TXSSA-3 V-X. Tape and reel packing symbol "-Z" or "-X" are not marked on the relay. 9 en_ds : J

82 TYPES AND COIL DATA (at C 8 F) ) Standard PC board terminal type and self-clinching terminal type Single side stable Standard PC board terminal coil latching coil latching Part No. Self-clinching terminal Pick-up (max.) Drop-out (min.) operating current, ma (±%) Notes:. Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.. Standard packing: Tube: pcs.; Case:, pcs. Coil resistance, Ω (±%) operating power, mw TX-S Allowable TXS-.V TXS-H-.V TXS-3V TXS-H-3V TXS-.V TXS-H-.V TXS-V TXS-H-V TXS-9V TXS-H-9V , 3. TXS-V TXS-H-V 9...,88 8 TXS-V TXS-H-V ,9 7 3 Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset () operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw Allowable TXS-L-.V TXS-L-H-.V TXS-L-3V TXS-L-H-3V TXS-L-.V TXS-L-H-.V TXS-L-V TXS-L-H-V.8.8.8,9 3 9 TXS-L-9V TXS-L-H-9V , TXS-L-V TXS-L-H-V , 3 8 TXS-L-V TXS-L-H-V , 3 Standard PC board terminal Part No. Self-clinching terminal Set (max.) Reset () operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw Allowable TXS-L-.V TXS-L-H-.V TXS-L-3V TXS-L-H-3V TXS-L-.V TXS-L-H-.V TXS-L-V TXS-L-H-V TXS-L-9V TXS-L-H-9V , TXS-L-V TXS-L-H-V ,7 7 8 TXS-L-V TXS-L-H-V ,8 3 Signal ) Surface-mount terminal type Single side stable Part No. Pick-up (max.) Drop-out (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw Allowable TXSS -. V TXSS -3 V TXSS -. V TXSS - V TXSS -9 V , 3. TXSS - V 9...,88 8 TXSS - V ,9 7 3 en_ds : J 97

83 TX-S coil latching Part No. coil latching Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) : For each surface-mounted terminal variation, input the following letter. SA type: A, SL type: L, SS type: S Notes:. Specified value of pick-up, drop-out, set and reset voltage is with the condition of square wave coil pulse.. Standard packing: Tube: pcs. ; Case:, pcs. 3. Tape and reel packing is also available for surface-mount type by request. Part number suffix "-X" or "-Z" is needed when ordering. In this case, "X" or "Z" are not marked on the relay. Quantity in tape and reel: pcs. (ex.) TXSSA-3V-X TXSSA-L-3V-Z Picked from the /3//-pin side Picked from the 8/9//-pin side operating power, mw Allowable TXSS -L-. V TXSS -L-3 V TXSS -L-. V TXSS -L- V.8.8.8,9 3 9 TXSS -L-9 V , TXSS -L- V , 3 8 TXSS -L- V , 3 Part No. Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw Allowable TXSS -L-. V TXSS -L-3 V TXSS -L-. V TXSS -L- V TXSS -L-9 V , TXSS -L- V ,7 7 8 TXSS -L- V ,8 3 DIMENSIONS mm inch. Single side stable and coil latching type Standard PC board terminal PC board pattern (Copper-side view) dia dia.8. Tolerance: ±. ±. Schematic (Bottom view) Single side stable (Deenergized condition) Direction indication* coil latching (Reset condition) - *Orientation stripe located on top of relay Direction indication* Self clinching terminal General tolerance: ±.3 ±. 98 en_ds : J

84 TX-S Surface-mount terminal SA type Suggested mounting pad (Top view) For glue-pad Schematic (Top view) Single side stable (Deenergized condition) Direction indication mm inch coil latching (Reset condition) Direction indication SL type Signal SS type General tolerance: ±.3 ±. Tolerance: ±. ±.. Coil latching type Standard PC board terminal Self clinching terminal PC board pattern (Copper side view) dia -.39 dia.8. Tolerance: ±. ±. Schematic (Bottom view) coil latching (Reset condition) Direction indication* General tolerance: ±.3 ±. Surface-mount terminal SA type Suggested mounting pad (Top view) For glue-pad Schematic (Top view) coil latching (Reset condition) Direction indication 3 SL type SS type General tolerance: ±.3 ±. Tolerance: ±. ±. en_ds : J 99

85 TX-S REFERENCE DATA. Maximum switching capacity. Life curve 3. Mechanical life Tested sample: TXS-.V, pcs. Operating frequency: 8 cpm Contact current, A DC resistive load Contact V No. of operations resistive load.. Switching current, A Ratio against the rated %V Pick-up voltage Drop-out voltage,, No. of operations,. Electrical life ( A resistive load) Tested sample: TXS-.V, pcs. Operating frequency: cpm Change of pick-up and drop-out voltage Change of contact resistance -(). Coil temperature rise Tested sample: TXS-.V, pcs. Point measured: Inside the coil Ambient temperature: C 77 F, 7 C 8 F Ratio against the rated %V Pick-up voltage Drop-out voltage Contact resistance, mω Temperature rise, C + C +77 F :x +7 C +8 F :x A A A A No. of operations, No. of operations, 9 Coil applied %V -(). Coil temperature rise Tested sample: TXS-V, pcs. Point measured: Inside the coil Ambient temperature: C 77 F, 7 C 8 F -(). Operate and release time (with diode) Tested sample: TXS-.V, pcs. -(). Operate and release time (without diode) Tested sample: TXS-.V, pcs. Temperature rise, C + C +77 F :x +7 C +8 F :x A A A A Operate and release time, ms 7 3 Operate time Release time Operate and release time, ms 7 3 Operate time Release time 9 Coil applied %V 8 9 Coil applied %V 8 9 Coil applied %V 7. Distribution of pick-up and drop-out voltage Tested sample: TXS-.V, pcs. 8. Distribution of set and reset voltage Tested sample: TXS-.V pcs. 9. Ambient temperature characteristics Tested sample: TXS-.V pcs. Quantity 3 Drop-out voltage Pick-up voltage Quantity Set voltage Reset voltage Rate of change, % Pick-up voltage Ambient - temperature, C - - Drop-out voltage x x 8 Ratio against the rated %V 8 Ratio against the rated %V en_ds : J

86 . Distribution of contact resistance Tested sample: TXS-.V, pcs. (x contacts) -(). High frequency characteristics Tested sample: TXS-.V, pcs. Isolation characteristics -(). High frequency characteristics Tested sample: TXS-.V, pcs. Insertion loss characteristics TX-S 3 9 Quantity 8 7 Terminal No. -, (BOTTOM VIEW) Terminal No. 3-, 9- Isolation, db Insertion loss, db Signal Contact resistance, mω, Frequency, MHz, Frequency, MHz -(). Malfunctional shock (single side stable) Tested sample: TXS-.V, pcs. Z Y Y Z X X Y m/s X m/s m/s Y Deenergized condition Energized condition Z m/s m/s m/s Z X -(). Malfunctional shock (latching) Tested sample: TXS-L-.V, pcs. Z Y Y m/s Z X Reset state X Y Set state m/s X Z m/s m/s m/s Z X m/s Y 3. Thermal electromotive force Tested sample: TXS-.V, pcs. Quantity Thermal electromotive force, µv -(). Influence of adjacent mounting Tested sample: TXS-.V, pcs. Rate of change, % Rate of change, % Pick-up voltage Drop-out voltage ON ON ON OFF OFF OFF Inter-relay distance, mm inch -(). Influence of adjacent mounting Tested sample: TXS-.V, pcs. Rate of change, % Rate of change, % Pick-up voltage Drop-out voltage ON ON ON OFF OFF OFF Inter-relay distance, mm inch -(3). Influence of adjacent mounting Tested sample: TXS-.V, pcs. Rate of change, % Rate of change, % - - Pick-up voltage ON ON ON Drop-out voltage OFF OFF OFF ON - OFF Inter-relay distance, mm inch. Pulse dialing test Tested sample: TXS-.V, pcs. (3 ma 8 wire spring relay load) Change of pick-up and drop-out voltage Change of contact resistance +.8 µf DC8V - 8Ω.8 µf 8Ω Wire spring relay 3 Ratio against the rated %V Pick-up voltage Drop-out voltage Contact resistance, mω No. of operation, No. of operation, Note: Data of surface-mount type are the same as those of PC board terminal type. en_ds : J

87 TX-S NOTES. Packing style ) The relay is packed in a tube with the relay orientation mark on the left side, as shown in the figure below. Stopper (gray) Orientation (indicates PIN No.)stripe Stopper (green) ) Tape and reel packing (surface-mount terminal type) () Tape dimensions (i) SA type mm inch Relay polarity bar (Z type) TX/TX-D/TX-S -SMD relays (ii) SL type +.. dia dia Tape coming out direction A D C B mm inch () Dimensions of plastic reel dia. dia. dia. dia mm inch dia dia. 37 dia dia Relay polarity bar (Z type) +.. dia dia TX/TX-D/TX-S -SMD relays Tape coming out direction (iii) SS type mm inch Relay polarity bar (Z type) +.. dia dia dia..87 dia TX/TX-D/TX-S -SMD relays Tape coming out direction For Cautions for Use, see Relay Technical Information (page 39). en_ds : J

88 High-Frequency Relays

89 RA (ARA). GHz SMALL MICROWAVE RELAYS RA RELAYS (ARA) FEATURES mm inch. High frequency characteristics (Impedance Ω, ~.GHz) Insertion loss;.3db Isolation; db (Between open contacts) db (Between contact sets) V.S.W.R.;.. Surface mount terminal This relay is a surface-mounted model with excellent high-frequency properties. In addition, it can use a microstrip line in the base circuit design which spares the labor of machining the base. 3. Low profile small type 9.7(W).7(L).9(H) mm.38(w).79(l).3(h) inch. High sensitivity: mw nominal operating power. High contact reliability Electrical life: 7 (ma ) TYPICAL APPLICATIONS Measurement instruments Oscilloscope attenuator circuit SPECIFICATIONS Contact Arrangement Contact material Initial contact resistance Rating High frequency characteristics (~GHz, Impedance Ω) operating power Expected life (min. operation) Contact rating (resistive) Contact carrying power switching voltage switching current Form C Gold-clad silver alloy 7mΩ ma A 3W (at.ghz, impedance Ω, V.S.W.R. max..) A Isolation Between open contacts db Between contact sets db Insertion loss.3db V.S.W.R.. Input power Single side stable coil latching coil latching 3W (at.ghz, impedance Ω, V.S.W.R. max..) mw (. to V) mw (V) mw (8V) 7 mw (. to V) mw (V) mw (. to V) mw (V) Mechanical (at 8 cpm) 8 Electrical (at cpm) ma (resistive load) A (resistive load) 7 Characteristics Initial insulation resistance * Between open contacts Initial Between contact sets breakdown Between contact and coil voltage * Between contact and earth terminal Operate time [Set time] * 3 (at C) Release time (without diode) [Reset time] * 3 (at C) MΩ (at ) 7 Vrms for min., Vrms for min., Vrms for min., Vrms for min. ms (Approx. ms) [ ms (Approx. ms)] ms (Approx. ms) [ ms (Approx. ms)] Temperature rise (at C) * C Shock resistance Vibration resistance Conditions for operation, transport and storage * 8 (Not freezing and condensing at low temperature) Unit weight Functional * m/s Destructive *, m/s Functional * 7 Destructive Ambient temp Humidity to Hz at double amplitude of 3mm to Hz at double amplitude of mm C to +8 C F to +8 F to 8% R.H. Approx. g.7oz Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 operating voltage applied to the coil, excluding contact bounce time. * By resistive method, nominal voltage applied to the coil: 3W contact carrying power: at.ghz, Impedance Ω, V.S.W.R.. * Half-wave pulse of sine wave: ms, detection time: µs. * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). en_ds_8_: J

90 ORDERING INFORMATION RA (ARA) Ex. A RA A 3 Product name Contact arrangement RA : Form C Operating function : Single side stable : coil latching : coil latching Type of operation : Standard type (B.B.M) Terminal shape A: Surface-mount terminal Coil H:. 3: 3 H:. : : 9: 9 : : 8: 8 Note: Packing style; Nil: Tube packing pcs. in an inner package,, pcs. in an outer package Z: Tape and reel packing pcs. in an inner package,, pcs. in an outer package Packing style Nil: Tube packing X: Tape and reel packing (picked from //3 pin side) Z: Tape and reel packing (picked from 8/9/ pin side) TYPES ANE COIL DATA (at C 8 F) Single side stable type Part No. coil latching type coil latching type Pick-up (max.) (initial) Drop-out (min.)(initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable ARAAH(Z) ARAA3(Z) ARAAH(Z) ARAA(Z) ARAA(Z) ARAA9(Z) ARAA(Z) 9.,8.7 8 ARAA(Z) 8., ARAA8(Z) , Part No. Set (max.) (initial) Reset (max.) (initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable ARAAH(Z) ARAA3(Z) ARAAH(Z) ARAA(Z) ARAA(Z) ARAA9(Z) 9.7.7, ARAA(Z) 9 9, ARAA(Z) 8 8,7. 3 Part No. Set (max.) (initial) Reset (max.) (initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable ARAAH(Z) ARAA3(Z) ARAAH(Z) ARAA(Z) ARAA(Z) ARAA9(Z) ARAA(Z) 9 9,8.7 8 ARAA(Z) 8 8, High-Frequency en_ds_8_: J

91 RA (ARA) DIMENSIONS Soldering with PC board earth ( ribs) A (S = :) A.. Coplanarity of terminals & ribs..8 Tolerance: ±.3 ±. Schematic (Top view) Single side stable coil latching coil latching Suggested Mounting Pads (Top view) Single side stable coil latching for glue pad earth mm inch for glue pad earth Direction indication (Deenergized condition) (Reset condition) (Reset condition).. coil latching for glue pad earth Tolerance: ±. ±. REFERENCE DATA -(). High frequency characteristics (Impedance Ω) Sample: ARAA Measuring method: Measured with HP network analyzer (HP873C). V.S.W.R. Insertion loss Isolation. COM-NO V.S.W.R...3. Insertion loss, db..3.. COM-NC Isolation, db COM-NC COM-NO CONTACT sets. COM-NC.8 8 COM-NO. khz.ghz.ghz Frequency. khz.ghz.ghz Frequency khz.ghz.ghz Frequency en_ds_8_: J

92 -(). High frequency characteristics (Impedance 7Ω) Sample: ARAA Measuring method: Measured with HP network analyzer (HP873C). RA (ARA) V.S.W.R. Insertion loss Isolation. V.S.W.R...3. COM-NC COM-NO Insertion loss, db... Isolation, db COM-NC COM-NO CONTACT sets khz.ghz.ghz khz.ghz.ghz khz.ghz.ghz Frequency Frequency Frequency For Cautions for Use, see Relay Technical Information (page 39). High-Frequency en_ds_8_: J 7

93 RD (ARD).GHz, 8GHz COAXIAL SWITCH FEATURES. Excellent high frequency characteristics (SPDT, transfer) up to. GHz.. SPDT, transfer and SPST type is available 3. High sensitivity operating power: 8 mw (SPDT, Failsafe type) mw (Transfer, Failsafe type). Long life: (SPDT, transfer). Latching type is also available RD COAXIAL SWITCHES (ARD) TYPICAL APPLICATIONS Wireless and mobile communication Cellular phone base stations Amplifier switching Digital broadcasting Broadcasting equipment Measurement instruments All types of inspection equipment SPECIFICATIONS Contact Arrangement SPDT Transfer SPST Contact material Gold plating Initial contact resistance mω Rating Contact input power* (V.S.W.R.. or less, no contact switching, W 3GHz ambient temperature C [SPDT], C [Transfer]) # Indicator rating High frequency characteristics (Impedance Ω) Expected life (min. operation) # Factors such as heating of the connected connector influence the high frequency characteristics; therefore, please verify under actual conditions of use. # 8 to. GHz characteristics apply to the. GHz type only. Characteristics W.GHz (V.S.W.R.. or less, no contact switching) W.GHz (V.S.W.R.. or less, no contact switching when cooling fan is used) Contact rating V ma V ma Initial contact resistance Ω (Measured by V ma) 8 to to GHz to to 8 8 to.. to 8. # V.S.W.R. (max.) Insertion loss (db, max.) See REFERENCE DATA Isolation (db, min.) Mechanical (at 8 cpm) Electrical (at cpm) (W, to 3GHz, impedance Ω, V.S.W.R.; max..) (8W, to.ghz, impedance Ω, V.S.W.R.; max.., ambient temperature; max. C F) SPDT Transfer SPST Initial insulation resistance*, MΩ (at ) Between open contacts Vrms for min. Initial breakdown Between contact and coil Vrms for min. voltage* 3 Between contact and earth terminal Vrms for min. Between coil and earth terminal Vrms for min. Operate time* (at C) ms ms ms Shock resistance Functional* m/s {G} m/s {G} Destructive*, m/s {G} Vibration resistance Functional* 7 to Hz at double amplitude of 3mm Destructive to Hz at double amplitude of mm Conditions for operation, transport and storage* 8 Ambient temp C to +8 C 7 F to +8 F (Not freezing and condensing at low temperature) Humidity to 8% R.H. Unit weight (Approx.) g.7oz g 3.88oz g.7oz Remarks * Please verify the usability of input power under actual conditions because heat * Half-wave pulse of sine wave: ms, detection time: µs. generated from connectors can influence connection. * Half-wave pulse of sine wave: ms * Measurement at same location as Initial breakdown voltage section. * 7 Detection time: µs * 3 Detection current: ma * 8 Refer to. Conditions for operation, transport and storage mentioned in * operating voltage applied to the coil, excluding contact bounce time. AMBIENT ENVIRONMENT (page 8). 8 en_ds_9_: J

94 ORDERING INFORMATION RD (ARD) Ex. A RD Product name RD Frequency : to 3GHz (SPST) : to 8GHz (SPDT) : to 8GHz (Transfer) : to.ghz (SPDT) : to.ghz (Transfer) Operating function : Failsafe : Latching (SPST) : Latching (SPDT, Transfer) : Latching with TTL driver (with self cut-off function) (SPDT, Transfer) Note: Sealed types are also available. (SPDT type only) operating H:.V (Failsafe, Latching type only) : V (Latching with TTL driver type only) : V : V Operation terminal Nil: Solder terminal (SPDT, Transfer), Lead wire (SPST) C: Connector cable (SPDT type only) HF data attached (SPDT, Transfer) Nil: No HF test data attached Q: HF test data attached TYPES. SPDT ) Solder terminal Operating function operating No HF datasheet attached 8GHz type HF datasheet attached No HF datasheet attached.ghz type HF datasheet attached. ARDH ARDHQ ARDH ARDHQ Failsafe ARD ARDQ ARD ARDQ ARD ARDQ ARD ARDQ. ARDH ARDHQ ARDH ARDHQ Latching ARD ARDQ ARD ARDQ ARD ARDQ ARD ARDQ ARD ARDQ ARD ARDQ Latching with TTL driver ARD ARDQ ARD ARDQ (with self cut-off function) ARD ARDQ ARD ARDQ Note: Standard packing; Carton: pc. Case: pcs. High-Frequency ) Connector cable Operating function. ARDHC ARDHCQ ARDHC ARDHCQ Failsafe ARDC ARDCQ ARDC ARDCQ ARDC ARDCQ ARDC ARDCQ. ARDHC ARDHCQ ARDHC ARDHCQ Latching ARDC ARDCQ ARDC ARDCQ ARDC ARDCQ ARDC ARDCQ ARDC ARDCQ ARDC ARDCQ Latching with TTL driver ARDC ARDCQ ARDC ARDCQ (with self cut-off function) ARDC ARDCQ ARDC ARDCQ Note: Standard packing; Carton: pc. Case: pcs.. Transfer ) Solder terminal Operating function operating operating No HF datasheet attached No HF datasheet attached 8GHz type 8GHz type HF datasheet attached HF datasheet attached No HF datasheet attached No HF datasheet attached.ghz type.ghz type HF datasheet attached HF datasheet attached. ARDH ARDHQ ARDH ARDHQ Failsafe ARD ARDQ ARD ARDQ ARD ARDQ ARD ARDQ. ARDH ARDHQ ARDH ARDHQ Latching ARD ARDQ ARD ARDQ ARD ARDQ ARD ARDQ ARD ARDQ ARD ARDQ Latching with TTL driver ARD ARDQ ARD ARDQ (with self cut-off function) ARD ARDQ ARD ARDQ Note: Standard packing; Carton: pc. Case: pcs. en_ds_9_: J 9

95 RD (ARD) 3. SPST Failsafe Latching Operating function Note: Standard packing; Carton: pc. Case: pcs. COIL DATA (at C 8 F). SPDT ) Failsafe type operating ) Latching type operating Part No.. ARDH ARD ARD. ARDH ARD ARD operating current, ma (+%/ %) power consumption, mw operating operating current, ma (+%/ %) power consumption, mw ) Latching with TTL driver type (with self cut-off function) operating TTL logic level (see TTL logic level range) ON OFF. to.v to.v Switching frequency 8 cpm (ON time : OFF time = : ). Transfer ) Failsafe type operating ) Latching type operating current, ma (+%/ %) power consumption, mw operating operating current, ma (+%/ %) power consumption, mw ) Latching with TTL driver type (with self cut-off function) operating 3. SPST ) Failsafe type operating TTL logic level (see TTL logic level range) ON OFF. to.v to.v operating current, ma (+%/ %). 7 Switching frequency 8 cpm (ON time : OFF time = : ) power consumption, mw 8 en_ds_9_: J

96 ) Latching type operating operating current, ma (+%/ %). 7 power consumption, mw Operating voltage range () SPDT, Transfer type ) Failsafe type ) Latching type 3) Latching with TTL driver type (with self cut-off function). V V V 3. V V V 3 V V V RD (ARD) voltage Allowable range for use Recommended operation voltage range Recommended release voltage range Ambient temperature C voltage 8 Allowable range for use Recommended set/reset voltage range Ambient temperature C voltage 8 Allowable range for use Recommended set/reset voltage range Ambient temperature C High-Frequency ) TTL Logic level range. 3.. ON OFF Ambient temperature C Note) Please consult us for use that is outside this range. () SPST type ) Failsafe type ) Latching type. V V V 3. V V V voltage Allowable range for use voltage Allowable range for use 8 Ambient temperature C Ambient temperature C en_ds_9_: J

97 RD (ARD) DIMENSIONS. SPDT ) Solder terminal Solder terminal mm inch NC COM NO Indicator GND + Coil Serial No. -3. dia. -. dia dia. -.9 dia SMA connector Tolerance: ±.3 ±. Failsafe Latching Latching with TTL driver (with self cut-off function) NC COM NO COM COM Indicator terminal GND GND Coil V GND Logic Logic Coil terminal Coil NC COM NO Indicator COM Indicator COM Indicator GND + Coil GND Coil V GND Coil Serial No. Serial No. Serial No. en_ds_9_: J

98 ) Connector cable RD (ARD) mm inch Indicator Coil Pin No. Fail safe NC COM NO GND + Latching COM GND Latching with TTL driver COM V GND Logic Logic Pin No D-sub connector pin contact type 3. dia.. dia. High-Frequency..7 PVC wires NC COM NO Indicator GND + Coil Serial No. -3. dia. -. dia dia. -.9 dia SMA connector Tolerance: ±.3 ±. en_ds_9_: J 3

99 RD (ARD). Transfer mm inch dia. 3-. dia Solder terminal SMA connector J J J3 J to..39 to.9..8 Tolerance: ±.3 ±. J J3 Fail safe Latching Latching with TTL driver J J NC: J-J, J3-J NO: J-J3, J-J POS: J-J, J3-J POS: J-J3, J-J POS: J-J, J3-J POS: J-J3, J-J Failsafe Latching Latching with TTL driver (with self cut-off function) Coil terminal GND Indicator terminal NC COM NO Coil terminal GND Indicator terminal COM Coil terminal V GND Logic Logic Indicator terminal COM en_ds_9_: J

100 RD (ARD) 3. SPST Lead wire length Part No. Fail safe type ARD JAPAN..9 Lot No. Lead wire Coil Lead wire..37 Non polarized relay (without diode) ON OFF..9 C3.3 C Lead wire (Red) Lead wire (Black) Set Latching type Reset Set Reset High-Frequency --UNC-B Tolerance: ±.3 ±. Measuring method (Impedance Ω) (V.S.W.R.) (Insertion loss) (Isolation) The contact must be ON. The contact must be ON. (without DUT board s loss) The contact must be OFF. At that time, conduct measurement with an averaging of times and % smoothing. Measuring equipment Network analyzer HP 8C B A R RF OUT B S parameter A test set R HP 8A RF IN PORT PORT 3.mm calibration kit (HP8B) Port/Connector Port/Connector Connector No. Contents Product name 3.3. ARD JAPAN 3.3. A.. A A A mm testport, Extention cable HP mm coaxial adaptor HP89 SMA adaptor HP.77. Input power test Sample: ARD, Quantity: n = Frequency:. GHz, Ambient temperature: Room temperature Test circuit: Signal generator Circulator Sensor RD coaxial switch SPST type Amplifier Power meter Sample No. No. No. 3 No. No. Attenuator Termination Cooling fan Without With Input power, W : No abnormality for high frequency and operating characteristics were observed after min. power carrying. ( ; Test sequence) en_ds_9_: J

101 RD (ARD) REFERENCE DATA -(). High frequency characteristics (SPDT) Sample: ARD Measuring method: Measured with HP network analyzer (HP8). V.S.W.R. Insertion loss Isolation.9.8. V.S.W.R Insertion loss, db Isolation, db GHz GHz 8GHz.GHz 8GHz.GHz Frequency. GHz GHz 8GHz.GHz 8GHz.GHz Frequency GHz GHz 8GHz.GHz 8GHz.GHz Frequency -(). High frequency characteristics (Transfer) Sample: ARD Measuring method: Measured with HP network analyzer (HP8). V.S.W.R. Insertion loss Isolation V.S.W.R GHz GHz 8GHz.GHz 8GHz.GHz Frequency Insertion loss, db GHz GHz 8GHz.GHz 8GHz.GHz Frequency Isolation, db GHz GHz 8GHz.GHz 8GHz.GHz Frequency -(3). High frequency characteristics (SPST) Measuring method: Measured with HP network analyzer (HP8). V.S.W.R. Insertion loss Isolation. V.S.W.R..8.. Insertion loss, db... Isolation, db MHz GHz GHz 3GHz Frequency. MHz GHz GHz 3GHz Frequency MHz GHz GHz 3GHz Frequency en_ds_9_: J

102 NOTES. Coil connection When connecting coils, refer to the wiring diagram to prevent mis-operation or malfunction. (Only SPST failsafe type is non polarized relay). Connection of coil indicator and washing conditions (SPDT, Transfer) ) The connection of coil indicator terminal shall be done by soldering. Soldering conditions C F (solder temp) within sec (soldering time) C F (solder temp) within 3sec (soldering time) ) This product is not sealed type, therefore washing is not allowed. 3. Other handling precautions. For SMA connectors, we recommend a torque of.9±. N m for installation, which falls within the prescribed torque of MIL-C-39. Please be aware that conditions might be different depending on the connector materials and how it interacts with surrounding materials. For Cautions for Use, see Relay Technical Information (page 39). RD (ARD) High-Frequency en_ds_9_: J 7

103 RE (ARE). GHz SMALL MICROWAVE RELAYS RE RELAYS (ARE) FEATURES mm inch Excellent high frequency characteristics (to.ghz) Type Frequency 9MHz.GHz Impedance Ω Impedance 7Ω V.S.W.R. () Insertion loss (db, ) Isolation (db, ) V.S.W.R. () Insertion loss (db, ) Isolation (db, ) Compact and slim size Size:.(L).(W) 8.9(H)* mm.79(l).(w).(h) inch *Surface-mount terminal is 9. mm.378 inch size. TYPICAL APPLICATIONS. Broadcasting and video markets. Digital broadcasting market STB/tuner market, etc.. Communications market Antennae switching All types of wireless devices Surface-mount type also available SPECIFICATIONS Contact Arrangement Contact material Initial contact resistance Rating High frequency characteristics (Impedance 7Ω) High frequency characteristics (Impedance Ω) Expected life (min. operations) Contact rating Contact carrying power switching voltage switching current V.S.W.R. Insertion loss Isolation V.S.W.R. Insertion loss Isolation Form C Gold mω W (at. GHz [Impedance 7 Ω, V.S.W.R..] [Impedance Ω, V.S.W.R..7]) ma (resistive load) W (at.ghz [Impedance 7 Ω, V.S.W.R..] [Impedance Ω, V.S.W.R..7]). A DC. (to 9MHz). (to.ghz).db (to 9MHz).dB (to.ghz) db (to 9MHz) db (to.ghz).3 (to 9MHz).7 (to.ghz).db (to 9MHz).7dB (to.ghz) db (to 9MHz) db (to.ghz) Mechanical (at 8 cpm) Electrical W,.GHz, [Impedance 7Ω, V.S.W.R. &.] [Impedance Ω, V.S.W.R. &.7] ma (resistive load) (at cpm) 3 3 Coil (at C, 8 F) operating power Characteristics Initial insulation resistance* Between open contacts Initial Between contact and coil breakdown voltage* Between contact and ground terminal Operate time* 3 (at C) Release time (without diode)* 3 (at C) mw MΩ (at ) Vrms, Vrms Vrms ms ms Temperature rise (at C)* C Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight Functional* m/s { G} Destructive*, m/s { G} Functional* 7 Destructive Ambient temp. Humidity to Hz at double amplitude of 3 mm to Hz at double amplitude of mm C to 7 C F to 8 F to 8% R.H. Approx. g.8 oz Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as "Initial breakdown voltage" section. * Detection current: ma * 3 operating voltage applied to the coil, excluding contact bounce time. * By resistive method, nominal voltage applied to the coil: Contact carrying power: W, at.ghz, [Impedance 7Ω, V.S.W.R. &.] [Impedance Ω, V.S.W.R. &.7] * Half-wave pulse of sine wave: ms, detection time: µs. * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). 8 en_ds : J

104 ORDERING INFORMATION RE (ARE) Ex. ARE Contact arrangement Operating function : Form C : Single side stable type (Impedance Ω) 3: Single side stable type (Impedance 7Ω) Terminal shape Nil: Standard PC board terminal A: Surface-mount terminal Note: Tape and reel packing symbol "-Z" is not marked on the relay. "X" type tape and reel packing (picked from 8/9////3/-pin side) is also available. Suffix "X" instead of "Z". Coil voltage (DC) 3: 3 V H:. V : V 9: 9 V : V : V Packing style Nil: Carton packing (Standard PC board terminal only) Tube packing (Surface-mount terminal only) Z: Tape and reel packing (picked from /3/ pin side) TYPES AND COIL DATA (at C 8 F) Single side stable type (Impedance Ω) Packing of standard PC board terminal: pcs. in an inner package (carton); pcs. in an outer package. Packing of surface-mount terminal: pcs. in an inner package (tube); pcs. in an outer package. Packing of surface-mount terminal: pcs. in an inner package (tape and reel); 8 pcs. in an outer package. Standard PC board terminal Surface-mount terminal Single side stable type (Impedance 7Ω) Packing of standard PC board terminal: pcs. in an inner package (carton); pcs. in an outer package. Packing of surface-mount terminal: pcs. in an inner package (tube); pcs. in an outer package. Packing of surface-mount terminal: pcs. in an inner package (tape and reel); 8 pcs. in an outer package. DIMENSIONS Pick-up (max.) (initial) Drop-out (min.)(initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable (at C) ARE3 AREA AREH AREAH ARE AREA ARE9 AREA ARE AREA ARE AREA 8., Standard PC board terminal Surface-mount terminal Pick-up (max.) (initial) Drop-out (min.)(initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable (at C) ARE3 ARE3A ARE3H ARE3AH ARE ARE3A ARE9 ARE3A ARE3 ARE3A ARE3 ARE3A 8., Standard PC board terminal (7Ω, Ω type) mm inch High-Frequency..79 Stand off Schematic (Bottom view) Direction indication NC COM NO (Deenergized condition) (.9) (.9) 7... (.9) (.8) General tolerance: ±.3 ±. en_ds : J 9

105 RE (ARE). Surface mount terminal 7Ω type mm inch (.7) (.8) Schematic (Top view) NC COM 3 9 NO 8 Direction indication 7 (.3) (.) (Deenergized condition) (.9) (.9) 7.. (.9) (.8) General tolerance: ±.3 ±. Ω type (.7) (.8).... Schematic (Top view) NC COM NO Direction indication 7 (Deenergized condition) (.3) (.) (.9) (.9) 7.. (.9) (.8) General tolerance: ±.3 ±. REFERENCE DATA -(). High frequency characteristics (7Ω type) (Standard PC board terminal) V.S.W.R. characteristics Insertion loss characteristics Isolation characteristics. V.S.W.R COM-NO Insertion loss, db COM-NC COM-NO Isolation, db 7 8 COM-NC COM-NO. COM-NC.9 9 9MHz Frequency 3GHz. 9MHz Frequency 3GHz 9MHz Frequency 3GHz en_ds : J

106 -(). High frequency characteristics (Ω type) (Standard PC board terminal) RE (ARE) V.S.W.R. characteristics Insertion loss characteristics Isolation characteristics V.S.W.R COM-NO Insertion loss, db COM-NC Isolation, db COM-NC.3. COM-NC.7.8 COM-NO 7 8 COM-NO..9 9 NOTES 9MHz. Packing style ) Tape dimensions Frequency 3GHz. 9MHz Frequency 3GHz 9MHz Frequency 3GHz High-Frequency dia. Relay polarity bar R.7. RE Relay Tape coming out direction. ±..79 ± ±.3.73 ± ) Dimensions of plastic reel ±.8 dia..87 ±.3 dia. 8 ±. 3. ±. 3 ±. dia.. ±.8 dia. 38 ±..9 ±.8. ±..79 ± For Cautions for Use, see Relay Technical Information (page 39). en_ds : J

107 RJ (ARJ) SMD RELAYS WITH 8GHz CAPABILITIES RJ RELAYS (ARJ) FEATURES TYPICAL APPLICATIONS Excellent high frequency characteristics (Ω, at GHz) V.S.W.R.:. Insertion loss:.db Isolation: 3dB (Between open contacts) db (Between contact sets) Surface mount terminal Surface mount terminals are now standard so there is much less work in designing PC boards. Small size Size:. (L) 9. (W) 8. (H) mm. (L).3 (W).33 (H) inch Measurement equipment market Attenuator circuits, spectrum analyzer, oscilloscope, mobile equipment, tester Mobile telecommunication market IMT, microwave communication Medical instruments market SPECIFICATIONS Contact Arrangement Contact material Initial contact resistance Rating High frequency characteristics (Initial) (~GHz, Impedance Ω) Expected life (min. operations) Coil (at C, 8 F) Contact rating Contact carrying power switching voltage switching current Form C Gold alloy mω W (at GHz, Impedance Ω, V.S.W.R. &.) ma (resistive load) W (at GHz, Impedance Ω, V.S.W.R. &.).3 A DC V.S.W.R.. Insertion loss (without D.U.T. board s loss).db Between open contacts Isolation Between contact sets Input power 3dB db W (at GHz, impedance Ω, V.S.W.R. &., at C) Mechanical (at 8 cpm) 7 Electrical (at cpm) W, at GHz, V.S.W.R. &. ma (resistive load) operating power Single side stable mw coil latching mw Characteristics Initial insulation resistance* Between open contacts Between contact sets Initial Between contact and coil breakdown voltage* Between coil and earth terminal Between contact and earth terminal Operate time [Set time]* 3 (at C) Release time (without diode)[reset time]* 3 (at C) MΩ (at ) Vrms Vrms Vrms Vrms Vrms ms ms Temperature rise (at C)* C Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight Functional* m/s Destructive*, m/s Functional* 7 Destructive Ambient temp. Humidity to Hz at double amplitude of 3 mm to Hz at double amplitude of mm C to 7 C F to 8 F to 8% R.H. Approx. 3 g. oz Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 operating voltage applied to the coil, excluding contact bounce time. * By resistive method, nominal voltage applied to the coil, GHz, V.S.W.R. &. * Half-wave pulse of sine wave: ms, detection time: µs. * Pulse of sine wave: ms. * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). en_ds_33_: J

108 ORDERING INFORMATION RJ (ARJ) Ex. ARJ Contact arrangement Operating function : Form C : Single side stable : coil latching Terminal shape Nil: Standard PC board terminal A: Surface-mount terminal Coil voltage (DC) 3 : 3V H:.V : V : V Packing style Nil: Carton packing X: Tape end reel packing (picked from //3-pin side) Z: Tape and reel packing (picked from /7/8-pin side) Note: Tape and reel packing symbol "-Z" is not marked on the relay. "X" type tape and reel packing (picked from //3-pin side) is also available. Suffix "X" instead of "Z". TYPES AND COIL DATA (at C 8 F). Standard PC board terminal Packing of standard PC board terminal: pcs. in an inner package (carton); pcs. in an outer package Operating function Single side stable Coil Rating, Part No. Standard PC board terminal Pick-up (max.) (initial) Drop-out (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable 3 ARJ ARJH ARJ ARJ ,88. High-Frequency Operating function coil latching Coil Rating, Part No. Standard PC board terminal Set (max.) (initial) Reset (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable 3 ARJ ARJH ARJ ARJ ,8.. Surface-mount terminal Packing of surface-mount terminal: pcs. in an inner package (carton); pcs. in an outer package Packing of surface-mount terminal: pcs. in an inner package (tape and reel); pcs. in an outer package Operating function Single side stable Coil Rating, Carton packing Part No. Tape and reel packing Pick-up (max.) (initial) Drop-out (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable 3 ARJA3 ARJA3Z ARJAH ARJAHZ ARJA ARJAZ ARJA ARJAZ ,88. Operating function coil latching Coil Rating, Carton packing Part No. Tape and reel packing Set (max.) (initial) Reset (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable 3 ARJA3 ARJA3Z ARJAH ARJAHZ ARJA ARJAZ ARJA ARJAZ ,8. en_ds_33_: J 3

109 RJ (ARJ) REFERENCE DATA. High frequency characteristics Sample: ARJA Measuring method: Measured with MEW PC board by HP network analyzer (HP8C). V.S.W.R. characteristics Insertion loss characteristics (without D.U.T. board s loss) V.S.W.R MHz GHz 8GHz Frequency Insertion loss, db MHz GHz Frequency 8GHz Isolation characteristics Isolation, db 7 Between contact sets Between open contact 8 MHz GHz 8GHz Frequency DIMENSIONS. Standard PC board terminal ribs should be soldered with PC board ground A Expansion of A to. to.8 (Typical:.) (Typical:.) Better HF characteristics may be obtained when this portion is soldered with PC board ground. All bottom surface of the base should be touched closely or soldered with PC board ground. Direction indication Schematic (Bottom view) Single side stable coil latching NC 9 + Com Com NO (Deenergized condition) (Reset condition) mm inch Com + 3 NC NO Com General tolerance: ±.3 ±.. Surface mount terminal ribs should be soldered with PC board ground. A Expansion of A to. to.8 (Typical:.) (Typical:.) Better HF characteristics 8. may be obtained when this.33 portion is soldered with PC board ground. Direction indication Schematic (Top view) Single side stable coil latching 9 NC Com Com NO (Deenergized condition) Com NC NO + 3 Com (Reset condition) All bottom surface of the base should be touched closely or soldered with PC board ground. General tolerance: ±.3 ±. en_ds_33_: J

110 NOTES. Tape and reel packing ) Tape dimensions. dia..9 dia to..7. (Accumulation pitch: ) ) Dimensions of plastic reel (.7) (.3).8 dia dia. 3. dia...8 dia to dia dia. 37 dia dia Measuring method (Impedance Ω) Network analyzer HP 8C Connector No. Product name Contents HP 83-3 HP 89 PORT B S parameter A test set R PORT 3. mm testport, Extension cable 3. mm coaxial adaptor (Step ) Calibrate the test system with HP calibration kit [HP8B] (Step ) After calibration, connect the D.U.T. board and measure. Connect Ω terminals on connectors other than those for measurement. Notes). All bottom surface of the base should be touched closely or soldered with PC board ground.. ribs should be soldered with PC board ground. Measuring board ) Dimensions <Surface mount terminal> B A R RF OUT HP 8A RF IN Through hole 8-. dia. 8-. dia. <Standard PC board terminal> -. dia. -.3 dia dia dia dia. -.8 dia. <Calibration board> RJ (ARJ) -. dia. -. dia. -.7 dia. -.7 dia or.. or..7 or.8.9 or ) Material: Glass PTFE double-sided through hole PC board R-737 (Matsushita Electric Works) 3) Board thickness: t =.8 mm ) Copper plating: 8µm Connector (SMA type receptacle) Product name: R (RADIALL) Insertion loss compensation The insertion loss of relay itself is given by subtracting the insertion loss of shortcircuit the Com and the NC (or NO). (signal path and two connectors).7. High-Frequency..8 For Cautions for Use, see Relay Technical Information (page 39). en_ds_33_: J

111 RK. GHz MICROWAVE RELAY RK RELAYS mm inch Excellent high frequency characteristics Isolation: db (at. GHz) Insertion loss:.3db (at 9 MHz) V.S.W.R.:. (at 9MHz) High sensitivity in small size Size: mm inch power consumption: mw (single side stable type) Sealed construction for automatic cleaning Latching types are also available SPECIFICATIONS Contact Arrangement Contact material Initial contact resistance, max. (By HP38A) Rating High frequency characteristics (Impedance Ω) Expected life (min. operations) Coil (at C, 8 F) Single side stable coil latching coil latching switching power switching voltage switching current switching capacity V.S.W.R. Insertion loss Isolation Mechanical. A Electrical W. GHz Form C Gold-clad mω W. A. A W (at. GHz, Impedance Ω). (at 9 MHz).3 db (at 9 MHz) db (at. GHz) 3 operating power mw mw mw Characteristics Initial insulation resistance* Initial breakdown voltage* Operate time [Set time]* 3 (at nominal voltage) Release time (without diode) [Reset time]* 3 (at nominal voltage) * Temperature rise Shock resistance Vibration resistance Between open contacts Between contact and coil Between contact and earth terminal Conditions for operation, transport and storage (Not freezing and condensing at low temperature) Functional* Destructive* Functional* Destructive Ambient temp. Humidity MΩ at Vrms, Vrms Vrms Approx. ms [Approx. ms] Approx. 3 ms [Approx. ms] C with nominal coil voltage across coil and at nominal switching capacity 9 m/s { G} 98 m/s { G} to Hz at double amplitude of 3 mm to Hz at double amplitude of mm - C to 7 C - F to 8 F to 8% R.H. Unit weight Approx.. g. oz Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as "Initial breakdown voltage" section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms, detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs TYPICAL APPLICATIONS Audio visual equipment broadcast satellite tuners VCRs, CATVs, TVs Communication equipment automobile telephones maritime telephones emergency and disaster prevention communications, PCM switches Instrumentation test equipment measuring equipment ORDERING INFORMATION Ex. RK Contact arrangement : Standard type R: R type (See Schematic on next page.) L Operating function Nil: Single side stable L: coil latching L: coil latching Note: Standard packing; Carton: pcs. Case pcs. V Coil DC 3,.,,, 9,, V en_ds_3_: J

112 TYPES AND COIL DATA (at C 8 F) Single side stable type Part No. Pick-up max. Drop-out min. Coil resistance, Ω (±%) operating current, ma operating power, mw RK Maximum. allowable (at C F) RK-3V RKR-3V RK-.V RKR-.V RK-V RKR-V RK-V RKR-V RK-9V RKR-9V RK-V RKR-V RK-V RKR-V 8., coil latching type Part No. Set max. Reset max. Coil resistance, Ω (±%) operating current, ma operating power, mw Maximum. allowable (at C F) RK-L-3V RKR-L-3V RK-L-.V RKR-L-.V RK-L-V RKR-L-V RK-L-V RKR-L-V RK-L-9V RKR-L-9V RK-L-V RKR-L-V RK-L-V RKR-L-V 8 8, High-Frequency coil latching type Part No. Set max. Reset max. Coil resistance, Ω (±%) operating current, ma operating power, mw Maximum. allowable (at C F) RK-L-3V RKR-L-3V RK-L-.V RKR-L-.V RK-L-V RKR-L-V RK-L-V RKR-L-V RK-L-9V RKR-L-9V RK-L-V RKR-L-V RK-L-V RKR-L-V 8 8,.7. en_ds_3_: J 7

113 RK DIMENSIONS PC board pattern (Bottom view) mm inch Single side stable and coil latching 9-.9 dia dia Single side stable and coil latching coil latching Stand-off coil latching -.9 dia. -.3 dia Tolerance: ±. ± Stand-off General tolerance: ±.3 ±. Schematic (Bottom view) Direction indication Single side stable + NC COM NO Direction indication coil latching RESET COM SET Direction indication coil latching RESET COM SET (Deenergized condition) (Reset condition) (Reset condition) REFERENCE DATA.-() High frequency characteristics (Impedance 7Ω) Sample: RK-V Measuring method: Measured with HP network analyzer (HP873C) V.S.W.R. characteristics Insertion loss characteristics Isolation characteristics. COM-NO V.S.W.R..8.. COM-NO Insertion loss, db... COM-NC Isolation, db COM-NO. COM-NC. khz.ghz 3GHz Frequency.8. khz.ghz 3GHz Frequency COM-NC 8 khz.ghz 3GHz Frequency 8 en_ds_3_: J

114 .-() High frequency characteristics (Impedance Ω) Sample: RK-V Measuring method: Measured with HP network analyzer (HP873C) RK V.S.W.R. characteristics Insertion loss characteristics Isolation characteristics. V.S.W.R..8.. COM-NC COM-NO Insertion loss, db... COM-NC COM-NO Isolation, db COM-NO COM-NC khz.ghz 3GHz Frequency. khz.ghz 3GHz Frequency khz.ghz 3GHz Frequency High-Frequency. Coil temperature rise Sample: RK-V, RK-L-V, RK-L-V No. of samples: n = Carrying current: ma Ambient temperature: C 77 F 3.-() Operate/Release time (Single side stable) Sample: RK-V; No. of samples: n = 3.-() Set/Reset time (Latching) Sample: RK-L-V, RK-L-V No. of samples: n = Temperature rise, C 8 RK-L-V RK-V, RK-L-V Operate/Reset time, ms 8 Operate time Release time Set/Reset time, ms 8 Set time Reset time 8 Voltage applied to coil, %V 8 Voltage applied to coil, %V 8 Voltage applied to the coil (%V).-() Mechanical life test (Single side stable) Sample: RK-V; No. of samples: n =.-() Mechanical life test (Latching) Sample: RK-L-V No. of samples: n =.-(3) Mechanical life test Sample: RK-V No. of samples: n = ( contacts) Pick-up/drop-out V 8 Pick-up voltage Drop-out voltage Set/Reset V 8 Contact resistance, mω, No. of operations,, No. of operations,, No. of operations, en_ds_3_: J 9

115 RK. Electrical life test (. A ) Sample: RK-V; No. of samples: n =. Ambient temperature characteristics Sample: RK-V; No. of samples: n = 7. Contact resistance distribution (initial) Sample: RK-V No. of samples: n = ( contacts) Pick-up/drop-out V 8 Pick-up voltage Drop-out voltage Rate of change, % Ambient temperature, C F - Pick-up voltage Drop-out voltage Quantity No. of operations, Contact resistance, mω 8.-() Influence of adjacent mounting Sample: RK-V; No. of sample: n = 8.-() Influence of adjacent mounting Sample: RK-V; No. of samples: n = Rate of change, % Rate of change, % Pick-up voltage Drop-out voltage OFF OFF OFF condition ON ON ON condition Rate of change, % Rate of change, % Pick-up voltage Drop-out voltage OFF OFF OFF condition ON ON ON condition Inter-relay distance, (mm, inch) Inter-relay distance, (mm, inch) For Cautions for Use, see Relay Technical Information (page 39). en_ds_3_: J

116 RP LOW PROFILE HIGH FREQUENCY RELAY RP RELAYS SPECIFICATIONS Contact Arrangement Contact material Movable Stationary Initial contact resistance, max. (By voltage drop. A) Rating High frequency characteristics (Impedance Ω) Expected life (min. operations) Coil (at C, 8 F) switching capacity V.S.W.R. Insertion loss Isolation Mechanical (at 8 cpm) Electrical (at cpm) Voltage type. to mm inch High frequency relay with the low profile of mm.7 inch Excellent high frequency characteristics Isolation: db (at.8 GHz) Insertion loss:.db (at.8 GHz) V.S.W.R.:.3 (at.8 GHz) High sensitivity in small size Size:. 9 mm inch operating power: mw Utilizes tube package for automatic mounting. Self-clinching terminal also available Form C Silver alloy Gold-clad silver mω. A Contact switching power: W (.8 GHz); Contact carrying power: 3 W (. GHz) W (.8 GHz). (at GHz).3 (at.8 GHz). db (at GHz) db (at.8 GHz) db (at GHz) db (at.8 GHz) (. A resistive load) ( W at.8 GHz; V.S.W.R.: max..3) operating power mw 7 mw Characteristics operating speed (at rated load) Initial insulation resistance* cpm, MΩ at Initial breakdown Between open contacts 7 Vrms for min. voltage* Between contacts and coil, Vrms for min. 3 ms Operate time* 3 (at nominal voltage) Release time(without diode)* 3 (at nominal voltage) (Approx.. ms) ms (Approx. ms) C with nominal coil Temperature rise voltage across coil and at nominal switching capacity Shock resistance Functional* m/s { G} Destructive*, m/s { G} Vibration resistance Conditions for operation, transport and storage (Not freezing and condensing at low temperature) Functional* Destructive Ambient temp. Humidity to Hz at double amplitude of 3 mm to Hz at double amplitude of mm - C to 7 C - F to 8 F to 8% R.H. Unit weight Approx. g. oz Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as "Initial breakdown voltage" section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms, detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs High-Frequency TYPICAL APPLICATIONS Antenna switching of mobile phone Switching signal of measuring equipment All types of compact wireless devices ORDERING INFORMATION Ex. RP Contact arrangement Operating function Terminal shape Coil voltage (DC) : Form C Nil: Single side stable Nil: Standard PC board terminal., 3,.,,, 9,, V H: Self-clinching terminal Note: Standard packing; Carton: pcs. Case, pcs. en_ds : J 3

117 RP TYPES ANE COIL DATA (at C 8 F) Standard PC board terminal Part No. DIMENSIONS Self-clinching terminal Pick-up max. Drop-out min. Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw Maximum. allowable RP-.V RP-H-.V RP-3V RP-H-3V RP-.V RP-H-.V RP-V RP-H-V RP-V RP-H-V RP-9V RP-H-9V RP-V RP-H-V 9.,8.7 8 RP-V RP-H-V 8., Standard PC board terminal PC board pattern (Bottom view) mm inch (.) (.) Self-clinching terminal (.) (.) General tolerance: ±.3 ± dia dia Tolerance: ±. ±. Schematic (Bottom view) 3 + Direction indication Deenergized condition REFERENCE DATA. High frequency characteristics Sample: RP-V Measuring method: Impedance Ω Measuring tool:. dia.3 dia. dia.39 dia dia.3 dia. dia.9 dia mm inch PC board Double-sided through hole Material: Glass-epoxy resin t =.mm.39 inch Copper plated thickness: 3 µm Soldering SMA connector V.S.W.R Insertion loss Isolation V.S.W.R NC (Terminal Nos. -). NO (Terminal Nos. -). Insertion loss, db 3 N.O. (Terminal Nos. -) N.C. (Terminal Nos. -) Frequency, GHz Frequency, GHz Frequency, GHz 3 en_ds : J Isolation, db 9 8 7

118 RP. Coil temperature rise Sample: RP-V; No. of samples: n = Carrying current:. A Ambient temperature: C 77 F 3. Operate/release time Sample: RP-9V; No. of samples: n = With diode Without diode Temperature rise, C Time, ms 8 Operate time Release time Time, ms 8 Operate time Release time 8 Coil applied %V. Mechanical life Sample: RP-V; No. of samples: n = 8 Change of pick-up, drop-out voltage 7 8 Coil applied %V. Electrical life (. A ) Sample: RP-V; No. of samples: n = Change of pick-up/drop-out voltage 7 8 Coil applied %V Change of contact resistance High-Frequency Pick-up/drop-out V 8 Pick-up voltage Drop-out voltage, No. of operations, Pick-up/drop-out V 8 Pick-up voltage Drop-out voltage No. of operations, Contact resistance, mω 8 No. of operations,. Ambient temperature characteristics Sample: RP-V; No. of samples: n = 7. Contact resistance distribution (initial) Sample: RP-V; No. of samples: n = Rate of change, % Drop-out voltage Pick-up voltage Ambient - temperature, C - Quantity Contact resistance, mω 8.-() Influence of adjacent mounting Sample: RP-V; No. of samples: n = 8.-() Influence of adjacent mounting Sample: RP-V; No. of samples: n = 8.-(3) Influence of adjacent mounting Sample: RP-V; No. of samples: n = Rate of change, % Rate of change, % OFF Pick-up voltage OFF OFF ON Drop-out voltage ON ON Inter-relay distance, (mm, inch) Rate of change, % Rate of change, % OFF OFF Pick-up voltage OFF ON ON Drop-out voltage ON Inter-relay distance, (mm, inch) Rate of change, % Rate of change, % Pick-up voltage OFF Drop-out voltage ON Inter-relay distance, (mm, inch) en_ds : J 33

119 RP 9. High frequency switching test (. GHz, W) Sample: RP-V; No. of samples: n = Ambient temperature: C 8 F Change of pick-up/drop-out voltage Change of contact resistance Transmission T T T RP relay T ON OFF.s.s.s.s Dummy load (Ω) WD-3 Transmission: RF Tranceiver IC- (ICOH) Pick-up/drop-out V 8 Pick-up voltage Drop-out voltage No. of operations, Contact resistance, mω 8 No. of operations, For Cautions for Use, see Relay Technical Information (page 39). 3 en_ds : J

120 3 GHz SMALL MICROWAVE RELAY RX (ARX) RX RELAYS (ARX) mm inch. Excellent high frequency characteristics (~.GHz, Impedance Ω) Insertion loss:. db or less Isolation: db or more Insertion loss Insertion loss, db...3. COM-NC COM-NO. khz.ghz.ghz3ghz Frequency V.S.W.R./ Return loss:.db or less/.8db or more. High sensitivity operating power: mw 3. Small size Size:.(L).(W) 9.(H) mm.87(l).88(w).37(h) inch *Also available for unit support (contact us for more details). High-Frequency SPECIFICATIONS Contact Arrangement Contact material Initial contact resistance Rating High frequency characteristics (~.GHz, Impedance Ω) Expected life (min. operations) Coil (at C, 8 F) Contact rating Contact carrying power switching voltage switching current V.S.W.R. (Return loss) Insertion loss Isolation Input power Form C Gold mω W (. GHz, Impedance Ω, V.S.W.R.&.) ma (resistive load) W (at C, V.S.W.R.&., Average). A DC. (.8dB). db db W (at C, V.S.W.R.&., Average) Mechanical (at 8 cpm) Electrical ma (resistive load) W. GHz, Impedance Ω, V.S.W.R.&. 3 operating power Single side stable mw coil latching mw coil latching mw Characteristics Initial insulation resistance* Between open contacts Initial Between contact and coil breakdown voltage* Between contact and earth terminal Operate time [Set time]* 3 (at C) Release time (without diode) [Reset time]* 3 MΩ (at ) Vrms, Vrms Vrms ms (Approx. ms) [ ms (Approx. ms)] ms (Approx. 3ms) [ ms (Approx. ms)] Temperature rise (at C)* C Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight Functional* m/s { G} Destructive*, m/s { G} Functional* 7 Destructive Ambient temp. Humidity to Hz at double amplitude of 3 mm to Hz at double amplitude of mm C to 7 C F to 8 F to 8% R.H. Approx. g.8 oz Remarks * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 operating voltage applied to the coil, excluding contact bounce time. * By resistive method, nominal voltage applied to the coil: Contact carrying power: W, at.ghz, Impedance Ω, V.S.W.R.&. * Half-wave pulse of sine wave: ms, detection time: µs. * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). TYPICAL APPLICATIONS Cellular phone base station (W-CDMA, FPLMTS, IMT-, PCS, DCS) Cellular phone-related measurement devices (SP3T/SPT switches, etc) Wireless LAN Wireless Local Loop en_ds_7_: J ORDERING INFORMATION Ex. A Product name RX RX Contact arrangement : Form C Note: Standard packing; Carton: pcs. Case pcs. Operating function : Single side stable : coil latching : coil latching Coil 3: 3 H:. : 9: 9 : : 3

121 RX (ARX) TYPES ANE COIL DATA (at C 8 F) Single side stable type Part No. coil latching type coil latching type DIMENSIONS Pick-up (max.)(initial) Drop-out (min.)(initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable (at C) ARX ARXH ARX ARX ARX ARX 8., Part No. Set (max.)(initial) Reset (max.)(initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable (at C) ARX ARXH ARX ARX ARX ARX 8 8, Part No. Set (max.)(initial) Reset (max.)(initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable (at C) ARX ARXH ARX ARX ARX ARX 8 8,.7. PC board pattern (Bottom view) mm inch dia hole.3 dia hole ( coil latching type only) (.) (.8) 7.. (.7) (.8) R Solder to the PC board earth. General tolerance:.3. Schematic (Bottom view) Tolerance: to. dia. 7-. to.8 dia. Single side stable coil latching coil latching NC COM NO RESET COM SET RESET COM SET (Deenergized condition) (Reset condition) (Reset condition) 3 en_ds_7_: J

122 REFERENCE DATA. High frequency characteristics Sample: ARX Measuring method: Measured with HP network analyzer (HP873C). RX (ARX) The details for the high frequency characteristics and the measurement procedures and conditions are listed in the RX relay test report. V.S.W.R. (Return loss) Insertion loss Isolation Return loss, db COM-NO COM-NC khz.ghz.ghz 3GHz Frequency..... V.S.W.R. Insertion loss, db...3. COM-NC COM-NO. khz.ghz.ghz3ghz Frequency Isolation, db COM-NC 8 COM-NO khz.ghz.ghz 3GHz Frequency High-Frequency For Cautions for Use, see Relay Technical Information (page 39). en_ds_7_: J 37

123 RX (ARX) 38 en_ds_7_: J

124 Polarized Power Relays

125 DE (ADE) SPECIFICATIONS Contact Arrangement Contact material Initial contact resistance, max. (By voltage drop A) Rating (resistive load) Expected life (min. operations) switching capacity switching power switching voltage switching current switching capacity # Mechanical (at cpm) Electrical (at cpm) (resistive load) Electrical (A / V AC resistive)* Coil (at C, 8 F)..9 mm inch Form A A V AC, A, VA*, W V AC, COMPACT HIGH-INSULATION POLARIZED POWER RELAY Form A Form B Silver alloy mω 8A V AC, 8A, VA*, W V AC, FEATURES Conforms to VDE3. Insulating distance between coil and contacts: Clearance 8mm.3 inch Creepage distance 8mm.3 inch Extensive product line-up. Surge voltage between contact and coil kv Form A 8A V AC, 8A, VA*, W V AC, A (A)* 8A (A)* 8A (A)* ma, 7 (AC) (DC) operating power Single side stable mw coil latching mw coil latching mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * A possible for one contact set only with max. VA switching power. Characteristics operating speed Initial insulation resistance* Between open contacts Initial breakdown Between contact sets voltage* Between contact and coil Surge voltage between contact and coil* 3 Operate time [Set time]* VDE DE RELAYS (ADE) Release time (without diode) [Reset time]* Low operating power operating power at mw (Single side stable, coil latching) Compact body saves space Size:.(W).(L).(H) mm.9(w).98(l).9(h) inch UL/CSA, VDE approved cpm (at rated load), MΩ (at ), Vrms, Vrms ( Form A, Form A Form B), Vrms, V (initial) ms (typ. ms) [ ms (typ. ms)] (at C 8 F) ms (typ. ms) [ ms (typ. ms)] (at C 8 F) Temperature rise (at 7 C)* C Shock resistance Vibration resistance Conditions for operation, transport and storage* 9 (Not freezing and condensing at low temperature) Functional* 9 m/s { G} Destructive* 7 98 m/s { G} Functional* 8 Destructive Ambient temp. to Hz at double amplitude of mm to Hz at double amplitude of 3 mm C to 7 C F to 8 F to 8% R.H. Humidity Unit weight Approx. 7 g. oz * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * operating voltage applied to the coil, excluding contact bounce time. * By resistive method * Half-wave pulse of sine wave: ms, detection time: ms. * 7 Half-wave pulse of sine wave: ms * 8 Detection time: ms * 9 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8) en_ds : D

126 TYPICAL APPLICATIONS Temperature controller Automatic meter reading OA equipment FA equipment TYPES AND COIL DATA (at C 8 F) Single side stable type Form A, Form A Form B, Form A Part No. coil latching type Form A coil latching type Form A Pick-up (max.) (initial) Drop-out (min.) (initial) Note: Insert contact arrangement, e.g.a, ab, a, in for contact form required. Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw DE (ADE) allowable DE -.V DE -3V DE -.V DE -V 3... DE -V DE -9V DE -V DE -V.8., DE -8V ,.. Part No. Set (max.) (initial) Reset (min.) (initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable DE -L-.V DE -L-3V DE -L-.V DE -L-V DE -L-V DE -L-9V DE -L-V 8. 8., 8.3. DE -L-V.8.8,7. 3. Part No. Set (max.) (initial) ORDERING INFORMATION Reset (min.) (initial) Ex. DE a L 3 Product name Contact arrangement Operating function Coil DE a: Form A ab: Form A Form B a: Form A Nil: Single side stable L: coil latching L: coil latching., 3,.,,, 9,,, 8** Notes: ) Standard packing; Carton (tube package) pcs. Case pcs. ) UL/CSA, VDE approved type is standard. Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable Set coil Reset coil Set coil Reset coil Set coil Reset coil DE -L-.V DE -L-3V DE -L-.V DE -L-V DE -L-V DE -L-9V DE -L-V DE -L-V.8.8,88, V **just for single side stable Polarized Power en_ds : D

127 DE (ADE) DIMENSIONS Single side stable coil latching type PC board pattern (Bottom view) Single side stable coil latching type coil latching type mm inch dia -.7 dia dia 8-.7 dia dia. dia coil latching type ( Form A) Tolerance : ±. ±. Schematic (Bottom view) Single side stable ( Form A Form B) ( Form A) dia. dia... dia. dia Tolerance: ±.3 ±. (,: dummy terminal) ( Form A) 3 8 (,: dummy terminal) ( Form A) (Deenergized condition) coil latching type ( Form A Form B) 3 8 (Reset condition) coil latching type ( Form A Form B) ( Form A) 3 8 ( Form A) (,: dummy terminal) (Reset condition) REFERENCE DATA. switching power. Life curve 3. Coil Temperature Rise Current (A) Contact load (A) Coil Temperature Rise (K) Contact voltage No. of operations Coil Temperature Rise (% of nominal) en_ds : D

128 -. Operate/release time ( Form A) Tested sample: DEa-V Quantity: n= -. Operate/release time ( Form A Form B) Tested sample: DEab-V, Quantity: n= DE (ADE) -3. Operate/release time ( Form A) Tested sample: DEa-V, Quantity: n= Operate/release time, ms 9 8 Operate time 7 x 3 x Release time (With diode) x Release time Coil applied %V Operate/release time, ms 7 3 Release time (With diode) Operate time Release time x x x Coil applied %V Operate/release time, ms 8 7 Operate time Max x Ṁax. x 3 Release time (With diode) x Release time Coil applied %V -. Ambient temperature characteristics ( Form A) Tested sample: DEa-V, Ambient temperature: C to 8 C F to 7 F, Quantity: n= -. Ambient temperature characteristics ( Form A Form B) Tested sample: DEab-V, Ambient temperature: C to 8 C F to 7 F, Quantity: n= -3. Ambient temperature characteristics ( Form A) Tested sample: DEa-V, Ambient temperature: C to 8 C F to 7 F, Quantity: n= Rate of change, V% Drop-out voltage Pick-up voltage 8 7 Ambient temperature, C F Rate of change, V% Drop-out voltage Pick-up voltage Ambient temperature, C F Rate of change, V% Drop-out voltage 8 Pick-up voltage 8 7 Ambient temperature, C F Polarized Power Change of contact resistance Contact resistance (mω) No. of operations For Cautions for Use, see Relay Technical Information (page 39). en_ds : D 3

129 DJ (ADJ) Without test button With test button A, COMPACT AND HIGH INSULATION POWER LATCHING RELAY FEATURES. Variety of contact arrangements Wide lineup of Form C, Form A, Form B, Form C, Form A, Form B, Form A Form B.. Latching operation Latching via a polarized magnetic circuit structure allows remote operation and lower energy consumption 3. Compact with high capacity A (-pole type) contact rating in a compact 9 3. mm (L W H) size.. Low power consumption coil latching: mw coil latching, single side stable: mw VDE pending DJ RELAYS (ADJ). High insulation Both clearance and creepage distance between coil and contact are at 8 mm min.. With operation verification function A test button (manual lever) type to facilitate circuit checks is also available ( Form C, Form A, Form B types only). TYPICAL APPLICATIONS FA equipment (brake circuits of industrial machine and robots, etc.) Electric power devices (remote surveillance devices, etc.) Household appliance networks (Motor control and lighting control, etc.) Time switches SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating (resistive load) Expected life (min. operations) Coil operating power switching capacity switching power switching voltage switching current switching capacity # Mechanical (at 8 cpm) Electrical (Resistive load)* (at cpm) Form C, Form A, Form B, Form A Form B, Form C, Form A, Form B mω Silver alloy A V AC ( Form C, Form A, Form B) A V AC ( Form C, Form A, Form B, Form A Form B), V A V AC A ma, Form C, Form A, Form B: (at A V AC) Form C, Form A, Form B, Form A Form B: : (at A V AC) coil latching mw Single side stable, coil latching mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * With breathing holes open * Measurement at same location as Initial breakdown voltage section. * 3 Detection current: ma * Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time. * By resistive method, max. switching current * 7 Half-wave pulse of sine wave: ms; detection time: µs * 8 Half-wave pulse of sine wave: ms * 9 Detection time: µs * Refer to. Conditions for operation, transport and storage mentioned in NOTES (page ). Characteristics Initial insulation resistance* Initial breakdown voltage* 3 Between open contacts Between contacts and coil, MΩ (at ), Vrms for min., Vrms for min. Surge voltage between contact and coil*, V (initial) Operate time [Set time]* (at nominal voltage) Approx. ms Release time [Reset time]* (at nominal voltage) Approx. ms Temperature rise (at 7 C)* C Shock Functional* 7 m/s { G} resistance Destructive* 8, m/s { G} Vibration resistance Conditions for operation, transport and storage* (Not freezing and condensing at low temperature) Unit weight Functional* 9 Destructive Ambient temperature Humidity to Hz at double amplitude of.mm to Hz at double amplitude of 3.mm C to +7 C F to +8 F to 8% R.H. Approx. g.9 oz en_ds_9_: D

130 ORDERING INFORMATION DJ (ADJ) Ex. ADJ Contact arrangement Operating function and protective construction Auxiliary function Coil voltage (DC) : Form C : Form A 3: Form B : Form A Form B : Form C : Form A 7: Form B : coil latching, Flux-resistant type* : coil latching, Sealed type 3: coil latching, Flux-resistant type* : coil latching, Sealed type : Single side stable, Flux-resistant type* : Single side stable, Sealed type : Without test button : With test button : V : V : V : V 8: 8 V Notes: Standard packing: Carton: pcs, Case: pcs *Only available with test button TYPES. Without test button Sealed type Contact arrangement Form C Form A Form B Form A Form B Form C Form A Form B Coil Single side stable type coil latching type coil latching type Part No. Part No. Part No. ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ 8 ADJ8 ADJ8 ADJ8 ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ 8 ADJ8 ADJ8 ADJ8 ADJ3 ADJ3 ADJ3 Please use Form A. Please use Form A. ADJ3 8 ADJ38 ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ 8 ADJ8 ADJ8 ADJ8 ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ 8 ADJ8 ADJ8 ADJ8 ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ 8 ADJ8 ADJ8 ADJ8 ADJ7 ADJ7 ADJ7 Please use Form A. Please use Form A. ADJ7 8 ADJ78 Polarized Power en_ds_9_: D

131 DJ (ADJ). With test button Flux-resistant type Contact arrangement Form C Form A Form B Coil Single side stable type coil latching type coil latching type Part No. Part No. Part No. ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ3 ADJ ADJ ADJ3 8 ADJ8 ADJ8 ADJ38 ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ ADJ3 ADJ ADJ ADJ3 8 ADJ8 ADJ8 ADJ38 ADJ ADJ ADJ3 Please use Form A. Please use Form A. ADJ3 8 ADJ38 COIL DATA (at C 8 F) Single side stable type coil latching type coil latching type Set max. (initial) Reset max. (initial) Coil resistance, Ω (±%) operating power, mw allowable , ,. Set max. (initial) Reset max. (initial) Coil resistance, Ω (±%) operating power, mw allowable , ,3. Set max. (initial) Reset max. (initial) Coil resistance, Ω (±%) operating power, mw allowable , ,. en_ds_9_: D

132 DIMENSIONS DJ (ADJ) mm inch. Form C, without test button PC board pattern (Bottom view).. Single side stable type coil latching type coil latching type dia..9 dia coil latching type only Tolerance: ±. ±. General tolerance: ±.3 ±. Schematic (Bottom view) Single side stable type + 8 coil latching type +8 coil latching type Polarized Power. Form C, with test button mm inch Single side stable type coil latching type coil latching type PC board pattern (Bottom view) dia..9 dia coil latching type only.8. Tolerance: ±. ±. General tolerance: ±.3 ±. Single side stable type + 8 Schematic (Bottom view) coil latching type +8 coil latching type en_ds_9_: D 7

133 DJ (ADJ) 3. Form A, without test button PC board pattern (Bottom view) coil latching type coil latching type Single side stable type coil latching type coil latching type. dia..9 dia. Single side stable type dia..9 dia. coil latching type coil latching type Single side stable type only coil latching type only Tolerance: ±. ±. General tolerance: ±.3 ±. Single side stable type +8 Schematic (Bottom view) coil latching type +8 coil latching type Form A, with test button PC board pattern (Bottom view) coil latching type coil latching type Single side stable type coil latching type coil latching type dia..9 dia... Single side stable type dia..9 dia coil latching type coil latching type Single side stable type only coil latching type only Tolerance: ±. ±. General tolerance: ±.3 ±. Single side stable type +8 Schematic (Bottom view) coil latching type +8 coil latching type Form B, without test button mm inch PC board pattern (Bottom view).... Single side stable type dia..9 dia Tolerance: ±. ± General tolerance: ±.3 ±. Schematic (Bottom view) en_ds_9_: D

134 . Form B, with test button DJ (ADJ) PC board pattern (Bottom view).3.8 Single side stable type dia..9 dia Tolerance: ±. ± General tolerance: ±.3 ±. Schematic (Bottom view) Form A Form B, without test button.... Single side stable type coil latching type coil latching type PC board pattern (Bottom view). dia..9 dia coil latching type only.8. Polarized Power Tolerance: ±. ±. General tolerance: ±.3 ±. Schematic (Bottom view) Single side stable type coil latching type coil latching type en_ds_9_: D 9

135 DJ (ADJ) 8. Form C, without test button mm inch PC board pattern (Bottom view) Single side stable type coil latching type coil latching type dia..9 dia coil latching type only.8. Tolerance: ±. ±. General tolerance: ±.3 ±. Single side stable type Schematic (Bottom view) coil latching type coil latching type Form A, without test button PC board pattern (Bottom view). dia..9 dia Single side stable type coil latching type coil latching type coil latching type only Tolerance: ±. ± General tolerance: ±.3 ±. Schematic (Bottom view) Single side stable type coil latching type coil latching type Form B, without test button PC board pattern (Bottom view). dia..9 dia..... Single side stable type Tolerance: ±. ± General tolerance: ±.3 ±. Schematic (Bottom view) Single side stable type en_ds_9_: D

136 REFERENCE DATA. switching capacity. Temperature rise Sample: ADJ, pcs. Coil applied voltage: %V, Contact current: A, A Measured portion: Contact, Ambient temperature: C 77 F, 8 C 8 F DJ (ADJ) 3. Coil temperature rise Sample: ADJ, pcs. Coil applied voltage: %V, %V of rating Contact current: A, A Measured portion: Inside the coil, Ambient temperature: Room temperature, 7 C 8 F Contact current, A AC resistive load (-pole) AC resistive load (-pole) Temperature rise, C 3 + C +8 C Temperature rise, C A room temperature A 7 C A room temperature A 7 C, Contact V Contact current, A 9 Coil applied %V. Set and Reset time Sample: ADJ, pcs Coil applied voltage: 8 %V, %V, %V of rating Set and Reset time, ms x. Ambient temperature characteristics Sample: ADJ, pcs Ambient temperature: C to 8 C F to 8 F Change rate to nominal V, %V Ambient temperature, C - - Set Reset. Influence of adjacent mounting Sample: ADJ, pcs Ambient temperature: Room temperature Change rate to nominal V, %V Set voltage Reset voltage OFF OFF OFF Polarized Power Coil applied %V - 8 Distance between relays, mm NOTES. Coil operating power Pure DC current should be applied to the coil. The wave form should be rectangular. If it includes ripple, the ripple factor should be less than %. However, check it with the actual circuit since the characteristics may be slightly different.. Coil connection When connecting coils, refer to the wiring diagram to prevent mis-operation or malfunction. 3. Soldering We recommend the following soldering conditions Soldering: C 8 F, max. s. Others ) If the relay has been dropped, the appearance and characteristics should always be checked before use. ) The cycle lifetime is defined under the standard test condition specified in the JIS* C -99 standard (temperature to 3 C 9 to 9 F, humidity to 8%). Check this with the real device as it en_ds_9_: D is affected by coil driving circuit, load type, activation frequency, activation phase,ambient conditions and other factors. Also, be especially careful of loads such as those listed below. When used for AC load-operating and the operating phase is synchronous. Rocking and fusing can easily occur due to contact shifting. High-frequency load-operating When high-frequency opening and closing of the relay is performed with a load that causes arcs at the contacts, nitrogen and oxygen in the air is fused by the arc energy and HNO3 is formed. This can corrode metal materials. Three countermeasures for these are listed here. Incorporate an arc-extinguishing circuit. Lower the operating frequency Lower the ambient humidity 3) For secure operations, the voltage applied to the coil should be nominal voltage. In addition, please note that pickup and drop-out voltage will vary according to the ambient temperature and operation conditions. ) Heat, smoke, and even a fire may occur if the relay is used in conditions outside of the allowable ranges for the coil ratings, contact ratings, operating cycle lifetime, and other specifications. Therefore, do not use the relay if these ratings are exceeded. Also, make sure that the relay is wired correctly. ) Incorrect wiring may cause unexpected events or the generation of heat or flames. ) Check the ambient conditions when storing or transporting the relays and devices containing the relays. Freezing or condensation may occur in the relay, causing functional damage. Avoid subjecting the relays to heavy loads, or strong vibration and shocks.

137 DJ (ADJ). Usage, transport and storage conditions ) Ambient temperature, humidity, and atmospheric pressure during usage, transport, and storage of the relay: Temperature: to +7 C to +8 F Humidity: to 8% RH (Avoid freezing and condensation.) The humidity range varies with the temperature. Use within the range indicated in the graph below. 8 Humidity, %RH Tolerance range 3) Freezing Condensation or other moisture may freeze on the relay when the temperatures is lower than C 3 F. This causes problems such as sticking of movable parts or operational time lags. ) Low temperature, low humidity environments The plastic becomes brittle if the relay is exposed to a low temperature, low humidity environment for long periods of time.. Test button (manual lever) operation The relay contacts switch over as follows: - terminal - terminal (Avoid freezing when used at temperatures lower than C 3 F - - (Avoid condensation when used at temperatures higher than C 3 F +3 Temperature, C F 7 +8 Atmospheric pressure: 8 to kpa Temperature and humidity range for usage, transport, and storage ) Condensation Condensation forms when there is a sudden change in temperature under high temperature and high humidity conditions. Condensation will cause deterioration of the relay insulation. For Cautions for Use, see Relay Technical Information (page 39). en_ds_9_: D

138 VDE DK A MINIATURE POWER RELAY DK RELAYS.787 a SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material switching capacity switching power Rating switching (resistive) voltage switching current switching capacity # Expected life (min. operations) Coil en_ds_3_: J.787 Form A ab.9.39 mm inch Form A, Form A Form B mω Gold flash over silver alloy A V AC 8 A V AC A 8 A W,, VA W,, VA V AC, V AC, A 8 A ma, Mechanical 7 Electrical (resistive) operating power ( A V AC, A ) mw (8 A V AC, 8 A ) # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). TYPICAL APPLICATIONS Switching power supply Power switching for various OA equipment Control or driving relays for industrial machines (robotics, numerical control machines, etc.) Output relays for programmable logic controllers, temperature controllers, timers and so on. Home appliances FEATURES Large capacity in small size: A V AC (a) High sensitivity: mw nominal operating power High breakdown voltage, Vrms between contacts and coil, Vrms between open contacts Meeting FCC Part 8 Sealed construction Latching types available Characteristics operating speed Initial insulation resistance* Initial breakdown voltage* Between open contacts Between contacts and coil Surge voltage between coil and contact* 3 Operate time* (at nominal voltage) Release time (without diode)* (at nominal voltage) Temperature rise (at nominal voltage) Shock resistance Vibration resistance cpm (at rated load), mω (at ), Vrms, Vrms, V ms (Approx. ms) 8 ms (Approx. 3 ms) C with nominal coil voltage and at A switching current Functional* 98 m/s { G} Destructive* 98 m/s { G} Functional* 7 Destructive Conditions for operation, transport and storange* 8 (Not freezing and condensing at low temperature) Unit weight ORDERING INFORMATION Ex. DK Ambient temp. Humidity Notes:. Standard packing Carton: pcs.; Case: pcs. UL/CSA, TÜV approved type is standard.. coil latching type available. 88. m/s {9 G}, to Hz at double amplitude of. mm 7. m/s {8 G}, to Hz at double amplitude of 3. mm C to + C F to +9 F to 8% R.H. Form A Approx.. g. oz Form A Form B, Form A Approx. g. oz a L V F Contact arrangement a: Form A a: Form A ab: Form A Form B Operating function Nil: Single side stable L: coil latching Coil voltage 3,,, 9,, V Environmental support RoHS Directive conforming type (AgSnO type) F: a Nil: a, ab RoHS Directive non-conforming type (AgCdO type) Nil: a 3 Polarized Power

139 DK TYPES AND COIL DATA (at C 8 F) Single side stable Form A Form A Form B Form A coil latching Form A Form A Form B Form A Part No. Pick-up (max.) Drop-out (min.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw Maximum allowable (at C 9 F) DKa-3V (-F) DKa-V (-F) 3... DKa-V (-F) DKa-9V (-F) DKa-V (-F) DKa-V (-F) ,88 3. DKab-3V DKab-V 3... DKab-V DKab-9V DKab-V DKab-V ,88 3. DKa-3V DKa-V 3... DKa-V DKa-9V DKa-V DKa-V ,88 3. Part No. Set (max.) Reset (max.) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw Set Reset Set Reset Set Reset Maximum allowable (at C 9 F) DKa-L-3V (-F) DKa-L-V (-F) DKa-L-V (-F) DKa-L-9V (-F) DKa-L-V (-F) DKa-L-V (-F) ,88,88 3. DKab-L-3V DKab-L-V DKab-L-V DKab-L-9V DKab-L-V DKab-L-V ,88,88 3. DKa-L-3V DKa-L-V DKa-L-V DKa-L-9V DKa-L-V DKa-L-V ,88,88 3. en_ds_3_: J

140 REFERENCE DATA. Form A type. Maximum operating power. Life curve 3. Operate/Release time Sample: DKa-V, pcs. DK, 9 Contact current, A. AC inductive load (cosϕ=.) DC inductive load (L/R = 7 ms) AC resistive load DC resistive load, Contact V Life, V AC resistive load resistive load V AC inductive load (cosϕ=.) inductive load (L/R = 7 ms) Contact V Operate/release time, ms Operate time Release time (with diode) Release time x x x 8 9 Coil applied %V. Coil temperature rise (at C 8 F) Sample: DKa-V, pcs. Coil temperature rise, C A 7 A A A. Ambient temperature characteristics Sample: DKa-V, pcs Ambient temperature: C to +8 C F to +7 F - - Variation ratio, % Pick-up voltage 8 9 Ambient temperature, C 8 7 Drop-out voltage. Operate/Release time (at C 8 F) Sample: DKa-V ( pcs.) Distribution frequency Release time Operate time Polarized Power 8 9 Coil applied %V 3 Operate/release time, ms 7. Contact resistance (at C 8 F) Sample: DKa-V ( pcs.) Distribution frequency Contact resistance, mω. Form A Form B type, Form A type. Form A type. Maximum operating power. Life curve 3. Operate/Release time (at C 8 F) Sample: DKab-V, pcs., 9 Contact current, A AC inductive load (cosϕ=.) AC resistive load DC inductive load (L/R = 7 ms) DC resistive load Life, V AC resistive load resistive load V AC inductive load (cosϕ=.) inductive load (L/R = 7 ms) Operate/release time, ms Operate time Release time (with diode) Release time x x x., Contact V Contact current, A 8 9 Coil applied %V en_ds_3_: J

141 DK. Coil temperature rise Sample: DKab-V, pcs. Ambient temperature: C 8 F. Ambient temperature characteristics Coil temperature rise, C 8 A A A - - Variation ratio, % Pick-up voltage 8 Ambient 9 temperature, C 8 Drop-out voltage Coil applied %V DIMENSIONS mm inch. Form A type Single side stable type PC board pattern (Copper-side view) dia..3 dia. Schematic (Bottom view) Single side stable (Deenergized condition) coil latching type General tolerance: ±.3 ± dia..3 dia. The above shows coil latching type. No. terminal is eliminated on single side stable type. Tolerance: ±. ±. coil latching (Reset condition) Since this is a polarized relay, the connection to the coil should be done according to the above schematic.. Form A Form B type, Form A type Single side stable type PC board pattern (Copper-side view) dia..3 dia. Schematic (Bottom view) < Form A Form B type> Single side stable (Deenergized condition) coil latching (Reset condition) coil latching type dia..3 dia. < Form A> Single side stable (Deenergized condition) coil latching (Reset condition) Note: Relay out-line and PC board pattern are common for both Form A Form B type and Form A type Since this is a polarized relay, the connection to the coil should be done according to the above schematic General tolerance: ±.3 ±. Tolerance: ±. ±. en_ds_3_: J

142 DK relay socket TYPES AND RELAY COMPATIBILITY Relay DK Socket Form A Form A Form B, Form A Single side stable type coil latching type Single side stable type coil latching type Form A Single side stable type DKa-PS DKa-PSL coil latching type DKa-PSL Form A Form B Single side stable type DKa-PS DKa-PSL Form A coil latching type DKa-PSL SPECIFICATIONS Breakdown voltage* Insulation resistance Heat resistance continuous current Remarks * Detection current: ma DIMENSIONS Form A type FIXING AND REMOVAL METHOD. Match the direction of relay and socket Both ends of the relay are to be secured firmly so that the socket hooks on the top surface of the relay., Vrms (Except the portion between coil terminals), mω (at ) C (for hour) A (DKa-PS, DKa-PSL), 8 A (DKa-PS, DKa-PSL) Form A Form B type, Form A type General tolerance: ±.3 ±. 3. Remove the relay, applying force in the direction shown below. mm inch PC board pattern (Copper-side view) Form A.. Form A Form B 8 7. dia..7 dia... The above shows coil latching type. No. and terminal are eliminated on single side stable type. Tolerance: ±. ± dia..7 dia.... In case there is not enough space to grasp relay with fingers, use screwdrivers in the way shown below. Polarized Power GOOD NO GOOD NOTES. Phase synchronization of AC-load switching In case of switching the contact synchronized with phase of load the life of contact might be shorter or contact failure might be caused. Please confirm this matter in the actual system in this case. If necessary, the phase control would be recommended. For Cautions for Use, see Relay Technical Information (page 39). en_ds_3_: J Vin Load voltage Vin Ry Load Load voltage. Soldering should be done under the following conditions: C 8 F within s C 7 F within s C F within 3s 7

143 DQ (ADQ) A POWER LATCHING RELAY DQ RELAYS (ADQ) FEATURES. A capacity in small size. Latching type 3. High insulation,v AC (between contacts and coil) Surge,V (between contacts and coil). Sealed construction SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material switching capacity switching power Rating switching voltage (resistive load) switching current switching capacity # Expected life (min. operations) Coil Mechanical (at 8 cpm) Electrical (Resistive load) # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * At nominal switching capacity, operating frequency: 3s ON, 3s OFF * Measurement at same location as Initial breakdown voltage section. * 3 Detection current: ma * Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time. * By resistive method, max. switching current * 7 Half-wave pulse of sine wave: ms; detection time: µs * 8 Half-wave pulse of sine wave: ms * 9 Detection time: µs * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). * Under the packing condition, allowable temperature range is from to + C to +9 F. TYPICAL APPLICATIONS Form A mω Silver alloy A V AC 7, V A V AC A ma, * operating power coil latching mw coil latching, mw Time switches Electric water heaters Characteristics operating speed (at rated load) Initial insulation resistance* Initial breakdown voltage* 3 Between open contacts Between contacts and coil cpm, MΩ (at ), Vrms for min., Vrms for min. Surge voltage between contact and coil*, V (initial) Set time* (at C) ms (at nominal voltage) Reset time* (at C) ms (at nominal voltage) Temperature rise (at C)* C (Coil; de-energized) Shock Functional* 7 m/s { G} resistance Destructive* 8, m/s { G} Vibration resistance Conditions for operation, transport and storage* (Not freezing and condensing at low temperature) Unit weight Functional* 9 Destructive Ambient temperature* Humidity Remote control of electric power meters to Hz at double amplitude of.mm to Hz at double amplitude of.mm C to + C F to +9 F to 7% R.H. Approx. 3 g.3 oz ORDERING INFORMATION ADQ 3 Q Operating function Contact capacity Terminal shape Contact characteristics Coil voltage (DC) : coil latching : coil latching 3: A Q: Faston terminal : Standard contact H:. V : V 9: 9 V : V : V 8 en_ds_3_: J

144 TYPES AND COIL DATA (at C 8 F) coil latching type Contact arrangement Form A Part No. coil latching type Contact arrangement Form A DIMENSIONS Set max. (initial) Reset max. (initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw DQ (ADQ) allowable ADQ3QH ADQ3Q ADQ3Q ADQ3Q ADQ3Q.8.8,.8 3. Part No. Set max. (initial) Reset max. (initial) Coil resistance, Ω (±%) Set coil Reset coil operating current, ma (±%) Set coil Reset coil operating power, mw Set coil Reset coil allowable ADQ3QH ,,.8 ADQ3Q ,, 7.8 ADQ3Q ,,.7 ADQ3Q ,,. ADQ3Q ,, Schematic (Bottom view) coil latching type (Reset condition) mm inch coil latching type (Reset condition) Polarized Power faston terminal dia..7 dia. 3.3 dia.. dia Reset coil 3 + Set coil Note) Terminal No.3 is only for coil latching type. PC board pattern (Bottom view) General tolerance: ±.3 ± dia dia. -. dia dia. coil latching type only Tolerance: ±. ±. NOTES If the relay is used over A current through plug-in terminal, plug-in terminal should be soldered on receptacle terminal for preventing the loose contact during long time using. For Cautions for Use, see Relay Technical Information (page 39). en_ds_3_: J 9

145 DSP 8 A MINIATURE POWER RELAY IN DS RELAY SERIES DSP RELAYS FEATURES DSPa DSP mm inch..79 DSPa Power types added to DS relay series High switching capacity: a: 8 A V AC / ab, a: A V AC High sensitivity: 9 mw pick-up power High contact welding resistance Latching types available High breakdown voltage 3, Vrms between contacts and coil, Vrms between open contacts Meeting FCC Part 8 Sealed types are standard SPECIFICATIONS (at C 8 F) Contact Arrangement a ab a Contact material Gold flash over silver alloy Initial contact resistance, max. (By voltage drop A) mω switching capacity Rating (resistive) Expected life (min. operations) switching power Coil (polarized) (at C 8 F) Minimum operating power operating power 8A VAC A VDC, VA W A VAC A VDC, VA W switching voltage V AC, switching current 8 A A switching capacity # ma, Mechanical (at 8 cpm) 7 Electrical Single side stable 9 mw coil latching 9 mw coil latching 9 mw Single side stable mw coil latching mw coil latching mw Note: All specifications are based on the condition of C 77 F, % R.H. unless otherwise specified. # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Characteristics operating speed cps. at rated load Initial insulation resistance*, MΩ at Between open contacts, Vrms Initial Between contact sets, Vrms (ab, a) breakdown voltage* Between contacts and 3, Vrms coil Surge voltage between contacts and coil, V Set time* 3 (at nominal voltage) ms (Approx. ms) Reset time* 3 (at nominal voltage) ms (Approx. ms) Operate time* 3 (at nominal voltage) ms (Approx. ms) Release time(without diode)* 3 (at nominal voltage) ms (Approx. ms) Temperature rise Soldering temperature Shock resistance Vibration resistance C (ab type) C (a, a types) C ( s) C ( s), C (3 s) Functional* 9 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight 7. m/s { G}, to Hz at double amplitude of mm.8 m/s { G}, to Hz at double amplitude of 3. mm C to + C F 9 F Approx..3 g. oz Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). en_ds : D

146 TYPICAL APPLICATIONS Office and industrial electronic devices Terminal devices of information processing equipment, such as printer, data recorder. Office equipment (copier, facsimile) Measuring instruments NC machines, temperature controllers and programmable logic controllers. ORDERING INFORMATION Ex. DSP L DCV R Contact arrangement : ab a: a a: a Operating function Nil: Single side stable L: coil latching L: coil latching Coil voltage DC: 3,,, 9,, V Note: Standard packing: Carton: pcs.; Case: pcs. UL/CSA, VDE approved type is standard. Polarity Nil: Standard polarity R: Reverse polarity DSP TYPES AND COIL DATA (at C 8 F) Single side stable Type Single side stable coil latching Type coil latching Part No. Note: Insert a, or a in, for contact form required. Pick-up (max.) Drop-out (min.) operating current, ma operating power, mw Coil resistance, Ω (±%) allowable at C, DSP -DC3V DSP -DCV DSP -DCV DSP -DC9V DSP -DCV DSP -DCV 9...,9 3. Part No. Pick-up (max.) Reset (max.) operating current, ma operating power, mw Coil resistance, Ω (±%) allowable at C, DSP -L-DC3V DSP -L-DCV.. 7. coil latching DSP -L-DCV DSP -L-DC9V DSP -L-DCV DSP -L-DCV ,8 3. Type Part No. Set (max.) Reset (max.) operating current, ma operating power, mw Coil resistance, Ω (±%) allowable at C, DSP -L-DC3V DSP -L-DCV coil latching DSP -L-DCV DSP -L-DC9V DSP -L-DCV DSP -L-DCV ,9 3. Polarized Power en_ds : D

147 DSP DIMENSIONS a type (DSPa) Single side stable coil latching coil latching PC board pattern (Copper-side view) Single side stable coil latching.. -. dia. -.7 dia... mm inch -. dia. -.7 dia General tolerance: ±.3 ±. Tolerance: ±. ±. Schematic (Bottom view) Single side stable coil latching (Deenergized condition) (Reset condition) ab type (DSP) Single side stable coil latching coil latching PC board pattern (Copper-side view) Single side stable coil latching dia. -.7 dia dia dia General tolerance: ±.3 ±. Tolerance: ±. ±. Schematic (Bottom view) Single side stable coil latching (Deenergized condition) (Reset condition) a type (DSPa) Single side stable coil latching coil latching mm inch PC board pattern (Copper-side view) Single side stable coil latching dia. -.7 dia dia dia General tolerance: ±.3 ±. Tolerance: ±. ±. Schematic (Bottom view) Single side stable coil latching (Deenergized condition) (Reset condition) en_ds : D

148 REFERENCE DATA. switching capacity.-() Life curve (ab type).-() Life curve (ab type) DSP Contact current, V DC resistive load (a) DC resistive load (ab,a) AC resistive load (ab,a) AC resistive load (a) No. of operations, V- V AC cosϕ =. V- V AC cosϕ = No. of operations, L/R = 7 ms resistive. Contact V 3 7 Switching capacity, A. Switching capacity, A 3.-() Coil temperature rise (a type) Sample: DSPa-DCV, pcs. 3.-() Coil temperature rise (ab type) Sample: DSP-DCV, pcs. 3.-(3) Coil temperature rise (a type) Sample: DSPa-DCV, pcs. Coil temperature rise, C 8A A Coil temperature rise, C A A Coil temperature rise, C A A Polarized Power 8 Coil applied %V 8 Coil applied %V 8 Coil applied %V.-() Operate & release time (without diode, a type) Sample: DSPa-DCV, pcs. 7.-() Operate & release time (without diode, ab type) Sample: DSP-DCV, pcs. 9.-(3) Operate & release time (without diode, a type) Sample: DSPa-DCV, pcs.) 9 Operate & release time, ms 3 Operate time x Release time x 8 Coil applied %V Operate & release time, ms Release time Operate time x x 8 Coil applied %V Operate & release time, ms Operate time Release time x x 8 Coil applied %V.-() Operate & release time (with diode, a type) Sample: DSPa-DCV, pcs..-() Operate & release time (with diode, ab type) Sample: DSP-DCV, pcs..-() Operate & release time (with diode, a type) Sample: DSPa-DCV, pcs Operate & release time, ms Operate time Release time x x Operate & release time, ms Operate time x Release time Operate & release time, ms Operate time Release time x x 8 Coil applied %V 8 Coil applied %V 8 Coil applied %V en_ds : D 3

149 DSP.-() Change of pick-up and drop-out voltage (a type) Sample: DSPa-DCV, pcs..-() Change of pick-up and drop-out voltage (ab type) Sample: DSP-DCV, pcs..-(3) Change of pick-up and drop-out voltage (a type) Sample: DSPa-DCV, pcs. (%) Rate of change Drop-out voltage Pick-up voltage (%) Rate of change Pick-up voltage (%) Rate of change Drop-out voltage Pick-up voltage Ambient temperature, C Ambient temperature, C Ambient temperature, C - Drop-out voltage - -.-() Influence of adjacent mounting (a type) Sample: DSPa-DCV, pcs. Rate of change, % Pick-up voltage Drop-out voltage A B C A, C relays are not energized A, C relays are energized Inter-relay distance ( ), mm.-() Influence of adjacent mounting (ab type) Sample: DSP-DCV, pcs. Rate of change, % Pick-up voltage Drop-out voltage A B C A, C relays are not energized A, C relays are energized 3 Inter-relay distance ( ), mm.-(3) Influence of adjacent mounting (a type) Sample: DSPa-DCV, pcs. Rate of change, % Pick-up voltage Drop-out voltage A B C A, C relays are not energized A, C relays are energized Inter-relay distance ( ), mm NOTES Soldering should be done under the following conditions: C 8 F within s C 7 F within s C F within 3 s For Cautions for Use, see Relay Technical Information (page 39). en_ds : D

150 SOCKETS FOR DSP RELAYS SPECIFICATIONS Item Breakdown voltage Insulation resistance Heat resistance continuous current DIMENSIONS..33. Specifications 3, Vrms between terminals (Except for the portion between coil terminals), MΩ between terminals at V C for hour a: 8 A a: A TYPES AND APPLICABLE RELAYS DSP Type No. For DSPa For DSPa, DSP, DSPa Applicable relays DSPa-PS DSPa-PSL DSPa-PS DSPa-PSL DSPa relays OK OK OK OK DSPa-L relays OK OK DSP relays OK OK DSP-L relays OK DSPa relays OK OK DSPa-L relays OK PC board pattern (Copper-side view) DSPa-PS, DSPa-PSL DSPa-PS, DSPa-PSL 9 mm inch Polarized Power dia. 7 dia... Terminal No. and are for DSPa-PSL only.. dia. 7 dia... Terminal No. and are for DSPa-PSL only. FIXING AND REMOVAL METHOD. Match the direction of relay and socket. 3. Remove the relay, applying force in the direction shown below.. Both ends of relays are fixed so surely that the socket hooks on the top surface of relays.. In case there is not enough space for finger to pick relay up, use screw drivers in the way shown below. Good No good en_ds : D

151 DY A MINIATURE POWER RELAY FEATURES Latching types available Electrical life of times ( Form A type) realized with inductive load (cosϕ=., L/R=7ms, A V AC) Lead- and cadmium-free. Socket also available. Part No. Single side stable type DKa-PS coil latching type DKa-PSL DY RELAYS (ADY) TYPICAL APPLICATIONS Control for industrial machines (machine tools, robotics) Output relays for temperature controllers, PLCs, timers, sensors. Measuring equipment Security equipment SPECIFICATIONS Contact Arrangement Form A Form A Form B Initial contact resistance, max. (By voltage drop A) mω Contact material Gold-flashed silver alloy Rating Expected life (min. operations) Coil switching capacity switching capacity (Reference) Resistive load Inductive load (cosϕ =., L/R = 7ms) Resistive load Inductive load (cosϕ =., L/R = 7ms) A V AC A A V AC,V A, W 8A V AC 8A 3.A V AC,V A, W,V A 87V A switching voltage 38V AC, switching current A 8 A switching capacity # V ma Mechanical (at cpm) 7 Electrical (at cpm) operating power Form A inductive load Form A resistive load Form A Form B resistive load Form A Form B inductive load mw Characteristics operating speed Initial insulation resistance* Initial Between open contacts breakdown voltage* Between contacts and coil Surge voltage between coil and contact* 3 Operate time [Set time]* (at nominal voltage) (at C) Release time [Reset time] (without diode)* (at nominal voltage) (at C) Form A Form A Form B cpm (at rated load), MΩ (at V DC), Vrms for min., Vrms for min., V (initial) ms (Approx. ms) [ ms (Approx. ms)] 8ms (Approx. 3ms) [ ms (Approx. 3ms)] Temperature rise (at 7 C)* C Shock resistance Vibration resistance Conditions for operation, transport and storage* 9 (Not freezing and condensing at low temperature) Unit weight Functional* 98 m/s { G} Destructive* 7 98 m/s { G} Functional* 8 Destructive Ambient temp. Humidity to Hz at double amplitude of. mm to Hz at double amplitude of 3. mm C to +7 C F to +8 F to 8% R.H. Approx. g.oz Remarks # This value can change due to the switching frequency, environmental conditions and desired reliability level, therefore it is recommended to check this with the actual load. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time * By resistive method, nominal voltage applied to the coil, max. switching current * Half-wave pulse of sine wave: ms; detection time: µs * 7 Half-wave pulse of sine wave: ms * 8 Detection time: µs * 9 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). en_ds_8_: D

152 ORDERING INFORMATION DY ADY Contact arrangement : Form A 3: Form A, Form B Operating function : Single side stable : coil latching Notes: ) Standard packing-carton: pcs.; Case: pcs. ) UL/CSA approved type is standard. Contact characteristics : Standard contact Coil voltage (DC) 3: 3 V : V : V : V : V TYPES AND COIL DATA (at C 8 F) Single side stable type Contact arrangement Form A Form A Form B Part No. Pick-up (max.) (initial) Drop-out (min.) (initial) operating current, ma (±%) Coil resistance, Ω (±%) operating power, mw allowable ADY ADY 3... ADY ADY ADY ,88 3. ADY ADY 3... ADY ADY ADY ,88 3. Polarized Power coil latching type Contact arrangement Form A Form A Form B Part No. Set (max.) (initial) Reset (max.) (initial) operating current, ma (±%) Set coil Reset coil Coil resistance, Ω (±%) Set coil Reset coil operating power, mw Set coil Reset coil allowable ADY ADY ADY ADY ADY ,88,88 3. ADY ADY ADY ADY ADY ,88,88 3. en_ds_8_: D 7

153 DY DIMENSIONS Single side stable type PC board pattern (BOTTOM VIEW) Single side stable type dia dia. ab Schematic (BOTTOM VIEW) Single side stable ( Form A) coil latching type (Reset condition) mm inch Single side stable ( Form A Form B) coil latching type (Reset condition) coil latching type coil latching type dia dia General tolerance: ±.3 ±... ab Tolerance: ±. ±. For Cautions for Use, see Relay Technical Information (page 39). 8 en_ds_8_: D

154 S A CAPACITY, THE VARIETY OF CONTACT ARRANGEMENTS S RELAYS FEATURES mm inch The variety of contact arrangements Form A Form B, 3 Form A Form B, Form A Latching types available High sensitivity in small size mw pick-up and mw nominal operating power High shock and vibration resistance Shock: G Vibration: to Hz at double amplitude of 3 mm.8 inch Wide switching range From µa m to A V AC Low thermal electromotive force Approx. 3 µv Dual-In-Line packaging arrangement SPECIFICATIONS Contacts Arrangement Initial contact resistance, max. (By voltage drop A) Initial contact pressure Contact material Electrostatic capacitance Thermal electromotive force (at nominal coil voltage) Rating (resistive) Expected life (min. operations) switching capacity Maximum switching power Maximum switching voltage switching current switching capacity # Coil (polarized) (at C 8 F) Single side stable Latching Form A Form B, 3 Form A Form B, Form A mω Approx. g. oz Gold clad silver alloy Approx. 3pF Approx. 3µV A V AC, 3 A, VA, 9 W V AC, (8 VDC at less than. A) A (AC), 3 A (DC) µa m Mechanical (at cps) 8 Electrical (at cpm) Minimum operating power operating power Minimum set and reset set and reset A V AC 3 A Approx. mw Approx. mw Approx. mw Approx. mw Notes: # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics (at C 77 F % Relative humidity) operating speed Initial insulation resistance* Between open contacts Initial Between contact sets breakdown voltage* Between contacts and coil Operate time* 3 (at nominal voltage)(at C) Release time (without diode)* 3 (at nominal voltage)(at C) Set time* 3 (latching) (at nominal voltage)(at C) Reset time* 3 (latching) (at nominal voltage)(at C) Initial contact bounce, max. Temperature rise (at nominal voltage)(at C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight cpm for maximum load, cps for low-level load ( ma ), MΩ at 7 Vrms, Vrms, Vrms ms (Approx. 8 ms) ms (Approx. ms) ms (Approx. 8 ms) ms (Approx. 8 ms) ms 3 C with nominal coil voltage and at maximum switching current Functional* 9 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Ambient temp. Humidity 7. m/s {8 G}, to Hz at double amplitude of 3 mm 3. m/s { G}, to Hz at double amplitude of mm C to + C F to +9 F to 8% R.H. Approx. 8 g.8 oz Polarized Power TYPICAL APPLICATIONS Telecommunications equipment, data processing equipment, facsimiles, alarm equipment, measuring equipment. en_ds : 8D 9

155 S ORDERING INFORMATION Ex. S L 8 V Product name Contact arrangement Operating function Coil S : Form A Form B 3: 3 Form A Form B : Form A Nil: Single side stable L: coil latching L: coil latching 3,,,,, 8 Notes: ) Standard packing; Carton pcs. Case pcs. ) UL/CSA approved type is standard. TYPES AND COIL DATA at C 8 F Single side stable Type coil latching coil latching Note: Insert, 3 or in for contact form required. DIMENSIONS Pick-up (max.) Drop-out (min.) operating current, ma Coil resistance, Ω (±%) Inductance, mh operating power, mw Maximum allowable ( C) S -3V S -V S -V S -V S -V.8. 8.,8,7. S -8V , 3, 7 7. Type Pick-up (max.) Drop-out voltage (min.) operating current, ma Coil resistance, Ω (±%) Inductance, mh operating power, mw Maximum allowable ( C) S -L-3V S -L-V S -L-V S -L-V S -L-V S -L-8V , 8.9 Type Set and reset (max.) operating current, ma Coil resistance, Ω (±%) Inductance, mh operating power, mw Maximum allowable ( C) Coil I Coil II Coil I Coil II S -L-3V S -L-V S -L-V S -L-V S -L-V.8 8.,8, S -L-8V ,,,, PC board pattern (Copper-side view) mm inch DIA..7-. DIA General tolerance: ±.3 ±. Tolerance: ±. ±.3 7 en_ds : 8D

156 S Schematic (Bottom view) Single side stable Deenergized position ab 3 3ab 3 a coil latching Diagram shows the reset position when terminals and 7 are energized. Energize terminals and to transfer contacts. REFERENCE DATA ab 3 3ab 3 a Set Reset - Set Maximum switching power. Life curve 3. Contact reliability Condition:, ma Detection level Ω Tasted Sample: S-V, pcs + Reset - Set Reset - Contact V, DC resistive load AC resistive load. Contact current, A Life,, V AC (cosϕ =.) V AC (cosϕ =.) 3 Contact current, A m =. µ: 79 million time σ: million time 9% reliability limit:. million times (weibul probability paper).. No. of operations, 7 Polarized Power.-() Coil temperature rise Tested Sample: S-V, Form A.-() Coil temperature rise Tested Sample: S-V, Form A. Operate and release time (Single side stable type) Tested Sample: S-V, pcs Temperature rise, C A A Coil operating power, W Temperature rise, C Coil operating power,. W 3 Contact current, A Operate/release time, ms 8 Release time (with diode) 8 Operate time Release time 8 Coil applied %V. Influence of adjacent mounting Rate of change, % () () (3) Single side stable + () & (3) relays are energized Drop-out voltage Pick-up voltage Note: When installing an S-relay near another, and there is no effect from an external magnetic field, be sure to leave at least mm.39 inch between relays in order to achieve the performance listed in the catalog. Rate of change, % coil latching + Pick-up voltage 7. Thermal electromotive force Thermal electromotive force, µv NR-H NF relay S relay Inter-relay distance, mm Inter-relay distance, mm 8 Minute en_ds : 8D 7

157 S 8. Effect from an external magnetic field Rate of change, % Single side stable + φ Pick-up voltage Drop-out voltage Rate of change, % Single side stable + φ Drop-out voltage Pick-up voltage Rate of change, % coil latching + G Pick-up voltage Rate of change, % coil latching + G Pick-up voltage G G ACCESSORIES Dimensions S Relay Socket, S-PS Specifications Breakdown voltage, Vrms between terminals Insulation resistance More than MΩ between terminals at Mega Heat resistance ±3 C ( ±. F) for hour. Maximum continuous current A (Note: Don't insert or remove relays while in the energized condition.) mm inch PC board pattern (Copper-side view) Terminal width:.3. Terminal thickness: DIA. HOLE DIA. HOLE Inserting and removing method Inserting method: Insert the relay as shown in Fig. unit the rib of the relay snaps into the clip of the socket. Removing method: () Remove the relay straight from the socket holding the shaded portion of the relay as shown in Fig.. () When sockets are mounted in close proximity, use a slotted screw driver as shown in Fig. 3. Rib Fig. Fig. 3 Fig. 7 en_ds : 8D

158 NOTES. Special use of coil latching types: ways can be considered if coil latching types are used as coil latching types. (A) Reverse polarity is applied to the set coil of coil latching type. (B) By shorting terminals and 7, apply plus to, minus to at set and plus to, minus to at reset. Applied coil voltage should be the same as the nominal. Operating power will be reduced to onehalf. Reset position of ab type S. Soldering operations should be accomplished as quick as possible; within seconds at C 8 F solder temperature or 3 seconds at C F. The header portion being sealed with epoxy resin, undue subjection to heat may cause loss of seal. Solder should not be permitted to remain on the header. CAUTIONS FOR USE Based on regulations regarding insulation distance, there is a restriction on same-channel load connections between terminals No., 3 and,, as well as between No. 8, 9 and,. See the figure below for an example Between, 3 and, : different channels, therefore not possible Between, 3 and, : same channels, therefore possible Between, and 8, 9: different channels, therefore not possible Between, and 8, 9: same channels, therefore possible No good Good For Cautions for Use, see Relay Technical Information (page 39). Polarized Power en_ds : 8D 73

159 SP A (C), A (C) COMPACT POWER RELAYS WITH HIGH SENSITIVITY SP RELAYS.99 SPECIFICATIONS Contacts Arrangement Initial contact resistance, max. (By voltage drop A) Initial contact pressure Contact material Rating (resistive load) Expected life (min. operations) switching capacity switching power switching voltage switching current switching capacity # Coil (polarized) at C 8 F a.8 mm inch a C..8 C Form C, Form C mω C: Approx..39 N ( g. oz ) C: Approx..9 N ( g.7 oz ) Stationary contact: Gold flashed silver alloy Movable contact: Silver alloy C: A V AC A C: A V AC A C: 3,7 VA, W C:, VA, W C, C: V AC, C: A (AC) A (DC), C: A ma, Mechanical (at 8 cpm) 7 Electrical (at cpm) (resistive load) C C A V AC A A V AC A Single side stable operating power mw Latching TYPICAL APPLICATIONS NC machines, remote control panels, sophisticated business equipment. Minimum set and reset power set and reset power mw mw ORDERING INFORMATION Ex. SP Contact arrangement : Form C : Form C FEATURES High Vibration/Shock Resistance Vibration resistance: 8 G, amplitude 3 mm ( to Hz) Shock resistance: G ( ms) Latching types available High Sensitivity in Small Size mw pick-up, mw nominal operating power Wide Switching Range From ma to A (C) and A (C) Characteristics (at C 77 F % Relative humidity) operating speed (at rated load) cpm Initial insulation resistance*, MΩ at Initial Between open contacts, Vrms breakdown Between contact sets 3, Vrms voltage* Between contact and coil 3, Vrms Operate time* 3 (at nominal voltage) ms (Approx. ms) Release time(without diode)* 3 (at nominal voltage) ms (Approx. ms) Temperature rise C with nominal coil voltage (at nominal voltage) and at nominal switching capacity Shock resistance Functional* 39 m/s { G} Destructive* 98 m/s { G} Vibration resistance Functional* 7. m/s {8 G}, to Hz at double amplitude of 3 mm Destructive 7. m/s {8 G}, to Hz at double amplitude of 3 mm Conditions for operation, C to + C Ambient temp. transport and storage* 7 8 F to + F (Not freezing and condensing at low temperature) Humidity to 8% R.H. Unit weight C: g.7 oz ; C: g.9 oz # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). P L DCV Mounting classification NIL: standard type with FASTON terminals P: PC board type Standard -. mm x. mm (without UL/CSA marking) Optional -. x. mm (with UL/CSA marking) Operating function Nil: Single side stable L: coil latching Coil voltage DC 3,,,,, 8 V (Notes). For PC board terminal types, please consult us for details.. Form C: Carton: pcs., Case: pcs. Form C: Carton: pcs., Case: pcs. 3. UL/CSA, TÜV approved type is standard.. coil latching type available. 7 en_ds : D

160 .. TYPES AND COIL DATA (at C 8 F) Single side stable Part No. Form C Form C DIMENSIONS Pick-up (max.) Drop-out (min.) operating current, ma Coil resistance, Ω (±%) C Inductance, H (at Hz) operating power, mw SP Maximum allowable ( C) SP-DC3V SP-DC3V Approx... SP-DCV SP-DCV SP-DCV SP-DCV SP-DCV SP-DCV SP-DCV SP-DCV.8.., SP-DC8V SP-DC8V ,7. 7 -coil latching Set and Coil resistance, Inductance, Maximum Part No. reset operating Ω (±%) H (at Hz) allowable operating current, Form C Form C power, mw (max.) ma Coil I Coil II Coil I Coil II ( C) SP-L-DC3V SP-L-DC3V 3.. Approx..3 Approx..3. SP-L-DCV SP-L-DCV SP-L-DCV SP-L-DCV SP-L-DCV SP-L-DCV SP-L-DCV SP-L-DCV.8.,9,9.. 3 SP-L-DC8V SP-L-DC8V ,8 7,8.. 7 Form C Plug-in terminal Schematic (Bottom view) Single side stable 7 mm inch Polarized Power (Deenergized condition) coil latching 7..8 (Reset condition) FASTON #87 Diagram shows the reset position when terminals 3 and are energized. Energize General tolerance: ±.3 ±. terminals and to transfer contacts. SET RST 3 PC board terminal.. x. With UL/CSA approval: pin mm x. mm standard type: pin. mm x. mm Form C Plug-in terminal Schematic (Bottom view) Single side stable PC board terminal en_ds : D (Deenergized condition) coil latching General tolerance: ±.3 ±. (Reset condition) Diagram shows the reset position when terminals 3 and are energized. Energize terminals and to transfer contacts. SET RST 3.. x. With UL/CSA approval: pin mm x. mm standard type: pin. mm x. mm 7

161 SP REFERENCE DATA Operate and release time (Single side stable) SP SP Coil temperature rise Sample: SP-DCV Ambient temperature: to C 8 to 7 F Operate/release time, ms Operate time Release time Operate/release time, ms Operate time Release time Temperature rise, C A A A A 8 9 Coil applied %V 8 9 Coil applied %V Coil applied %V Sample: SP-DCV Ambient temperature: 7 to 9 C 8 to 8 F Electrical life (SP, A V AC resistive load) Temperature rise, C A A A Pick-up/drop-out V Pick-up voltage Drop-out voltage x x Contact resistance, mω N.C. N.O. x x Coil applied %V No. of operations, No. of operations, Electrical life (SP, A V AC resistive load) Pick-up/drop-out V Pick-up voltage Drop-out voltage No. of operations, x x Contact resistance, mω No. of operations, N.C. N.O. x 7 en_ds : D

162 ACCESSORIES Soldering socket SP-SS SP-SS SP mm inch R. R R. R MADE IN JAPAN MADE IN JAPAN Wrapping socket SP-WS R. R SP-WS R. R Polarized Power MADE IN JAPAN MADE IN JAPAN Mounting hole drilling diagram DIA. HOLES.. -DIA. HOLES DIA. HOLES.. -DIA. HOLES.97. Performance profile Item Withstand voltage Insulation resistance Ambient working temperature Maximum current, ON current SP, socket with solder SP, socket with solder Note: Do not remove the relay while it is ON. SP, wrapping socket SP, wrapping socket AC 3,V, min., between each terminal, MΩ min to + C 8 to + F A A A A Notes: () Mounting screws and the fastening bracket are included in the package. () Mount the relay with the proper mounting direction i.e. with the direction of the NAiS mark on top of the relay case matching the direction of the NAiS mark on the terminal block. (The ; direction of the terminal block is the upward direction of the relay.) en_ds : D 77

163 SP Mounting and removal of fastening bracket. Mounting Insert the A part of the fastening bracket into the mounting groove of the socket, and then fit the B part into groove, while pressing with the tip of a minus screwdriver.. Removal Slide the B part of the fastening bracket from the groove in the socket, while pressing with the tip of a minus screwdriver. While the bracket is in this position, keep pressing the C part of the bracket to the relay side with your finger, and lift up to the left side and remove from the groove, as in the diagram at right. Minus screwdriver C Fastening bracket SP relay A Terminal block B Screw terminal socket mm inch Mounting hole drilling diagram DIA. HOLES.. -DIA. HOLES.77. Notes: () Mounting screws and the fastening bracket are included in the package. () Mount the relay with the proper mounting direction i.e. with the direction of the NAIS mark on top of the relay case matching the direction of the NAIS mark on the terminal block. (The ; direction of the terminal block is the upward direction of the relay.) Fastening bracket mounting and removal. Mounting Insert the A part of the fastening bracket into the mounting groove of the terminal block, and then fit the B part into groove, while pressing with the tip of a minus screwdriver.. Removal Slide the B part of the fastening bracket from the groove in the terminal block, while pressing with the tip of a minus screwdriver. While the bracket is in this position, keep pressing the C part of the bracket to the relay side with your finger, and lift up to the left side and remove from the groove, as in the diagram at right. Minus screwdriver C Fastening bracket SP relay A Terminal block B Mounting plate DIA. HOLES 3. -DIA. HOLES. Panel cutout 7.. Tolerance: ±. ±. SP-MA The SP-Relay with SP-MA attached Direct chassis mounting possible, and applicable to DIN rail. [DIN 77 (3 mm width) is applicable.] 78 en_ds : D

164 Use method. Both the SP relay c and c can be mounted to the mounting slats.. Use the mounting slats either by attaching them directly to the chassis, or by mounting with a DIN rail. (A) When attaching directly to chassis Use two M3 screws. For the mounting pitch, refer to the specification diagram. (B) When mounting on a DIN rail Use a 3mm.378inch wide DIN rail (DIN77). The mounting method should be as indicated in the diagram at right. Method for mounting on DIN rail Press Fit into mounting grooves. Fit in Press relay in Fig. Mounting slat DIN rail Fig. Fig. 3 To remove the relay, press down the mounting slats so the claws move to the outside. SP () First fit the arc shaped claw of the mounting slat into the DIN rail. () Press on the side as shown in the diagram below. (3) Fit in the claw part on the opposite side. Precautions for use When mounting to a DIN rail, use a commercially available fastening bracket if there is a need to stop sliding of the mounting slat in the rail direction. For Cautions for Use, see Relay Technical Information (page 39). Polarized Power en_ds : D 79

165 ST VDE IC DRIVABLE PC BOARD RELAY FOR FIELD LOAD SWITCHING ST RELAYS mm inch FEATURES Sealed to meet the combination process of automatic wave soldering and cleaning needs Latching types available High switching capacity and high sensitivity in subminiature size mw pick-up, 8 A inrush capacity: A for ab, 3 A for a High shock and vibration resistance Shock: G, Vibration: to Hz at double amplitude of mm SPECIFICATIONS Contacts Arrangement Contact material Initial contact resistance, max. Rating (resistive) HP rating Inrush current capability Expected life (min. operations) switching power switching voltage switching current switching capacity # Form A Form A Form B Gold flash over silver alloy mω, VA, W 38 V AC, 8 A ma, / HP, V AC A (TV-3 equivalence) for ab 3 A (TV- equivalence) for a Mechanical (at 8 cpm) 7 Electrical 8 A V AC (resistive) A (resistive) 3 A V AC (lamp) 3 A V AC (lamp) 3 Coil (polarized) (at C 77 F) Single side stable operating power Approx. mw Latching set and reset power Approx. mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics (at C 77 F % Relative humidity) operating speed cpm (at rated load) Initial insulation resistance*, MΩ (at ) Initial Between contact sets, Vrms breakdown Between open contacts, Vrms voltage* Between contacts and coil 3,7 Vrms Surge voltage between coil and contact* 3, V Operate time* (at nominal voltage) ms (Approx. ms) Release time (without diode)* (at nominal voltage) ms (Approx. 8 ms) Set time* (latching) (at nominal voltage) ms (Approx. 8 ms) Reset time* (latching) (at nominal voltage) ms (Approx. 8 ms) Temperature rise (at C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight C with nominal coil voltage and at 8 A switching current Functional* 9 m/s { G} Destructive* 98 m/s { G} Functional* 7 Destructive Ambient temp. Humidity 7. m/s { G}, to Hz at double amplitude of mm 7. m/s {8 G}, to Hz at double amplitude of 3 mm C to + C Fto + F to 8% R.H. Approx. g.33 oz TYPICAL APPLICATIONS Sequence controllers, facsimiles, telephone controls, remote control security devices and security equipment. 8 en_ds_8_: D

166 ORDERING INFORMATION ST Ex. ST L DC8V Contact arrangement Operating function Coil voltage : Form A Form B : Form A Nil: Single side stable L: coil latching L: coil latching (Note) Standard packing: Carton; pcs., Case; pcs. DC 3,,, 9,,, 8 V TYPES AND COIL DATA (at C 8 F) Single side stable Form A Form B coil latching coil latching Part No. Form A Pick-up (max.) Drop-out (min.) Maximum allowable ( C F) Coil resistance, Ω (±%) operating current, ma ST-DC3V ST-DC3V ST-DCV ST-DCV ST-DCV ST-DCV ST-DC9V ST-DC9V ST-DCV ST-DCV ST-DCV ST-DCV , ST-DC8V ST-DC8V ,.3 Form A Form B Part No. Form A Set and reset (max.) Maximum allowable ( C F) Coil resistance, Ω (±%) operating current, ma ST-L-DC3V ST-L-DC3V ST-L-DCV ST-L-DCV ST-L-DCV ST-L-DCV ST-L-DC9V ST-L-DC9V ST-L-DCV ST-L-DCV 9. 8., 9. ST-L-DCV ST-L-DCV 9. 3.,.8 ST-L-DC8V ST-L-DC8V ,.7 Form A Form B Part No. Form A Set and reset (max.) Maximum allowable ( C F) Coil resistance, Ω (±%) operating current, ma ST-L-DC3V ST-L-DC3V ST-L-DCV ST-L-DCV. 7.. ST-L-DCV ST-L-DCV ST-L-DC9V ST-L-DC9V ST-L-DCV ST-L-DCV ST-L-DCV ST-L-DCV 9. 3., ST-L-DC8V ST-L-DC8V ,.7 Polarized Power en_ds_8_: D 8

167 ST DIMENSIONS mm inch 3... Schematics (Bottom view) Single side stable ab + a + ab + - coil latching a (Deenergized condition) (Reset condition) Diagrams show the "reset" position when terminals and are energized. General tolerance: ±. ±.8 PC board pattern (Copper-side view) coil latching types only. + ab 3 + coil latching + a (Reset condition).. Diagram shows the reset position when terminals 3 and are energized. Energize terminals and to transfer contacts. 8-DIA..... Tolerance: ±. ±. REFERENCE DATA. switching power. Life curve 3. Coil temperature rise Sample: ST-DCV Current, A.. DC resistive load AC inductive load (cosϕ =.) AC resistive load Life, k operations, AC V, V resistive load AC V, V inductive load (Pf =.) Temperature rise, C Contact current 8 A A A. Voltage, V Current, A Coil operating power, W. Influence of adjacent mounting Sample: ST-DCV Rated of change, % Drop-out Pick-up () () (3) () & (3) relays are energized. Inter-relay distance, mm. ambient temperature by operating power temperature, C No load 8 A carrying Operating power, mw. Contact reliability (%) ST-Relay V AC cos ϕ = Hz V AC A 8 A. m = 3.9 m = 3. η =.8 η = ρ.9 = 7.7 ρ.9 = No. of operations, 8 en_ds_8_: D

168 ST relay socket ST-SS Solder terminal socket DIMENSIONS ST-PS PC board terminal socket Specifications Breakdown voltage Insulation resistance Heat resistance continuous current Relay insertion life ST-PS ST-SS Precautions for use (socket). PC board mounting method PC board pattern Contact terminal interval Coil terminal interval DIA. 8-. DIA..... The terminal configuration is symmetrical on the left and right, so an arrow mark ; is stamped on the socket to prevent misinsertion. We recommend printing the same arrow mark ; on the component mounting side (side opposite from pattern) of the PC board. In this case, the terminal configuration becomes the terminal nos. noted near the drilling holes.. Chassis cutout Chassis cutting dimensions A side For Cautions for Use, see Relay Technical Information (page 39) Press If the chassis hole is punched with a press, set so the release R on the front side (A side). The range for chassis thickness is. to. mm. to.87 inch. 3. Relay mounting and removal () Align the directions of the relay and socket. Relay Claw for chassis fastening Chassis t =. to.. to.87 3 ST, Vrms Coil/Contacts, Vrms Contacts/Contacts More than, MΩ between terminals C ( F) for hr A times () Insert the relay all the way in, so it is securely in place. mm inch (3) Press the part indicated by A in the B direction, and fasten by placing the hook on the relay. Relay case cross-section (). When removing the relay, completely release the hooks on both sides and pull the relay out. B (Before fastening) A Hinge mechanism (Fastening complete) Polarized Power en_ds_8_: D 83

169 ST 8 en_ds_8_: D

170 Non-Polarized Power Relays

171 HC VDE c, c, c MINIATURE RELAY FOR WIDER APPLICATIONS HC RELAYS.8.89 mm inch SPECIFICATIONS HCE Amber Relays Contacts Arrangement Form C Form C 3 Form C Form C Initial current resistance, max. (By voltage drop A) mω Gold-clad Contact material Gold-flashed silver alloy silver nickel A 7 A 7 A A switching capacity V AC V AC V AC V AC switching power, VA,7 VA,7 VA, VA Rating switching (resistive) voltage V AC switching current A 7 A 7 A A switching capacity # ma, Coil operating power AC (Hz):.3VA, AC (Hz):. VA DC:.9 to.w # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Detection current: ma * Excluding contact bounce time * 3 Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms FEATURES Extra long life 8 mechanical operations (DC type) contact arrangements Form C (for A V AC), 3 Form C (for 7 A V AC), Form C (for 7 A V AC), Form C (for A V AC) Applicable to low to high level loads (µa to A) Amber sealed types available Bifurcated contact types available as HCD Characteristics operating speed cpm (at max. rating) Initial insulation resistance, MW at Initial Between open contacts 7 Vrms for min. breakdown Between contact sets 7 Vrms for min. voltage* Between contact and coil, Vrms for min. Operate time* (at nominal voltage) ms (at C) (DC, AC type) Release time (without diode)* ms (at nominal voltage) (at C) (DC, AC type) Temperature rise, max. (at 7 C) (at nominal voltage) 8 C Shock resistance Functional* 3 9 m/s { G} Destructive* 98 m/s { G} Vibration resistance Functional* to Hz at double amplitude of mm Destructive to Hz at double amplitude of mm Conditions for operation, Ambient C to +7 C transport and storage* temp. 8 F to +8 F (Not freezing and condensing at low Humidity to 8% R.H. temperature) Unit weight Approx. g. oz * Detection time: µs * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Expected life (min. operations) Electrical (at cpm) Voltage V AC V AC Load Resistive Inductive Resistive Inductive (cos ϕ = ) (cos ϕ.) (cos ϕ = ) (cos ϕ.) Resistive Inductive HC ( Form C) HC ( Form C) HC3 (3 Form C) HC ( Form C) Current Current Current Current Expected life A A A 3A 7A 3A 7A.A 3A A A A A.A 7A 3.A 7A A A.A A.A 3A.A 3A.A 3A A 7A 7A 3.A A A A 3A.A A A A A 3A A 3A.8A 3A.A A.A A.A Mechanical life (at 8 cpm) DC type: 8, AC type: 7 8 en_ds : J

172 TYPICAL APPLICATIONS Transportation, power station control equipment, refrigerators, building control equipment, office machines, coin operated machines, amusement devices, medical equipment, etc. HC ORDERING INFORMATION EX. HC D H AC V F Contact arrangement : Form C : Form C 3: 3 Form C : Form C Type classifications Terminal arrangement Coil voltage Contact Material Nil: Standard type D: Bifurcated contact type (HCD only. See Page.) K: Latching relay type (HCK only. See Page 3.) Notes:. When ordering VDE recognized types, add suffix VDE.. HC3 (3 Form C) series are not approved by VDE. 3. AC 8 V type is not available for LED wiring.. Standard packing Carton: pcs.; Case: pcs.. UL/CSA approved type is standard. H: Plug-in HP: PC board terminal HTM: Top mounting HL: Light emitting diode wired, plug-in HPL: Light emitting diode wired, PC board AC,,, 8, / V DC,,, 8, V Form C Form C 3 Form C Form C Form C Bifurcated AgSnO type F F F AgNi type Nil Nil AgCdO type Nil Nil Nil COIL DATA (Common for Standard, Amber sealed and Bifurcated contact types) DC Type at C 8 F allowable coil Coil Pick-up Drop-out Coil resistance, Operating power, W current, (max.) (min.) Ω (±%) ma (±%) Minimum , ,.. Power AC Types (/ Hz) at Hz, C 8 F Coil V AC Pick-up V AC (max.) Drop-out V AC (min.) allowable V AC coil current, ma (±%) / /.9 / 7..../. NOTES:. The range of coil current is ±% for AC ( Hz), and ±% for DC, at C.. The relay is applicable to the range of 8 % to % of the nominal coil voltage. However, it is recommended that the relay be used in the range of 8% to % to take temporary voltage variations into consideration. 3. The coil resistance of DC types is the measured value at a coil temperature of C. Please compensate coil resistance by ±.% for each degree centigrade coil temperature change.. All AC V types are rated for double coil voltages, both AC V and AC V. Operating power, VA Minimum..77. For use with V or, connect a resistor as suggested in the chart below, in series with the relay. Voltage Form C, Form C, 3 Form C, Form C kω ( W) 3 kω ( W) en_ds : J 87

173 HC DIMENSIONS (Common for standard, Amber sealed and Bifurcated contact (C only) types) Plug-in type HC-H ( Form C) HC-H ( Form C) HC3-H (3 Form C) HC-H ( Form C) mm inch General tolerance: ±. ±.8 PC board type HC-H ( Form C) PC board pattern (Copper-side view) c c General tolerance: ±. ±.8 Dimensions of HC-HP, HC-HP, HC3-HP are the same as those of plug-in type except shapes of terminals c dia dia dia dia c dia dia dia dia. Tolerance: ±. ±. Note: Special PC terminal with.9 mm (.3 inch) width available with suffix -3. Schematic (bottom view) HC-H, HC-HP ( Form C) HC-H, HC-HP ( Form C) HC3-H, HC3-HP (3 Form C) HC-H, HC-HP ( Form C) LED AC type LED AC type LED AC type LED AC type 3 ( ) 7 ( ) ( ) ( ) 3 ( ) ( ) 3 ( ) ( ) LED DC type LED DC type LED DC type LED DC type 3 ( ) 7 (+) ( ) (+) 7 3 ( ) (+) 9 3 ( ) (+) 88 en_ds : J

174 REFERENCE DATA. Life curve Load: V AC resistive load. Switching capacity range 3. HS gas test HC Life, times,, Mechanical life (DC type) Mechanical life (AC type) c ( V AC cosϕ = ) c 3c c 8 Load current, A AC V ma ma HCc HCc, 3c A AC current HCc A A 7A Contact resistance Ω Ω Ω mω mω Standard HC relay Gas density: to ppm Temperature: C Humidity: 9% RH HCE Amber relay Exposure time, Hrs.. Coil temperature rise Measured portion: Inside the coil Note: When the nominal voltage is applied to AC or V coil types respectively, the figures of coil temperature rise increase by approx. degrees to the ones shown on each graph. HC AC coil Ambient temperature: C 77 F Temperature rise, C A 7A A A A HC AC coil Ambient temperature: C 8 F Temperature rise, C A A A 8 9 Coil applied %V 8 9 Coil applied %V Power HC3 AC coil Ambient temperature: 8 C F HC AC coil Ambient temperature: to C 9 to 7 F HC DC coil Ambient temperature: 9 C 8 F Temperature rise, C A A A Temperature rise, C 8 8 A 3A A Temperature rise, C A A A Coil applied %V Coil applied %V Coil applied %V HC DC coil Ambient temperature: 9 C 8 F HC3 DC coil Ambient temperature: 9 C 8 F HC DC coil Ambient temperature: 7 to 8 C to F Temperature rise, C A A A Temperature rise, C A A A Temperature rise, C A 3A A 8 9 Coil applied %V 8 9 Coil applied %V 8 9 Coil applied %V en_ds : J 89

175 HC Amber Relays HCE HC sealed relays are version of the HC relays and are recommended for use in switching medium loads under adverse ambient conditions. They show highly stable contact resistance even after long use, due to their sealed construction and reliable gold plated contacts. Amber relays also make the combined process of automatic wave soldering and cleaning process possible with their resultant savings in cost and labor. Contact arrangements of Form C, C, and C are available for plug-in, PC board and top-mount. Construction The diagram at right shows a crosssection of the plastic sealed relay. All the plastic parts are annealed and outgassed to ensure fully the stability of both chemical and physical characteristics. Sealed construction SPECIFICATIONS Contacts Contact arrangement Form C Form C Form C switching capacity A V AC 3 A V AC A V AC switching power, VA 7 VA VA Rating (resistive) switching voltage V AC switching current A 3 A A switching capacity # ma, m Conditions for operation, transport and storage Ambient temp. C to + C F to + F (Not freezing and condensing at low temperature) Humidity to 8% R.H. Ambient air pressure 7 mmhg +% (.3 mb +%) Expected life (min. operations) Electrical (at cpm) Mechanical life (at 8 cpm) Voltage V AC V AC Load Resistive Resistive (cos ϕ = ) (cos ϕ = ) Resistive Inductive HCE ( Form C) Current A A 3 A A HCE ( Form C) Current 3 A 3 A A.7 A HCE ( Form C) Current A A A. A ORDERING INFORMATION DC type: 8, AC type: 7 Expected life EX. HC E D HP AC V F Characteristics Operate time Release time ms ms # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Contact arrangement : Form C : Form C : Form C UL/CSA approved type is standard. Type classifications Terminal arrangement Coil voltage Contact Material Nil: Standard type D: Bifurcated contact type (HCD only. See Page.) H: Plug-in HP: PC board terminal HTM: Top mounting L: Light emitting diode wired, plug-in PL: Light emitting diode wired, PC board REFERENCE DATA (HC Amber Relays). Switching capacity range.-() Coil temperature rise (c AC type) Measured portion: Inside the coil Ambient temperature C 8 F AC V V V V ma HCE HCE HCE A A3A A A AC current Temperature rise, C Voltage applied to coil, %V AC,,, 8,, V DC,,, 8, V AgSnO type AgNi type AgCdO type Form C F Nil Form C F Nil Form C Nil Form C Bifurcated Nil.-() Coil temperature rise (c AC type) Measured portion: Inside the coil Ambient temperature: C 8 F 9 en_ds : J A Temperature rise, C A 8 9 Voltage applied to coil, %V

176 .-(3) Coil temperature rise (c AC type) Measured portion: Inside the coil Ambient temperature: C 8 F Temperature rise, C A 8 9 Voltage applied to coil, %V.-() Coil temperature rise (c DC type) Measured portion: Inside the coil Ambient temperature: C 8 F Temperature rise, C A A 8 9 Voltage applied to coil, %V.-() Coil temperature rise (c DC type) Measured portion: Inside the coil Ambient temperature: C 8 F Temperature rise, C A 8 9 Voltage applied to coil, %V HC Bifurcated contact types HCD Extremely high contact reliability has been made possible by adoption of goldclad bifurcated contacts for both movable and stationary contacts. HCD type can be used from the dry circuit µa at to the power circuit 3 A at V AC resistive load. Therefore, with HCD type such a usage is possible that one contact switches µa and another contact switches 3 A load. Also Amber sealed types are available as HCED relays. SPECIFICATIONS Contacts Contact arrangement Contact material Rating (resistive) Expected life (min. operations) Electrical (at cpm) Voltage V AC V AC Load Resistive (cos ϕ = ) REFERENCE DATA switching capacity switching power switching current Inductive (cos ϕ.) Form C only Gold-clad silver nickel 3 A V AC 7 VA 3A (HCD) µa, (HCED) µa, m Resistive (cos ϕ = ) Inductive (cos ϕ.) Resistive HCD 3 A A 3 A.8 A 3 A HCED A A. Switching capacity range Standard type switching capacity # Amber type Characteristics Operate time (Approx.) Release time (Approx.) ms ms # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Expected life Power AC V AC V mv mv µa A 3A A AC current µa A 3A A AC current en_ds : J 9

177 HC Latching relay types: HCK HC magnetic latching relays are particularly suitable for various vending machines, remote control devices, parking meters, conveyor, NC machinery, etc mm inch Plug-in TYPES AND COIL DATA DC coils at C 8 F AC coils Part No. coil current (ma) operating power (VA) UL, CSA recognized Coil voltage Plug-in PC board terminal set reset set reset Pick-up allowable HCK-DCV (-F) HCK-P-DCV (-F) HCK-DCV (-F) HCK-P-DCV (-F)...3 HCK-DCV (-F) HCK-P-DCV (-F)...3. HCK-DC8V (-F) HCK-P-DC8V (-F) HCK-DCV (-F) HCK-P-DCV (-F) Part No. coil current (ma) operating power (VA) 8% of voltage Coil voltage % of voltage Plug-in PC board terminal set reset set reset Pick-up allowable HCK-ACV (-F) HCK-P-ACV (-F) 3.3. HCK-ACV (-F) HCK-P-ACV (-F).. HCK-ACV (-F) HCK-P-ACV (-F)... HCK-AC8V (-F) HCK-P-AC8V (-F) HCK-ACV (-F) HCK-P-ACV (-F).... 8% of voltage % of voltage 9 en_ds : J Plug-in PC board terminal HCK AC types are not recognized by UL, CSA. Notes:. The coil current range is ±% of the nominal coil current.. The relay is suitable to the range of 8% % of the nominal coil voltage. However, it is recommended that the relay be used in the range of 8% % of the nominal coil with the temporary voltage variation taken into consideration. 3. UL/CSA approved type is standard. SPECIFICATIONS Contacts Arrangement Initial contact resistance max. (By voltage drop A) Rating (resistive) Coil operating power switching capacity switching power switching current switching capacity # Set coil Reset coil Form C only mω 3 A V AC 7 VA 3A ma,. VA to.33 VA. VA to.88 VA # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. DIMENSIONS AND CIRCUIT DIAGRAM Dimensions Circuit diagram General tolerance: ±. ±. Characteristics Initial breakdown Between contact voltage and coil, Vrms for min. Set time (at nominal voltage) (at C) AC, DC: Approx. ms Reset time (at nominal voltage) AC: Approx. ms DC: Approx. ms Temperature rise Set coil 8 C (at nominal voltage) Reset coil C Shock/vibration resistance 98 m/s { G} Expected life (min. operations) Ambient temperature PC board pattern (Copper-side) DIA. HOLES -.79 DIA. HOLES Tolerance: ±. ±. mm inch Idle terminal hole needed Mechanical (at 8 cpm) Electrical (resistive) (at cpm) 7 C to + C F to + F (Not freezing and condensing at low temperature) Notes:. Configuration and dimensions of HCK types are the same as those of standard HC types. Standard sockets and screw terminal sockets of HC can be used: HC-SS-K, HC-PS-K, HC-WS-K, and HC-HSF-K.. Please note that circuit diagram of HCK is different from HC. 3. Avoid operation by capacitor since latching force varies according to input pulse voltage.

178 LED wired types: HC-L The built-in indication LED (Light emitting diode) Series are suitable for instant indication of operate function in applications where numerous relays are to be used. The HC-L relays are supplied with LED wired in parallel with the coil for visual indication that the relay is functioning. A Red LED is used for AC type and green one for DC. HC Protection diode (BOTTOM VIEW) ACCESSORIES Socket Relay HC ( Form C) HC ( Form C) HC3 (3 Form C) HC ( Form C) Socket with solder tab (with hold-down clip) HC-SS-K HC-SS-K HC3-SS-K HC-SS-K PC board socket (with hold-down clip) Power HC-PS-K HC-PS-K HC3-PS-K HC-PS-K Socket for wrap wiring (with hold-down clip) HC-WS-K Screw terminal socket for front wiring (with hold-down clip) HC-SF-K Exclusively for HC-H HC3-HSF-K For HC-H, HC3-H HC-HSF-K For HC-H, HC-H, HC-H Screw terminal socket for DIN rail assembly (with hold-down clip) HC-SFD-S HC-SFD-K Exclusively for HC-H HC3-SFD-K For HC-H, HC3-H HC-SFD-K For HC-H, HC-H, HC-H en_ds : J 93

179 HC DIMENSIONS Socket with solder tab (with hold-down clip) mm inch HC-SS-K HC-SS-K HC3-SS-K HC-SS-K PC board socket (with hold-down clip) HC-PS-K HC-PS-K HC3-PS-K HC-PS-K Socket for wrapping (with hold-down clip) HC-WS-K Terminal cross section Screw terminal socket for front wiring (with hold-down clip) Terminal screw M3 -. over holes HC-SF-K 9 en_ds : J Terminal screw M over holes HC3-HSF-K Terminal screw M over holes HC-HSF-K

180 Screw terminal socket for DIN rail assembly (with hold-down clip) HC mm inch Terminal screw M Terminal screw M HC-SFD-S HC-SFD-K Terminal screw M Terminal screw M Power HC3-SFD-K HC-SFD-K Hold-down clip () Leaf spring: Applied to HC-SS-K, HC-SS-K, HC3-SS-K, HC-SS-K, HC-PS-K, HC-PS-K, HC3-PS-K, HC-PS-K, HC-SF-K, HC3-HSF-K, HC-HSF-K Part No.: HC/HL-LEAF-SPRING-K () M shape leaf spring: Applied to HC-WS-K Part No.: HC/HL-LEAF-SPRING-MK en_ds : J 9

181 HC MOUNTING DIMENSIONS AND METHOD Solder and wrapping socket mount Chassis cutout.8. mm inch Chassis thickness. to..39 to.79 Quick mounting MINIMUM SEPARATION..8 Tolerance: ±. ±. PC board pattern for PC board socket (Copper-side view) For socket-mount HC-PS-K HC-PS-K HC3-PS-K HC-PS-K dia dia dia dia dia dia dia dia General tolerance: ±. ±. Screw socket mounts (Top view) HC-SF-K Chassis cutout M3. SCREW HOLES OR -.. DIA. HOLES Schematic 9 3 HC3-HSF-K Chassis cutout Schematic Minimum separation in tandem mounting M3. SCREW HOLES OR -.. DIA. HOLES.79 Minimum separation in tandem mounting HC-HSF-K..88 Chassis cutout Schematic 9 3 HC-SFD-K. Chassis cutout.39. Schematic N.C. 8 N.O M3. SCREW HOLES OR -.. DIA. HOLES.79 Minimum separation in tandem mounting HC3-SFD-K. Chassis cutout Schematic 3 N.C. N.O M3. SCREW HOLES OR -.. DIA. HOLES.8 Minimum separation in tandem mounting HC-SFD-K. Chassis cutout.39. COM 9 Coil 3 Schematic 3 N.C. 8 7 N.O M3. SCREW HOLES OR -.. DIA. HOLES.8 Minimum separation in tandem mounting COM Coil.8.8 -M3. SCREW HOLES OR -.. DIA. HOLES.8 Minimum separation in tandem mounting COM 9 Coil 3 9 en_ds : J

182 HC Direct mount for HC-TM relay siries Form C CHASSIS CUTOUT IN TANDEM MOUNTING HC-HTM Notes:. HC -HTM, HC-HTM, HC3-HTM, HC-HTM types all have dimensions in common except for the number of terminals.. For the specifications, please refer to page In mounting, use M3 screw and M3 washer..8r.7r MINIMUM SEPARATION Tolerance: ±. ±. Mounting track for solder socket Up to sockets per track. Cut at notch for desired track length. Track-mounted solder log sockets HC-MOUNTING TRACK Power oval hole -..3 oval hole PANEL NUT MOUNTING TRACK SOCKET STOPPER PLATE WASHER SCREW Chassis For small quantity Size of mounting track 8- screw holes 8-.7 screw holes For large quantity PANEL MATCH SCREW HOLE LOCATION TO MOUNTING TRACK Tolerance: ±. ±. For Cautions for Use, see Relay Technical Information (page 39). en_ds : J 97

183 HE VDE TV-, AMP ( Form A) Power Relay HE RELAYS FEATURES mm inch High contact capacity with superior inrush current characteristics; Form A Form A Rating A 77 V AC A 77 V AC TV rating TV- TV- Excellent high heat-resistance; High dielectric strength:, V surge Conforming to VDE8 (Insulation gap: 8 mm.3 inch) VDE, TÜV also approved SPECIFICATIONS Contacts Type DC coil type AC coil type Arrangement a a a a Contact material Silver alloy Initial contact resistance, max. (By voltage drop A) mω A A A A 77 V 77 V 77 V 77 V switching capacity AC AC AC AC Rating (resistive) Expected life (min. operations) switching power 8, VA,9 VA 8, VA,9 VA switching voltage 77 V AC, switching current A A A A switching capacity # ma, Mechanical (at 8 cpm) 7 Electrical (a: A 77 V AC, a: A 77 V AC) (at cpm) (a: A V AC, a: A V AC) Coil (at C 8 F) DC coil type AC coil type operating power.9 W See Coil data (next page) # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as initial breakdown voltage section * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics Maximum operating speed Initial insulation resistance* Between open contacts Initial breakdown voltage* Between contacts and coil Between contact sets (a) Surge voltage between coil and contact* 3 Operate time* (at nominal voltage) Release time* (at nominal voltage) Temperature rise, max. (resistive load)(at C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight DC coil type AC coil type cpm, MΩ at, Vrms for min., Vrms for min., Vrms for min. ms, V ms ms C C Functional* 98 m/s { G} Destructive* 98 m/s { G} Functional* 7 Destructive Ambient temp. Humidity Air pressure to Hz at double amplitude of mm to Hz at double amplitude of. mm C to + C 8 F to +3 F to 8% R.H. 8 to kpa Approx. 9 g 3.7 oz (Plug-in type) TYPICAL APPLICATIONS. Home appliances Air conditioners Microwave ovens TV sets Heaters Stereo. Office equipment Copiers Vending machines ORDERING INFORMATION Contact arrangement a: Form A a: Form A HE a N S DC V Pick-up voltage Terminals Coil voltage N: 7% of nominal voltage Nil: Plug-in terminal type S: Screw terminal type SW: Screw terminal type (wide pitch) Q: NEMA terminal type P: PC board terminal type* Standard packing: Carton: pcs.; Case: pcs. * PC board terminal are available only for Form A type of DC coil voltage. UL/CSA, TÜV approved type is standard. DC:,,, 8, V AC:,, 8,, V 98 en_ds : J

184 HE TYPES DC type Terminal shape Plug-in terminal Screw terminal Screw terminal (wide pitch) NEMA terminal PC board terminal Contact arrangement Form A Form A HEaN-DCV HEaN-DCV HEaN-DCV HEaN-DCV HEaN-DCV HEaN-DCV HEaN-DC8V HEaN-DC8V HEaN-DCV HEaN-DCV HEaN-S-DCV HEaN-S-DCV HEaN-S-DCV HEaN-S-DCV HEaN-S-DCV HEaN-S-DCV HEaN-S-DC8V HEaN-S-DC8V HEaN-S-DCV HEaN-S-DCV HEaN-SW-DCV HEaN-SW-DCV HEaN-SW-DCV HEaN-SW-DCV HEaN-SW-DCV HEaN-SW-DCV HEaN-SW-DC8V HEaN-SW-DC8V HEaN-SW-DCV HEaN-SW-DCV HEaN-Q-DCV HEaN-Q-DCV HEaN-Q-DCV HEaN-Q-DCV HEaN-Q-DCV HEaN-Q-DCV HEaN-Q-DC8V HEaN-Q-DC8V HEaN-Q-DCV HEaN-Q-DCV HEaN-P-DCV HEaN-P-DCV HEaN-P-DCV HEaN-P-DC8V HEaN-P-DCV AC type Terminal shape Plug-in terminal Screw terminal Screw terminal (wide pitch) NEMA terminal Contact arrangement Form A Form A HEaN-ACV HEaN-ACV HEaN-ACV HEaN-ACV HEaN-AC8V HEaN-AC8V HEaN-ACV HEaN-ACV HEaN-ACV HEaN-ACV HEaN-S-ACV HEaN-S-ACV HEaN-S-ACV HEaN-S-ACV HEaN-S-AC8V HEaN-S-AC8V HEaN-S-ACV HEaN-S-ACV HEaN-S-ACV HEaN-S-ACV HEaN-SW-ACV HEaN-SW-ACV HEaN-SW-ACV HEaN-SW-ACV HEaN-SW-AC8V HEaN-SW-AC8V HEaN-SW-ACV HEaN-SW-ACV HEaN-SW-ACV HEaN-SW-ACV HEaN-Q-ACV HEaN-Q-ACV HEaN-Q-ACV HEaN-Q-ACV HEaN-Q-AC8V HEaN-Q-AC8V HEaN-Q-ACV HEaN-Q-ACV HEaN-Q-ACV HEaN-Q-ACV Power COIL DATA at C 8 F DC coil type AC coil type *Value at Hz voltage Pick-up (max.) Drop-out (min.) coil current, ma (±%) Coil resistance, Ω (±%) operating power, W allowable voltage (at C F), voltage Pick-up V AC (max.) Drop-out V AC (min.) coil current, ma (±%) Coil resistance, Ω (±%) operating power, VA allowable voltage (at C F), V AC V AC * V AC *.8. 8 V AC *.9.8 V AC *.7 3. V AC. 3..8* 8.. en_ds : J 99

185 HE DIMENSIONS. Plug-in terminal type a -. dia dia dia dia. a mm inch Schematic a a 3 R R FASTON No FASTON No...9 Panel cutout -.. dia dia General tolerance: ±.3 ±.. NEMA terminal type a R a R a Schematic a FASTON No FASTON No...9 Panel cutout -.. dia General tolerance: ±.3 ±. 3. Screw terminal type a M M. a a Schematic a 3 -. dia M R dia M R Panel cutout -.. dia dia General tolerance: ±.3 ±. en_ds : J

186 HE. Screw terminal type (wide pitch) a M...77 M R M...77 M3. a R a Schematic Panel cutout -.. dia a mm inch General tolerance: ±.3 ±.. PC board terminal type Schematic (Bottom view) PC board pattern (Copper-side view) dia dia Power REFERENCE DATA Form A Type. Maximum switching power. Life curve 3. Contact temperature rise (DC type) Measured portion: Inside the coil Contact current: A Contact current, A. DC resistive AC resistive No. of operations,, V AC resistive resistive Temperature rise, C 7 C C C, Contact V 3 Contact current, A Coil applied %V. Ambient temperature characteristics Sample: HEaN-ACV, pcs. - - Rate of change, % Pick-up voltage x -- Drop-out voltage 8 Ambient - temperature, C - - en_ds : J

187 HE Form A Type. Maximum switching power. Life curve 3. Contact temperature rise (DC type) Measured portion: Inside the coil Contact current: A, 7 AC resistive C C C DC resistive V AC resistive resistive Contact current, A. No. of operations, Temperature rise, C, Contact V 3 Contact current, A Coil applied %V. Ambient temperature characteristics Sample: HEaN-ACV, pcs. - - Rate of change, % Pick-up voltage 8 Ambient - temperature, C x - x - Drop-out voltage - - MOUNTING METHOD. Plug-in terminal type. Screw terminal type 3. Allowable installation wiring size for screw terminal types and terminal blocks M screw M screw a type. mm or. mm Washer Faston No. Washer a type. mm or 3. mm Due to the UP terminals, it is possible to either directly connect the wires or use crimped terminal NOTES. The dust cover should not be removed since doing so may alter the characteristics.. Avoid use under severe environmental conditions, such as high humidity, organic gas or in dust, oily locations and locations subjected to extremely frequent shock or vibrations. 3. When mounting, use spring washers. Optimum fastening torque ranges from kg to 7 kg cm. to pounds inch.. Firmly insert the receptacles so that there is no slack or looseness. To remove a receptacle, to kg of pulling strength is required. Do not remove more than one receptacle at one time.always remove one receptacle at a time and pull it straight outwards.. Install the relay so that it lies in direction A (up-down direction). (Pick-up voltage and drop-out voltage values are those when installed in direction A.). When using the AC type, the operate time due to the in-rush phase is ms or more. Therefore, it is necessary for you to verify the characteristics for your actual circuit. Moreover, the release time for the NC side of the ab type requires the same verification. 7. When using the push-on blocks for the screw terminal type, use crimped terminals and tighten the screw-down terminals to the torque s listed below. M. screw M screw M3. screw 7 N-cm to. N-cm ( to 7 kg cm) 7. N-cm to 37 N-cm ( to kg cm) 78. N-m to 98 N-cm (8 to kg cm) 8. All ACV types are rated for double coil both AC V AC V. For Cautions for Use, see Relay Technical Information (page 39). en_ds : J

188 HE RELAY ACCESSORIES Terminal socket instantly attachable to DIN rail TYPES Part No. JH-SF JH-SF SPECIFICATIONS Part No. Maximum continuous current* Breakdown voltage Insulation resistance Heat resistance Applicable relays HEa/JHa HEa/JHa JH, JH A V AC (a: A V AC), Vrms between terminals More than, MΩ between poles C ±3 C for hour * Don t insert or remove relays while in the energized condition. HE DIMENSIONS Form A, Form A Relay mounting diagram Panel cutout mm inch DIA.. -DIA.. (-M Screw hole) (-M.7 Screw hole) MOUNTING METHOD Note: JH-SF does not have receptacles (tooth rests) for numbers, 3, 7, and 8. JH-SF does not have receptacles (tooth rests) for numbers 7 and 8.. Relay mounting. Installing to a DIN rail 3. Removing from a DIN rail Power Push Flat-head screw driver NOTE. Be careful not to drop the relay. It is made of heat-hardened resin and may break.. Be sure to tighten the screw- down terminals firmly. Loose terminals may lead to the generation of heat. en_ds : J 3

189 HG AMP POWER RELAY HG RELAYS a 3.7. SPECIFICATIONS Contacts Arrangement Initial contact resistance, max. (By voltage drop A) Contact material switching capacity switching capacity # Expected life (min. operations) Life curve for AC types mm inch a HG HG3..99 HG 8..7 Form C, 3 Form C, Form C mω Silver alloy A V AC (resistive) ma, Mechanical (at 8 cpm) AC type: 7, DC type: Operations,, Mechanical life : 7 Operating frequency: 8 op./min. V AC cosϕ = V AC cosϕ = Load current, A # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section FEATURES Large capacity A V AC resistive and. kw 3 phase V AC motor loads High contact reliability after long use Usable with direct soldering, quick-connect and plug-in terminals. (.) Characteristics (at Hz, C 8 F) Maximum operating speed cpm Initial insulation resistance* MΩ at Initial Between open contacts, Vrms for min. breakdown Between contacts sets, Vrms for min. voltage* Between contacts and coil, Vrms for min. Form C type ms Operate time* 3 (approx.) (at nominal voltage) 3 Form C & ms Form C type Release time Form C type ms (without diode)* 3 (approx.) 3 Form C & (at nominal voltage) Form C type ms 98 m/s Functional* Shock resistance { G} (except for the contact moving direction) Destructive* 98 m/s { G} Vibration resistance Functional* to Hz at mm double amplitude Destructive to Hz at mm double amplitude Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight Ambient temp. Humidity C to + C 8 F to + F to 8% R.H. Form C type Approx. g.9 oz 3 Form C type Approx. 8 g.3 oz Form C type Approx. g 8.7 oz * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Electrical life with AC load AC load Voltage, V AC Current, A Resistive (cos ϕ ) Inductive (cos ϕ.) Electrical life with DC load DC load Voltage, Current, A Expected life (min. operations) Resistive.8 Inductive (L/R 7 ms) Expected life (min. operations) Note: For DC inductive load, use of an arc extinguishing circuit is recommended. AC load Voltage, V AC Capacity, kw Lamp. Expected life (min. operations) en_ds_7_: J Motor Single phase Three phase Note: In case of an electromagnet or exiting coil load (solenoid, etc.), the value of the motor or lamp load is applicable.

190 TYPICAL APPLICATIONS Industrial machinery, machine tools, food processing and packing machines, office machines, transportation equipment and amusement devices. TYPES AND COIL DATA DC TYPES at C 8 F Type HG ( Form C) HG3 (3 Form C) HG ( Form C) Part No. AC TYPES (/ Hz) at HZ, C 8 F Type HG ( Form C) HG3 (3 Form C) HG ( Form C) Notes:. The coil current ranges is ±% for AC ( Hz), ±% for DC ( C 8 F).. These relays are applicable to a range of 8% to % of the nominal coil voltage. However, it is recommended that the relay be used in a range of 8% to % of the nominal coil taking the temporary voltage variation into consideration. For AC types, when operating voltage is 7% of nominal coil buzzing will en_ds_7_: J coil Pick-up (max.) Drop-out (min.) allowable, voltage Coil resistance, Ω (±%) coil current, ma HG Operating power, W HG-DCV (approx.). HG-DCV (approx.). HG-DCV (approx.). HG-DC8V (approx.). HG-DCV (approx.). HG-DCV 7,8 7. (approx.). HG3-DCV (approx.). HG3-DCV (approx.). HG3-DCV (approx.). HG3-DC8V (approx.). HG3-DCV (approx.). HG3-DCV 3,8 8. (approx.). HG-DCV (approx.). HG-DCV (approx.). HG-DCV (approx.). HG-DC8V (approx.). HG-DCV (approx.). HG-DCV,.9 (approx.). Part No. coil V AC ORDERING INFORMATION Pick-up V AC (max.) Contact arrangement : Form C 3: 3 Form C : Form C Drop-out V AC (min.) Ex. HG AC V (Note) Standard packing Carton: HG pcs. HG3, HG pcs. UL/CSA approved type is standard. allowable, V AC voltage Inductance, H Coil voltage AC,,, 8,,, V DC,,, 8,, V Case: HG pcs. HG3, HG pcs. coil current, ma Operating power, VA HG-ACV (approx.) 3. HG-ACV (approx.) 3. HG-ACV (approx.) 3. HG-AC8V (approx.) 3. HG-ACV (approx.) 3. HG-ACV (approx.) 3. HG-ACV (approx.) 3. HG3-ACV (approx.). HG3-ACV (approx.). HG3-ACV (approx.). HG3-AC8V (approx.). HG3-ACV (approx.). HG3-ACV (approx.). HG3-ACV (approx.). HG-ACV (approx.) 7. HG-ACV (approx.) 7. HG-ACV (approx.) 7. HG-AC8V (approx.) 7. HG-ACV (approx.) 7. HG-ACV (approx.) 7. HG-ACV (approx.) 7. occur, and a large amount of current will flow, burning the coil. 3. Each coil resistance of DC types is the measured value at coil temperature of C 8 F. Please compensate the coil resistance by ±.%, each time the coil temperature changes by ± C. Power

191 HG DIMENSIONS HG ( Form C) HG3 (3 Form C) HG ( Form C) mm inch DIA. 9 DEEP HOLE for 3 DIA. TAPPING SCREW.98 DIA..3 DEPTH. DIA. 8 DEEP HOLE for 3 DIA. TAPPING SCREW.98 DIA..3 DEPTH DIA. 9 DEEP HOLE for 3 DIA. TAPPING SCREW.98 DIA..3 DEPTH. DIA. 8 DEEP HOLE for 3 DIA. TAPPING SCREW.98 DIA..3 DEPTH DIA. 9 DEEP HOLE for 3 DIA. TAPPING SCREW.98 DIA..3 DEPTH. DIA. 8 DEEP HOLE for 3 DIA. TAPPING SCREW.98 DIA..3 DEPTH AMP SERIES FASTON CONNECTORS CAN BE USED Schematic (Bottom view) AMP SERIES FASTON CONNECTORS CAN BE USED Schematic (Bottom view) AMP SERIES FASTON CONNECTORS CAN BE USED Schematic (Bottom view) ACCESSORIES Please refer to MOUNTING METHOD for further information. HG Relay Screw terminal socket for DIN rail assembly (with hold-down clip) Solder terminal socket for rectangular hole (with hold-down clip) General tolerance: ±. ±. Bracket for direct mounting HG-SFD HG-SS HP-BRACKET HG ( Form C) pc. HG3-SFD HG3-SS HP-BRACKET HG3 (3 Form C) HG-SS pcs. HP-BRACKET HG ( Form C) No screw terminal socket for HG use screw terminal sockets (HG-SFD) Note: Tapping-screw holes are provided on the cover top for direct mounting. pcs. en_ds_7_: J

192 MOUNTING METHOD AND DIMENSIONS Screw terminal socket (Hold-down clips included) HG-SFD HG3-SFD HG mm inch Installation screw block (installation screw, hexagonal nut, spring washer) Lot No. HOLD DOWN CLIP Installation screw block (installation screw, hexagonal nut, spring washer) Lot No. HOLD DOWN CLIP HG RELAY HG3 RELAY M (.. ) Panel hole dimensions for side-by-side installation 3 Note: Hold down clip and installation screw block are included in package M (.. ) Panel hole dimensions for side-by-side installation 9 Note: Hold down clip and installation screw block are included in package. Power Solder terminal socket (Hold-down clips included) HG-SS HG3-SS HG-SS approx approx approx DIA. HOLE or mm SCREW HOLE. DIA. HOLE Note: HG sockets accept Faston.. DIA. HOLE or mm SCREW HOLE. DIA. HOLE General tolerance: ±. ±.. DIA. HOLE or mm SCREW HOLE. DIA. HOLE en_ds_7_: J 7

193 HG Direct mounting Faston series quick-connectors can be used. 3 DIA. TAPPING SCREW.8 DIA. Direct mounting with HP-BRACKET Faston series quick-connectors can be used. 3 mm DIA. TAPPING SCREW DIA. HOLE.38 DIA DIA. HOLE.8 DIA. 3. DIA. HOLE.38 DIA. A A: HG : mm.9 HG 3: 7mm.9 HG : 3mm.339 Use two brackets for HG3 and HG Notes:. This bracket is unavailable for UL, CSA and VDE applications.. When using any other non-standard bracket mounting-screw length should not exceed bracket thickness plus 7 mm.7 inch to avoid damage to relay coils. Socket Combinations NOTES Please use the hold-down clip whenever HG relays will be used in applications where strong vibrating or shock force occurs. When used in such applications, mount the relay so that this force does not parallel the direction of contact movement. For Cautions for Use, see Relay Technical Information (page 39). 8 en_ds_7_: J

194 TÜV Rheinland HJ MINIATURE RELAY FOR WIDER APPLICATIONS HJ RELAYS ORDERING INFORMATION Ex. HJ FEATURES contact arrangements Form C (for A V AC), Form C (for 7 A V AC) Excellent contact reliability by Au plating Environmentally friendly Cd-free contacts Coil breakdown detection function (AC type with LED only) Convenient Screw terminal sockets with finger protection also available Test button type available Built-in diode and CR for surge suppression type available TYPICAL APPLICATIONS Control panels Power supply units Molding machines Machine tools Welding equipment Agricultural equipment Office equipment Vending machines Communications equipment Amusement machines Contact arrangement : Form C : Form C SPECIFICATIONS Coil en_ds : J Operation indication Nil: Without LED indication L: With LED indication Test button Nil: Without test button T: With test button Contacts Arrangement Form C Form C Initial contact resistance, max. (By voltage drop A) mω Au plating Silver alloy Contact material (Au plating type) Silver alloy (without Au plating type) switching capacity 7A V AC A V AC Rating switching power,7 VA, VA (resistive switching voltage V AC load) switching current 7 A A switching current* 9 V ma (Au plating type only) Mechanical (at 8 cpm) 7 Expected life (min. Electrical (at cpm) operations) (resistive load) operating power (7A V AC) (A V AC).9W.V A (A V AC) (3A V AC) Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * For the AC coil types, the operate/release time will differ depending on the phase. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). * 9 This value can change due to the switching frequency, environmental conditions and desired reliability level, therefore it is recommended to check this with the actual load. Coil voltage AC,, 8, /, /, /, / V DC,, 8, / V Surge suppression Nil: Without D: With diode R: With CR Contact surface Nil: Without : With Au plating Characteristics Form C Form C operating speed cpm (at max. rating) Initial insulation resistance* MΩ at Between open contacts, Vrms for min. Initial breakdown Between contact voltage* sets, Vrms for min. Between contact and coil, Vrms for min. Operate time* 3 (at nominal voltage) ms* Release time (without diode)* 3 (at nominal voltage) ms* Temperature rise, max. (at 7 C) (at nominal voltage) C Shock Functional* m/s { G} resistance Destructive*, m/s { G} to Hz at double amplitude Functional* Vibration of. mm resistance to Hz at double amplitude Destructive of. mm Conditions for operation, Ambient C to +7 C transport and storage* 8 temp. F to +8 F (Not freezing and condensing at low Humidity to 8% R.H. temperature) Without Approx. 3g Approx. 3g test button.9 oz.3 oz Unit weight Test button Approx. 3g. oz Approx. 3g. oz 9 Power

195 HJ TYPES [Au plating type]. Plug-in type. Plug-in type (with LED indication) Coil voltage Form C Form C Part No. Part No. HJ-DC V- HJ-DC V- HJ-DC V- HJ-DC V- 8 HJ-DC 8V- HJ-DC 8V- / HJ-DCV- HJ-DCV- V AC HJ-AC V- HJ-AC V- V AC HJ-AC V- HJ-AC V- 8V AC HJ-AC 8V- HJ-AC 8V- /V AC HJ-ACV- HJ-ACV- /V AC HJ-ACV- HJ-ACV- /V AC HJ-ACV- HJ-ACV- /V AC HJ-AC/V- HJ-AC/V- Coil voltage Form C Form C Part No. Part No. HJ-L-DC V- HJ-L-DC V- HJ-L-DC V- HJ-L-DC V- 8 HJ-L-DC 8V- HJ-L-DC 8V- / HJ-L-DCV- HJ-L-DCV- V AC HJ-L-AC V- HJ-L-AC V- V AC HJ-L-AC V- HJ-L-AC V- 8V AC HJ-L-AC 8V- HJ-L-AC 8V- /V AC HJ-L-ACV- HJ-L-ACV- /V AC HJ-L-ACV- HJ-L-ACV- /V AC HJ-L-ACV- HJ-L-ACV- /V AC HJ-L-AC/V- HJ-L-AC/V- 3. Plug-in type (with diode). Plug-in type (with diode and LED indication) Coil voltage Form C Form C Part No. Part No. HJ-DC V-D- HJ-DC V-D- HJ-DC V-D- HJ-DC V-D- 8 HJ-DC 8V-D- HJ-DC 8V-D- / HJ-DCV-D- HJ-DCV-D- Coil voltage Form C Form C Part No. Part No. HJ-L-DC V-D- HJ-L-DC V-D- HJ-L-DC V-D- HJ-L-DC V-D- 8 HJ-L-DC 8V-D- HJ-L-DC 8V-D- / HJ-L-DCV-D- HJ-L-DCV-D-. Plug-in type (with CR) Coil voltage Form C Form C Part No. Part No. /V AC HJ-ACV-R- HJ-ACV-R- /V AC HJ-ACV-R- HJ-ACV-R- /V AC HJ-ACV-R- HJ-ACV-R- /V AC HJ-AC/V-R- HJ-AC/V-R- Note) Packing quantity: pcs. (Inner carton), pcs. (Outer carton). Plug-in type (with CR and LED indication) Coil voltage Form C Form C Part No. Part No. /V AC HJ-L-ACV-R- HJ-L-ACV-R- /V AC HJ-L-ACV-R- HJ-L-ACV-R- /V AC HJ-L-ACV-R- HJ-L-ACV-R- /V AC HJ-L-AC/V-R- HJ-L-AC/V-R- [Without Au plating type]. Plug-in type. Plug-in type (with LED indication) Coil voltage Form C Form C Part No. Part No. HJ-DC V HJ-DC V HJ-DC V HJ-DC V 8 HJ-DC 8V HJ-DC 8V / HJ-DCV HJ-DCV V AC HJ-AC V HJ-AC V V AC HJ-AC V HJ-AC V 8V AC HJ-AC 8V HJ-AC 8V /V AC HJ-ACV HJ-ACV /V AC HJ-ACV HJ-ACV /V AC HJ-ACV HJ-ACV /V AC HJ-AC/V HJ-AC/V Coil voltage Form C Form C Part No. Part No. HJ-L-DC V HJ-L-DC V HJ-L-DC V HJ-L-DC V 8 HJ-L-DC 8V HJ-L-DC 8V / HJ-L-DCV HJ-L-DCV V AC HJ-L-AC V HJ-L-AC V V AC HJ-L-AC V HJ-L-AC V 8V AC HJ-L-AC 8V HJ-L-AC 8V /V AC HJ-L-ACV HJ-L-ACV /V AC HJ-L-ACV HJ-L-ACV /V AC HJ-L-ACV HJ-L-ACV /V AC HJ-L-AC/V HJ-L-AC/V 3. Plug-in type (with test button). Plug-in type (with LED indication and test button) Coil voltage Form C Form C Part No. Part No. HJ-T-DC V HJ-T-DC V HJ-T-DC V HJ-T-DC V 8 HJ-T-DC 8V HJ-T-DC 8V / HJ-T-DCV HJ-T-DCV V AC HJ-T-AC V HJ-T-AC V V AC HJ-T-AC V HJ-T-AC V 8V AC HJ-T-AC 8V HJ-T-AC 8V /V AC HJ-T-ACV HJ-T-ACV /V AC HJ-T-ACV HJ-T-ACV /V AC HJ-T-ACV HJ-T-ACV /V AC HJ-T-AC/V HJ-T-AC/V Coil voltage Form C Form C Part No. Part No. HJ-L-T-DC V HJ-L-T-DC V HJ-L-T-DC V HJ-L-T-DC V 8 HJ-L-T-DC 8V HJ-L-T-DC 8V / HJ-L-T-DCV HJ-L-T-DCV V AC HJ-L-T-AC V HJ-L-T-AC V V AC HJ-L-T-AC V HJ-L-T-AC V 8V AC HJ-L-T-AC 8V HJ-L-T-AC 8V /V AC HJ-L-T-ACV HJ-L-T-ACV /V AC HJ-L-T-ACV HJ-L-T-ACV /V AC HJ-L-T-ACV HJ-L-T-ACV /V AC HJ-L-T-AC/V HJ-L-T-AC/V en_ds : J

196 . Plug-in type (with diode). Plug-in type (with diode and LED indication) Coil voltage Form C Form C Part No. Part No. HJ-DC V-D HJ-DC V-D HJ-DC V-D HJ-DC V-D 8 HJ-DC 8V-D HJ-DC 8V-D / HJ-DCV-D HJ-DCV-D Coil voltage Form C Form C Part No. Part No. HJ-L-DC V-D HJ-L-DC V-D HJ-L-DC V-D HJ-L-DC V-D 8 HJ-L-DC 8V-D HJ-L-DC 8V-D / HJ-L-DCV-D HJ-L-DCV-D HJ 7. Plug-in type (with CR) Coil voltage Form C Form C Part No. Part No. /V AC HJ-ACV-R HJ-ACV-R /V AC HJ-ACV-R HJ-ACV-R /V AC HJ-ACV-R HJ-ACV-R /V AC HJ-AC/V-R HJ-AC/V-R Note) Packing quantity: pcs. (Inner carton), pcs. (Outer carton) 8. Plug-in type (with CR and LED indication) Coil voltage Form C Form C Part No. Part No. /V AC HJ-L-ACV-R HJ-L-ACV-R /V AC HJ-L-ACV-R HJ-L-ACV-R /V AC HJ-L-ACV-R HJ-L-ACV-R /V AC HJ-L-AC/V-R HJ-L-AC/V-R [Accessories] Notes). Packing quantity: pcs. (Inner carton), pcs. (Outer carton). Use the retainer that is shipped with the terminal socket. 3. Products conform to UL, CSA and TÜV, as standard.. In order to prevent breakage and disfiguring, the screw tightening torque for the terminal socket should be within the range of. to.8 N m.. When attaching directly to a chassis, please use an M3.. metric coarse screw thread, a spring washer, and a hexagonal nut.. For SDX timer, use the retainer (Part No. ADX8). COIL DATA DC coils Type No. of channels Item Part No. HJ terminal socket HJ-SFD channels HJ terminal socket (Finger protect type) HJ-SFD-S Terminal socket / channels HJ terminal socket HJ-SFD (common) HJ terminal socket (Finger protect type) HJ-SFD-S Coil voltage AC coils (/Hz) Pick-up (max.) (at C 8 F) (Initial) Drop-out (max.) (at C 8 F) (Initial) coil current, ma (±%) Coil resistance, Ω (at C 8 F) (±%) operating power, W (±%) allowable (at 7 C 8 F) (±%) (±%) , (±%).9.8 / 8 9./, (±%). Coil voltage V AC Pick-up V AC (max.) (at C 8 F) (Initial) Drop-out V AC (max.) (at C 8 F) (Initial) coil current, ma (±%) operating power, V A (±%) allowable V AC (at 7 C 8 F) Hz Hz Hz Hz Approx. Approx. / /3.9./.. to.. to.3 / /. 9./.3 3 /.8/8..7/.7 / 7 7.8/7.8./. Power en_ds : J

197 HJ DIMENSIONS. Plug-in type Form C (including diode/cr) mm inch Schematic (Bottom view) Standard type LED AC type LED DC type ( )3 (+).. Diode DC type CR AC type Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. 9 3 ( ) 8 (+) Diode/LED DC type 9 3 ( ) (+) CR/LED AC type Plug-in type Form C (including diode/cr) Schematic (Bottom view) Standard type LED AC type LED DC type ( )3 (+).. Diode DC type 3 CR AC type Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ± ( ) (+) Diode/LED DC type 9 3 ( ) CR/LED AC type (+) 3 3. Plug-in type with test button Form C Schematic (Bottom view) Standard type LED AC type LED DC type ( )3 (+) Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. en_ds : J

198 HJ. Plug-in type with test button Form C mm inch Schematic (Bottom view) Standard type LED AC type LED DC type ( )3 (+) Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±.. Terminal socket HJ terminal socket -M.. mounting holes M3.8 terminal screw ±.3.3 ±. Schematic (Bottom view) 8 Mounting hole dimensions ±..9 ± ±.83 ± ± ± ±.3.33 ±. Power 3.8 ±.3.3 ±..7 -M3.8 or M.7 or..77 dia. hole. ±.3.3 ±. General tolerance: ±. ±. HJ terminal socket (Finger protect type) -M.. mounting holes M3.8 terminal screw ±.3.3 ±. Schematic (Bottom view) 8 Mounting hole dimensions ±..9 ± ±.83 ±.39 9 ±.33 ± ±.3.33 ± ±.3.3 ±..7 -M3.8 or M.7 or..77 dia. hole. ±.3.3 ±. General tolerance: ±. ±. Note) Round type terminal is unable to attach. en_ds : J 3

199 HJ HJ terminal socket mm inch -M.. mounting holes 3 M3.8 terminal screw ±.3.3 ±. Schematic (Bottom view) Mounting hole dimensions ±..8 ± ±.83 ±.39 9 ±.33 ± ±..39 ± ±.3.33 ±. 3 Lot No. -M3.8 or M.7 or..77 dia. hole. ±.3.3 ±. 9. ±.3.3 ±. General tolerance: ±. ±. HJ terminal socket (Finger protect type) Schematic (Bottom view) Mounting hole dimensions -M.. mounting holes 3 M3.8 terminal screw ±.3.3 ± ±..8 ± ±.83 ±.39 9 ±.33 ± ±.3.33 ±. 9 3 Lot No..7 -M3.8 or M.7 or..77 dia. hole. ±.3.3 ±. 9. ±.3.3 ±. General tolerance: ±. ±. Note) Round type terminal is unable to attach. REFERENCE DATA -(). switching capacity ( Form C type) -(). switching capacity ( Form C type) -(). Coil temperature rise ( Form C/AC type) Measured portion: Inside the coil Ambient temperature: 7 C 8 F Contact current, A 7.. AC resistive load DC inductive load L/R=7ms DC resistive load AC inductive load cos =. φ Contact current, A 3.. AC resistive load DC resistive load DC inductive load L/R=7ms AC inductive load cos φ =. Temperature rise, C 7 7A A Contact V Contact V 8 9 Coil applied %V en_ds : J

200 -(). Coil temperature rise ( Form C/DC type) Measured portion: Inside the coil Ambient temperature: 7 C 8 F 7 -(3). Coil temperature rise ( Form C/AC type) Measured portion: Inside the coil Ambient temperature: 7 C 8 F 7 HJ -(). Coil temperature rise ( Form C/DC type) Measured portion: Inside the coil Ambient temperature: 7 C 8 F 7 Temperature rise, C 7A A Temperature rise, C A A Temperature rise, C A A 8 9 Coil applied %V 8 9 Coil applied %V 8 9 Coil applied %V 3-(). AC coil surge voltage waveform (With CR) Tested sample: HJ-ACV-R 3-(). AC coil surge voltage waveform (Without CR) Tested sample: HJ-ACV -(). DC coil surge voltage waveform (Without diode) 8V 8V ON OFF 8V Approx. V Approx. V ACV To digital memory ACV To digital memory DCV To digital memory Power -(). DC coil surge voltage waveform (With diode) Diode characteristics: Reverse breakdown voltage:, V Forward current: A ON DCV OFF To digital memory Reverse breakdown voltage:, V Forward current: A NOTES. Operation method for test button ) Push and release gently to confirm relay switching. Release Push ) To lock to one side turn 9 counterclockwise while pushing lock and turn 9 clockwise to release. For Lock For Release. Rating Standard UL TÜV File No. E39 Std. type R 38 Test button R -9 CR, Diode Au plating R 9 (CSA: C-UL approved) Ratings Form C Form C 7A V AC 7A A V AC A 7A V~ A V~ (cosφ=) (cosφ=) 7A V... A V... (ms) (ms) 3. Diode characteristics ) Reverse breakdown voltage:, V ) Forward current: A. Diode and CR built-in type Since the diode and CR inside the relay coil are designed to absorb the counter emf, the element may be damaged if a large surge, etc., is applied to the diode and CR. If there is the possibility of a large surge voltage from the outside, please implement measures to absorb it. For Cautions for Use, see Relay Technical Information (page 39). en_ds : J

201 HL A (C), A (C) SPACE SAVING POWER RELAY HL RELAYS FEATURES High switching capacity in a compact size Form C ( A V AC), Form C ( A V AC) Rugged construction for tough applications Long life Mechanical: 8 operations (DC), 7 operations (AC) Electrical: operations mm inch SPECIFICATIONS Contacts Arrangement Form C Form C Initial contact resistance, max. (By voltage drop A) mω Contact material Silver alloy Rating (resistive) Expected life switching capacity switching power switching voltage A V AC, A V AC AC:, VA DC: 9 W V AC A V AC AC:, VA DC: 9 W V AC switching current A A switching capacity # ma, Mechanical (at 8 cpm) Electrical (resistive) A V AC A V AC 7 (AC), (DC) 3 A # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics (at C 77 F, % Relative humidity) operating speed Initial insulation resistance* Initial Between contact sets breakdown Between open contacts voltage* Between contacts and coil Operate time (at nominal voltage) Release time* 3 (without diode) (at nominal voltage) Temperature rise, max. (at nominal voltage) Shock resistance Vibration resistance Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight cpm MΩ (at ), Vrms for min., Vrms for min., Vrms for min. ms (DC type) ms (AC type) ms (DC type) ms (AC type) 8 C Functional* 9 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Ambient temperature Humidity to Hz at double amplitude of mm to Hz at double amplitude of mm C to +7 C 8 F to +8 F to 8% R.H. Approx. 3 g. oz TYPICAL APPLICATIONS ORDERING INFORMATION Power station control equipment, refrigerators, building control equipment, office machines, and medical equipment. Ex. HL H ACV Contact arrangement Terminal arrangement Coil voltage : Form C : Form C H: Plug-in HP: PC board HTM: Top mounting L: Light emitting diode wired, plug-in PL: Light emitting diode wired, PC board Note: Standard packing Carton: pcs., Case: pcs. UL/CSA approved type is standard. AC,,, 8,, V DC,,, 8, V en_ds_8_: J

202 COIL DATA (at C 8 F) DC coils Coil AC coils at Hz Pick-up (max.) Drop-out (min.) allowable Coil resistance, Ω (±%) coil current, ma.8.. HL Operating power, W Minimum , ,.. Coil Pick-up V AC (max.) Drop-out V AC (min.) allowable V AC coil current, ma / /.9 / 7 7./. Notes:. The range of coil current is ±% for AC ( Hz), ±% for DC, at C.. The relay may be used in the range of 8% to % of the nominal coil voltage. However, it is recommended that the relay be used at 8% to % nominal voltage to take temporary voltage variations into consideration. 3. Each coil resistance of DC types is the measured value at a coil temperature of C. Please allow a compensation of ±.% resistance for each coil temperature change of ± C. Operating power, VA Minimum..77. All AC V types are rated for double coil voltages, both AC V and AC V.. For use with or, connect a resistor, as suggested below, in series with the relay. Voltage Form C, Form C kw ( W) 3 kw ( W) DIMENSIONS Plug-in PC board* Top mounting mm inch Power HL ( Form C) Accepts Faston #87 3 Schematic Schematic Schematic Accepts Faston #87 Mounting dimension -3. to 3. dia -. to.38 dia ( ) 8 ( ) 7 ( ) 8 (+) 7 ( ) 8 ( ) 7 ( ) 8 (+) AC type DC type AC type DC type en_ds_8_: J 7

203 HL Plug-in PC board* Top mounting mm inch HL ( Form C) Accepts Faston #87 3 Schematic Schematic Schematic Accepts Faston #87 Mounting dimension -3. to 3. dia. -. to.38 dia ( ) 8 ( ) 7 ( ) 8 (+) 7 ( ) 8 ( ) 7 ( ) 8 (+) AC type DC type AC type DC type Tolerance: ±. ±. * PC board pattern (HL) Copper-side view - dia dia.. R3.9 R R R..9 (HL) 8- dia dia Tolerance: ±. ±. ACCESSORIES HL-SS-K (with hold-down clip) HL-SS-K (with hold-down clip) mm inch Plug-in terminal socket mount Simply insert socket into panel hole and push down as indicated to lock socket in place... Accepts Faston #87.. Accepts Faston # Panel cutout Panel cutout to..39 to.79 Panel thickness Panel cutout for tandem mounting Minimum separation distance Tolerance: ±. ±. 8 en_ds_8_: J

204 . PC board terminal socket HL-PS-K HL-PS-K Layout for tandem mounting ( Form C) HL mm inch (.) (.) (.3) (.9) PC board pattern dia. -.9 dia PC board pattern dia dia dia..9 dia. Tolerance: ±. ±. 3. Screw terminal socket for DIN rail assembly HL-SFD-K (with hold-down clip) M3. Terminal screw Schematic 3 Layout for tandem mounting M3. SCREW HOLES OR -.. DIA. Minimum separation in tandem mounting Power Tolerance: ±. ± (Remark) continuous current of all HL sockets is A. For Cautions for Use, see Relay Technical Information (page 39). en_ds_8_: J 9

205 HP VDE c, 3c AMP POWER RELAY HP RELAYS FEATURES Interchangeable with existing models Long life and high reliability High contact capacity up to A V AC Available with plug-in/solder and quick-connect terminals mm inch SPECIFICATIONS (at C 8 F) Contacts Arrangement Form C 3 Form C Form C Initial contact resistance, max. (By voltage drop A) mω Contact material Silver Silver alloy Rating switching capacity switching capacity # A V AC (resistive) ma, # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as initial breakdown voltage section * Detection current; ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics (at Hz, C 8 F) Form C 3 Form C Form C Maximum operating speed cpm Initial insulation resistance* more than MΩ at Breakdown voltage* Between open contacts Between contact sets Between contact and coil Operate time* 3 (at nominal voltage) Release time (without diode)* 3 (at nominal voltage), Vrms, Vrms, Vrms ms ms, Vrms, Vrms, Vrms Temperature rise C Shock resistance Vibration resistance Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight, Vrms, Vrms, Vrms ms ms Functional* 98 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Ambient temp. Humidity to Hz at mm double amplitude to Hz at mm double amplitude Approx. g. oz C to + C 8 F to + F to 8% R.H. Approx. g 3.3 oz Approx. g. oz LIFE DATA Contact rating and expected life For AC load type Electrical life Voltage V AC V AC Expected life Load Resistive (cos ϕ ) Inductive (cos ϕ.) Resistive (cos ϕ ) Inductive (cos ϕ.) (min. operations) Current A 7. A A 7. A 7. A A A 3 A 3 A A A.7 A. A. A Mechanical life 7 Note: When the electromagnet or exciting coil (Solenoid, etc.) is the load, the value of motor or lamp load is applicable. en_ds : J

206 Contact rating and expected life For DC load type Electrical life Life curve Operations,, Voltage Expected life Load Resistive (cos ϕ ) Inductive (cos ϕ.) Resistive (cosϕ ) Inductive (cos ϕ.) (min. operations) Current Mechanical life more than,, operations V AC cosϕ = V AC cosϕ = Load current, A 7 A 7. A A. A. A A 3 A.3 A. A A. A. A. A Mechanical life 7 Notes:. For DC inductive loads, use an arc suppressing circuit.. When used under a DC load operating at high repetition rate with considerable arcing, corrosion of the contacts and/or the contact blades is likely to occur. When using the relay under conditions of high temperature, humidity or high repetition rate, it is suggested that the relay cover be removed to facilitate extended operation. HP TYPICAL APPLICATIONS HP relays enjoy wide use in various applications, particularly in automation controls and remote controls. Applications include: Industrial machinery ORDERING INFORMATION Ex. HP 3 Machine tool Food processing packing machines Office equipment Coin operate devices Home appliances M ACV Transportation Communication and measuring devices Amusement devices Power Contact arrangement : Form C 3: 3 Form C : Form C TYPES AND COIL DATA. Standard plug-in terminal type (without lamp wired) DC TYPES at C 8 F Type Form C 3 Form C Form C Part No. en_ds : J coil Terminal Nil: Standard plug-in terminal M: Direct mounting (3 Form C only) TM: Top mounting ( Form C only) L: Lamp wired, standard plug-in terminal Pick-up (max.) Drop-out (min.) Coil voltage AC,,, 8,,, V DC,,, 8, V (Notes). For UL/CSA or VDE recognized types, add suffix UL/CSA or VDE (HP-TM type VDE application under way). Standard packing Carton: pcs. Case: pcs. 3. UL/CSA approved type is standard. allowable Coil resistance, Ω (±%) coil current, ma operating power, W HP-DCV HP-DCV HP-DCV HP-DC8V ,8.7.3 HP-DCV 88. 7,..7 HP3-DCV HP3-DCV HP3-DCV HP3-DC8V , 3. HP3-DCV 88. 7,.9. HP-DCV HP-DCV HP-DCV HP-DC8V , 3. HP-DCV 88. 7,.7.7

207 HP AC TYPE (/ Hz) at Hz, C 8 F Type Form C 3 Form C Form C Part No. coil V AC NOTES. The range of coil current for AC relays is ±% ( Hz). For DC relays it is ±% at C, 8 F.. The HP relay will operate in a range from 8% to % of the nominal coil voltage. It is, however, recommended that the relay be used in the range of 8% to % of the nominal coil with the temporary voltage variation taken into consideration. Pick-up V AC (max.) Drop-out V AC (min.) allowable V AC Inductance, H coil current, ma operating power, VA HP-ACV HP-ACV HP-ACV HP-AC8V HP-ACV HP-ACV HP-ACV HP3-ACV HP3-ACV HP3-ACV HP3-AC8V HP3-ACV HP3-ACV HP3-ACV HP-ACV HP-ACV HP-ACV HP-AC8V HP-ACV HP-ACV 7.7. HP-ACV When the operating voltage of AC relays drops below 8% of the nominal coil the relay will generate a considerable amount of heat which is not recommended for maximum efficiency.. The coil resistance of DC types is the measured value of the coil at a temperature of C 8 F. If the coil temperature changes by ± C, the measured value of the coil resistance should be increased or decreased by.%.. For applications from V to V DC, connect a resistor in series with the relay coil. See chart for resistor values. Voltage Form C 3 Form C Form C 7.3 kω ( W) 8.7 kω ( W) 7. kω ( W) 8.8 kω ( W) 7 kω ( W) 8.3 kω ( W). Standard plug-in terminal type (with lamp wired) DC TYPES at C 8 F Form C 3 Form C Form C Type Part No. coil Pick-up (max.) Drop-out (min.) allowable Coil resistance, Ω (±%) coil current, ma operating power, W HP-L-DCV LED HP-L-DCV HP-L-DCV HP-L-DC8V ,8.7.3 Neon lamp HP-L-DCV 88. 7,..7 HP3-L-DCV LED HP3-L-DCV HP3-L-DCV HP3-L-DC8V , 3. Neon lamp HP3-L-DCV 88. 7,.9. HP-L-DCV LED HP-L-DCV HP-L-DCV HP-L-DC8V , 3. Neon lamp HP-L-DCV 88. 7,.7.7 en_ds : J

208 AC TYPE (/ Hz) at Hz, C 8 F Form C 3 Form C Form C Type LED Neon lamp LED Neon lamp LED Neon lamp Part No. coil V AC Pick-up V AC (max.) Drop-out V AC (min.) allowable V AC Inductance, H coil current, ma HP operating power, VA HP-L-ACV HP-L-ACV HP-L-ACV HP-L-ACV HP-L-ACV HP-L-ACV HP3-L-ACV HP3-L-ACV HP3-L-ACV HP3-L-ACV HP3-L-ACV HP3-L-ACV HP-L-ACV HP-L-ACV HP-L-ACV HP-L-ACV HP-L-ACV 7.7. HP-L-ACV Top Mounting (TM) and direct mounting (M) type DC TYPES at C 8 F Type Form C Top Mounting Type (TM) 3 Form C Direct Mounting Type (TM) Part No. coil Pick-up (max.) Drop-out (min.) allowable Coil resistance, Ω (±%) coil current, ma operating power, W HP-TM-DCV HP-TM-DCV HP-TM-DCV HP-TM-DC8V ,8.7.3 HP-TM-DCV 88. 7,..7 HP3-M-DCV HP3-M-DCV HP3-M-DCV HP3-M-DC8V , 3. HP3-M-DCV 88. 7,.9. Power AC TYPE (/ Hz) at Hz, C 8 F Type Form C Top Mounting Type (TM) 3 Form C Direct Mounting Type (M) Part No. coil V AC Pick-up V AC (max.) Drop-out V AC (min.) allowable V AC Inductance, H coil current, ma operating power, VA HP-TM-ACV HP-TM-ACV HP-TM-ACV HP-TM-AC8V HP-TM-ACV HP-TM-ACV HP-TM-ACV HP3-M-ACV HP3-M-ACV HP3-M-ACV HP3-M-AC8V HP3-M-ACV HP3-M-ACV HP3-M-ACV en_ds : J 3

209 HP. Direct mounting (with lamp wired) type DC TYPES Type Part No. AC TYPE (/ Hz) at Hz, C 8 F LAMP-WIRED RELAYS coil Pick-up (max.) Drop-out (min.) allowable Coil resistance, Ω (±%) coil current, ma 3 Form C Neon lamp HP3-ML-DCV 88. 7,.9. Type 3 Form C Neon lamp Part No. coil V AC Pick-up V AC (max.) Drop-out V AC (min.) allowable V AC Inductance, H coil current, ma operating power, W operating power, VA HP3-ML-ACV V HP3-ML-ACV V HP3-ML-ACV V Specifications Life of neon lamp...continuous: more than, hours (more than 3 years) on/off = : more than years Life of LED...continuous: more than, hours (more than. years) on/off = : more than, hours (more than years) NEON LAMP LED Variation Type HP-L HP3-L HP3-ML HP-L Notes:. AC 8 V type is not available for lamp wiring. Coil Voltage AC DC V V V V V V 8 V V V V V LED (Light emitting diode) Neon lamp Circuit diagrams Neon lamp type LED type Terminal No. (DC type) Type HP3-L HP-L Polarity HP3-ML HP-L ( + ) 7 ( ) Operating current of LED Coil Voltage Operating current of LED DC V DC. ma DC V DC.7 ma DC V DC.7 ma DC 8V DC. ma AC V AC. ma AC V AC 9. ma AC V AC 7.7 ma Notes:. Operating current of relays should be increased by the value of LED operating current. Please refer the table. Operating current of neon lamp is approx..3 ma to. ma.. To use the HP relay in the inductive load circuit, the contact protection circuit is recommended. Notes:. Pay attention to the polarity of coil See circuit diagram (LED type only). en_ds : J

210 ACCESSORIES Please refer to MOUNTING METHODS for further information. UL, CSA recognized except BRACKET and INSERTING PLATE. HP HP Relay Solder terminal socket for rectangular hold boring (with hold-down clip) Screw terminal socket for DIN rail assembly (with hold-down clip) For HP, HP HP-SRS HP-SFD HP-BRACKET for direct mounting HP (UL, CSA, VDE) (UL, CSA) HP3-SRS HP3-SFD HP3 HP INSERTION PLATE for P/C board mounting (UL, CSA, VDE) HP-SRS (UL, CSA) HP-SFD HP (UL, CSA) DIMENSIONS AND WIRING DIAGRAM HP ( Form C) Plug-in terminal types (UL, CSA) mm inch Power Circuit diagram..7 Accepts Faston Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ±.9 en_ds : J

211 HP HP-SRS (with hold-down clip) Optimum space-saving panel cut-out. Can be mounted from either the front or the rear of the panel. Front surface-mounting.. DIA. HOLE or mm SCREW HOLE.. DIA. HOLE mm inch HOLD-DOWN CLIP HP RELAY Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ± Rear surface-mounting 3... DIA. HOLE or mm SCREW HOLE.. DIA. HOLE HP SOCKET mm SCREW SPRING WASHER PANEL HOLD-DOWN CLIP HP RELAY HP SOCKET mm SCREW SPRING WASHER PANEL HP-SFD (with hold-down clip) Front wiring in restricted space HP RELAY HOLD DOWN CLIP Mounting dimensions.8.8 -M.7 SCREW HOLE or.... DIA. HOLE Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ± Installation screw block (installation screw, hexagonal nut, spring washer) Panel hole dimensions for side-by-side installation Note: Hold down clip and installation screw block are included in package. HP-TM ( Form C) Top mounting types mm SCREW or 8-3 NC- SCREW SCREW WASHER Circuit diagram Mounting dimensions PANEL Accepts Faston R.89R Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ±.9.. DIA. HOLE or mm SCREW HOLE.7. DIA. HOLE.79.8 en_ds : J..79

212 HP3 (3 Form C) Plug-in terminal types HP mm inch Accepts Faston Circuit diagram Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ±.9 HP3-SRS (with hold-down clip) Optimum space-saving panel cut-out. Can be mounted from either the front or the rear of the panel. Front surface-mounting.. DIA. HOLE or mm SCREW HOLE.. DIA. HOLE HOLD DOWN CLIP HP RELAY Power.97 Lot No dia. dia Rear surface-mounting.. DIA. HOLE or mm SCREW HOLE.. DIA. HOLE Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ± HP3-SFD (with hold-down clip) Front wiring in restricted space..8.8 HP3 RELAY HOLD DOWN CLIP Mounting dimensions -M.7 SCREW HOLE or DIA. HOLE Note: Hold down clip and installation screw block are included in package. en_ds : J Installation screw block (installation screw, hexagonal nut, spring washer) Panel hole dimensions for side-by-side installation Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ±.9 7

213 HP HP3-M (3 Form C) Direct mounting types mm inch R Mounting dimension Accepts Faston 87..R Circuit diagram Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ±.9.. DIA. HOLE or mm SCREW HOLE.. DIA. HOLE MIN..79 MIN..7 mm SCREW or 8-3 NC- SCREW SPRING WASHER HP ( Form C) Plug-in terminal types Circuit diagram Accepts Faston Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ±.9 8 en_ds : J

214 HP-SRS (with hold-down clip) Optimum space-saving panel cut-out. Can be mounted from either the front or the rear of the panel. Front surface-mounting.. DIA. HOLE or mm SCREW HOLE.. DIA. HOLE HP mm inch HOLD-DOWN CLIP HP RELAY Rear surface-mounting.. DIA. HOLE or mm SCREW HOLE.. DIA. HOLE HP SOCKET mm SCREW SPRING WASHER PANEL HOLD-DOWN CLIP HP RELAY Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ± HP SOCKET mm SCREW SPRING WASHER PANEL HP-SFD (with hold-down clip) Front wiring in restricted space. Two HP relays can be mounted in one socket HOLD DOWN CLIP HP RELAY Mounting dimensions -M.7 SCREW HOLE or.... DIA. HOLE Power Installation screw block (installation screw, hexagonal nut, spring washer)..7. Panel hole dimensions for side-by-side installation Note: Hold down clip and installation screw block are included in package. Dimension : General tolerance mm.79 inch: ±. ±.8 to 9mm.79 to.3 inch: ±. ±. 9 to mm.3 to.787 inch: ±. ±.39 mm.787 inch: ±. ±.9 ACCESSORIES for HP and HP types HP Bracket (with screws, washers) The HP Bracket is used for mounting HP relays and HP relays directly to the panel. It facilitates soldering or quick connections with Faston tab.8 mm.3 inch. Notes:. This bracket is unavailable for UL, CSA and VDE applications.. When using the special bracket, it is recommended to use the screws and washers called out in the chart in the next page in order to eliminate any possible damage to the relay coil. Mounting methods (a) Remove the M3 7 screw (red colored) fixed to the relay, and place the bracket on the relay with the attaching M3 7 screw (blue colored) and the spring washer. Keying tab. (b) Use the additional M3 7 screw and washer for attaching the bracket to the panel. For the HP type relay two brackets are used DIA. HOLE.38 DIA. HOLE DIA. HOLE.8 DIA. HOLE en_ds : J 9

215 HP Thickness of a special bracket. mm (.39 inch). mm (.3 inch). mm (.79 inch) A suitable screw M3 7-M3 8 M3 8 M3 8-M3 A suitable washer for M3 for M3 for M3 Screw M 3 7 Millimeter 3mm.8inch diameter 7mm.7inch length Dimensions and mounting method mm inch. Rear-surface mounting. Front-surface mounting. DIA. HOLE.77 DIA. HOLE MIN.. 3. DIA. HOLE. DIA. HOLE HP. DIA. HOLE.77 DIA. HOLE DIA. HOLE. DIA. HOLE.99 HP MIN mm SCREW BRACKET. KEYING TAB PANEL 7 3 mm SCREW mm SCREW MIN... DIA. HOLE.77 DIA. HOLE DIA. HOLE.77 DIA. HOLE MIN mm SCREW KEYING TAB 8.. PANEL BRACKET.73.8 HP Inserting Plate for HP and HP types. HP inserting plate is used for mounting HP and HP relays on a printed board to adjust the length of the terminals.. If adjustment by soldering is not suitable, bore /8" diameter hole on the printed circuit board and mount the relay with a M3 screw. The chart to the right suggests the proper screws for different printed circuit boards. 3. Two plates are used for the HP type relay. Thickness of P/C board Suitable screw. mm.39 inch M3. mm.7 inch M3 PC board pattern 3.8 DIA. HOLE.7 DIA. HOLE HP DIA. HOLE. DIA. HOLE HP DIA. HOLE. DIA. HOLE HP INSERTION PLATE PC BOARD Please refer to the above second instruction. Tolerance: ±. ±. For Cautions for Use, see Relay Technical Information (page 39). en_ds : J

216 VDE JC COMPACT POWER RELAYS JC RELAYS..8 PC board type SPECIFICATIONS en_ds : D..8 Plug-in type Contact Arrangement Form A Form A Initial contact resistance, max. mω (By voltage drop A) (Cd free type: mω) Contact material Silver alloy Contact force, min. g Maximum switching power 3,7 VA, VA Rating Maximum switching voltage V AC V AC (resistive load) switching current A A switching capacity # ma, Expected life (min. operation) Mechanical Electrical A V AC (resistive) A V AC Coil operating power 9 mw, mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement of same location as Intial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). TYPICAL APPLICATIONS Automatic garage door openers Microwave ovens Dryers Vending machines Copiers Air conditioners Stereo equipment TV sets..77 TM type mm inch FEATURES Characteristics Maximum operating speed Initial insulation resistance* Between open contacts Initial Between contacts sets breakdown voltage* Between contacts and coil Operate time* 3 (at nominal voltage) Release time(without diode)* 3 (at nominal voltage) Temperature rise (at nominal voltage) Shock resistance Vibration resistance High inrush current capability Form A: 3 A inrush (TV-8) Form A: A inrush (TV-) High dielectric withstanding for transient protection: JC can withstand, V surge in µs between coil and contact. Electrical life: Form A: ope. at A V AC resistive load Form A: ope. at A V AC resistive load UL/CSA, VDE, TÜV, SEMKO also approved. cpm. MΩ at, V rms for min., Vrms for min., Vrms for min. ms ms C Functional* 9 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight ORDERING INFORMATION Ex. JC Contact arrangement a: Form A a: Form A Ambient temp. Humidity 98 m/s { G}, to Hz at double amplitude of. mm 7. m/s { G}, to Hz at double amplitude of mm C to + C 8 F to + F to 8%R.H. Approx. 3 g.9 oz a F TM DCV F Mounting classification Nil: PC board terminal S: Plug-in terminal TM: Top mounting Coil voltage DC,,,, 8 V Environmental support F: RoHS Directive conforming type (AgSnO type) Nil: RoHS Directive non-conforming type (AgCdO type) (Notes). TV rated types available Form A: TV-8; Form A: TV-. Notes )). Standard packing Carton: pcs.; Case: pcs. Notes ))3. UL/CSA, VDE, TÜV, and SEMKO certified products can also be supported. Notes )) Please consult us. 3 Power

217 JC COIL DATA (at C 8 F) Contact arrangement Form A Form A voltage. DIMENSIONS PC board type JCa Pick-up voltage. (max.) Drop-out voltage. (min.) Coil resistance, Ω(±%) operating current, ma operating power, W Maximum allowable (at C) , ,.8..8 Schematic Coil terminal mm inch.8 Common terminal DIA..3 DIA DIA. HOLES.7 DIA. HOLES N.O. terminal PC board pattern (Bottom view) Relay outline DIA. HOLES.7 DIA. HOLES PC board type JCa Schematic Coil terminal.8 Common terminal N.O. terminal DIA..3 DIA PC board pattern (Bottom view) Relay outline General tolerance: ±.3 ±. -. DIA. HOLES.7 DIA. HOLES DIA. HOLES.7 DIA. HOLES Tolerance: ±. ±. 3 en_ds : D

218 JC Top mount type a a mm inch DIA... DIA Accept Faston Hole spacing Accept Faston Hole spacing MADE IN JAPAN DIA. -. DIA Schematic.7..8 MADE IN JAPAN DIA. -. DIA Schematic N.O. terminal Common terminal 3 Coil terminal Plug-in type a a.8.8 Power. DIA... DIA MADE IN JAPAN Accept Faston Schematic MADE IN JAPAN Accept Faston 87 N.O. terminal Common terminal Schematic Coil terminal General tolerance: ±.3 ±. REFERENCE DATA JCa type. Maximum value for switching capacity. Life curve 3.-() Coil temperature rise Point measured: Inside the coil Ambient temperature: C 79 F AC resistive load Contact current, A. DC resistive load DC inductive load (L/R = 7 ms) AC inductive load (cosϕ =.) Life, V AC inductive load (cosϕ =.) inductive load (L/R = 7 ms) V AC resistive load resistive load Temperature rise, C 8 7 A current A current No current A current Contact V Contact current, A 8 9 Coil applied %V en_ds : D 33

219 JC 3.-() Coil temperature rise Point measured: Inside the coil Ambient temperature: C F 3.-(3) Coil temperature rise Point measured: Inside the coil Ambient temperature: C F. Operate / release time Temperature rise, C A current A current No current A current 9 Coil applied %V Temperature rise, C A current A current No current A current 9 Coil applied %V Operate and release time, ms Operate time Release time 8 Coil applied %V JCa type. Maximum value for switching capacity. Life curve 3.-() Coil temperature rise Point measured: Inside the coil Ambient temperature: C 79 F Contact current, A. DC resistive load DC inductive load (L/R = 7 ms) AC AC resistive inductive load load (cosϕ =.). Contact V Life, V AC inductive load (cosϕ =.) inductive load (L/R = 7 ms) V AC resistive load resistive load 8 A Contact current, A Temperature rise, C 8 7 A current 8 A current A current 3 A current No current 8 9 Coil applied %V 3.-() Coil temperature rise Point measured: Inside the coil Ambient temperature: C F 3.-(3) Coil temperature rise Point measured: Inside the coil Ambient temperature: C F. Operate / release time Temperature rise, C A current A current No current 3 A current 8 9 Coil applied %V Temperature rise, C A current A current A current No current 3 A current 8 9 Coil applied %V Operate and release time, ms Operate time Release time 8 Coil applied %V 3 en_ds : D

220 ACCESSORIES JC JC-SS JC-SS JC-PS JC-PS JC-SS JC-PS mm inch Faston DIA. -.9 DIA. JC-PS DIA. -.9 DIA. Tolerance: ±. ±. JC-PS Power Panel cutout Tolerance: ±. ± PC board Pattern Tolerance: ±. ±. (Note) Outward dimensions and chassis cutout dimensions for JC-SS and JC-PS are same as those of JC-SS and JC-PS respectively. UL/CSA approved type is standard. For Cautions for Use, see Relay Technical Information (page 39). en_ds : D 3

221 JC COMPACT POWER RELAYS FOR HIGH DC LOADS JC RELAY (Special Type) Data sheet addition for JC Relay Integrated arc-blowing magnet for high DC loads [H73 type] High switching capacity: A / Clearance and creepage distance contact / coil: 8 mm Two contacts connected in series ensures even higher life expectancy APPLICATIONS: Switching of DC loads in devices such as - Control of Industrial DC motors - Emergency power-off for DC loads Arrangement Contact material Form A AgCdO, AgNi Contact connection one contact two contacts in series Rating (resistive) load Special loads test data (min. operations at C) VDC / A VDC / A VDC /,A; L/R =.ms (s On, s Off) VDC / A; L/R = 7.ms (s On, s Off) VDC / A; resistive load (s On, s Off) Mechanical, endurance and coil data according to JC-datasheet ops. 3 ops. ops. ops. 3 3 Load limit curve for connection in series Connection diagram Attention: For the Blow-out effect, the polarity must be defined as: ( - ) at contacts:, ( + ) at contacts: 3, ORDERING AND TYPE INFORMATION (values at C) Type JCaF-DCV-Y-H73 JCaF-DCV-Y-H73 JCaF-DCV-Y-H73 JCaF-DCV-Y-H73 Pick-up (max.) Drop-out (min.) operating power, W Coil resistance, Ω (±%) JCaF-DC8V-Y-H en_ds : D

222 SLIM AND COMPACT RELAY FOR WIDER APPLICATIONS VDE without screw HN (AHN pending terminal, socket ) HN RELAYS (AHN) SPECIFICATIONS Contacts Coil FEATURES Contact arrangement Form C Form C Initial contact resistance, max. (By voltage drop A) mω mω Contact material Silver alloy Gold-flashed silver alloy Rating (resistive load) Expected life (min. operations) operating power switching capacity A V AC, A Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * For the AC coil types, the operate/release time will differ depending on the phase. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). * 9 This value can change due to the switching frequency, environmental conditions and desired reliability level, therefore it is recommended to check this with the actual load. Slim and compact size % more compact (width and height) than existing model* (with the condition of screw terminal socket for DIN rail) *Compared with our HC/HJ relay. High-capacity and high reliability switching current: A (for Form C type at AC load) Uses gold-flashed contacts for highly reliable contact (for Form C type). Environmentally friendly Compliance with RoHS Directive (/9/EC) (Note: HN screw terminal socket only conformable from April,.) Slim screw terminal socket Utilizes relay-securing hook for easy relay removal. A V AC, A switching power, VA, W, VA, W switching voltage V AC, V AC, switching current A (at AC load), A (at DC load) A switching current* 9 V ma DC V ma DC Mechanical (at cpm) Electrical (at cpm) (at rated load) AC: 7 DC: 7.3W.9VA Characteristics TYPICAL APPLICATIONS Control panels Power supply units Molding machines Machine tools Welding equipment Agricultural equipment Office equipment Vending machines Communications equipment Amusement machines, etc. operating speed cpm (at max. rating) Initial insulation resistance*, MΩ at Between open contacts, Vrms for min. Initial breakdown 3, Vrms for min. Between contact sets voltage* ( Form C type only) Between contact and coil, Vrms for min. Operate time* 3 (at nominal voltage) ms* Release time (without diode)* 3 (at nominal voltage) ms* Temperature rise, max. (at 7 C) (at nominal voltage) C Shock resistance Functional* m/s { G} Destructive*, m/s { G} Vibration resistance Functional* 7 to Hz at double amplitude of. mm Destructive to Hz at double amplitude of. mm Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight Ambient temp. Humidity C to +7 C F to +8 F to 8% R.H. Approx. 9g.7 oz Power en_ds : J 37

223 HN (AHN, ) ORDERING INFORMATION Ex. AHN Contact arrangement : Form C : Form C Terminal arrangement : AC plug-in type : DC plug-in type Type classification : Standard : With LED indication : With diode 3: With diode and LED indication Note: Products conform to UL/C-UL and VDE, as standard (VDE pending: Form C type). Coil voltage : V, : V, : V, : V, 8: 8 V X: / V AC, X: / V AC, Y: / V AC, Y: / V AC TYPES. Plug-in type Coil voltage Form C Form C Part No. Part No. AHN AHN AHN AHN AHN AHN AHN AHN 8 AHN8 AHN8 AHNX AHNX AHNX AHNX V AC AHN AHN V AC AHN AHN /V AC AHNX AHNX /V AC AHNX AHNX /V AC AHNY AHNY /V AC AHNY AHNY Note: Packing quantity; Inner carton: pcs, Outer carton: pcs. 3. Plug-in with diode type Coil voltage Form C Form C Part No. Part No. AHN AHN AHN AHN AHN AHN AHN AHN 8 AHN8 AHN8 AHNX AHNX AHNX AHNX Note: Packing quantity; Inner carton: pcs, Outer carton: pcs.. Plug-in with LED indication type Coil voltage Form C Form C Part No. Part No. AHN AHN AHN AHN AHN AHN AHN AHN 8 AHN8 AHN8 AHNX AHNX AHNX AHNX V AC AHN AHN V AC AHN AHN /V AC AHNX AHNX /V AC AHNX AHNX /V AC AHNY AHNY /V AC AHNY AHNY Note: Packing quantity; Inner carton: pcs, Outer carton: pcs.. Plug-in with diode and LED indication type Coil voltage Form C Form C Part No. Part No. AHN AHN AHN AHN AHN3 AHN3 AHN3 AHN3 8 AHN38 AHN38 AHN3X AHN3X AHN3X AHN3X Note: Packing quantity; Inner carton: pcs, Outer carton: pcs.. Screw terminal socket Type No. of channels Item Part No. For DIN rail assembly channel HN screw terminal socket AHNA channels HN screw terminal socket AHNA Notes). Packing quantity: pcs. (Inner carton), pcs. (Outer carton). Products conform to UL, C-UL, as standard. 3. In order to prevent breakage and disfiguring, the screw tightening torque for the terminal socket should be within the range of. to.8 N m.. When attaching directly to a chassis, please use an M3 metric coarse screw thread.. To prevent damage and deformity, please use the relay-securing hook at N or less.. When using with current of A (for HN screw terminal socket), the maximum ambient temperature is C. When using in an ambient temperature of 7 C, the maximum current is A. 38 en_ds : J

224 COIL DATA (at C 8 F) DC coils Coil voltage AC coils (/Hz) DIMENSIONS Pick-up (max.) (Initial) Drop-out (min.) (Initial) coil current, ma (±%) Coil resistance, Ω (±%) operating power, W HN (AHN, ) allowable , , , ,8 87 Coil voltage V AC Pick-up V AC (max.) (Initial) Drop-out V AC (min.) (Initial) coil current, ma (±%) operating power, VA Hz Hz Hz Hz allowable V AC / 8/88 /33./3. 9./. Approx. Approx. / / 88/9 33/3./.8 8./9.7. to..9 to. /8 / /7 /./../.3 8/8 / 7/9 /7./.9./.8 8/33. Plug-in type Form C Schematic (Bottom view) Standard type mm inch 9. 3 With LED AC type With LED DC type Power With Diode type With Diode and LED type Dimension : Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. en_ds : J 39

225 HN (AHN, ). Plug-in type Form C Schematic (Bottom view) Standard type With LED AC type With LED DC type With Diode type 3 With Diode and LED type Dimension : Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. 3. HN Screw terminal socket Schematic (Top view) Mounting hole dimensions dia. hole M3.8 or dia. hole General tolerance: ±. ±. Reference in case of using DIN rail (ATA8). HN Screw terminal socket Schematic (Top view) dia. hole Mounting hole dimensions M3.8 or 3.. dia. hole General tolerance: ±. ±. Reference in case of using DIN rail (ATA8) en_ds : J

226 REFERENCE DATA HN (AHN, ) -(). switching capacity ( Form C) -(). switching capacity ( Form C) -(). Coil temperature rise ( Form C/AC type) Measured portion: Inside the coil Ambient temperature: 7 C 8 F Contact current, A. DC resistive load AC resistive load Contact current, A...3. DC resistive load AC resistive load Temperature rise, C 8 A A Contact V Contact V 8 9 Coil applied %V -(). Coil temperature rise ( Form C/DC type) Measured portion: Inside the coil Ambient temperature: 7 C 8 F 7 -(3). Coil temperature rise ( Form C/AC type) Measured portion: Inside the coil Ambient temperature: 7 C 8 F -(). Coil temperature rise ( Form C/DC type) Measured portion: Inside the coil Ambient temperature: 7 C 8 F 7 Temperature rise, C A A Temperature rise, C 8 A A Temperature rise, C A A Power 8 9 Coil applied %V 8 9 Coil applied %V 8 9 Coil applied %V en_ds : J

227 HN (AHN, ) NOTES. Coil operating power To ensure proper operation, the voltage applied to both terminals of the coil should be ±% (at C 8 F) the rated operating voltage of the coil. Also, be aware that the pick-up and dropout voltages will fluctuate depending on the ambient temperature and operating conditions.. LED indications The light of the light emitting diode is what displays operation. If voltage remains after relay dropout, the LED might illuminate briefly. 3. Switching lifetime The switching lifetime is defined under the standard test condition specified in the JIS C -99 standard (temperature to 3 C 9 to 9 F, humidity to 7%). Check this with the real device as it is affected by coil driving circuit, load type, activation frequency, activation phase,ambient conditions and other factors. Also, be especially careful of loads such as those listed below. () When used for AC load-operating and the operating phase is synchronous. Rocking and fusing can easily occur due to contact shifting. () High-frequency load-operating When high-frequency opening and closing of the relay is performed with a load that causes arcs at the contacts, nitrogen and oxygen in the air is fused by the arc energy and HNO3 is formed. This can corrode metal materials. Three countermeasures for these are listed here.. Incorporate an arc-extinguishing circuit.. Lower the operating frequency 3. Lower the ambient humidity. About the relay-securing hook ) Installation of the securing hook is easily performed by pressing upward in the direction of the arrows. ) Removal of the securing hook is easily performed by releasing the hook and pressing down, as shown in the figure.. Diode characteristics ) Reverse breakdown voltage: 9V ( to 8 type) V (, type). Diode type Since the diode inside the relay coil are designed to absorb the counter emf, the element may be damaged if a large surge, etc., is applied to the diode. If there is the possibility of a large surge voltage from the outside, please implement measures to absorb it. For Cautions for Use, see Relay Technical Information (page 39). en_ds : J

228 VDE JM COMPACT POWER RELAY FOR INDUCTIVE LOAD JM RELAYS..97 Slim TMP type Flat TMP type 3.. FEATURES SPECIFICATIONS Flat TM type 3. mm inch Compact, high-capacity, and resistant to inductive loads The relay is a compact.. mm inch. It can control an inductive load (cosϕ =.7) with inrush current of 7 A and steady state current of A. Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material switching capacity Rating switching power (resistive switching voltage load) switching current switching capacity # Expected life (min. ope.) Electrical Life (at cpm) Coil operating power Inductive load # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). en_ds_38_: J Excellent contact welding resistance High contact pressure, a forced opening mechanism, and a forced wiping mechanism realizes an excellent contact welding resistance. High breakdown voltage and surge resistant relay More than. mm. inch maintained for the insulation distance between contacts and coil, and the breakdown voltage between contacts and coil is, V for minute. In addition, the surge resistance between contacts and coil is greater than, V. Resistant to external force An absorber mechanism is used on the load terminals, giving a large improvement in characteristics variations caused by the external force during FASTON placement/removal. Form A mω (Cd free type: mω) Silver alloy A V AC, VA V AC A ma, Mechanical (at 8 cpm) Resistive load A, V AC (cosϕ = ) Inrush 7 A, Steady A ( V AC cosϕ =.7) Inrush 8 A, Cut-off 8 A (When the motor is locked) ( V AC cosϕ =.7). 3 9 mw Characteristics operating speed Initial insulation resistance* Initial breakdown voltage* Between open contacts Between contacts and coil Surge voltage between contact and coil* 3 Operate time* (at nominal voltage)(at C) Release time (without diode)* (at nominal voltage)(at C) Temperature rise (at C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight Flux resistance mechanism The terminal area is plugged with resin to prevent flux seepage during PCB mounting. (TMP type) Conforms to the various safety standards UL, CSA approved. TÜV, VDE under application. The line up can support economical mounting methods. The relay are equipped with a drive terminal (coil terminal) on one side for PCBs, and a load terminal (tab terminal #) on the reverse side. The line up includes the TM type which can be attached directly to the PCB composing a drive circuit, and the TMP type which supports economical wiring. The TMP type can also be directly attached, and a high capacity load can be wired to the tab terminal. 8 cpm MΩ (at ), Vrms for min., Vrms for min., V ms (Approx. 8 ms) ms (Approx. 3 ms) C (Contact switching current: A/voltage applied to coil: %V) Functional* 98 m/s { G} Destructive* 98 m/s { G} Functional* 7 Destructive Slim TMP Flat TMP Flat TM Ambient temp. Humidity to Hz at double amplitude of. mm to Hz at double amplitude of mm C to + C F to + F to 8% R.H. Approx. 8 g.99 oz Approx. 3 g.3 oz Approx. 33 g. oz 3 Power

229 JM TYPICAL APPLICATIONS Compressor and heater control in air conditioners Power control in hot air type heaters Magnetron control in microwave ovens Lamp and motor control in OA equipment such as copiers and facsimiles. ORDERING INFORMATION Contact arrangement a: Form A Ex. JM a Pickup voltage N: 7% of nominal voltage N Z TMP DC V F Classification of type Nil: Slim type iz: Flat type Mounting classification TMP: TMP type TM: TM type (Flat type) P: PCB type(slim type) (Note). Standard packing: Carton: pcs. Case: pcs. UL/CSA, VDE approved type is standard. Coil voltage DC,, 9,,, 8 V Environmental support F: RoHS Directive conforming type (AgSnO type) Nil: RoHS Directive non-conforming type (AgCdO type) TYPES AND COIL DATA (at C 8 F) Part No. Coil Slim Flat Pick-up Drop-out operating operating allowable resistance, voltage current, power, TMP PCB TMP TM Ω (±%) ma mw JMaN-TMP-DCV (-F) JMaN-P-DCV (-F) JMaN-ZTMP-DCV (-F) JMaN-ZTM-DCV (-F) JMaN-TMP-DCV (-F) JMaN-P-DCV (-F) JMaN-ZTMP-DCV (-F) JMaN-ZTM-DCV (-F).. 9. JMaN-TMP-DC9V (-F) JMaN-P-DC9V (-F) JMaN-ZTMP-DC9V (-F) JMaN-ZTM-DC9V (-F) JMaN-TMP-DCV (-F) JMaN-P-DCV (-F) JMaN-ZTMP-DCV (-F) JMaN-ZTM-DCV (-F) JMaN-TMP-DCV (-F) JMaN-P-DCV (-F) JMaN-ZTMP-DCV (-F) JMaN-ZTM-DCV (-F) JMaN-TMP-DC8V (-F) JMaN-P-DC8V (-F) JMaN-ZTMP-DC8V (-F) JMaN-ZTM-DC8V (-F) , 9.8 DIMENSIONS Slim TMP type Schematic (Copper-side view) mm inch FASTON N.O. COM PC board side PC board pattern dia. -.7 dia N.O. COM....3 General tolerance: ±. ±. Slim PCB type Schematic (Copper-side view) N.O. COM PC board side PC board pattern dia. -.7 dia N.O. COM....3 General tolerance: ±. ±. Tolerance: ±. ±. en_ds_38_: J

230 Flat TMP type JM mm inch COM N.O Faston Schematic N.O. COM Faston COM N.O. Coil PC board side PC board pattern (Bottom view) COM Coil N.O dia. -.7 dia COM N.O General tolerance: ±. ±. Tolerance: ±. ±. Flat TM type Schematic Panel cutout COM N.O. R. R Faston Faston Faston 87 Coil N.O. COM Faston dia dia. Power General tolerance: ±. ±. REFERENCE DATA. Coil temperature rise Place to be measured: Inside of coil Ambient temperature: C 77 F. Ambient temperature characteristics Sample: JMaN-TMP-DCV, pcs. 3. Operate/release time Sample: JMaN-TMP-DCV, pcs. Temperature rise, C A A 8 9 Coil applied Voltage, %V Change, % Drop-out voltage Pick-up voltage Ambient temperature, C Operate/release time, ms Operate time x - Release time x- 8 9 Coil applied %V en_ds_38_: J

231 JM. Life curve Life, V AC resistive load Contact current, A -(). V AC electrical life test ( V AC inverter dummy load) Sample: JMaN-TMP-DCV, pcs. Change of pick-up and drop-out voltage Load: Inrush 8 A, Steady A, Inverter dummy V AC 9 Switching frequency: ON s, OFF s 8 Pick-up voltage Circuit 7 7 µf x - JM relay contact Reactor Detection of welding V AC and miscontact,8 µf.9 Ω Drop-out voltage 3 Switch x - (Welding detection time:. s) Pick-up and drop-out V Contact welding: time Miscontact: time 3 No. of operations, -(). V AC electrical life test ( V AC inverter dummy load) Sample: JMaN-TMP-DCV, pcs. Change of pick-up and drop-out voltage Load: Inrush A, Steady A, Inverter dummy V AC Switching frequency: ON s, OFF s Circuit 9 8 Pick-up voltage 7 JM relay contact Reactor x V AC Detection of welding 7 µf, µf and miscontact 7 µf (Welding detection time:. s) 3 Drop-out voltage x - Pick-up and drop-out V Contact welding: time Miscontact: time 3 No. of operations, -(3). Inrush 7 A, Steady A, V AC compressor dummy load Sample: JMaN-TMP-DCV, pcs. Change of pick-up and drop-out voltage Load: (Endurance) inrush 7 A cosϕ =.7 (.3 s), steady A pf =.9, V AC compressor dummy (Overload) 8A cosϕ =.7, V AC No. of operations: (Endurance) times Pick-up voltage (Overload), times (after endurance test) Switching frequency: (Endurance) ON. s, OFF. s x - (Overload) ON 3 s, OFF min., 7 s Drop-out voltage 3 Circuit (endurance) x - V DC JM relay contact V AC Compressor Detection of welding 3 7 dummy load and miscontact device No. of operations, Pick-up and drop-out V Contact welding: time Miscontact: time For Cautions for Use, see Relay Technical Information (page 39). en_ds_38_: J

232 VDE JQ HIGH ELECTRICAL & MECHANICAL NOISE IMMUNITY RELAY JQ RELAYS FEATURES High electrical noise immunity High switching capacity in a compact package High sensitivity: mw (a), mw (c) High surge voltage: 8, V between contacts and coil UL, CSA, VDE, TÜV, SEMKO approved Class B coil insulation type available mm inch SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material switching capacity Rating (resistive) switching power c Expected electrical life (min. operations) a N.O. N.C. Standard type High capacity type Form A, Form C A V AC A V AC A A V AC A V AC 3 A V AC A V AC A V AC A mω Silver alloy A V AC A V AC A A V AC A V AC A 3 A V AC A V AC A a VA, W, VA, W N.O. VA, 9 W, V AC, W c N.C. VA, W V AC, W switching voltage V AC, (.3A) switching current N.O.: A N.C.: A N.O.: A N.C.: 3 A switching capacity # ma, Expected mechanical life (at 8 cpm)(min. operations) Type Switching capacity No. of operations Standard type High capacity type c c a a N.O. N.C. N.O. N.C. A V AC 3 A V AC A V AC A A V AC A V AC 3 A A V AC A V AC A A V AC A V AC A A V AC A V AC A 3 A V AC A V AC A 7 Characteristics operating speed Initial insulation resistance* Initial breakdown voltage* Between open contacts Between contacts and coil cpm, MΩ at a:, Vrms for min. c: 7 Vrms for min., Vrms for min. Surge voltage between contact and coil* 3 8, V Operate time* (at nominal voltage) Approx. ms Release time* (at nominal voltage)(without diode) Approx. ms Temperature rise* C Shock Functional* 9 m/s { G} resistance Destructive* 7 98 m/s { G} Vibration resistance Functional* 8 Destructive Conditions for operation, transport and storage* 9 (Not freezing and condensing at low temperature) Unit weight Ambient temp.* Humidity 98 m/s { G}, to Hz at double amplitude of. mm 7. m/s { G}, to Hz at double amplitude of. mm C to +8 C F to +8 F to 8% R.H. Approx. 7 g. oz # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time * Measured conditions Resistive, nominal voltage applied to the coil. Standard type Contact carrying current: A, at 7 C 8 F Resistive, nominal voltage applied to the coil. High capacity type Contact carrying current: A, at 7 C 8 F * Half-wave pulse of sine wave: ms; detection time: µs * 7 Half-wave pulse of sine wave: ms * 8 Detection time: µs * 9 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). * When using relays in a high ambient temperature, consider the pick-up voltage rise due to the high temperature (a rise of approx..% V for each C 33.8 F with C 8 F as a reference) and use a coil impressed voltage that is within the maximum allowable voltage range. Power Coil (at C 8 F) operating power a: mw c: mw en_ds : J 7

233 JQ TYPICAL APPLICATIONS Air conditioners Refrigerators Microwave ovens Heaters ORDERING INFORMATION Ex. JQ a P B V F Contact arrangement Contact capacity Coil insulation class Coil voltage (DC) Environmental support a: Form A : Form C Nil: Standard P: High capacity Nil: Class E coil insulation B: Class B coil insulation UL/CSA, VDE, SEMKO approved type is standard. * Available only for Form C type,, 9,, 8,, 8* V F: RoHS Directive conforming type (AgSnO type) Nil: RoHS Directive non-conforming type (AgCdO type) TYPES AND COIL DATA at C 8 F Form A High capacity type Standard type Standard type Form C High capacity type Part No. Pick-up (min.) Drop-out (min.) operating current, ma JQa-V (-F) 3.7. operating power, mw Coil resistance, Ω (±%) JQa-V (-F) JQa-9V (-F) JQa-V (-F) JQa-8V (-F) , JQa-V (-F) ,88 JQaP-V (-F). JQaP-V (-F) JQaP-9V (-F) JQaP-V (-F) JQaP-8V (-F) 8..9., JQaP-V (-F) ,88 JQ-V (-F) JQ-V (-F) JQ-9V (-F) JQ-V (-F) JQ-8V (-F) JQ-V (-F) 8..7, JQ-8V (-F) ,7 JQP-V (-F). 8. JQP-V (-F) JQP-9V (-F) JQP-V (-F) JQP-8V (-F) JQP-V (-F) 9...7, JQP-8V (-F) ,7 allowable 8% of nominal voltage (at C 8 F) % of nominal voltage (at 8 C 8 F) % of nominal voltage (at C 8 F) % of nominal voltage (at 8 C 8 F) 8 en_ds : J

234 DIMENSIONS Form A Schematic (Bottom view) Form A Form C COM N.O. COM JQ mm inch N.O... Coil Coil.. N.C. 7.. Form C... dia.. dia PC board pattern (Bottom view) Form A FormC dia. -. dia dia. -. dia dia.. dia Dimension : General tolerance mm.39 inch ±. ±.8 to mm.39 to.8 inch ±.3 ±. mm.8 inch ±. ± Tolerance: ±. ±. REFERENCE DATA switching capacity ( Form A type) switching capacity ( Form C type) Power Contact current, A AC resistive load (High capacity type) AC resistive load (Standard type) 77, Contact V Contact current, A 3 AC resistive load (High capacity type) N.O. side AC resistive load (Standard type) N.O. side AC resistive load (High capacity type) N.C. side AC resistive load (Standard type) N.C. side 77, Contact V Standard type -(). Operate & release time ( Form A type) Tested sample: JQa-V, pcs. -(). Operate & release time ( Form C type) Tested sample: JQ-V, pcs.. Life curve Ambient temperature: room temperature Operate & release time, ms 8 Operate time Release time Operate & release time, ms 8 Operate time Release time Life, V AC resistive load V AC resistive load 8 Coil applied %V 8 Coil applied %V 3 Contact current, A en_ds : J 9

235 JQ 3-(). Coil temperature rise ( Form A type) Contact carrying current: 3 A, A Measured portion: Inside the coil 3-(). Coil temperature rise ( Form C type) Contact carrying current: 3 A, A Measured portion: Inside the coil 7 Temperature rise, C A at 8 C 3 A at 8 C A at 7 C 3 A at 7 C Temperature rise, C 3 A at 7 C A at 7 C 3 A at 8 C A at 8 C Coil applied %V Coil applied %V -(). Ambient temperature characteristics ( Form A type) Tested sample: JQa-V Contact carrying current: 3 A, A Coil applied %V High capacity type Ambient temperature, C -(). Operate & release time ( Form A type) Tested sample: JQaP-V, pcs. -(). Ambient temperature characteristics ( Form C type) Tested sample: JQ-V Contact carrying current: 3 A, A Coil applied %V Ambient temperature, C -(). Operate & release time ( Form C type) Tested sample: JQP-V, pcs. Allowable ambient temperature against % coil voltage (max. inside the coil temperature set as C F) (Carrying current: 3 A) Allowable ambient temperature against % coil voltage (max. inside the coil temperature set as C F) (Carrying current: A) Allowable ambient temperature against % coil voltage (max. inside the coil temperature set as C 39 F) (Carrying current: 3 A) Allowable ambient temperature against % coil voltage (max. inside the coil temperature set as C 39 F) (Carrying current: A) Pick-up voltage with a hot-start condition of %V on the coil (Carrying current: A) Pick-up voltage with a hot-start condition of %V on the coil (Carrying current: 3 A) Pick-up voltage. Life curve Ambient temperature: room temperature Operate & release time, ms 8 Operate time Release time Operate & release time, ms 8 Operate time Release time Life, V AC resistive load V AC resistive load 8 Coil applied %V 8 Coil applied %V 8 Contact current, A 3-(). Coil temperature rise ( Form A type) Contact carrying current: A, A Measured portion: Inside the coil 3-(). Coil temperature rise ( Form C type) Contact carrying current: A, A Measured portion: Inside the coil Temperature rise, C 7 A at 8 C A at 7 C A at 7 C A at 8 C Temperature rise, C 7 A at 8 C A at 7 C A at 7 C A at 8 C 8 Coil applied %V Coil applied %V en_ds : J

236 -(). Ambient temperature characteristics ( Form A type) Tested sample: JQaP-V Contact carrying current: A, A Coil applied %V Ambient temperature, C -(). Ambient temperature characteristics ( Form C type) Tested sample: JQP-V Contact carrying current: A, A Coil applied %V JQ Allowable ambient temperature against % coil voltage (max. inside the coil temperature set as C F) (Carrying current: A) Allowable ambient temperature against % coil voltage (max. inside the coil temperature set as C F) (Carrying current: A) Allowable ambient temperature against % coil voltage (max. inside the coil temperature set as C 39 F) (Carrying current: A) Allowable ambient temperature against % coil voltage (max. inside the coil temperature set as C 39 F) (Carrying current: A) Pick-up voltage with a hot-start condition of %V on the coil (Carrying current: A) Pick-up voltage with a hot-start condition of %V on the coil (Carrying current: A) Pick-up voltage For Cautions for Use, see Relay Technical Information (page 39). Power Ambient temperature, C en_ds : J

237 JS VDE MINIATURE PC BOARD TYPE POWER RELAY JS RELAYS.8.. mm inch FEATURES Miniature size with universal terminal footprint High contact capacity: A Class B coil insulation type available TV- type available (Standard type) Form A type TV- Form C type TV- (N.O. side only) VDE, TÜV also approved Sealed construction for automatic cleaning (Standard type) SPECIFICATIONS Contact Types Standard type High power type Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating (resistive load) Expected life (min. ope.) ** Holding voltage should be % V of nominal voltage Coil switching capacity switching power switching voltage switching current switching capacity # Mechanical (at 8 cpm) Electrical at A V AC, A 77 V AC resistive (standard) A 77 V AC resistive (High power) A V AC resistive (Standard: at cpm) (High power: at cpm, C F)** operating power Form A, Form C A V AC A V AC A 77 V AC mω Silver alloy Form A A V AC A V AC A 77 V AC, VA V AC, A (AC), A (DC) ma, 7 (No contact only) 3 mw. # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Detection current: ma * Excluding contact bounce time * 3 Half-wave pulse of sine wave: ms; detection time: µs Characteristics operating speed Types Initial insulation resistance Initial Between open contacts breakdown Between contacts and voltage* coil Operate time* (at nominal voltage) Release time(without diode)* (at nominal voltage) Temperature rise (at nominal voltage) Shock resistance Vibration resistance Conditions for operation, transport and storage* (Not freezing and condensing at low temperature) Unit weight Standard type cpm High power type MΩ (at ) 7 Vrms for min., Vrms for min. Approx. ms Approx. ms 3 C, resistive, nominal voltage applied to coil. Contact carrying current: A, at 8 C 8 F Functional* 3 98 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Ambient temp.* 7 Humidity Approx. 98 m/s { G}, to Hz at double amplitude of. mm Approx. 7. m/s { G}, to Hz at double amplitude of mm C to +8 C F to +8 F C to + C F to + F to 8% R.H. Approx. g.3 oz * Half-wave pulse of sine wave: ms * Detection time: µs * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). * 7 When using relays in a high ambient temperature, consider the pick-up voltage rise due to the high temperature (a rise of approx..% V for each C 33.8 F with C 8 F as a reference) and use a coil impressed voltage that is within the maximum allowable voltage range. TYPICAL APPLICATIONS. Home appliances Air conditioner, heater, etc.. Automotive Power-window, car antenna, door-lock, etc. 3. Office machines PPC, facsimile, etc.. Vending machines en_ds_37_: J

238 ORDERING INFORMATION JS Ex. JS a F B V F Contact arrangement Protective construction Coil insulation class Coil voltage (DC) Environmental support : Form C (Standard) a: Form A (Standard) ap: Form A (High Power) Nil: Sealed type F: Flux-resistant type Nil: Class E insulation B: Class B insulation,, 9,, 8,, 8 V UL/CSA, VDE, TÜV (Standard type only) approved type is standard. Notes:. Standard packing: Carton: pcs. Case: pcs.. When ordering TV rated (TV-) types, add suffix -TV. 3. Contact arrangement ap type is Flux-resistant type only (class B or class F insulation). Please consult us for coil insulation class F. F: RoHS Directive conforming type (AgSnO type) Nil: RoHS Directive non-conforming type (AgCdO type) COIL DATA DIMENSIONS Standard type Part No. High Power type Flux-resistant Sealed type Flux-resistant type type Form A Form C Form A Form C Form A Pick-up (max.) (at C 8 F) Drop-out (min.) (at C 8 F) Coil resistance, Ω (±%) (at C 8 F) operating current, ma (±%) (at C 8 F) JSa-V (-F) JS-V (-F) JSaF-V (-F) JSF-V (-F) JSaPF-B-V (-F) JSa-V (-F) JS-V (-F) JSaF-V (-F) JSF-V (-F) JSaPF-B-V (-F).. JSa-9V (-F) JS-9V (-F) JSaF-9V (-F) JSF-9V (-F) JSaPF-B-9V (-F) JSa-V (-F) JS-V (-F) JSaF-V (-F) JSF-V (-F) JSaPF-B-V (-F) 8.. JSa-8V (-F) JS-8V (-F) JSaF-8V (-F) JSF-8V (-F) JSaPF-B-8V (-F) JSa-V (-F) JS-V (-F) JSaF-V (-F) JSF-V (-F) JSaPF-B-V (-F).8., JSa-8V (-F) JS-8V (-F) JSaF-8V (-F) JSF-8V (-F) JSaPF-B-8V (-F) , operating power, mw (at C 8 F) 3 Schematic (Bottom view) a c COIL COIL COM COM N.O. N.O. allowabl e voltage (at 8 C 8 F) %V of nominal voltage mm inch Power N.O..79 N.C Note: Terminal No. is only for Standard Form C type General tolerance: ±.3 ±. PC board pattern (Bottom view) a (Standard, High Power).79 c (Standard)..8 N.C. -.3 dia. -. dia dia. -. dia Tolerance: ±. ±. en_ds_37_: J 3

239 JS REFERENCE DATA. Maximum value for switching capacity. Operate/release time Sample: pcs., JS-V 3. Life curve Ambient temperature: Room temperature Contact current, A DC resistive load AC resistive load Operate/release time, ms 8 Operate time Release time x x Life, V AC resistive load Contact V 8 Coil applied %V Contact current, A -(). Coil temperature rise Sample: pcs., JSa-V Measured portion: Inside the coil Contact current: A -(). Coil temperature rise Sample: pcs., JSa-V Measured portion: Inside the coil Contact current: A. Ambient temperature characteristics Sample: pcs., JS-V Temperature rise, C C 7 C 8 C Temperature rise, C C 7 C 8 C Changing ration, % Pick-up voltage Drop-out voltage Ambient - temperature C - Coil applied %V Coil applied %V. Electrical life test ( A V AC, resistive load) Sample: pcs., JS-V Operating speed: cpm Ambient temperature: room temperature (Circuit) A V AC Change of pick-up and drop-out voltage Pick-up/drop-out V Contact welding detection and Drop-out voltage Mis-contacting detection circuit x 8 Pick-up voltage x No. of operations, Change of contact resistance Contact resistance, mω 8 Contact on the N.C. side Contact on the N.O. side x x No. of operations, For Cautions for Use, see Relay Technical Information (page 39). en_ds_37_: J

240 JT-V SURGE VOLTAGE, V AMP. RELAY JT-V RELAYS FEATURES Surge withstand voltage:, V High switching capacity A for Form A contact arrangements Form A or Form C TMP types available UL/C-UL recognized Class F types standard PCB type TMP type SPECIFICATIONS Contacts PCB & TMP type Arrangement Form A Form C Initial contact resistance, max. (By voltage drop method, mω A) Contact material Rating Expected life switching power switching voltage switching current switching capacity # * The life is for open venting-hole condition. Coil at C 8 F 8 VA A Silver alloy 77 V AC ma, Mechanical 7 Electrical (Resistive load) operating power A 77 V AC * PCB & TMP type Approx., mw N.C.: 77 VA N.O.: VA N.C.: A N.O.: A N.O.: A 77 V AC * N.C.: A 77 V AC * Characteristics Initial insulation resistance* Initial Between contacts breakdown Between contacts voltage* and coil Initial surge voltage between contact and coil PCB & TMP type MΩ at, Vrms 3, Vrms, V* 3 Operate time* (at nominal voltage) ms Release time (without diode)* (at nominal voltage) ms Shock Functional* 98 m/s { G} resistance Destructive* 98 m/s { G} Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight Functional* 7 Destructive Ambient temp. Humidity 88. m/s {9 G}, to Hz at double amplitude of. mm 7. m/s { G}, to Hz at double amplitude of mm C to +8 C 7 F to +8 F to 8% R.H. PCB type: Approx. g (.88 oz) TMP type: Approx. g (. oz) # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Intial breakdown voltage section * Detection current: ma * 3 Ware is standard shock voltage of ±. µs according to JEC--98. * Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Power TYPICAL APPLICATIONS Oven Heating & ventilation Home appliance en_ds_9_: J

241 JT-V ORDERING INFORMATION JT-V Relays (PCB and TMP type) JTV a S TMP V COIL DATA (at C 8 F) Pick-up Drop-out Coil resistance, Ω (±%) operating power, mw allowable (max.) (Initial) (min.) (Initial) PCB & TMP PCB & TMP (at 7 C 8 F) DIMENSIONS. PCB type Form A Contact arrangement a: Form A : Form C Protective construction S: Sealed type G: Dust cover type Mounting classification PA: PCB type TMP: TMP type Notes:. UL/C-UL approved type is standard.. V, V, 9 types are also available. Please contact us for details. 3. Standard packing: PCB type: Carton: pcs. Case: pcs. TMP type: Carton: pcs. Case: pcs Terminals Form C Coil voltage DC, 8,, 8 V mm inch Terminals PC board pattern (Bottom view) dia dia. Terminal.... Coil Terminals -. dia. -. dia. Schematic (Bottom view) PC board pattern (Bottom view) dia dia. Terminal.... Coil Terminals -. dia. -. dia. Schematic (Bottom view) dia dia dia dia Tolerance:... TMP type Form A Terminals Terminal.... Form C Terminals Terminal COM NC NO COM NC NO PC board pattern (Bottom view) dia dia N.O. Schematic Coil Terminals -. dia. -. dia. PC board pattern (Bottom view) dia dia N.C. N.O. Schematic Coil Terminals -. dia. -. dia dia. -.3 dia. COM (Top view) (Bottom view) en_ds_9_: J dia. -.3 dia. COM (Top view) (Bottom view) Tolerance:..

242 REFERENCE DATA. Change of rate of pick-up and drop-out voltage (at C 8 F) Sample: JTVS-TMP-V ( pcs.). Distribution frequency of pick-up voltage (at C 8 F) Sample: JTVS-TMP-V ( pcs.) JT-V 3. Distribution frequency of drop-out voltage (at C 8 F) Sample: JTVS-TMP-V ( pcs.) Rate of change, % Drop-out voltage Pick-up voltage Ambient temperature, C F - - Distribution frequency Distribution frequency Pick-up V Drop-out V.-() Coil temperature rise (TMP type)* Ambient temperature: C 77 F Sample: JTVaS-TMP-V ( pcs.) Ambient temperature: 8 C 8 F Sample: JTVaS-TMP-V ( pcs.) 8 8 Temperature rise, C A A Temperature rise, C A A 9 Coil applied %V 9 Coil applied %V Power * Coil temperature rise of sealed types are same as data of the dust cover type. For Cautions for Use, see Relay Technical Information (page 39). en_ds_9_: J 7

243 JV-N COMPACT FLAT POWER RELAY FOR HEATER LOADS JV-N RELAYS.8. SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating (resistive load) Coil switching capacity Expected life (min. ope.) Mechanical (at 8 cpm) Electrical at resistive load (at cpm).9.9 switching power switching voltage switching current switching capacity # Sealed type A V AC, A Flux-resistant type A V AC operating power FEATURES # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Excluding contact bounce time * Excluding contact bounce time, without diode * 3 By resistive method; nominal voltage applied to the coil; contact carrying current: A, at 7 C 8 F * voltage applied to the coil, at C F * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). High A capacity The contacts are high capacity A, V AC. Compact, flat type with low.9 mm.9 inch height Compact flat type with low surface area of mm..8 inch and height of.9 mm.9 inch. High sensitivity at mw High sensitivity at mw coil power consumption. Form A mω Silver alloy A V AC, A 77 V AC A, A V AC,77 VA, W 77 V AC, A (AC V), A (DC) ma, 7 3 mw (DC. to 8 V) mw (DC V) Characteristics operating speed Operate time* (at nominal voltage) Release time* (at nominal voltage) Initial insulation resistance Initial breakdown voltage (Detection current: ma Represses contact terminal heat The contact terminals are larger and thicker compared to the existing JV relay. This limits the rise in temperature of the terminals when there is a large current flowing to approx. 8 C F (normal current of A). Conforms to the various safety standards UL/CSA, TÜV approved. Between open contacts Between contacts and coil Surge voltage between contact and coil Temperature rise Conditions in case of operation, transport and storage* 8 cpm ms (DC. V to 8 V) 8 ms (DC V) ms, MΩ (at ), Vrms for min., Vrms for min., V C (DC. V to 8 V) * 3 C (DC V)* Ambient temperature to 7 C to 8 F (DC. to 8 V) to C to F (DC V) Humidity: to 8 % R.H. (Note freezing and condensing at low temperature) Air pressure: 8 to kpa Shock resistance Functional m/s {G}* Destructive, m/s {G}* Vibration resistance Unit weight Functional Destructive to Hz * 7 at double amplitude of. mm to Hz at double amplitude of mm Approx. 8g.8 oz TYPICAL APPLICATIONS AV equipment: TV's, VTR's, etc. OA equipment HA equipment ORDERING INFORMATIONS Contact arrangement Ex. JVN a F. V Protective construction Coil voltage (DC) a: Form A Nil: Sealed type F: Flux-resistant type UL/CSA, TÜV approved type is standard..,, 9,, 8,, 8, V 8 en_ds_39_: J

244 TYPES AND COIL DATA (at C 8 F) Sealed type Part No. DIMENSIONS Flux-resistant type REFERENCE DATA Pick-up voltage (max.) Drop-out voltage (min.) Coil resistance, W (±%) operating current, ma (±%) operating power, mw JV-N allowable JVNa-.V JVNaF-.V JVNa-V JVNaF-V JVNa-9V JVNaF-9V JVNa-V JVNaF-V JVNa-8V JVNaF-8V ,. 7 JVNa-V JVNaF-V 8., JVNa-8V JVNaF-8V 8 3.,. 7 JVNa-V JVNaF-V, switching power. Operate/release time Sample: JVNaF- V, pcs. Contact current, A AC resistive load Contact V, operate & release time, ms COM NO Dimension: General tolerance mm.39 inch: ±. ±.8 to mm.39 to.97 inch: ±.3 ±. mm.97 inch: ±. ±. operate time release time x x 8 Coil applied %V..39 (R)..79 PC board pattern.. 3. Coil temperature rise Sample: JVNaF- V, pcs. point measured: coil inside Contact current: A Temperature rise, C Ambient temperature C (R)..79 Ambient temperature 7 C 8 Coil applied %V mm inch -.9 dia. -.3 dia..7. Power. Ambient temperature characteristics Sample: JVNaF- V, pcs. Variation ratio, % Drop-out voltage. Life curve Operation frequency: times/min. Ambient temperature: room temperature V AC resistive load - - Pick-up voltage 8 Ambient temperature, C Life, 77V AC resistive load - - For Cautions for Use, see Relay Technical Information (page 39). en_ds_39_: J 8 8 Contact current, A 9

245 JW VDE COMPACT PC BOARD POWER RELAY JW RELAYS mm inch FEATURES Miniature package with universal terminal footprint High dielectric withstanding for transient protection:, V surge in µs between coil and contact Sealed construction Class B coil insulation types available TV rated (TV-) types available (only for Form A type) VDE, TÜV, SEMKO, SEV, FIMKO, TV- also approved SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating (resistive load) Expected life (min. ope.) Coil switching capacity switching power switching voltage switching current switching capacity # Mechanical (at 8 cpm) Electrical (at cpm) (Resistive load) operating power Standard type Form A, Form C, Form A, Form C A V AC, A mω Silver alloy High capacity type Form A, Form C A V AC, A, VA, W, VA, W V AC, A A ma, # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Detection current: ma * Wave is standard shock voltage of ±. µs according to JEC--98 * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). * 8 When using relays in a high ambient temperature, consider the pick-up voltage rise due to the high temperature (a rise of approx..% V for each C 33.8 F with C 8 F as a reference) and use a coil impressed voltage that is within the maximum allowable voltage range. mw Characteristics operating speed (at rated load) Initial insulation resistance Initial breakdown voltage* Between open contacts Between contacts and coil Between contact sets Initial surge voltage between contacts and coil* Operate time* 3 (at nominal voltage) Release time (without diode)* 3 (at nominal voltage) Temperature rise (at C) (at nominal voltage) (with nominal coil voltage and at nominal switching capacity) Shock resistance Vibration resistance Standard type cpm High capacity type, MΩ at, Vrms for min., Vrms for min. 3, Vrms for min. ( Form A, Form C) a: max. 39 C c, a, c: max. C (resistance method), V ms ms a: max. C c: max. C (resistance method) Functional* 98 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight Ambient temp.* 8 Humidity Approx. 98 m/s { G}, to Hz at double amplitude of. mm Approx. 7. m/s { G}, to Hz at double amplitude of. mm C to +8 C F to +8 F to 8% R.H. Approx. 3 g. oz TYPICAL APPLICATIONS. Home appliances TV sets, VCR, Microwave ovens. Office machines Photocopiers, Vending machines 3. Industrial equipment NC machines, Robots, Temperature controllers en_ds_8_: D

246 ORDERING INFORMATION JW Ex. JW F S N B DCV Contact arrangement : Form C a: Form A : Form C a: Form A TYPES Standard (A) types Contact arrangement Coil Part No. Contact arrangement Coil Part No. Form A Form C High capacity ( A) types COIL DATA (at C 8 F) JWaSN-DCV (-F) JWaSN-DCV JWaSN-DCV (-F) JWaSN-DCV 9 JWaSN-DC9V (-F) 9 JWaSN-DC9V JWaSN-DCV (-F) Form A JWaSN-DCV 8 JWaSN-DC8V (-F) 8 JWaSN-DC8V JWaSN-DCV (-F) JWaSN-DCV 8 JWaSN-DC8V (-F) 8 JWaSN-DC8V JWSN-DCV JWSN-DCV JWSN-DCV JWSN-DCV 9 JWSN-DC9V 9 JWSN-DC9V JWSN-DCV Form C JWSN-DCV 8 JWSN-DC8V 8 JWSN-DC8V JWSN-DCV JWSN-DCV 8 JWSN-DC8V 8 JWSN-DC8V Contact arrangement Coil Part No. Contact arrangement Coil Part No. Form A Contact capacity Nil: Standard ( A) F: High capacity ( A)* Pick-up (max.) (Initial) Protective construction Pick-up voltage Coil insulation class Coil voltage S: Sealed type N: 7% of nominal voltage JWaFSN-DCV (-F) JWFSN-DCV JWaFSN-DCV (-F) JWFSN-DCV 9 JWaFSN-DC9V (-F) 9 JWFSN-DC9V JWaFSN-DCV (-F) Form C JWFSN-DCV 8 JWaFSN-DC8V (-F) 8 JWFSN-DC8V JWaFSN-DCV (-F) JWFSN-DCV 8 JWaFSN-DC8V (-F) 8 JWFSN-DC8V Drop-out (min.) (Initial) operating current, ma (±%) Nil: Class E insulation B: Class B insulation *Only for Form A and Form C type UL/CSA, VDE, SEMKO, FIMKO, SEV approved type is standard. Notes:. When ordering TV rated (TV-) types, add suffix-tv (available only for Form A type).. Standard packing: Carton: pcs. Case: pcs. Coil resistance, W (±%) , , DC,, 9,, 8,, 8 V operating power, mw Environmental support RoHS Directive conforming type (AgSnO type) F: a (Standard/High capacity) Nil: c (Standard/High capacity), a (Standard), c (Standard) RoHS Directive non-conforming type (AgCdO type) Nil: a (Standard/High capacity) allowable voltage % V of Voltage (at C F) % V of Voltage (at 8 C 8 F) Power en_ds_8_: D

247 JW DIMENSIONS Form A PC board pattern (Copper-side view) Form C PC board pattern (Copper-side view) mm inch dia. -. dia dia. -. dia Relay outline Tolerance: ±. ±. Wiring diagram (Bottom view) N.O. COM Relay outline Tolerance: ±. ±. Wiring diagram (Bottom view) N.O. COM N.C. Stand-off.9.3 COIL Dimension : General tolerance mm.39 inch ±. ±. to 3mm.39 to.8 inch ±. ±.8 3mm.8 inch ±.3 ± COIL Form A PC board pattern (Copper-side view) Form C PC board pattern (Copper-side view) dia. -. dia dia. -. dia Relay outline Tolerance: ±. ±. Wiring diagram (Bottom view) N.O. COM Relay outline Tolerance: ±. ±. Wiring diagram (Bottom view) N.O. COM N.C COIL.8.3 Dimension : General tolerance mm.39 inch ±. ±. to 3mm.39 to.8 inch ±. ±.8 3mm.8 inch ±.3 ± COIL REFERENCE DATA -(). Maximum operating power Form A Standard ( A) type -(). Maximum operating power Form A High Capacity ( A) type -(3). Maximum operating power Form C Standard ( A) type Contact current, A DC resistive AC resistive load load Contact current, A DC resistive load AC resistive load Contact current, A AC resistive load (cosϕ =.), Contact V, Contact V, Contact V en_ds_8_: D

248 JW -(). Maximum operating power Form C High Capacity ( A) type -(). Maximum operating power Form A Standard ( A) type -(). Maximum operating power Form C Standard ( A) type Contact current, A AC resistive load (cosϕ =.) Contact current, A AC resistive load (cosϕ =.) Contact current, A AC resistive load (cosϕ =.), Contact V, Contact V, Contact V -(). Life curve Form A Standard ( A) type -(). Life curve Form A High Capacity ( A) type 3-(). Operate/release time Sample: JWaSN-DCV, pcs. Ambient temperature: C 8 F Life, V AC resistive load (cosϕ =.) resistive load Life, V AC resistive load (cosϕ =.) resistive load Operate/release time, ms Release time Operate time x - x - Contact current, A 3-(). Operate/release time Sample: JWaFSN-DCV, pcs. Ambient temperature: C 8 F 3-(3). Operate/release time Sample: JWSN-DCV, pcs. Ambient temperature: C 8 F Contact current, A (). Operate/release time Sample: JWaSN-DCV, pcs. Ambient temperature: C 8 F Coil applied %V Power Operate/release time, ms Operate time x - Release time x Coil applied %V Operate/release time, ms x - x Coil applied %V Operate/release time, ms 3 8 Operate time x - Release time x Coil applied %V 3-(). Operate/release time Sample: JWSN-DCV, pcs. Ambient temperature: C 8 F -(). Coil temperature rise (Contact carrying current: A) Sample JWaFSN-DCV, pcs. Point measured: Inside the coil -(). Coil temperature rise (Contact carrying current: A) Sample: JWaFSN-DCV, pcs. Point measured: Inside the coil Operate/release time, ms Operate time Release time x - x - Temperature rise, C 7 C C 8 C Temperature rise, C 7 C C 8 C 8 9 Coil applied %V Coil applied %V Coil applied %V en_ds_8_: D 3

249 JW ACCESSORIES DIN terminal sockets Plug-in sockets JWSI JWSI JWPI JWPI COM COM NO NO Retaining springs JWHFSI JWHFI B COIL A B COIL A NC NC h (relay height) =. mm DIMENSIONS Plate JWSI JWSI h = height, relay JWPI JWPI Module MODULES supporting the JW relay Description Voltage Schematic LED color Type Module with diode and LED. Protection against inverting polarity plus illuminated signal. / / LED red LED red B Module with signal LED. No protection against inverting polarity. AC or DC power supply possible. / V AC/DC / V AC/DC LED red LED red B For Cautions for Use, see Relay Technical Information (page 39). en_ds_8_: D

250 VDE LA (ALA) Form A slim power relay LA RELAYS (ALA) FEATURES mm inch. Form A slim type (L) (W) (H) mm.9(l).7(w).98(h) inch. 3A type and A TV type 3A type: Contact reliability and break performance best suited for protecting and switching speakers. A TV type: Tough against inrush current and optimal for turning on and off the power supply. Rated TV- (UL/CSA). 3. High insulation resistance Creepage distance and clearances between contact and coil: mm.3 inch (In compliance with IEC) Surge withstand voltage between contact and coil:, V or more.. High noise immunity realized by the card separation structure between contact and coil. Conforms to the various safety standards UL/CSA, VDE, TÜV, SEMKO, SEV approved SPECIFICATIONS Contact Type 3A rated A TV rated Arrangement Form A Initial contact resistance, max. (By voltage drop A) mω mω Contact material Gold-clad silver alloy Silver alloy Rating (resistive load) Expected life (min. operations) switching capacity 3 A V AC A 77 V AC switching power VA,38 V A switching voltage V AC 77 V AC switching current A (AC) switching capacity # ma, Mechanical (at 8 cpm) Electrical (at cpm) (at rated load) (ON: OFF=.s:.s) Coil operating power mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 Wave is standard shock voltage of ±. ms according to JEC--98 * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics Type 3A rated A TV rated operating speed cpm Initial insulation resistance*, MΩ (at ) Initial * Between contact sets, Vrms for min. breakdown Between open contacts, Vrms for min. voltage Between contact and coil, Vrms for min. Surge voltage between contact and coil* 3, V Operate time* (at nominal voltage) ms (at C 8 F) Release time (with diode)* (at nominal voltage) ms (at C 8 F) Temperature rise (at 7 C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight C with nominal coil voltage and at 3 A contact carrying current C with nominal coil voltage and at A contact carrying current Functional* m/s {approx. G} Destructive*, m/s {approx. G} Functional* 7 Destructive Ambient temp. Humidity Air pressure to Hz at double amplitude of.mm to Hz at double amplitude of.mm C to +7 C F to +8 F to 8% R.H. 8 to kpa Approx. 3 g. oz Power ORDERING INFORMATION Ex. A LA P F Product name Contact arrangement Contact capacity Protective construction Coil voltage() LA : Form A Nil: 3A P: A TV- F: Flux-resistant type, UL/CSA, VDE, TÜV, SEMKO, TV- approved type is standard. Notes:. Standard packing Carton: pcs. Case: pcs...v, V, 9V and 8 types are also available. Please consult us for details. en_ds : D

251 LA (ALA) TYPES AND COIL DATA (at C 8 F) Part No. 3 A type A TV type DIMENSIONS Pick-up (max.) Drop-out (min.) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw Maximum allowable ALAF ALAPF (Initial) 9 (Initial). 7.. ALAF ALAPF (Initial) 8 (Initial)., PC board pattern (Bottom view) mm inch -.9 dia -.3 dia dia -. dia Tolerance : ±. ±. Schematic (Bottom view) Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. REFERENCE DATA. switching power (AC resistive load). Life curve ( V AC resistive load) Contact current, A 3 ALAF ALAPF Life, V AC resistive load Contact V 3 Contact current, A 3-(). Coil temperature rise Sample: ALAF, pcs. Measured portion: coil inside Contact current: A, 3A Temperature rise, C 3 8 Coil applied %V C 3A C A 7 C 3A 7 C A 3-(). Coil temperature rise Sample: ALAPF, pcs. Measured portion: coil inside Contact current: A, A Temperature rise, C 3 8 Coil applied %V C A C A 7 C A 7 C A. Ambient temperature characteristics and coil applied voltage Contact current: ALAF=3A ALAPF=A Coil applied %V Allowable ambient temperatures against % coil voltages (max. inside the coil temperature set as C 39 F) 8 Ambient temperature, C en_ds : D

252 LA (ALA) -(). Electrical life test (3 A V AC, resistive load) Sample: ALAF, pcs. Operation frequency: times/min. (ON/OFF =.s:.s) Ambient temperature: C 8 F Circuit: V AC G NO NO COM COM Contact welding detection and Miscontacting detection circuit Change of pick-up and drop-out voltage Pick-up and drop-out %V 8 Pick-up voltage Drop-out voltage. No. of operations, x x Change of contact resistance Contact resistance, mω. No. of operations, x -(). Electrical life test ( A V AC, resistive load) Sample: ALAPF, pcs. Operation frequency: times/min. (ON/OFF =.s:.s) Ambient temperature: C 8 F Circuit: V AC NO COM Contact welding detection and Miscontacting detection circuit Change of pick-up and drop-out voltage Pick-up and drop-out %V 8 Pick-up voltage Drop-out voltage x x Change of contact resistance Contact resistance, mω x G NO COM. No. of operations,. No. of operations, -(3). Electrical life test (UL lamp load test TV-) Tested sample: ALAPF, pcs. Overload test Load:. A V AC ( Hz), Inrush: 9 A Operation frequency: times/min (ON: OFF = s: s) No. of operations: ope. Endurance test Load: A V AC ( Hz), Inrush: A Operation frequency: times/min (ON: OFF = s: s) No. of operations:, ope. Change of pick-up and drop-out voltage Pick-up and drop-out %V 8 Pick-up voltage Drop-out voltage No. of operations, x x. Change of contact resistance Contact resistance, mω No. of operations,. x Power For Cautions for Use, see Relay Technical Information (page 39). en_ds : D 7

253 LD (ALD) Form A Slim Power Relay LD RELAYS (ALD) VDE FEATURES mm inch. Slim type: Width 7 mm.7 inch..3(l) 7.(W).(H) mm.799(l).7(w).9(h) inch. Perfect for small load switching of home appliances switching operations possible with a 3A V AC resistive load. 3. Low operating power Compact size, nominal operating power as low as mw.. High shock resistance The relay withstands a functional shock resistance of m/s [approx. G more]. High insulation resistance Creepage distance and clearances between contact and coil: mm.3 inch (In compliance with IEC) Surge withstand voltage between contact and coil:, V or more.. UL/CSA, VDE, TÜV approved. SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating (resistive load) Expected life (min.operations) Coil operating power switching capacity switching power switching voltage switching current switching capacity # Form A mω Silver alloy 3 A 77 V AC, 3 A 83 V A (AC), 9W (DC) 77 V AC, 3 A ma, Mechanical (at 8 cpm) Electrical (at cpm) (at rated load) 3A V AC, 3A 3A V AC A V AC mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 Wave is standard shock voltage of ±. ms according to JEC--98 * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics operating speed Initial insulation resistance* Initial* breakdown voltage Between open contacts Between contact and coil Initial surge voltage between contact and coil* 3 Operate time* (at nominal voltage) Release time (with diode)* (at nominal voltage) Temperature rise (at 7 C 8 F) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight cpm (at rated load), MΩ (at ) 7 Vrms for min., Vrms for min., V ms (at C 8 F) ms (at C 8 F) C with nominal coil voltage and at 3 A contact carrying current (resistance method) Functional* m/s {approx. G} Destructive*, m/s {approx. G} Functional* 7 Destructive Ambient temp. Humidity to Hz at double amplitude of.mm to Hz at double amplitude of.mm C to +7 C F to +8 F to 8% R.H. Approx. g. oz TYPICAL APPLICATIONS Air conditioner Refrigerator Hot water units Microwave ovens Fan heaters ORDERING INFORMATION Product name LD Ex. A LD W Contact arrangement Coil voltage () : Form A H:., :, :, 9: 9, : 8: 8 : UL/CSA, TÜV, VDE approved type is standard. Note: Tube packing: Tube: pcs, Case:,pcs Carton packing: Carton: pcs, Case: pcs Packing style Nil: Tube packing W: Carton packing 8 en_ds : D

254 TYPES AND COIL DATA (at C 8 F) Part No. DIMENSIONS Pick-up (max.) (Initial) Drop-out (min.) (Initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw LD (ALD) Maximum allowable (at C 8 F) ALDH ALD ALD ALD ALD ALD ,. 3. ALD 8., mm inch PC board pattern (Bottom view) (.) (.) (.) (.) dia -.3 dia. dia dia Tolerance: ±. ±. Schematic (Bottom view) COM NO Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. COIL Power REFERENCE DATA. switching power. Life curve 3. Coil temperature rise Sample: ALD, pcs. Point measured: inside the coil Contact current: A, 3 A Contact current, A AC resistive load DC resistive load Life, V AC resistive load Temperature rise, C 7 C A 3A 7 C Contact V 3 Contact current, A 7 Coil applied %V -(). Operate time Sample: ALD, pcs. -(). Release time (without diode) Sample: ALD, pcs. -(3). Release time (with diode) Sample: ALD, pcs. Operate time, ms 8 Release time, ms 8 Release time, ms 8 8 Coil applied %V 8 Coil applied %V 8 Coil applied %V en_ds : D 9

255 LD (ALD) -(). Electrical life test (3 A V AC, resistive load) Sample: ALD, pcs. Operating speed: cpm Ambient temperature: room temperature circuit: V AC Hz G NO COM Change of pick-up and drop-out voltage Ratio against the rated %V Pick-up voltage Drop-out voltage Change of contact resistance 9 Contact resistance, mω 8 7 No. of operations, No. of operations, -(). Electrical life test (3 A, resistive load) Sample: ALD, pcs. Operating speed: cpm Ambient temperature: room temperature circuit: G NO COM Change of pick-up and drop-out voltage Ratio against the rated %V Pick-up voltage Drop-out voltage No. of operations, Change of contact resistance 9 Contact resistance, mω 8 7 No. of operations, For Cautions for Use, see Relay Technical Information (page 39). 7 en_ds : D

256 VDE LE (ALE) A Power Relay For Micro wave oven LE RELAYS (ALE) mm inch FEATURES. Ideal for magnetron and heater loads. Excellent heat resistance This satisfies UL coil insulation class B/ class F available 3. High insulation resistance Creepage distance and clearances between contact and coil: 8 mm.3 inch Surge withstand voltage:,v. Low operating power operating power: mw/ mw (High sensitive type). A wide variety of types Product line consists of types with different shapes and pins. Conforms to the various safety standards: UL/CSA, TÜV, VDE approved and SEMKO available SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material switching capacity switching power Rating switching (resistive voltage load) switching current switching capacity # Expected life (min. operations) Coil Mechanical (at 8 cpm) Electrical (at cpm) (Resistive load) Form A mω Silver alloy A 77 V AC,3 V A 77 V AC A ma, Type Standard High sensitive operating power mw mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Characteristics operating speed (at rated load) Initial insulation resistance* Initial Between open contacts breakdown Between contacts and voltage* coil Initial surge voltage between contact and coil* 3 Operate time* (at nominal voltage) (at C 8 F) Release time (with diode)* (at nominal voltage) (at C 8 F) Temperature rise (at nominal voltage) (resistance method, contact current A, C 8 F) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight cpm, MΩ (at ), Vrms for min., Vrms for min., V ms ms ms ( mw type) C C ( mw type) Functional* m/s { G} Destructive*, m/s { G} Functional* 7 Destructive Ambient temp. Humidity to Hz at double amplitude of.mm to Hz at double amplitude of.mm C to +8 C F to +8 F to 8% R.H. Approx. 7 g. oz Power TYPICAL APPLICATIONS Microwave ovens Refrigerators OA equipment en_ds : J ORDERING INFORMATION Product name LE Ex. A LE Contact arrangement : Form A 7: Form A ( mw) UL/CSA, TÜV, VDE approved type is standard. Note: Standard packing; Carton: pcs. Case pcs. B Terminal shape : TMP type/pcb side three terminals (includes one dummy terminal) 3: TMP type/pcb side three terminals : TMP type/pcb side four terminals : PCB type (No tab terminals) Coil insulation class B: Class B insulation F: Class F insulation Coil : : 9: 9 : 8: 8 : 8: 8 7

257 LE (ALE) TYPES. Standard type Contact arrangement Form A : Input the following letter. Class B: B, Class F: F. High sensitive type Contact arrangement Form A (High sensitivity: mw) : Input the following letter. Class B: B, Class F: F COIL DATA (at C 8 F). Standard type. High sensitive type Coil TMP type/pcb side three terminals (includes one dummy terminal) TMP type/pcb side three terminals TMP type/pcb side four terminals PCB type (No tab terminals) Part No. Part No. Part No. Part No. ALE ALE3 ALE ALE ALE ALE3 ALE ALE 9 ALE 9 ALE3 9 ALE 9 ALE 9 ALE ALE3 ALE ALE 8 ALE 8 ALE3 8 ALE 8 ALE 8 ALE ALE3 ALE ALE 8 ALE 8 ALE3 8 ALE 8 ALE 8 Coil Pick-up (max.) (at C 8 F) TMP type/pcb side three terminals (includes one dummy terminal) TMP type/pcb side three terminals TMP type/pcb side four terminals PCB type (No tab terminals) Part No. Part No. Part No. Part No. ALE7 ALE73 ALE7 ALE7 ALE7 ALE73 ALE7 ALE7 9 ALE7 9 ALE73 9 ALE7 9 ALE7 9 ALE7 ALE73 ALE7 ALE7 8 ALE7 8 ALE73 8 ALE7 8 ALE7 8 ALE7 ALE73 ALE7 ALE7 8 ALE7 8 ALE73 8 ALE7 8 ALE7 8 Drop-out (min.) (at C 8 F) Coil resistance, Ω (±%) (at C 8 F) operating current, ma (±%) (at C 8 F) operating power, mw (at C 8 F) Maximum allowable (at C 8 F) , , Pick-up (max.) (at C 8 F) Drop-out (min.) (at C 8 F) Coil resistance, Ω (±%) (at C 8 F) operating current, ma (±%) (at C 8 F) operating power, mw (at C 8 F) Maximum allowable (at C 8 F) ,.. 8., , en_ds : J

258 DIMENSIONS. TMP type PCB side three terminals (includes one dummy terminal). #87 terminal LE (ALE) mm inch PC board pattern (Bottom view) dia. dia.8 dia.7 dia Tolerance :.. Schematic (Bottom view) Dimension: mm.39 inch: to 3mm.39 to.8 inch: 3mm.8 inch: Tolerance Coil Com No PCB side three terminals #87 terminal PC board pattern (Bottom view) 3-.3 dia. dia Tolerance :.. Schematic (Bottom view) Power Com No Dimension: Tolerance mm.39 inch:.. to 3mm.39 to.8 inch:..8 3mm.8 inch:.3. Coil PCB side four terminals #87 terminal PC board pattern (Bottom view) -.3 dia.7 dia Tolerance : Schematic (Bottom view) Com No Dimension: Tolerance mm.39 inch:.. to 3mm.39 to.8 inch:..8 3mm.8 inch:.3. Coil en_ds : J 73

259 LE (ALE). PCB type PCB side four terminals (No tab terminals) mm inch PC board pattern (Bottom view) -.3 dia.7 dia Dimension: Tolerance mm.39 inch:.. to 3mm.39 to.8 inch:..8 3mm.8 inch: Tolerance :.. Coil No Com Schematic (Bottom view) REFERENCE DATA -. Coil temperature rise (mw type) Sample: ALEB, pcs. Point measured: coil inside Ambient temperature: C 77 F, 8 C 8 F -. Coil temperature rise (mw type) Sample: ALE7B, pcs. Point measured: coil inside Ambient temperature: 3.7 C 7. F, 8 C 8 F. Life curve Temperature rise, C C 8 C A A A A A A Temperature rise, C 3.7 C 8 C A A A A Life, V AC resistive load Coil applied %V Coil applied %V Contact current, A 3. Electrical life test ( A 77 V AC, resistive load) Sample: ALEB, pcs. Operation frequency: times/min. (ON/OFF =.s:.s) Ambient temperature: Room temperature Circuit: 7 77V AC Hz COM NO Pick-up and drop-out %V Pick-up voltage Drop-out voltage x x G No. of operations, For Cautions for Use, see Relay Technical Information (page 39). 7 en_ds : J

260 A Power Relay For Home appliances LF (ALF) VDE LF RELAYS (ALF)..8 TMP type SPECIFICATIONS PCB type mm inch Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material switching capacity switching power Rating switching (resistive load) voltage switching current switching capacity # Expected life (min. operations) Coil operating power Mechanical (at 8 cpm) Electrical (at cpm) (Resistive load) FEATURES # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8).. Ideal for compressor and inverter loads ) Compressor load: A V AC ) Inverter load: A V AC, A V AC. High insulation resistance Creepage distance and clearances between contact and coil; Creepage 9.mm.37inch/ Clearance 8mm.3inch Surge withstand voltage:,v Form A mω Silver alloy A V AC, V A V AC A ma, 9 mw Characteristics operating speed (at rated load) Initial insulation resistance* Initial breakdown voltage* 3. PCB and TMP types available. Conforms to the various safety standards: UL/CSA, TÜV, VDE approved Between open contacts Between contacts and coil Surge voltage between contact and coil* 3 Operate time* (at nominal voltage) Release time (without diode)* (at nominal voltage) Temperature rise (at nominal voltage) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight cpm, MΩ (at ), Vrms for min., Vrms for min., V Approx. ms Approx. ms C (resistance method, contact current A, rated coil C F) Functional* m/s { G} Destructive*, m/s { G} Functional* 7 Destructive Ambient temp. Humidity to Hz at double amplitude of.mm to Hz at double amplitude of.mm C to + C F to + F to 8% R.H. Approx. 3 g.8 oz Power TYPICAL APPLICATIONS Air conditioner Refrigerators OA equipment en_ds : J ORDERING INFORMATION Product Name LF Ex. A LF T Contact arrangement Terminal shape Coil : Form A T: TMP type : : P: PCB type : 8: 8 9: 9 : Note: Standard packing; Carton: pcs. Case pcs. UL/CSA,VDE, TÜV approved type is standard. 7

261 LF (ALF) TYPES Contact arrangement Form A COIL DATA DIMENSIONS. TMP type Pick-up (max.) Coil TMP type PCB type ALFT ALFP ALFT ALFP 9 ALFT9 ALFP9 ALFT ALFP 8 ALFT8 ALFP8 ALFT ALFP Drop-out (min.) Coil resistance, Ω(±%) operating current, ma (±%) operating power, W Maximum allowable PC board pattern (Bottom view) mm inch # terminal dia. -.7 dia Tolerance: ±. ±. Schematic (Bottom view) FASTON NO COM Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. NO COM PC board side. PCB type PC board pattern (Bottom view) dia. -.7 dia NO COM Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. Tolerance: ±. ±. Schematic (Bottom view) NO COM 7 en_ds : J

262 REFERENCE DATA. Coil temperature rise Sample: ALFT, pcs. Point measured: coil inside Contact current: A Ambient temperature: C 77 F, C F Temperature rise, C F C 77 F C F -(). V AC electrical life test (V AC, inverter load) Sample: ALFT, pcs. Load: Inrush A (wave peak value), Steady.A (wave peak value) Inverter dummy V AC Switching frequency: ON s, OFF s Circuit: V AC LF relay contact.9ω,µf Pick-up and drop-out V 8 Pick-up voltage Drop-out voltage LF (ALF) Contact welding: times Miscontact: times x x Switch 3 8 Coil applied %V 3 No. of operations, -(). V AC electrical life test (V AC, inverter load) Sample: ALFT, pcs. Load: Inrush A (wave peak value), Steady.A (wave peak value) Inverter dummy V AC Switching frequency: ON s, OFF s Circuit: V AC LF relay contact 7µF 7µF,µF Pick-up and drop-out V 8 Pick-up voltage Drop-out voltage Contact welding: times Miscontact: times x x Power 3 No. of operations, -(3). Inrush 7.7A, Steady A, V AC electrical life test (Compressor dummy load) Sample: ALFT, 3 pcs. Load: Inrush 7.7A, cosφ =.7 Steady A, cosφ.9 V AC compressor dummy Switching frequency: ON.s, OFF.s Circuit: V AC Hz G COM SW NO ( ) (+) Mg Detection Circuit Contact Weld.s Miss Contact after.s Pick-up and drop-out V 8 Pick-up voltage Drop-out voltage Contact welding: times Miscontact: times x x -(). Electrical life test (A V AC, resistive load) Sample: ALFT, pcs. Switching frequency: ON.s, OFF.s Pick-up and drop-out V 8 Pick-up voltage Drop-out voltage Contact welding: times Miscontact: times x x No. of operations, No. of operations, For Cautions for Use, see Relay Technical Information (page 39). en_ds : J 77

263 LK VDE SLIM POWER RELAY WITH HIGH INRUSH CURRENT CAPABILITY LK RELAYS..9 FEATURES High inrush current capability ) Operating load capability: inrush A, steady A ) UL/CSA, TV- mm inch. High insulation resistance between contact and coil ) Creepage distance and clearances between contact and coil: mm.3 inch (In compliance with IEC) ) Surge withstand voltage between contact and coil:, V or more 3. High noise immunity realized by the card separation structure between contact and coil. Popular terminal pitch in AV equipment field mm inch Coil COM N.O Creepage distance and clearances in compliance with IEC Card Partition wall. Space-saving slim type Base area: Width Length mm Width.33 Length.9 inch. Conforms to the various safety standards UL, CSA, VDE, TÜV, SEMKO, SEV, BSI approved SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material switching capacity Rating switching power (resistive switching voltage load) switching current switching capacity # Expected life (min. ope.) Coil Form A mω Silver alloy A 77 V AC, A,38 VA, W 77 V AC, A (AC), A (DC) ma, Mechanical (at 8 cpm) Electrical (at cpm) (at rated load) operating power mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). TYPICAL APPLICATIONS AV equipment: TV s, VTR s, etc. OA equipment HA equipment Characteristics operating speed Initial insulation resistance* Initial Between open contacts breakdown Between contacts and voltage* coil Initial surge voltage between contact and coil* 3 Operate time* (at nominal voltage) Release time (without diode)* (at nominal voltage) Temperature rise (at 7 C) Shock resistance Vibration resistance cpm, MΩ (at ), Vrms for min, Vrms for min, V Approx. 7 ms (at C 8 F) Approx. ms (at C 8 F) 3 C with nominal coil voltage at A contact carrying current (resistance method) Functional* m/s Destructive*, m/s Functional* 7 Destructive Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight ORDERING INFORMATION Ambient temp. Humidity Air pressure Ex. LK a F V to Hz at double amplitude of. mm to Hz at double amplitude of. mm to +7 C to +8 F to 8%R.H. 8 to kpa Approx. g. oz Contact arrangement Protective construction Coil voltage (DC) a: Form A F: Flux-resistant type,, 9,, 8, V UL/CSA, TÜV, SEMKO, TV- approved type is standard. (Note) Standard packing Carton: pcs. Case: pcs. 78 en_ds_3_: J

264 TYPES AND COIL DATA (at C 8 F) Part No. DIMENSIONS Pick-up voltage (max.) (Initial) Drop-out voltage (min.) (Initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw LK allowable (at C 8 F) LKaF-V LKaF-V LKaF-9V LKaF-V LKaF-8V LKaF-V.8., mm inch PC board pattern (Bottom view) dia -.3 dia dia -. dia dia..3. dia Tolerance: ±. ±. Schematic (Bottom view) Dimension : General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. REFERENCE DATA switching power (AC resistive load). Coil temperature rise Sample: LKaF-V, pcs. Point measured: coil inside Contact current: A Contact current, A Temperature rise, C Ambient temperature C Ambient temperature 7 C 3. Ambient temperature characteristics Contact current: A Coil applied %V 8 8 Allowable ambient temperatures against % coil voltages (max. inside the coil temperature set as C 39 F) Pick-up voltage Cold start Power.. Contact V 8 9 Coil applied %V 7 8 Ambient temperature, C. Life curve Operation frequency: times/min. (ON/OFF =.s:.s) Ambient temperature: room temperature Life, V AC resistive load -. Operate & release time (without diode) Sample: LKaF-V, pcs. Operate & release time, ms Operate time Release time -. Operate & release time (with diode) Sample: LKaF-V, pcs. Operate & release time, ms Operate time Release time 3 Contact current, A 7 Coil applied %V 7 Coil applied %V en_ds_3_: J 79

265 LK -. Electrical life test ( A 77 V AC, resistive load) Sample: LKaF-V, pcs. Operation frequency: times/min. (ON/OFF =.s:.s) Ambient temperature: C 79 F Circuit: AC77V DCV Contact welding detection and Miscontacting detection circuit Change of pick-up and drop-out voltage Ratio against the rated %V 8 Pick-up voltage Drop-out voltage Change of contact resistance Contact resistance, mω No. of operations, No. of operations, -. Electrical life test (UL lamp load test TV-) Tested sample: LKaF-V, pcs. Overload test Load: 7. A V AC ( Hz), Inrush: A Operation frequency: times/min (ON: OFF = s: s) No. of operations: ope. Endurance test Load: A V AC ( Hz), Inrush: 78 A Operation frequency: times/min (ON: OFF = s: s) No. of operations:, ope. Change of pick-up and drop-out voltage Ratio against the rated % V 8 Pick-up voltage Drop-out voltage Change of contact resistance Contact resistance, mω. No. of operations,. No. of operations, NOTES. Cleaning This relay is not the sealed type, so it cannot be immersion cleaned. Be careful that flux does not overflow onto the PC board or penetrate inside the relay.. Soldering We recommend the following soldering conditions. ) Automatic soldering * Preheating: C F, within mins (PC board solder surface) * Soldering: C F, within s ) Hand soldering * Iron tip temperature: 8 to C 3 to 7 F * Soldering iron: to W * Soldering time: Within 3 s For Cautions for Use, see Relay Technical Information (page 39). 8 en_ds_3_: J

266 VDE LK-P A Slim Power Relay LK-P RELAYS SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating (resistive load) Expected life (min. operations) Coil operating power switching capacity switching power switching voltage switching current switching capacity # Mechanical (at 8 cpm) Electrical (at cpm) (at rated load) mm inch FEATURES # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8).. High switching capacity: A 77V AC. High insulation resistance between contact and coil ) Creepage distance and clearances between contact and coil: mm.3 inch (In compliance with IEC) ) Surge withstand voltage between contact and coil:, V or more 3. High noise immunity realized by the card separation structure between contact and coil Form A mω Silver alloy A 77 V AC, A,77 V A, W 77 V AC, A (AC), A (DC) ma, mw Characteristics operating speed Initial insulation resistance* Initial * breakdown voltage Between open contacts Between contact and coil Initial surge voltage between contact and coil* 3 Operate time* (at nominal voltage) Release time (without diode)* (at nominal voltage) Temperature rise (at 7 C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight. Popular terminal pitch in AV equipment field. Space-saving slim type Base area: Width Length mm Width.33 Length.9 inch. Conforms to the various safety standards UL/CSA, VDE, TÜV and SEMKO, SEV approved cpm (at rated load), MΩ (at ), Vrms for min., Vrms for min., V Approx. 7 ms (at C 8 F) Approx. ms (at C 8 F) C with nominal coil voltage and at A contact carrying current (resistance method) Functional* m/s {approx. G} Destructive*, m/s {approx. G} Functional* 7 Destructive Ambient temp. Humidity Air pressure to Hz at double amplitude of.mm to Hz at double amplitude of.mm C to +7 C F to +8 F to 8% R.H. 8 to kpa Approx. g. oz Power TYPICAL APPLICATIONS Audio visual equipment TVs, VTRs Office equipment LBP, CRT Home appliances Refrigerator, Air conditioner ORDERING INFORMATION Ex. LKP a F V Contact arrangement Protective construction Coil voltage(dc) a: Form A F: Flux-resistant type,, 9,, 8, V UL/CSA, TÜV, SEMKO, TV- approved type is standard. Notes. Standard packing Carton: pcs. Case: pcs.. V, 9 V, 8 types are also available. Please consult us for details. en_ds_3_: J 8

267 LK-P TYPES AND COIL DATA (at C 8 F) Part No. DIMENSIONS Pick-up voltage (max.) (Initial) Drop-out voltage (min.) (Initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw allowable (at C 8 F) LKPaF-V LKPaF-V LKPaF-9V LKPaF-V LKPaF-8V LKPaF-V.8., PC board pattern (Bottom view) mm inch -.9 dia -.3 dia dia -. dia. dia.. dia Tolerance: ±. ±. Schematic (Bottom view) Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. REFERENCE DATA. switching power. Coil temperature rise Sample: LKPaF-V, pcs. Point measured: coil inside Contact current: A, A 3. Ambient temperature characteristics and coil applied voltage Contact current: A Contact current, A Temperature rise, C 3 C A C A 7 C A 7 C A Coil applied %V 8 Allowable ambient temperatures against % coil voltages (max. inside the coil temperature set as C 39 F) Pick-up voltage Cold start Contact V Coil applied %V 7 8 Ambient temperature, C. Life curve Operation frequency: times/min. (ON/OFF =.s:.s) Ambient temperature: room temperature V AC resistive load Life, 8 Contact current, A 8 en_ds_3_: J

268 LK-P. Electrical life test ( A 77 V AC, resistive load) Sample: LKPaF-V, pcs. Operation frequency: times/min. (ON/OFF =.s:.s) Ambient temperature: C 8 F Circuit: 77V AC Contact welding detection and Miscontacting detection circuit Change of pick-up and drop-out voltage Pick-up and drop-out V 8 Pick-up voltage Drop-out voltage No. of operations, x x Change of contact resistance Contact resistance, mω 3 No. of operations, For Cautions for Use, see Relay Technical Information (page 39). Power x en_ds_3_: J 83

269 LK-S VDE mw Slim Power Relay LK-S RELAYS FEATURES mm inch. High sensitivity: mw The power-saving relay is highly sensitive at the nominal operating power of mw ( mw power consumption on LK relays).. High insulation resistance between contact and coil ) Creepage distance and clearances between contact and coil: mm.3 inch (In compliance with IEC) ) Surge withstand voltage between contact and coil:, V or more 3. High noise immunity realized by the card separation structure between contact and coil. Popular terminal pitch in AV equipment field. Space-saving slim type Base area: Width Length mm Width.33 Length.9 inch. Conforms to the various safety standards UL/CSA, VDE, TÜV and SEMKO SEV approved SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating (resistive load) Expected life (min. operations) Coil operating power switching capacity switching power switching voltage switching current switching capacity # Form A mω Silver alloy A 77 V AC,38 V A 77 V AC A (AC) ma, Mechanical (at 8 cpm) Electrical (at cpm) (at rated load) # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). mw Characteristics operating speed Initial insulation resistance* Initial * breakdown voltage Between open contacts Between contact and coil Initial surge voltage between contact and coil* 3 Operate time* (at nominal voltage) Release time (without diode)* (at nominal voltage) Temperature rise (at 7 C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight cpm (at rated load), MΩ (at ), Vrms for min., Vrms for min., V Approx. 7 ms (at C 8 F) Approx. ms (at C 8 F) 3 C with nominal coil voltage and at A contact carrying current (resistance method) Functional* m/s {approx. G} Destructive*, m/s {approx. G} Functional* 7 Destructive Ambient temp. Humidity Air pressure to Hz at double amplitude of.mm to Hz at double amplitude of.mm C to +7 C F to +8 F to 8% R.H. 8 to kpa Approx. g. oz TYPICAL APPLICATIONS Audio visual equipment Office equipment Home appliances ORDERING INFORMATION Ex. LKS a F V Contact arrangement Protective construction Coil voltage(dc) a: Form A F: Flux-resistant type,, 9,, 8, V UL/CSA, TÜV, SEMKO, TV- approved type is standard. Notes. Standard packing Carton: pcs. Case: pcs.. V, 8 types are also available. Please consult us for details. 8 en_ds_3_: J

270 TYPES AND COIL DATA (at C 8 F) Part No. DIMENSIONS Pick-up (max.) (Initial) Drop-out (min.) (Initial) Coil resistance, Ω (±%) operating current, ma (±%) operating power, mw LK-S Maximum allowable (at C 8 F) LKSaF-V 3... LKSaF-V LKSaF-9V LKSaF-V LKSaF-8V 8..8, LKSaF-V.8.,. 3. PC board pattern (Bottom view) mm inch -.9 dia -.3 dia dia -. dia. dia.. dia... REFERENCE DATA switching power (AC resistive load). Coil temperature rise Sample: LKSaF-V, pcs. Point measured: coil inside Contact current: A, A Contact current, A Contact V Temperature rise, C..33 Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. 8 Coil applied %V C A C A 7 C A 7 C A..787 Tolerance: ±. ±. Schematic (Bottom view) Ambient temperature characteristics and coil applied voltage Contact current: A Coil applied %V Allowable ambient temperatures against % coil voltages (max. inside the coil temperature set as C 39 F) Cold start Pick-up voltage 7 8 Ambient temperature, C Power. Life curve Operation frequency: times/min. (ON/OFF =.s:.s) Ambient temperature: Room temperature Life, V AC resistive load 3 Contact current, A en_ds_3_: J 8

271 LK-S -(). Electrical life test ( A 77 V AC, resistive load) Sample: LKSaF-V, pcs. Operation frequency: times/min. (ON/OFF =.s:.s) Ambient temperature: C 8 F Circuit: 77V AC Contact welding detection and Miscontacting detection circuit Change of pick-up and drop-out voltage Pick-up and drop-out V 8 Pick-up voltage Drop-out voltage No. of operations, x x Change of contact resistance Contact resistance, mω 3 No. of operations, x -(). Electrical life test (UL lamp load test TV-) Tested sample: LKSaF-V, pcs. Overload test Load: 7. A V AC ( Hz), Inrush: A Operation frequency: times/min (ON: OFF = s: s) No. of operations: ope. Endurance test Load: A V AC ( Hz), Inrush: 78 A Operation frequency: times/min (ON: OFF = s: s) No. of operations:, ope. Change of pick-up and drop-out voltage Pick-up and drop-out V 8 Pick-up voltage Drop-out voltage x x Change of contact resistance Contact resistance, mω 3 x. No. of operations, No. of operations,. For Cautions for Use, see Relay Technical Information (page 39). 8 en_ds_3_: J

272 LZ (ALZ) VDE A Low Profile Power Relay LZ RELAYS (ALZ) FEATURES mm inch. Low profile size: Height.7 mm 8.8 (L). (W).7(H) mm.3 (L).9 (W).8(H) inch. High insulation resistance Creepage distance and clearances between contact and coil: mm 3. UL coil insulation class B (8 C 8 F) or class F ( C F).. Pb free and Cd free. Low operating power operating power: mw. Conforms to the various safety standards: UL/CSA, VDE approved. SPECIFICATIONS Contact Arrangement Initial contact resistance, max. (By voltage drop A) Contact material Rating (resistive load) Expected life (min. operations) Coil operating power switching capacity switching power switching voltage switching current switching capacity # Form A, Form C mω Silver alloy A V AC, V A V AC A ma, Mechanical (at 8 cpm) 7 Electrical (at cpm)* (Rated load) N.O.: N.C.: mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section. * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). * 9 Class F type is ambient temperature C F. * Electrical life was evaluated with the breathing hole open. Characteristics operating speed Initial insulation resistance* Initial Between open contacts breakdown Between contacts and voltage* coil Initial surge voltage between contact and coil* 3 Operate time* (at nominal voltage) Release time (with diode)* (at nominal voltage) Temperature rise ( C 8 C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight cpm (at rated load), MΩ (at ), Vrms for min., Vrms for min., V ms (at C 8 F) ms (at C 8 F) C with nominal coil voltage and at A contact carrying current (resistance method) Functional* m/s {approx. G} Destructive*, m/s {approx. G} Functional* 7 Destructive Ambient temp. Humidity to Hz at double amplitude of.mm (NO),.8mm (NC) to Hz at double amplitude of.mm C to +8 C F to +8 F (Class B)* 9 to 8% R.H. Approx. g. oz Power TYPICAL APPLICATIONS HVAC Oven ranges Refrigerators en_ds : D 87

273 LZ (ALZ) ORDERING INFORMATION Ex. A LZ B W Product name Contact arrangement Protective construction Coil insulation class Coil LZ UL/CSA VDE approved type is standard. Notes:. Tube packing: Inner carton: pcs.; Case: 8pcs.. Carton packing: Inner carton: pcs.; Case: pcs. 3. Carton packing symbol "W" is not marked on the relay. TYPES Contact arrangement Form A Form C COIL DATA DIMENSIONS : Form C : Form A Pick-up (max.) Coil : Flux-resistant type : Sealed type Flux-resistant type Sealed type Class B Class F Class B Class F ALZB ALZF ALZB ALZF 9 ALZB9 ALZF9 ALZB9 ALZF9 ALZB ALZF ALZB ALZF 8 ALZB8 ALZF8 ALZB8 ALZF8 ALZB ALZF ALZB ALZF 8 ALZB8 ALZF8 ALZB8 ALZF8 ALZB ALZF ALZB ALZF 9 ALZB9 ALZF9 ALZB9 ALZF9 ALZB ALZF ALZB ALZF 8 ALZB8 ALZF8 ALZB8 ALZF8 ALZB ALZF ALZB ALZF 8 ALZB8 ALZF8 ALZB8 ALZF8 Drop-out (min.) Coil resistance, Ω (±%) B: Class B insulation F: Class F insulation operating current, ma (±%) : 8: 8 9: 9 : : 8: 8 operating power, mw Packing style Nil: Tube packing W: Carton packing Maximum allowable , , Form A type PC board pattern (Bottom view) mm inch dia. -. dia Tolerance: ±. ±. Schematic (Bottom view) Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. Coil 88 en_ds : D

274 . Form C type LZ (ALZ) PC board pattern (Bottom view) dia. 8-. dia Tolerance: ±. ±. Schematic (Bottom view) Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. Coil REFERENCE DATA. switching power. Coil temperature rise 3. DC breaking capacity Contact current, A AC resistive load Temperature rise, C 3 A A C C 8 C 8 C C C Switching current, A DC resistive load Contact V 3 Coil applied %V Switching V Power For Cautions for Use, see Relay Technical Information (page 39). en_ds : D 89

275 MC VDE Polarized motor contactor monostable or latching MC Mini- Contactor FEATURES Suitable for AC3 and AC loads Low noise Forced operation contacts Low power consumption, hence ideal as interface module Mono- or bistable Screw terminal (a) Fasten terminal type PCB terminal type TÜV, UL, C-UL RATINGS Type No. DC coil type MC-SM, MC-SA MC-SMF, MC-SAF MC-SMP, MC-SAP AC coil type MC-NM, MC-NA MC-NMF, MC-NAF MC-NMP, MC-NAP Terminal form Screw terminal Fasten terminal PCB terminal TÜV rating Rated switching voltage VAC Rated current A 8 A Motor load (IEC AC3) Auxiliary contact rating Single phase Three phase AC AC VAC. kw 9. A.37 kw 8 A VAC.7 kw 8 A.7 kw 8 A VAC. kw A. kw 8 A VAC. kw 9 A 3.8 kw 8 A A VAC, A VAC, A 38 VAC A VAC, A VAC, A 38 VAC UL / C-UL rating a contact b contact *F.L.A. = Full load amperage **L.R.A. = Locked rotor amperage Single phase Motor load Three phase General use Tungsten lamp General use Pilot duty VAC F.L.A.* A, L.R.A.** A VAC F.L.A. A, L.R.A. A VAC F.L.A. A, L.R.A. A A, VAC, A VAC A VAC A VAC A SPECIFICATIONS DC coil type AC coil type Mechanical life > 7 > x Insulation resistance More than Ω by VDC megger (initial) Dielectric strength, VAC for more than minute (initial) Coil surge voltage < V -- Impulse resistance of surge absorption circuit > V -- Usable range of coil voltage Usable temp. & humidity 8% to % V (cold) 8% to % V (hot) - C to + C F to + F, < 8% R.H. 8% to % V (cold) 8% to % V (hot) Permissible mounting direction Weight Screw: g, Fasten/PCB: g Screw: g, Fasten/PCB: g 9 en_ds_mc: 8D

276 AC3 V LIFE CURVE (Average) for Screw and Fasten Types MC Switching life (millions). le.s.7s le 3s le : Motor rated current.. Interrupting current le(a) 3 φ V Hz COS φ =.3 Switching frequency : cycles/minute COIL SPECIFICATIONS Rated coil voltage Pick-up voltage Drop-out voltage Rated energized Rated power Operating speed (at C) (at C) current (at C) consumption Making Breaking VDC 9. VDC. VDC ma mw < ms < ms VDC 9. VDC. VDC ma mw < ms < ms Coil voltage Frequency Pick-up voltage Drop-out voltage (at C) Inrush Sealed Making Breaking Power capacity Operating speed (at C) VAC Hz 9 VAC VAC VA VA < ms < ms VAC Hz 7 VAC VAC VA 7 VA < ms < ms ORDERING INFORMATION COIL CONFIGURATION Ex. MC S M P 3ab VDC S N DC coil type* AC coil type M A F P AC3 Motor loads AC Electromagnetic loads *As for DC coil types, latch versions are available. (but no approval of TUV, UL, C-UL nor CE marking) Please add the ordering code of "L" after Terminal Form code like an example of MC-SML-a-VDC. Screw terminal Fasten terminal PCB terminal Contact Configuration a or 3ab ab Coil Voltage (DC coil) VDC VDC VDC VDC 8VDC (AC coil)/hz VAC VAC VAC VAC en_ds_mc: 8D 9

277 MC DIMENSIONS () Screw type () Fasten type. dia. 7.. (.39) (.7) -. dia. hole 3. (.8). (.39). (.7) -. dia. hole 3. (.8) 8.7.(.9) (.9) M3..(.78).8 AMP 3 (.77). (.79). (.83).(.78) (3) PCB type 7.. (.89). (.7) dia. hole.(.78).(.89).8 (.97).(.87). (.89). (.87) (.79) WIRING ) Connection to Screw terminals Terminal screw Wire size, max. Compatible solderless terminal Standard tightening torque N/m M3. diameter., mm AWG -3. Y-3. approx N m ) Connection to Fasten terminals Applicable receptacles are AMP Series (Straight type, Flag type) and AMP s positive lock (77). Firmly insert the receptacles so that they cannot be easily pulled out. Do not attempt to pull out two or more receptacles at one time. 3) Connection to PCB terminals Hand soldering is recommended to avoid flux penetration. Especiallythe use of rosin-flux is recommended since this type of flux makes cleaning unnecessary. Since the materials of cover is polycarbonate resin, use an alcohol solvent for cleaning. SinceMC is not a sealed contactor, be careful thecleaning solvent does not get inside. 9 en_ds_mc: 8D

278 INSTALLATION ENVIRONMENT MC Handle the device with care. Excessive physical impact may cause malfunction. Do not install the device in a location where it will be exposed to extreme temperatures or humidity, excessive dust, corrosive gases, vibration, physical impact, direct sunlight or water. Please avoid using in an area where external magnetic field is large. For the DC coil type, the contactor will not move when coil connection plus and minus is incorrect, because the device is polarized. TIPS FOR SAFE OPERATION The life of the contactor may be reduced under extreme operating conditions (high temperature or humidity, exposure to oil vapor, etc.). Choose a model with sufficient operating margin to withstand such conditions. The MC contactor is not suitable for applications involving jogging (inching) or plug breaking (plugging). The MC contactor is factory-adjusted and should not be disassembled. Do not attempt to replace the contacts or the coil. en_ds_mc: 8D 93

279 PA THE SLIM POWER RELAY PA RELAYS mm inch FEATURES Slim size (width mm.97 inch, height. mm.9 inch) permits higher density mounting Wide switching capacity: Control from µa mv to A V AC, High sensitivity: mw () ( to 8 type) High surge voltage ( V) and high breakdown voltage ( V) Shock & vibration resistance (functional): 7m/s { G} SIL (single in line) terminal layout Reinforced according to IEC3- (TÜV) PAD type: 3. mm clearance 3. mm creepage distance SPECIFICATIONS (at C 8 F) Contacts Arrangement Contact material Initial contact resistance, max. (By voltage drop A) Rating (resistive) Expected life (min. operations) switching capacity Maximum switching power Maximum switching voltage switching current switching capacity # Coil (at C 77 F, % R.H.) operating power a Gold-clad silver alloy mω A V AC, A VA, W V AC, A µa, m Mechanical 7 Electrical (at cpm) 3 A V AC, 3 A, A V AC, A, to 8 mw 8 mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Intial breakdown voltage section * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). TYPICAL APPLICATIONS Interface relays for programmable controllers Output relays for measuring equipment, timers, counters and temperature controllers Industrial equipment, office equipment Characteristics operating speed Initial insulation resistance* Initial Between open contacts breakdown Between contacts and voltage* coil Surge voltage between contacts and coil* 3 Operate time* (at nominal voltage) Release time (without diode)* (at nominal voltage) Temperature rise Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight cpm at rated load, MΩ at, Vrms, Vrms, V ms ms C with nominal coil voltage across coil and at nominal switching capacity Functional* 7 m/s { G} Destructive* 98 m/s { G} Functional* 7 Destructive Ambient temp. Humidity ORDERING INFORMATION Ex. PA(D) a V Contact arrangement 7 m/s { G}, to Hz at double amplitude of. mm.8 m/s { G}, to Hz at double amplitude of 3. mm C to +7 C F to +8 F to 8%R.H. Approx. 3 g. oz Coil voltage (DC) a: Form A,, 9,, 8, V Notes: ) The PAD type offers slightly higher clearance (3. mm) and creepage distance (3. mm). ) Standard packing: Tube: pcs.; Case:, pcs. UL/CSA, TÜV approved type is standard. 9 en_ds_3_: D

280 TYPES AND COIL DATA (at C 8 F) Part No. * Pulse driving Pick-up * (max.) Drop-out * (min.) operating current, ma (±%) operating power, mw Coil resistance, Ω (±%) PA allowable PA(D)a-V PA(D)a-V PA(D)a-9V PA(D)a-V 8..,. PA(D)a-8V ,7. PA(D)a-V , 8.8 DIMENSIONS mm inch. PA relay (.8 max.)..9 (. max.) PC board pattern (Copper-side view)... dia..39 dia.. dia..39dia.... dia..7 dia.. dia..7 dia..8. Schematic (Bottom view) Tolerance: ±. ±. General tolerance: ±.3 ±. Coil N.O. COM. Socket Standard type Self clinching type PC board pattern (Copper-side view) Power Standard type dia dia. -. dia. -.7 dia. PAa-PS (.3) (.) (.3) (.) Self clinching type. dia dia. -.3 dia. -.7 dia. PAa-PS PAa-PS-H Tolerance: ±. ±. REFERENCE DATA. switching capacity. Life curve 3.-() Coil temperature rise ( mw) Sample: PAa-V Ambient temperature: C 8 F Measured portion: Inside the coil Contact current, A DC resistive load AC resistive load Contact V No. of operations, AC V resistive load DC V resistive load AC V resistive load. 3 Switching capacity, A Temperature rise, C Coil applied %V A 3A A A en_ds_3_: D 9

281 PA 3.-() Coil temperature rise (8 mw) Sample: PAa-V Ambient temperature: C 8 F Measured portion: Inside the coil Temperature rise, C NOTES Coil applied %V. Ambient temperature characteristics Sample: PAa-V No. of samples: n = Rate of change, % A 3A A A Drop-out voltage Ambient - temperature, C - - Pick-up voltage. Specification values for pick-up and drop-out voltages are for the relay mounting with its terminals below. Voltage, %V Pick-up voltage Drop-out voltage Mounting direction x x.-() Operate & release time ( mw) Sample: PAa-V No. of samples: n = Operate & release time, ms Malfunctional shock Sample: PAa-V No. of samples: n = Operate time Release time x x 8 9 Coil applied %V Z Y Y Y Z 98m/s X 8 X X 98m/s Y Deenergized condition Energized condition Z 98m/s 98m/s 98m/s Z X 8. When mounting the relays within mm.39 inch, please notice the condition below. ) Mount the relays in the same direction. Within mm.39 inch ) Coil terminals (Terminal No. & ) polarity should be arranged in the same direction..-() Operate & release time (8 mw) Sample: PAa-V No. of samples: n = Operate & release time, ms Release time Operate time 8 9 Coil applied %V x x 3) Allowable contact current is A. ) About the electrical life for close mounting, please refer to data below. Contact current, A AC resistive load DC resistive load Contact V No. of operations, AC V resistive load DC V resistive load AC V resistive load Switching capacity, A For Cautions for Use, see Relay Technical Information (page 39). 9 en_ds_3_: D

282 SPECIFICATIONS Contacts Arrangement Contact material Initial contact resistance, max. (By voltage drop A) switching capacity Maximum switching power Rating Maximum switching voltage (resistive) switching current switching capacity # Expected life (min. operations) Coil (at C 77 F, % R.H.) operating power THE SLIM POWER RELAY FEATURES Slim size 8 mm (L) mm (W) mm (H). inch (L).97 inch (W).9 inch (H) permits high density mounting Wide switching capacity: ma/ -A/ V AC High sensitivity: 7mW High breakdown (, V) and surge (, V) voltage between contacts and coil Clearance/creepage distance: 8/8 mm Form A/ Form C contact. Insulation complying to following standards: Form A, Form C Au-plated Silver alloy silver alloy mω mω A V AC, VA V AC A (AC) ma, ma, Mechanical (at 8 cpm) Electrical (at cpm) N.O.: (at rated load) N.C.: 3 7 mw (. to ) 7 mw (8 ) 7 mw ( ) # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Intial breakdown voltage section * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms TYPICAL APPLICATIONS Interface relays for programmable controllers Output relays for measuring equipment, timers, counters and temperature controllers Industrial equipment, office equipment House-hold appliances for Europe PE (APE) VDE PE RELAYS (APE) EN General specification for electrical relays EN 33 For use in house-hold appliances EN 7 For use in temperature sensing appliances EN 9 For use in electrical business equipment EN For use in entertainment electronics (radio, HiFi-sets) EN 78 For use in industrial range Notes / Rating Standard File No. Rating UL E39 A 77 V AC VDE ÜG SEV CH A Characteristics Initial insulation resistance* Initial Between open contacts breakdown Between contacts and voltage* coil Surge voltage between contacts and coil* 3 Operate time* (at nominal voltage) Release time (without diode)* (at nominal voltage) Temperature rise Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight A V AC (cosφ = ) A V AC (cosφ =.) A V AC (cosφ = ), MΩ at, Vrms, Vrms, V (Initial) 8 ms (approx. ms) ms (approx.. ms) C with nominal coil voltage across coil and at nominal switching capacity Form C: 9 m/s Functional* { G} Form A: 98 m/s { G} Destructive* 98 m/s { G} Functional* 7 Destructive Ambient temp. Humidity to Hz at double amplitude of. mm/ G to Hz at double amplitude of. mm/9 G C to +8 C F to +8 F to 8%R.H. Approx. g. oz * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). ORDERING INFORMATION Ex. APE H Contact arrangement Contact type Contact material Coil : Form A : Single contact : Silver alloy H:. V 8: 8 V 3: Form C : Au plated silver alloy : V : V : V 8: 8 V : V : V Power en_ds : D Notes:. Standard packing: Tube: pcs.; Case:, pcs.. Form B is also available. 97

283 PE (APE) TYPES AND COIL DATA (at C 8 F) Part No. DIMENSIONS Contact arrangement Pick-up (Initial) (max.) Drop-out (Initial) (min.) operating current, ma (±%) operating power, mw Coil resistance, Ω (±%) allowable APEH APE APE Form A 7 APE (without Auplated) ,9. APE8 APE , APE ,8 7. APE ,7 7 APEH APE APE APE Form A APE8 (with Au-plated) ,9. APE , APE ,8 7. APE ,7 7 APEH APE APE Form C 7 APE (without Auplated) ,9. APE8 APE , APE ,8 7. APE ,7 7 APEH APE APE APE Form C APE8 (with Au-plated) ,9. APE , APE ,8 7. APE ,7 7. Form A type PC board pattern (Bottom view) mm inch.max..9max dia dia. -.3 dia. -. dia Ð. +.8 Ð max..max Ð. +.8 Ð...7.max..97max. General tolerance: ±.3 ± Tolerance: ±. ±. Schematic (Bottom view) Coil COM NO 98 en_ds : D

284 PE (APE). Form C type PC board pattern (Bottom view).max..9max dia dia dia. 3-. dia max..max max..97max General tolerance: ±.3 ± Tolerance: ±. ±. Schematic (Bottom view) Coil NC COM NO REFERENCE DATA. switching capacity. Coil temperature rise Sample: APE Measured portion: Inside the coil Ambient temperature: 8 C 8 F 3. Ambient temperature characteristics Sample: APE No. of samples: n = Temperature rise, C A A - - Rate of change, % - Pick-up voltage 8 Drop-out - voltage Ambient - temperature, C Power Coil applied %V - PE RELAY SOCKET. Dimensions. Pin Layout 3. Handling Specifications LED nominal voltage nominal current diameter colour *other LED-colours on request appr.. ma 3 mm green* Pins rating see above PE-PS-GD Socket incorporates LED-indication, hold-down clip and an integrated casting mechanism; PCB-mounting. For Cautions for Use, see Relay Technical Information (page 39). en_ds : D 99

285 PQ VDE HIGH ELECTRICAL & MECHANICAL NOISE IMMUNITY RELAY PQ RELAYS FEATURES High electrical noise immunity Bifurcated contact type with higher contact reliability High switching capacity: A V AC High sensitivity: mw () High surge voltage between contacts and coil: 8, V Compatible with DS-P relay terminal layout mm inch SPECIFICATIONS Contacts Arrangement Contact material Initial contact resistance, max. (By voltage drop A) Rating (resistive) Expected life (min. ope.) Coil (at C 8 F) Form A (Bifurcated) Silver alloy mω switching capacity A V AC, A switching power, VA, W switching voltage V AC, V (.3 A) switching capacity # µa, m Mechanical (at 8 cpm) 7 Electrical (at cpm) operating power A V AC A V AC mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Wave is standard shock voltage of ±. µs according to JEC--98 * Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). TYPICAL APPLICATIONS Programmable controllers Interface relays for Factory Automation and Communication equipment Output relays for measuring equipment, timers, counters and temperature controllers Characteristics operating speed Initial insulation resistance* Initial Between open contacts breakdown Between contacts and voltage* coil Surge voltage between contacts and coil* 3 Operate time* (at nominal voltage) Release time (without diode)* (at nominal voltage) Coil temperature rise (Resistive at nominal contact carrying current: A, at 7 C) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Unit weight cpm at rated load, MΩ at, Vrms, Vrms 8, V ms ms C Functional* 9 m/s { G} Destructive* 98 m/s { G} Functional* 7 Destructive Ambient temp. Humidity ORDERING INFORMATION Ex. PQ a V Contact arrangement 7. m/s { G}, to Hz at double amplitude of. mm.8 m/s { G}, to Hz at double amplitude of 3. mm C to +7 C F to +8 F to 8%R.H. Approx. 7 g. oz Coil voltage (DC) a: Form A 3,,, 9,, 8, V (Bifurcated) Note: Standard packing: Carton: pcs.; Case: pcs. UL/CSA, VDE, SEMKO approved type is standard. en_ds : J

286 TYPES AND COIL DATA (at C 8 F) Part No. DIMENSIONS Pick-up (max.) Drop-out (min.) operating current, ma operating power, mw Coil resistance, Ω (±%) PQa-3V PQa-V 3.7. PQa-V PQa-9V PQa-V PQa-8V , PQa-V , Schematic (Bottom view) Coil COM PQ allowable 8% V of nominal voltage (at C 8 F) % V of the nominal voltage (at 7 C 8 F) N.O. mm inch.. PC board pattern (Copper-side view) dia. -. dia. REFERENCE DATA Dimension : General tolerance mm.39 inch ±. ±.8 to mm.39 to.8 inch ±.3 ±. mm.8 inch ±. ±.. switching capacity. Operate & release time Tested sample: PQa-V, pcs. 3. Coil temperature rise Measured portion: Inside the coil Contact carrying current: A Tolerance: ±. ±. Power Contact current,a.3 DC resistive load AC resistive load Operate & release time, ms 8 Operate time Release time Temperature rise, C 7 C C, Contact V 8 Coil applied %V Coil applied %V. Ambient temperature characteristics Tested sample: PQa-V Contact carrying current: A Coil applied %V Allowable ambient temperature against % coil voltage (max. inside the coil temperature set as C 39 F) Pick-up voltage with a hot-start condition of %V on the coil Pick-up voltage 8 Ambient temperature, C For Cautions for Use, see Relay Technical Information (page 39). en_ds : J

287 PQ en_ds : J

288 Automotive Relays

289 CA AUTOMOTIVE POWER RELAYS SMALL SIZE, LIGHT WEIGHT CA RELAYS FEATURES. Small size and light weight For space saving, the outside dimensions of the main body are reduced to be. mm (length). mm (width) 37 mm (height) ( inch), and the weight is also reduced to be approx. 9 g.7 oz (direct coupling Form A, Form B type).. Low operating power (.W) type is available ( Form A, Form B) 3. Since the terminal arrangement complies with JIS D B-M, commercial connectors are available for these types of relays. SPECIFICATIONS Contact Type Arrangement Form A Form B Form C Form C Initial contact resistance (By voltage drop A) mω Contact material Silver alloy Contact voltage drop Rating switching capacity (resistive load).3 V After electrical life test, by voltage drop A (. W type), A (.8 W type) A (. W type) A (.8 W type).3 V After electrical life test, by voltage drop A A. V After electrical life test, by voltage drop A. V After electrical life test, by voltage drop A A (ON: s, OFF: s) switching voltage V V V switching current carrying current A (. W type) A (.8 W type) A continuous (. W type) A for min (.8 W type) A A A (Inrush current) A continuous A continuous A continuous switching capacity # A A operating power. W /.8 W.8 W Expected life (min. operations) Mechanical (at cpm) Electrical A (. W,.8 W type) A (.8 W type) (ON: s, OFF: s) (ON: 3s, OFF: s) (ON s, OFF s) (ON s, OFF s) # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. en_ds : J

290 Characteristics (at C 8 F) Type open contacts operating speed cpm. W type: at nominal load.8 W type: at A cpm (at nominal load) Initial insulation resistance MΩ at Initial breakdown Between V rms for min. voltage* Between contacts and coil V rms for min. Operate time* (at nominal voltage) ms at C (initial) ms (initial) Release time (without diode)* (at nominal voltage) ms at C (initial) ms (initial) Shock resistance Vibration resistance Conditions for operation, transport and storage* 7 (Not freezing and condensing low temperature) Electrical life (min. operation) Remarks * Detection current: ma * Excluding contact bounce time * 3 Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms ORDERING INFORMATION Functional* 3 m/s { G} m/s { G} m/s { G} Destructive*, m/s { G} Functional* Destructive* Ambient temp. Humidity Rubber bracket A type: m/s { G}, Hz to Hz Direct coupling type or Screw-mounting type:. m/s {. G}, 33Hz Rubber bracket A type: m/s { G}, Hz to Hz Direct coupling type or Screw-mounting type:. m/s {. G}, 33Hz C to +8 C F to +7 F CA. m/s {. G}, 33 Hz. m/s {. G}, 33 Hz % R.H. to 8% R.H. Water-proof standard Plastic sealed type: JIS DO3S, Dust cover type: JIS DO3R JIS DO3S Mass coil Rubber bracket A type: 3 g.8 oz Direct coupling type or Screw-mounting type: 9 g.7 oz Motor load (operating frequency ON: s, OFF: s) 3 g.9 oz Halogen lamp load (operating frequency ON: s, OFF: s) Form A, Form B, A, A Form C ( ), A, A, A, A CA a F S V A * Detection time: µs * Time of vibration for each direction; X, Y, direction: hours, Z direction: hours * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT(page 8). Automotive Contact arrangement Protective construction operating power Coil voltage (DC) Mounting method Classification by type a: Form A b: Form B : Form C Nil: Plastic sealed type F: Dust cover type Nil: Standard type (.8 W) S: Low operating power type (. W) ( Form A, Form B) V V ( Form C only) A: Rubber bracket A type A: ( Form A, Form B) N: Screw mounting type C: Direct coupling type Nil: Form C : Form A or Form B Notes:. Type with resistor/diode inside are available as options. Please consult our sales office.. Standard packing: Carton: pcs. Case: pcs. COIL DATA ) Standard type Contact arrangement Form A Form B Form C Mounting type Plastic sealed type Dust cover type Pick-up (at C 8 F) Drop-out (at C 8 F) operating current, ma (at C 8 F) Coil resistance, Ω (at C 8 F) operating power, mw (at C 8 F) Usable voltage range, V DC Rubber bracket A CAa-V-A- CAaF-V-A- 8. to ±% 8±%.8 to Screw-mounting CAa-V-N- CAaF-V-N- 8. to ±% 8±%.8 to Direct coupling CAa-V-C- CAaF-V-C- 8. to ±% 8±%.8 to Rubber bracket A CAb-V-A- CAbF-V-A- 8. to ±% 8±%.8 to Screw-mounting CAb-V-N- CAbF-V-N- 8. to ±% 8±%.8 to Direct coupling CAb-V-C- CAbF-V-C- 8. to ±% 8±%.8 to Screw-mounting CA-DCV-N 8. ±% 8±%.8 to Direct coupling CA-DCV-C 8. ±% 8±%.8 to Screw-mounting CA-DCV-N. 7±% ±%.8 to Direct coupling CA-DCV-C. 7±% ±%.8 to en_ds : J

291 CA ) Low operating power type Contact arrangement Form A Form B Mounting type DIMENSIONS Plastic sealed type Dust cover type Pick-up (at C 8 F) Drop-out (at C 8 F) operating current, ma (at C 8 F) Coil resistance, Ω (at C 8 F) operating power, mw (at C 8 F) Usable voltage range, V DC Rubber bracket A CAaS-V-A- CAaFS-V-A- 8. to ±% ±%. to Screw-mounting CAaS-V-N- CAaFS-V-N- 8. to ±% ±%. to Direct coupling CAaS-V-C- CAaFS-V-C- 8. to ±% ±%. to Rubber bracket A CAbS-V-A- CAbFS-V-A- 8. to ±% ±%. to Screw-mounting CAbS-V-N- CAbFS-V-N- 8. to ±% ±%. to Direct coupling CAbS-V-C- CAbFS-V-C- 8. to ±% ±%. to. Form A/ Form B Rubber bracket A type SCHEMATIC (Bottom View) Form A Form B mm inch 7..8 Including diode type, including load type also available. Sealed with epoxy resin Including load ( Form A) Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. Including diode ( Form C). Form A/ Form B Screw-mounting type +.3. dia. hole +.. dia.. R SCHEMATIC (Bottom View) Form A Form B Including diode type, including load type also available. Sealed with epoxy resin Including load ( Form A) Including diode ( Form C) Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. en_ds : J

292 CA 3. Form A/ Form B Direct coupling type SCHEMATIC (Bottom View) mm inch Form A Form B 37.7 Sealed with epoxy resin Including diode type, including load type also available Including load ( Form A) Including diode ( Form C) Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±.. Form C Screw-mounting type. dia. hole. dia.. R SCHEMATIC (Bottom View) Form C Including diode type, including load type also available Sealed with epoxy resin 9..7 Including load ( Form C) Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. Including diode ( Form A) Automotive. Form C Direct coupling type SCHEMATIC (Bottom View) 8..7 Form C Sealed with epoxy resin 9..7 Including diode type, including load type also available. Including load ( Form C) Including diode ( Form A) Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. en_ds : J 7

293 CA REFERENCE DATA. Coil temperature rise Samples: CAaS-V-N-, pcs. Measured portion: Inside the coil Contact carrying current: A Ambient temperature: Room temperature, 8 C 8 F Temperature rise, C 8 Coil applied V Room temperature 8 C 8 F. switching capability (Resistive load) 3. Ambient temperature and operating temperature range Switching VDC (N.O. side Room temperature) Switching current, A Coil applied VDC 3 Operation range Pick-up voltage (Cold start) Ambient temperature, C. Ambient temperature characteristics (Cold start) Samples: CAbS-V-N-. Distribution of pick-up and drop-out voltage Quantity: pcs.. Distribution of operate and release time Sample: CAa-V-N-, pcs. Pick-up and drop-out V Pick-up voltage Drop-out voltage - 8 Ambient temperature, C Frequency, n Pick-up voltage Drop-out voltage Voltage, V Operate and release time, ms Operate time X Release time X 8 Coil applied %V 7-(). Electrical life test (Motor load) Sample: CAa-V-C, 3pcs. Load: Inrush current: 3A, steady current: 3A Blower fan motor actual load (motor free) Switching frequency: (ON:OFF = s:s) Ambient temperature: Room temperature Load current waveform Load: Inrush current: 3A, steady current: 3A, Change of pick-up and drop-out voltage Change of contact resistance A ms Pick-up and drop-out V Pick-up voltage Drop-out voltage No. of operations, X X Contact resistance, m 8 No. of operations, X 8 en_ds : J

294 7-(). Electrical life test (Lamp load) Sample: CAa-V-C, 3pcs. Load: Wx, Inrush current: A, steady current: A Halogen lamp actual load Switching frequency: (ON:OFF = s:s) Ambient temperature: Room temperature CA Load current waveform Load: Inrush current: A, steady current: A, Change of pick-up and drop-out voltage Change of contact resistance A ms Pick-up and drop-out V Pick-up voltage Drop-out voltage No. of operations, X X Contact resistance, m No. of operations, X Cautions regarding the protection element. Part numbers without protection elements ) V models When connecting a coil surge protection circuit to these relays, we recommend a Zener diode with a Zener voltage of V or higher, or a resistor (8Ω to,ω). When a diode is connected to the coil in parallel, the release time will slow down and working life may shorten. Before use, please check the circuit and verify that the diode is not connected in parallel to the coil drive circuit. ) V models When connecting a coil surge protection circuit to these relays, we recommend a Zener diode with a Zener voltage of 8 V or higher, or a resistor (,8Ω to,7ω). When a diode is connected to the coil in parallel, the release time will slow down and working life may shorten. Before use, please check the circuit and verify that the diode is not connected in parallel to the coil drive circuit.. Part numbers with diodes These relays use a diode in the coil surge protection element. Therefore, the release time is slower and the working life might be shorter compared to part numbers without protection elements and part numbers with resistors. Be sure to use only after evaluating under actual load conditions. 3. Part numbers with resistors This part number employs a resistor in the coil surge protection circuit; therefore, an external surge protection element is not required. In particular, when a diode is connected in parallel with a coil, the revert time becomes slower which could adversely affect working life. Please check the circuit and make sure that a diode is not connected in parallel with the coil drive circuit. Automotive For Cautions for Use, see Relay Technical Information (page 39). en_ds : J 9

295 CB HIGH POWER AUTOMOTIVE RELAY CB RELAYS FEATURES A rating at 8 C 8 F ISO type terminals High shock resistance for drop test requirements ( meters. feet) Low temperature rise all current carrying material is copper. Plug-in and PC board type mm inch SPECIFICATIONS Contact () Standard type (V coil voltage) Arrangement Form A Form C Rating switching capacity switching current (at 8 C 8 F) A N.O.: A N.O.: A N.C.: A N.O.: A N.C.: A High contact capacity ( Form A) 7 A (at C 8 F) A (at 8 C 8 F) N.O.: A Initial contact resistance (By voltage drop A) mω Contact material Silver alloy switching capacity # A ( ), A ( ), Mechanical (at cpm) Expected life Flux-resistant type: Electrical (at rated load) * Sealed type: # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. () Standard type (V coil voltage) Arrangement Form A Form C Rating switching capacity switching current (at 8 C 8 F) A 8 A 8 * All other specifications are the same as those of standard type (V coil voltage) N.O.: A 8 N.C.: A 8 N.O.: A 8 N.C.: A 8 High contact capacity ( Form A) A 8 A 8 (3) Heat resistant type (V, V coil voltage) Type V coil voltage V coil voltage Arrangement Form A Form C Form A Form C Rating * All other specifications are the same as those of standard type (V coil voltage) Coil switching capacity switching current (at 8 C 8 F) A A N.O.: A N.C.: A N.O.: A N.C.: A A 8 A 8 N.O.: A 8 N.C.: A 8 N.O.: A 8 N.C.: A 8 Arrangement Coil voltage operating power Form A,.W Form C.8W High contact capacity.8w ( Form A).8W en_ds : D

296 Characteristics operating speed (at rated load) Initial insulation resistance* Remarks * At nominal switching capacity, operating frequency: s ON, s OFF * Measurement at same location as Initial breakdown voltage section * 3 Detection current: ma * Excluding contact bounce time cpm MΩ (at ) Between open contacts Vrms for min. Initial breakdown voltage* 3 Between contacts and coil Vrms for min. Operate time* (at nominal voltage) ms (Initial) Release time (without diode)* (at nominal voltage) ms (Initial) Shock resistance Vibration resistance Conditions for operation, transport and storage* (Not freezing and condensing at low temperature) Mass Functional m/s { G} Destructive, m/s { G} Functional Functional* Ambient temp. Humidity Hz to Hz,.m/s {.G} Hz to, Hz,.m/s {.G} C to +8 C F to +8 F (Heat resistant type: C to + C F to +7 F) % R.H. to 8% R.H. Approx. 33 g. oz * Time of vibration for each direction; X, Y, Z direction: hours X Y Z CB * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT(page 8). TYPICAL APPLICATIONS Head lights Starters ABS Head Lamp Air conditioner Tracter, Combine ORDERING INFORMATION CB F T M V Contact arrangement Protective construction Heat resistant of types Mounting classification Coil voltage (DC) a: Form A : Form C ah: High contact capacity ( Form A) Note: Bulk package: pcs.; Case: pcs. Nil: Sealed type F: Flux-resistant type Nil: Standard type T: Heat resistant type* D: Diode R: Resistor Nil: Plug-in type P: PC board type M: Bracket type, V * Heat resistant type with high contact capacity is not available. (See ". Heat resistant type" in "TYPES" below. Automotive TYPES. Standard type Contact arrangement Mounting classification Coil Part No. Sealed type Flux-resistant type PC board type V CBa-P-V CBaF-P-V V CBa-P-V CBaF-P-V Form A Plug-in type V CBa-V CBaF-V V CBa-V CBaF-V Bracket type V CBa-M-V CBaF-M-V V CBa-M-V CBaF-M-V PC board type V CB-P-V CBF-P-V V CB-P-V CBF-P-V Form C Plug-in type V CB-V CBF-V V CB-V CBF-V Bracket type V CB-M-V CBF-M-V V CB-M-V CBF-M-V High contact capacity ( Form A) Plug-in type V CBaH-V CBaHF-V V CBaH-V CBaHF-V * High contact capacity PC board type is also available. Please contact us for details. en_ds : D 3

297 CB. Heat resistant type Form A Form C Contact arrangement Mounting classification Coil COIL DATA (at C 8 F) Contact arrangement Form A Form C High contact capacity ( Form A) Pick-up * PC board type Plug-in type Bracket type PC board type Plug-in type Bracket type Drop-out * Other pick-up voltage types are also available. Please contact us for details. Sealed type Part No. Flux-resistant type V CBa-T-P-V CBaF-T-P-V V CBa-T-P-V CBaF-T-P-V V CBa-T-V CBaF-T-V V CBa-T-V CBaF-T-V V CBa-T-M-V CBaF-T-M-V V CBa-T-M-V CBaF-T-M-V V CB-T-P-V CBF-T-P-V V CB-T-P-V CBF-T-P-V V CB-T-V CBF-T-V V CB-T-V CBF-T-V V CB-T-M-V CBF-T-M-V V CB-T-M-V CBF-T-M-V current, ma Coil resistance, Ω operating power, W Usable voltage range, 3 to 7. to. 7±% 3±%. to to. to 8. 7±% ±%.8 to 3 3 to 7. to. ±% 8±%.8 to DIMENSIONS. PC board type Schematic (Bottom view) mm inch..98 a 8 c 8 87a a Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±.. Plug-in type Schematic (Bottom view)..98 a 8 c 8 87a dia..7 dia a Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. 3 en_ds : D

298 3. Bracket type mm inch.. dia Schematic (Bottom view) a 8 c 8 87a CB dia..7 dia a* Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±.. High contact capacity type (Plug-in terminal type) Schematic (Bottom view) dia. hole -.7 dia. hole Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. Automotive High contact capacity type (PC board terminal type) Schematic (Bottom view) A* Sealed by epoxy resin Dimension: mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. General tolerance * Intervals between terminals is measured at A surface level. en_ds : D 33

299 CB REFERENCE DATA CB (Standard type). Coil temperature rise Sample: CBaF-P-V, 3pcs. Measured potion: Inside the coil Contact carrying current: A Ambient temperature: 8 C 8 F Temperature rise, C 8 9 A Coil applied V. Distribution of pick-up and drop-out voltage Sample: CB-P-V, pcs. Pick-up voltage Drop-out voltage. switching capability (Resistive load) (Standard type) Switching VDC (N.O. side Room temperature) cycle line Actual value ( cycle) Switching current, A. Distribution of operate and release time Sample: CB-P-V, pcs. * Without diode Operate time Release time 3. Ambient temperature and operating temperature range (Standard type) Coil applied VDC 3 Pick-up voltage (Cold start) Ambient temperature, C Frequency Quantity, n Voltage, V Operate and release time, ms -(). Electrical life test (Motor free) Sample: CBF-V, pcs. Load: A, motor free actual load Switching frequency: (ON:OFF = s:9s) Ambient temperature: Room temperature Circuit Tested sample Relay harness M Motor Observation of load waveform with current probe and digital oscilloscope Load current waveform Inrush current: 8A, Steady current: A, A ms Change of pick-up and drop-out voltage Pick-up and drop-out V 3 Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, mω 3 X No. of operations, 3 en_ds : D

300 -(). Electrical life test (Lamp load) Sample: CBF-V, pcs. Load: /Wx parallel,, halogen lamp actual load Switching frequency: (ON:OFF = s:8s) Ambient temperature: Room temperature Circuit Relay Halogen lamp V /W Observation of load waveform with current probe and digital oscilloscope Load current waveform Inrush current: A, Steady current: A,.A ms Change of pick-up and drop-out voltage Pick-up and drop-out V 3 Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, mω CB X No. of operations, CB (High capacity type). switching capability (High capacity type) Switching VDC cycle line Actual value ( cycle) 8 Switching current, A. Ambient temperature and operating temperature range (High capacity type) Coil applied VDC 3 Operation range Pick-up voltage (Cold start) Ambient temperature, C 3. Distribution of pick-up and drop-out voltage Sample: CBaHF-V, 3pcs. Frequency 7 Pick-up voltage Drop-out voltage Voltage, V Automotive. Distribution of operate and release time Sample: CBaHF-V, 3pcs.. Contact resistance Sample: CBaHF-V, 3pcs. (By voltage drop A) 7 Operate and release time, ms 8 Operate time Release time Frequency 8 Coil V Resistance, mω en_ds : D 3

301 CB -(). Electrical life test (Motor free) Sample: CBaH-V, 3pcs. Load: Inrush current: A/Steady current: 3A Fan motor actual load (motor free) Switching frequency: (ON:OFF = 3s:7s) Ambient temperature: Room temperature Circuit 3s s 7s M Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, mω No. of operations, X Load current waveform Inrush current: A, Steady current: 3A, A ms -(). Electrical life test (Motor lock) Sample: CBaH-V, pcs. Load: A Magnet clutch actual load (lock condition) Switching frequency: (ON:OFF = s:9s) Ambient temperature: Room temperature Circuit M Clutch ( applied) Lock condition Change of pick-up and drop-out voltage Pick-up and drop-out V 3 Pick-up voltage Drop-out voltage 8 No. of operations X X Change of contact resistance Contact resistance, m X 8 No. of operations Load current waveform A A ms 3 en_ds : D

302 Cautions regarding the protection element. Part numbers without protection elements ) V models When connecting a coil surge protection circuit to these relays, we recommend a Zener diode with a Zener voltage of V or higher, or a resistor (8Ω to,ω). When a diode is connected to the coil in parallel, the release time will slow down and working life may shorten. Before use, please check the circuit and verify that the diode is not connected in parallel to the coil drive circuit. ) V models When connecting a coil surge protection circuit to these relays, we recommend a Zener diode with a Zener voltage of 8 V or higher, or a resistor (,8Ω to,7ω). When a diode is connected to the coil in parallel, the release time will slow down and working life may shorten. Before use, please check the circuit and verify that the diode is not connected in parallel to the coil drive circuit.. Part numbers with diodes These relays use a diode in the coil surge protection element. Therefore, the release time is slower and the working life might be shorter compared to part numbers without protection elements and part numbers with resistors. Be sure to use only after evaluating under actual load conditions. 3. Part numbers with resistors This part number employs a resistor in the coil surge protection circuit; therefore, an external surge protection element is not required. In particular, when a diode is connected in parallel with a coil, the revert time becomes slower which could adversely affect working life. Please check the circuit and make sure that a diode is not connected in parallel with the coil drive circuit. CB For Cautions for Use, see Relay Technical Information (page 39). Automotive en_ds : D 37

303 CF TWIN POWER AUTOMOTIVE RELAY CF RELAYS mm inch FEATURES 7 Amp Steady/ Amp Inrush current capability Simple footprint enables ease of PC board layout Common Normally Open Open Space Normally Closed Coil Coil SPECIFICATIONS Contact Arrangement Form C (H bridge) Contact material Silver alloy Initial contact resistance (By voltage drop A) mω Initial contact voltage drop. V (at A) Rating Expected life (min. ope.) Coil switching capacity switching power switching voltage make current carrying current switching capacity # N.O.: A N.C.: A W A (Continuous), A (within min.; coil applied voltage: V, at C) A ( minutes), A ( hour) (coil applied voltage: V, at C) A ( minutes), A ( hour) (coil applied voltage: V, at 8 C) A Mechanical (at cpm) Electrical operating power resistive load 7 A, Inrush A (Motor load) A (Motor lock) mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Characteristics operating speed (at rated load) Initial insulation resistance* Initial Between open contacts breakdown voltage* Between contacts and coil Operate time* 3 (at nominal voltage) Release time* 3 (at nominal voltage) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) cpm MΩ (at ), Vrms for min., Vrms for min. ms ms Functional* m/s { G} Destructive*, m/s { G} Functional* Destructive* 7 Ambient temp. Humidity Approx.. m/s {. G}, Hz to Hz Approx.. m/s {. G}, Hz to Hz C to + 8 C F to +8 F %R.H. to 8%R.H. Mass Standard type Approx. g.9 oz Remarks * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Time of vibration for each direction; X Y X, Y, direction: hours Z direction: hours Z * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). TYPICAL APPLICATIONS Power windows Auto door lock Electrically powered sunroof Electrically powered mirrors Powered seats TYPES AND COIL DATA (at C 8 F) Part No. Lift gates Slide door closers, etc. (for DC motor forward/ reverse control circuits) Pick-up (Initial) Drop-out (Initial) * Other pick-up voltage types are also available. Please contact us for details. ORDERING INFORMATION Coil resistance, Ω Contact arrangement Form C Ex. CF _ V Standard packing: Tube: 3pcs.; Outer carton: 7pcs. operating current, ma operating Power, mw Coil voltage (DC) Usable voltage range, VDC CF-V 7.. ±% 3.3±% to 38 en_ds_3_: 99D V

304 DIMENSIONS JAPAN EXAMPLE OF CIRCUITS *A Pre-soldering Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. Forward/reverse control circuits of DC motor for power window Recommended PC board pattern (- dia.) (-.7 dia.) Land diameter (.8) (.3) Schematic CF mm inch (R.) (3).8. (.8) dia dia dia dia.... NO COM COM NC SW A NO NC COM M NO COM NC SW B M : Power window motor SW A SW B Motor OFF OFF Stop ON OFF Forward OFF ON Reverse REFERENCE DATA -(). Coil temperature rise (at room temperature) Sample: CF-V, pcs. Measured potion: Inside the coil Contact carrying current: A, A, A Ambient temperature: Room temperature A -(). Coil temperature rise (at 8 C 8 F) Sample: CF-V, pcs. Measured potion: Inside the coil Contact carrying current: A, A, A Ambient temperature: 8 C 8 F. switching capability (Resistive load) (N.O. side Room temperature) Automotive Temperature rise, C 8 A A Temperature rise, C 8 A A A Switching VDC Coil applied V Coil applied V Switching current, A 3. Ambient temperature and operating temperature range Coil applied VDC 3 Pick-up voltage (Cold start) Ambient temperature, C en_ds_3_: 99D. Distribution of pick-up and drop-out voltage Sample: CF-V, pcs. Frequency 7 Pick-up voltage Drop-out voltage Voltage, V. Distribution of operate and release time Sample: CF-V, pcs. * With diode Frequency Operate time Release time Operate and release time, ms 39

305 CF -(). Electrical life test (Motor free) Sample: CF-V, 3pcs. Load: Inrush current: A, Steady current: 7A, Power window motor actual load (free condition) Switching frequency: (ON:OFF = s:s) Ambient temperature: Room temperature Circuit Relay Relay s s 3s s ( cycle) M Resistive load Power window motor (free) Load current waveform Inrush current: 7A, Steady current: 8.A Brake current: A A ms Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, m X No. of operations, -(). Electrical life test (Motor lock) Sample: CF-V, 3pcs. Load: A, Power window motor actual load (lock condition) Switching frequency: (ON:OFF = s:s) Ambient temperature: Room temperature Circuit Relay Relay s s 3s s ( cycle) M Power window motor (lock) Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage X 3 Drop-out voltage X No. of operations, Change of contact resistance Contact resistance, m X. No. of operations, Load current waveform Steady current: A A ms For Cautions for Use, see Relay Technical Information (page 39). en_ds_3_: 99D

306 CJ (ACJ) SUPER MINIATURE TWIN TYPE AUTOMOTIVE RELAY FEATURES Smallest in its class, it is extremely compact at approximately /3 the size of previous products. It takes up only about two thirds the space and volume of our previous twin type CT compact relay. It is perfect for making compact relay units. Compact and high-capacity A load switching. High capacity control is possible while being compact and capable of motor lock load switching at A,. Sealed type Sealed type makes automatic cleaning possible. CJ RELAYS (ACJ) TYPICAL APPLICATIONS Powered windows Automatic door locks Electrically powered mirrors Powered sun roofs Powered seats Lift gates Slide door closers, etc. (for DC motor forward/reverse control circuits) SPECIFICATIONS Contact Characteristics Arrangement Form C Contact material Silver alloy Initial contact resistance (By voltage drop A) mω Rating Expected life (min. operation) Coil switching capacity carrying current switching capacity** Mechanical (at cpm) Electrical operating power N.O.: A N.C.: A A for minutes, A for hour ( V, at C 8 F) A 7 Resistive load* Motor load* N.O.; A, Inrush A (motor load): N.O.; A (motor lock): N.C.; A (brake) : mw (ACJ) 8mW (ACJ) Remarks ** This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. * At nominal switching capacity, operating frequency: s ON, 9s OFF * At operating frequency:.s ON, 9.s OFF * 3 Measurement at same location as Initial breakdown voltage section * Detection current: ma * Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * 7 Half-wave pulse of sine wave: ms * 8 Detection time: µs * 9 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). operating speed (at nominal switching capacity) Initial insulation resistance * 3 Initial breakdown voltage * Operate time * (at nominal voltage) (at C 8 F) Release time (without diode)* (at nominal voltage) (at C 8 F) Shock resistance Vibration resistance Conditions for operation, transport and storage * 9 (Not freezing and condensing at low temperature) Mass Between open contacts Between contacts and coil Functional * Destructive * 7 Functional * 8 Destructive Ambient temp Humidity cpm MΩ (at ) Vrms for min. Vrms for min. ms (Initial) ms (Initial) m/s {G}, m/s {G} Hz to Hz,.m/s {.G} Hz to Hz,.m/s {.G} C to +8 C F to +8 F % R.H. to 8% R.H. Approx..g.3oz Automotive en_ds : 9D 3

307 CJ (ACJ) ORDERING INFORMATION TYPES AND COIL DATA (at C 8 F). Contact arrangement Form C ACJ Contact arrangement : Form C Standard packing: Carton(tube package) pcs; Case, pcs. Part No. DIMENSIONS operating power : mw : 8 mw Coil voltage () : Pick-up (Initial) Drop-out (Initial) Coil resistance, Ω operating current, ma operating power, mw Usable voltage range, ACJ 7.. ±% 3.3±% to ACJ..8 8±%.7±% 8 to PC board pattern (Bottom view) mm inch A* Pre-soldering (all terminals) Sealed by epoxy resin Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ± dia. -.9 dia dia dia. -. dia. -.9 dia... Tolerance: ±.±. Schematic (Bottom view) NC COIL COM NO COIL COM * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. EXAMPLE OF CIRCUIT Forward/reverse control circuits of DC motor NO NC COM M COM NO NC SW A SW B M : Power window motor 3 en_ds : 9D

308 REFERENCE DATA -(). Coil temperature rise (at room temperature) Sample: ACJ, 3pcs Measured portion: Inside the coil Contact carrying current: A, A, A Ambient temperature: C 77 F Temperature rise, C 8 8 Coil applied V A A A -(). Coil temperature rise (at 8 C 8 F) Sample: ACJ, 3pcs Measured portion: Inside the coil Contact carrying current: A, A, A Ambient temperature: 8 C 8 F Temperature rise, C 8 8 Coil applied V A A A CJ (ACJ) -(). Electrical life test (Motor free) Sample: ACJ, 3pcs; Load: Inrush current: A/ Steady current: A, Power window motor actual load (free condition); Tested voltage: ; Switching frequency: (ON:OFF =.s:9.s); Switching cycle: ; Ambient temperature: Room temperature Circuit No. side No. side.s.s s s ( cycle) M Change of pick-up and drop-out voltage Pick-up and drop-out V 8 Contact welding: time Miscontact: time Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, m N.C. side N.O. side X(N.C.) X(N.O.) No. of operations, P/W motor (free condition) Load current waveform Inrush current: A, Steady current: A, Brake current: 3A A ms Automotive en_ds : 9D 33

309 CJ (ACJ) -(). Electrical life test (Motor lock) Sample: ACJ, 3pcs; Load: Steady current: A, Power window motor actual load (lock condition); Tested voltage: ; Switching frequency: (ON:OFF =.s:9.s); Switching cycle: ; Ambient temperature: Room temperature Circuit No. side No. side.s.s s s ( cycle) M P/W motor (lock condition) Change of pick-up and drop-out voltage Pick-up and drop-out V 8 Contact welding: time Miscontact: time Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, m N.C. side N.O. side X(N.O.) X(N.C.) No. of operations, Load current waveform Current value: A A ms For Cautions for Use, see Relay Technical Information (page 39). 3 en_ds : 9D

310 CM AUTOMOTIVE MICRO-ISO RELAY CM RELAYS SPECIFICATIONS mm inch FEATURES Contact Type V coil voltage V coil voltage Arrangement Form A, Form C Contact material Silver alloy Initial contact resistance (By voltage drop A) mω Contact voltage drop Rating (resistive load) Expected life Coil switching capacity carrying current N.O.:. V (at 3 A ) N.C.:.3 V (at A ) N.O.: 3 A V DC N.C.: A V DC N.O.: A (, at 8 C 8 F) N.C.: A (, at 8 C 8 F) # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Small size: mm(l) mm(w) mm(h).787 inch(l).9 inch(l).8 inch(h) Wide line-up PC board and Plug-in type, Resistor and diode inside type. type is also available. Compact and high-capacity 3A load switching N.O.: 3A, N.C.: A (Sealed type) N.O.: 3A, N.C.: A (Flux-resistant type) * type Micro-ISO type terminals N.O.:.3 V (at A 8 ) N.C.:. V (at 8 A 8 ) N.O.: A 8 V DC N.C.: 8 A 8 N.O.: A (8, at 8 C 8 F) N.C.: 8 A (8, at 8 C 8 F) switching capacity # A A Mechanical (at cpm) Electrical (at rated load) operating power Flux-resistant type: * Sealed type:. W.7 W (Internal resistor type).8 W. W (Internal resistor type) TYPICAL APPLICATIONS Fan motor Heater Head lump Air Compressor EPS ABS Blower fan Defogger, etc. Characteristics Type V coil type V coil type operating speed (at nominal switching capacity) cpm Initial insulation resistance* MΩ (at ) Initial breakdown voltage* 3 Between open contacts Between contacts and coil Operate time* (at nominal voltage) (at C 8 F) Release time* (at nominal voltage) (at C 8 F) Shock resistance Vibration resistance Conditions for operation, transport and storage* 8 (Not freezing and condensing at low temperature) Functional* Destructive* Functional Destructive* 7 Vrms for min. Vrms for min. ms ms ms (with diode) m/s {G},m/s {G} Hz to Hz,. m/s {. G} Hz to, Hz,. m/s {. G} Mass Approx. g.7oz Remarks * At nominal switching capacity, operating frequency: s ON, s OFF * Measurement at same location as Initial breakdown voltage section. * 3 Detection current: ma * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Time of vibration for each direction; X, Y, Z direction: hours X Y Ambient temp.* 9 C to + 8 C F to + 8 F Humidity % R.H. to 8% R.H. Automotive Z * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). * 9 Ambient temperature C 7 F type is also available. Please contact us for details. en_ds : 88J 3

311 CM ORDERING INFORMATION CM F R P V Contact arrangement a: Form A : Form C Note: Bulk package: pcs.; Case: pcs. TYPES Packing quantity: Inner pcs, Outer pcs. Contact arrangement Part No. Coil voltage Mounting classification Protective construction Form A Form C COIL DATA (at C 8 F) DIMENSIONS CMa-V CMaF-V CMa-P-V CMaF-P-V CM-V CMF-V CM-P-V CMF-P-V Plug-in type PC board type Plug-in type PC board type Sealed type Flux-resistant type Sealed type Flux-resistant type Sealed type Flux-resistant type Sealed type Flux-resistant type Contact arrangement Part No. Coil voltage Mounting classification Protective construction Form A Form C Pick-up Protective construction Classification of types Mounting classification Coil voltage (DC) Nil: Sealed type F: Flux-resistant type CMa-V CMaF-V CMa-P-V CMaF-P-V CM-V CMF-V CM-P-V CMF-P-V Drop-out Nil: Standard type D: with diode inside R: with resistor inside current, ma Nil: Plug-in type P: PC board type Plug-in type PC board type Plug-in type PC board type Coil resistance, ohm operating power, W Sealed type Flux-resistant type Sealed type Flux-resistant type Sealed type Flux-resistant type Sealed type Flux-resistant type Usable voltage range, 3 to 7. to. ±% 9±%. to to. to 8. 7±% ±%.8 to 3. Micro-ISO Plug-in type ( Form C) V V Schematic (Bottom view) mm inch a A* dia. -.9 dia dia dia. 8 87a 87 8 Sealed by epoxy resin Dimension: mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. General tolerance 8 Including diode type, including resistor type also available * Intervals between terminals is measured at A surface level. 3 en_ds : 88J

312 . Micro-ISO Plug-in type ( Form A) CM mm inch Schematic (Bottom view) A* dia. -.9 dia dia dia a 87 8 Sealed by epoxy resin Dimension: mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. General tolerance 8 Including diode type, including resistor type also available * Intervals between terminals is measured at A surface level. 3. Micro-ISO PC board type ( Form C) Schematic (Bottom view) MAX.. MAX..7 Pre-soldering A* Dimension: 87a 87 8 Sealed by epoxy resin General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. 8 87a 87 8 Including diode type, including resistor type also available Automotive * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level.. Micro-ISO PC board type ( Form A) Schematic (Bottom view) MAX.. MAX..7 Pre-soldering A* Dimension: 87a 87 8 Sealed by epoxy resin General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ± Including diode type, including resistor type also available * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. en_ds : 88J 37

313 CM REFERENCE DATA -(). Coil temperature rise (V type) Sample: CMF-V, 3 pcs. Measured portion: Inside the coil Contact carrying current: A, 3A Ambient temperature: 8 C 8 F Temperature rise, C 8 3A A -(). Coil temperature rise (V type) Sample: CMF-V, pcs. Measured portion: Inside the coil Contact carrying current: A, A Ambient temperature: 8 C 8 F Temperature rise, C 8 A A. switching capability (Resistive load) Switching VDC (N.O. side Room temperature) V type V type Coil applied V 8 3 Coil applied V Switching current, A 3. Ambient temperature and operating temperature range (V type). Ambient temperature characteristics (Cold/initial). Distribution of pick-up and drop-out voltage Sample: CMF-V, pcs. Coil applied VDC Operation range Pick-up voltage (Cold start) Ambient temperature, C Ratio against the rated %V 8 7 Pick-up voltage upper limit Drop-out voltage lower limit Ambient temperature, C Frequency 7 Pick-up voltage Drop-out voltage Voltage, V. Distribution of operate time Sample: CMF-V, pcs. * ms standard (excluding contact bounce) Quantity, n Time, ms 7. Distribution of release time Sample: CMF-V, pcs. * ms standard (excluding contact bounce) Without diode Quantity, n Time, ms 38 en_ds : 88J

314 8-(). Electrical life test (Motor free) Sample: CMaF-R-V, pcs. Load: Cooling fan motor actual load (free condition) Switching frequency: (ON:OFF = s:s) Ambient temperature: Room temperature Circuit 3.V M M Cooling fan motor Load current waveform Inrush current: 8A, Steady current: 8A, A ms Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage Drop-out voltage 3 No. of operations, Change of contact resistance 9 Contact resistance, mω CM X 3 No. of operations, 8-(). Electrical life test (Halogen lamp load) Sample: CMaF-R-V, pcs. Load: A 3. Switching frequency: (ON:OFF = s:s) Ambient temperature: Room temperature Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage Drop-out voltage Change of contact resistance 9 Contact resistance, mω X Automotive No. of operations, No. of operations, Cautions regarding the protection element. Part numbers without protection elements ) V models When connecting a coil surge protection circuit to these relays, we recommend a Zener diode with a Zener voltage of V or higher, or a resistor (8Ω to,ω). When a diode is connected to the coil in parallel, the release time will slow down and working life may shorten. Before use, please check the circuit and verify that the diode is not connected in parallel to the coil drive circuit. ) V models When connecting a coil surge protection circuit to these relays, we recommend a Zener diode with a Zener voltage of 8 V or higher, or a resistor (,8Ω to,7ω). When a diode is connected to the coil in parallel, the release time will slow down and working life may shorten. Before use, please check the circuit and verify that the diode is not connected in parallel to the coil drive circuit.. Part numbers with diodes These relays use a diode in the coil surge protection element. Therefore, the release time is slower and the working life might be shorter compared to part numbers without protection elements and part numbers with resistors. Be sure to use only after evaluating under actual load conditions. 3. Part numbers with resistors This part number employs a resistor in the coil surge protection circuit; therefore, an external surge protection element is not required. In particular, when a diode is connected in parallel with a coil, the revert time becomes slower which could adversely affect working life. Please check the circuit and make sure that a diode is not connected in parallel with the coil drive circuit. For Cautions for Use, see Relay Technical Information (page 39). en_ds : 88J 39

315 CP MINIATURE, LOW PROFILE AUTOMOTIVE RELAY CP RELAYS FEATURES mm inch Low profile <Height> PC board terminal type: 9. mm.37 inch Surface-mount terminal type:.mm.3inch High capacity CP Relay provides low profile spacesaving advantages while offering high continuous current of A( hour). Sealed construction suitable for harsh environments Simple footprint pattern enables ease of PC board layout Contact terminals PC board terminal and Surface mount terminal types available SMD automatic mounting is possible for surface mount terminal types because tube packaging is used. TYPICAL APPLICATIONS Power windows Auto door lock Power sunroof Memory sheet Wiper Defogger Blower fan EPS ABS etc. Coil terminals SPECIFICATIONS Contact Arrangement Form A Form C Contact material Silver alloy Initial contact resistance (By voltage drop A) mω Rating Expected life (min. operations) Coil switching capacity switching voltage carrying current switching capacity # A (N.O.) A A (N.C.) A for minutes A for hour ( V at C 8 F) 3 A for minutes A for hour ( V at 8 C 8 F) A Mechanical (at cpm) 7 Electrical (at cpm) operating power Resistive load * Motor load * * 3 Lamp load * mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Characteristics operating speed (at rated load) Initial insulation resistance* Initial Between open contacts breakdown Between contact and voltage* coil Operate time* 7 Release time (without diode)* 7 (at nominal voltage) Shock resistance Vibration resistance Conditions in case of operation, transport and storage* (Not freezing and condensing at low temperature) cpm MΩ (at ) Vrms for min. Vrms for min. ms (at C 8 F) ms (at C 8 F) Functional* 8 m/s { G} Destructive* 9, m/s { G} Functional* Destructive Ambient temp Humidity Hz to Hz,. m/s {. G} Hz to Hz,. m/s {. G} C to +8 C F to +8 F % R.H. to 8% R.H. Mass Approx. g. oz Remarks * At nominal switching capacity, operating frequency: s ON, 9s OFF * N.O.: at A (steady), A (inrush)/n.c.: at A (brake), operating frequency:.s ON, 9.s OFF * 3 At A (Motor lock), operating frequency:.s ON, 9.s OFF * N.O.: at A (steady), A (inrush), operating frequency: s ON, s OFF * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 7 Excluding contact bounce time * 8 Half-wave pulse of sine wave: ms; detection time: µs * 9 Half-wave pulse of sine wave: ms * Detection time: µs * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). 3 en_ds_7_: J

316 ORDERING INFORMATION CP Ex. CP a SA V X Contact arrangement a: Form A : Form C Mounting classification Nil: PC board terminal SA: Surface-mount terminal Coil voltage (DC) Notes:. Tube packing: Carton (Tube): pcs.; Case:, pcs. * PC board terminal type only.. Tape and reel packing: Carton (Tape and reel): pcs.; Case: 9 pcs. * Surface-mount terminal type only. 3. Surface-mount terminal type is available only for form C contact arrangement. Packing style V Nil: Tube packing X: Tape and reel packing (picked from the NC terminal side) Z: Tape and reel packing (picked from the coil terminal side) TYPES. PC board terminal type. Surface mount terminal type Contact arrangement Coil voltage Part No. Contact arrangement Coil voltage* Part No. Form A CPa-V Form C CPSA-V-X Form C CP-V Form C CPSA-V-Z COIL DATA (at C 8 F) Pick-up (Initial) Drop-out (Initial) * Other pick-up voltage types are also available. Please contact us for details. Coil resistance Ω Notes:. * type is also available by request. Please contact us for details.. Tape and reel packing symbol -z or -x are not marked on the relay. operating current ma operating power mw Usable voltage range, 7.. ±% 3.3±% to DIMENSIONS. PC board terminal type A* Pre-soldering Schematic (Bottom view) a COM COM COIL Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. c NC COIL NO NO mm inch PC board pattern (Bottom view) a dia dia dia dia c (R) (R)..77 Automotive * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. en_ds_7_: J 33

317 CP. Surface mount terminal type mm inch Schematic Recommended mounting pad (Top view) NC Pre-soldering COM COIL NO Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. REFERENCE DATA. Coil temperature rise Sample : CP-V, pcs Point measured : Inside the coil Contact carrying current, A, A, A, A Resistance method, ambient temperature 8 C 8 F. switching capability (Resistive load) 3. Ambient temperature and operating voltage range (N.O. side: room temperature) Temperature rise, C 8 A A A A Switching VDC Coil applied VDC Coil applied V Switching current, A Pick-up voltage (cold start) Ambient temperature, C. Distribution of pick-up and drop-out voltage Sample : CP-V, pcs Ambient temperature : C 8 F Frequency, n 7 Pick-up voltage Drop-out voltage Voltage, V. Distribution of operate time Sample : CP-V, pcs Ambient temperature : C 8 F Quantity, ms Time, ms. Distribution of release time Sample : CP-V, pcs Ambient temperature : C 8 F * With diode Quantity, ms Time, ms 33 en_ds_7_: J

318 7-(). Electrical life test (at rated load) Sample : CP-V Quantity : n = (NC =, NO = ) Load : Resistive load (NC side : A, NO side : A ) Operating frequency : ON s, OFF 9s Ambient temperature : Room temperature Pick-up and drop-out V 8 Contact welding: times Miscontact: times Pick-up voltage Drop-out voltage No. of operations, X X CP 7-(). Electrical life test (Motor free) Sample : CP-V, 3pcs. Load : A, Inrush A, Brake current A, Power window motor load (Free condition). Operating frequency : (ON : OFF =.s : 9.s) Ambient temperature : Room temperature Circuit : Sample M Pick-up and drop-out V 8 Contact welding: times Miscontact: times Pick-up voltage Drop-out voltage No. of operations, X X 7-(3). Electrical life test (Lamp load) Sample : CP-V, 3pcs. Load : A, Inrush A, VDC lamp load Operating frequency : (ON : OFF = s : s) Ambient temperature : Room temperature Circuit : Sample Lamp Pick-up and drop-out V 8 Contact welding: times Miscontact: times Pick-up voltage Drop-out voltage X X Automotive No. of operations, For Cautions for Use, see Relay Technical Information (page 39). en_ds_7_: J 333

319 CQ FORM C AUTOMOTIVE SILENT RELAY CQ RELAYS FEATURES mm inch Silent Noise has been reduced by approximately db, using our own silencing design. Less space required Measuring only 7(L) 3(W)mm (.9(L).(W) inches), this product ranks first among automotive quiet relays in terms of saving space. Sealed construction Next-generation standard terminal pitch employed The terminal array used is identical to that used in JJM relays SPECIFICATIONS Contact Arrangement Form C Contact material Silver alloy Initial contact resistance (By voltage drop A) mω Contact voltage drop.v (at A) Rating Expected life (min. operations) Coil switching capacity carrying current switching capacity # N.O.: A N.C.: A 3 A for minutes, A for hour ( V, at C 8 F) A for minutes, A for hour ( V, at 8 C 8 F) A Mechanical (at cpm) 7 Electrical operating power Resistive load * Motor load 3 * mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * At nominal switching capacity, operating frequency: s ON, 9s OFF * N.O.: at A (steady), A (inrush)/n.c.: at A (brake), operating frequency: s ON, s OFF * 3 Measurement at same location as Initial breakdown voltage section * Detection current: ma * Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection: µs * 7 Half-wave pulse of sine wave: ms * 8 Detection time: µs TYPICAL APPLICATIONS Intermittent wiper Cruise control Power windows Auto door lock Car stereo Car air-conditioner Electrically powered seats Electrically powered sunroof, etc. Characteristics operating speed (at nominal switching capacity) Initial insulation resistance* 3 Initial Between open contacts breakdown voltage* Between contacts and coil Operate time* (at nominal voltage)(at C8 F) Release time* (at nominal voltage)(at C8 F) Shock resistance Vibration resistance Conditions for operation, transport and storage* (Not freezing and condensing at low temperature) Mass Functional* Destructive* 7 Functional* 8 Destructive* 9 Ambient temperature Humidity * 9 Time of vibration for each direction; X Y X, Y, direction: hours Z direction: hours Z cpm MΩ (at ) Vrms for min. Vrms for min. ms (initial) ms (initial) m/s {G}, m/s {G} Hz to Hz,. m/s {.G} Hz to Hz,. m/s {.G} C to +8 C F to +8 F % R.H. to 8% R.H. Approx..g.3 oz * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). ORDERING INFORMATION Ex. CQ V Contact arrangement Coil voltage(dc) Form C V Standard packing: Carton(tube package) pcs. Case: 8pcs. 33 en_ds_8_: J

320 TYPES AND COIL DATA (at C 8 F) Part No. Pick-up (Initial)* Drop-out (Initial) * Other pick-up voltage types are also available. Please contact us for details. Coil resistance, Ω operating current, ma operating power, mw CQ Usable voltage range, CQ-V 7.. ±% 3.3±% to DIMENSIONS mm inch PC board pattern (Bottom view) dia dia *A Pre-soldering Tolerance: ±. ±. Schematic (Bottom view) Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. COM COIL NO NC * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. EXAMPLE OF CIRCUIT Control circuit for intermittent wiper motor NO COM VDC Automotive M NC M Wiper motor REFERENCE DATA -(). Coil temperature rise (at room temperature) Sample: CQ-V, pcs Contact carrying current: A, A, A Ambient temperature: Room temperature -(). Coil temperature rise (at 8 C 8 F) Sample: CQ-V, pcs Contact carrying current: A, A Ambient temperature: 8 C 8 F. switching capability (Resistive load) (N.O. side Room temperature) Temperature rise, C 8 A A A Temperature rise, C 8 A A Switching VDC Coil applied V Coil applied V Switching current, A en_ds_8_: J 33

321 CQ 3. Ambient temperature and operating temperature range. Ambient temperature characteristics. Distribution of pick-up and drop-out voltage Sample: CQ-V, pcs Coil applied VDC 3 Pick-up voltage (Cold start) Ambient temperature, C Ratio against the rated %V 8 7 Pick-up voltage upper limit Pick-up voltage lower limit - 8 Ambient temperature, C Frequency, n Operate time Release time Voltage, V. Distribution of operate time Sample: CQ-V, pcs Quantity, n Time, ms 7. Distribution of release time Sample: CQ-V, pcs * With diode Quantity, n Time, ms 8. Electrical life test (Motor free) Sample: CQ-V, 3pcs Load: Inrush current: A, Steady current: A, Brake current: 7A, wiper motor actual load (free condition) Tested voltage: Switching frequency: (ON:OFF = s:s) Ambient temperature: Room temperature Circuit VDC M Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, mω N.C. side N.O. side No. of operations, X X Load current waveform Inrush current: A, Steady current: A, Brake current: 7A A ms 33 en_ds_8_: J

322 9-(). Operation noise distribution When actuated 9-(). Operation noise distribution When released CQ Measuring conditions Sample: CQ- V, pcs. Equipment setting: A weighted, Fast, hold Coil voltage: Coil connection device: Diode Background noise: Approx. db Frequency Frequency Microphone Relay mm.99inch Sponge 8 For Cautions for Use, see Relay Technical Information (page 39). Automotive Noise level, db 38 8 Noise level, db en_ds_8_: J 337

323 CR TWIN POWER SILENT AUTOMOTIVE RELAY CR RELAYS FEATURES mm inch Silent Noise has been reduced by approximately db, using our own silencing design. Twin ( Form C ) Forward/reverse motor control is possible with a single relay. Sealed construction Simple footprint enable ease of PC board layout Coil Normally Open Common Coil Normally Closed SPECIFICATIONS Contact Arrangement Form C (H bridge) Contact material Silver alloy Initial contact resistance (By voltage drop A) mω Contact voltage drop.v (at A) Rating Expected life (min. operations) Coil switching capacity carrying current switching capacity # N.O.: A N.C.: A 3 A for minutes, A for hour ( V, at C8 F) A for minutes, A for hour ( V, at 8 C8 F) A Mechanical (at cpm) 7 Electrical operating power Resistive load * Motor load * * 3 mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * At nominal switching capacity, operating frequency: s ON, 9s OFF * N.O.: at A (steady), A (inrush)/n.c.: at A (brake), operating frequency:.s ON, 9.s OFF * 3 At A (Motor lock), operating frequency:.s ON, 9.s OFF * Measurement at same location as Initial breakdown voltage section * Detection current: ma * Excluding contact bounce time * 7 Half-wave pulse of sine wave: ms; detection: µs * 8 Half-wave pulse of sine wave: ms TYPICAL APPLICATIONS Power windows Auto door lock Electrically powered sunroof Electrically powered mirror, etc. Characteristics operating speed (at nominal switching capacity) Initial insulation resistance* Initial breakdown voltage* Between open contacts Between contacts and coil Operate time* (at nominal voltage)(at C8 F) Release time* (at nominal voltage)(at C8 F) Shock resistance Vibration resistance Conditions for operation, transport and storage* (Not freezing and condensing at low temperature) Mass Functional* 7 Destructive* 8 Functional* 9 Destructive* Ambient temperature Humidity * 9 Detection time: µs * Time of vibration for each direction; X Y X, Y, direction: hours Z direction: hours Z cpm MΩ (at ) Vrms for min. Vrms for min. ms (initial) ms (initial) m/s {G}, m/s {G} Hz to Hz,. m/s {.G} Hz to Hz,. m/s {.G} C to +8 C F to +8 F % R.H. to 8% R.H. Approx..g. oz * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). ORDERING INFORMATION Ex. CR V Contact arrangement Coil voltage(dc) Form C V Standard packing: Carton(tube package) 3pcs. Case: 8pcs. 338 en_ds_9_: J

324 TYPES AND COIL DATA (at C 8 F) Part No. Pick-up (Initial)* Drop-out (Initial) * Other pick-up voltage types are also available. Please contact us for details. Coil resistance, Ω operating current, ma operating power, mw CR Usable voltage range, CR-V 7.. ±% 3.3±% to DIMENSIONS mm inch PC board pattern (Bottom view) dia dia A* Pre-soldering Tolerance: ±. ± Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. COM Schematic (Bottom view) COIL COM * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. NO NC EXAMPLE OF CIRCUIT Forward/reverse control circuits of DC motor for power window M COM COM Automotive Tr Tr NO VDC NC M Power window motor Tr Tr Motor OFF OFF Stop ON OFF Forward OFF ON Reverse en_ds_9_: J 339

325 CR REFERENCE DATA -(). Coil temperature rise (at room temperature) Sample: CR-V, pcs Contact carrying current: A, A, A Ambient temperature: Room temperature -(). Coil temperature rise (at 8 C 8 F) Sample: CR-V, pcs Contact carrying current: A, A Ambient temperature: 8 C 8 F. switching capability (Resistive load) (N.O. side Room temperature) Temperature rise, C 8 A A A Temperature rise, C 8 A A Switching VDC Coil applied V Coil applied V Switching current, A 3. Ambient temperature and operating temperature range. Ambient temperature characteristics. Distribution of pick-up and drop-out voltage Sample: CR-V, pcs Coil applied VDC 3 Pick-up voltage (Cold start) Ambient temperature, C. Distribution of operate time Sample: CR-V, pcs Quantity, n Time, ms 8-(). Operation noise distribution When actuated Ratio against the rated %V 8 7 Pick-up voltage upper limit Pick-up voltage lower limit Ambient temperature, C 7. Distribution of release time Sample: CR-V, pcs * With diode Quantity, n Time, ms 8-(). Operation noise distribution When released Frequency, n 7 Pick-up voltage Drop-out voltage Voltage, V Measuring conditions Sample: CR- V, pcs. Equipment setting: A weighted, Fast, hold Coil voltage: Coil connection device: Diode Background noise: Approx. db Frequency Frequency Microphone Relay mm.99inch Sponge 8 Noise level, db Noise level, db en_ds_9_: J

326 9-(). Electrical life test (Motor free) Sample: CR-V, 3pcs Load: Inrush current: A, Steady current: A, Brake current: A, power window motor actual load (free condition) Tested voltage: Ambient temperature: Room temperature Circuit VDC Load current waveform Inrush current: A, Steady current: A, Brake current: A Tested voltage: A ms M Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, mω N.C. side N.O. side CR X(N.C.) X(N.O.) No. of operations, 9-(). Electrical life test (Motor lock) Sample: CR-V, 3pcs Brake current: A, power window motor actual load (lock condition) Tested voltage: Switching frequency: (ON:OFF =.s:9.s) Ambient temperature: Room temperature Circuit VDC M Motor Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage Drop-out voltage X X Change of contact resistance Contact resistance, mω N.C. side N.O. side X X Automotive No. of operations, No. of operations, Load current waveform Brake current: A Tested voltage: A ms For Cautions for Use, see Relay Technical Information (page 39). en_ds_9_: J 3

327 CT (ACT) SUPER MINIATURE TWIN TYPE AUTOMOTIVE RELAY CT RELAYS (ACT) Twin type (8 terminals) FEATURES Small & slim size Twin type: 7.(L).(W) 3.(H)mm.8(L).(W).3(H)inch Slim c type: 7.(L) 7.(W) 3.(H)mm.8(L).83(W).3(H)inch Twin ( Form C ) Forward/reverse motor control is possible with a single relay. Simple footprint enables ease of PC board layout TYPICAL APPLICATIONS Power windows Auto door lock Power sunroof Electrically powered mirrors Powered seats Lift gates Slide door closers, etc. (for DC motor forward/reverse control circuits) 3..3 terminals layout mm inch Slim c type Contact terminal Coil terminal = 8 terminals SPECIFICATIONS Contact Arrangement Form C, Form C Contact material Silver alloy Initial contact resistance (By voltage drop A) mω Initial contact voltage drop. V (at A) Rating Expected life (min. operation) Coil switching capacity carrying current switching capacity # N.O.: A N.C.: A 3 A for minutes, A for hour ( V, at C 8 F) A for minutes, A for hour ( V, at 8 C 8 F) A Mechanical (at cpm) 7 Electrical operating power Resistive load * Motor load * (free) * 3 (lock) 8 mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * At nominal switching capacity, operating frequency: s ON, 9s OFF * N.O.: at A (steady), A (inrush)/n.c.: at A (brake), operating frequency:.s ON, 9.s OFF * 3 At A (Motor lock), operating frequency:.s ON, 9.s OFF * Measurement at same location as Initial breakdown voltage section * Detection current: ma * Excluding contact bounce time * 7 Half-wave pulse of sine wave: ms; detection: µs * 8 Half-wave pulse of sine wave: ms Characteristics operating speed (at nominal switching capacity) Initial insulation resistance* Initial breakdown voltage* Between open contacts Between contacts and coil Operate time* (at nominal voltage) (at C 8 F) Release time* (at nominal voltage) (at C 8 F) Shock resistance Vibration resistance Conditions for operation, transport and storage* (Not freezing and condensing at low temperature) Mass Functional* 7 Destructive* 8 Functional* 9 Destructive* Ambient temp Humidity * 9 Detection time: µs * Time of vibration for each direction; X Y X, Y, direction: hours Z direction: hours Z cpm MΩ (at ) Vrms for min. Vrms for min. ms (Initial) ms (Initial) m/s {G}, m/s {G} Hz to Hz,.m/s {.G} Hz to Hz,.m/s {.G} C to +8 C F to +8 F % R.H. to 8% R.H. Approx. 8.g.8oz (Twin type) Approx..g.oz (Slim c type) * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). 3 en_ds : J

328 ORDERING INFORMATION CT (ACT) Ex. A CT Product name CT TYPES AND COIL DATA (at C 8 F) Contact arrangement Contact arrangement Coil voltage () : Form C : : Form C (8 terminals type) : Form C ( terminals type) Standard packing; Form C: Carton(tube package) pcs. Case,pcs. Form C : Carton(tube package) pcs. Case 9pcs. Part No. Pick-up (Initial) * Other pick-up voltage types are also available. Please contact us for details. Drop-out (Initial) Coil resistance, Ω operating current, ma operating power, mw Usable voltage range, c ACT 7.. 8±%.7±% 8 to c (8 terminals type) ACT 7.. 8±%.7±% 8 to c ( terminals type) ACT 7.. 8±%.7±% 8 to DIMENSIONS. Twin type (8 terminals) PC board pattern (Bottom view) mm inch *A Sealed by epoxy resin Pre-soldering Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level dia dia Tolerance: ±.±. Schematic (Bottom view) COM COM NO NC COIL COIL dia dia Automotive. Twin type ( terminals) PC board pattern (Bottom view) en_ds : J *A Pre-soldering Sealed by epoxy resin Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level dia dia Tolerance: ±. ±. Schematic (Bottom view) COM COM NO NO NC NC COIL COIL dia dia 33

329 CT (ACT) 3. Slim c type mm inch PC board pattern (Bottom view) Sealed by epoxy resin *A Pre-soldering Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. 3-. dia. 3-. dia Tolerance: ±.±. Schematic (Bottom view) COM NO NC COIL dia dia. EXAMPLE OF CIRCUIT Forward/reverse control circuits of DC motor for power windows NO NC COM M COM NO NC SW A SW B M : Power window motor REFERENCE DATA -(). Coil temperature rise (at room temperature Sample: ACT, 3pcs. Contact carrying current: A, A, A Temperature rise, C 8 A A A -(). Coil temperature rise (at 8 C 8 F) Sample: ACT, 3pcs. Contact carrying current: A, A, A Temperature rise, C 8 A A A. switching capability (Resistive load) Switching VDC (N.O. side: room temperature) Coil applied V Coil applied V Switching current, A 3. Ambient temperature and operating voltage range. Distribution of pick-up and drop-out voltage Sample: ACT, pcs.. Distribution of operate and release time Sample: ACT, pcs. * Without diode Coil applied VDC 3 Pick-up voltage (Cold start) Ambient temperature, C Frequency Pick-up voltage Drop-out voltage Voltage, V Quantity, n 3 Operate time Release time Operate and release time, ms 3 en_ds : J

330 -(). Electrical life test (Motor free) Sample: ACT, 3pcs. Load: A steady, Inrush A, Brake current: 3A, Power window motor actual load (free condition) Operating frequency: (ON : OFF =.s : 9.s) Ambient temperature: Room temperature Circuit: Sample M Change of pick-up and drop-out voltage Pick-up and drop-out V 8 Contact welding: time Miscontact: time Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, mω CT (ACT) X No. of operations, Load current waveform Inrush current: A, Steady current: A Brake current: 3A A ms -(). Electrical life test (Motor lock) Sample: ACT, 3pcs. Load: A Switching frequency: (ON : OFF =.s : 9.s) Ambient temperature: Room temperature Circuit: Sample M Change of pick-up and drop-out voltage Pick-up and drop-out V 8 Contact welding: time Miscontact: time Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, mω X No. of operations, Automotive Load current waveform A ms en_ds : J 3

331 CT (ACT) -(3). Electrical life test (Motor lock) Sample: ACT, 3pcs. Load: A, door lock motor actual load (Lock condition) Switching frequency: (ON : OFF =.3s : 9.7s) Ambient temperature: Room temperature Circuit: Side Side Sample M M M M M M Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, mω X No. of operations, Relay Relay.3s 9.7s.3s 9.7s s ( cycle) Load current waveform A ms For Cautions for Use, see Relay Technical Information (page 39). 3 en_ds : J

332 AUTOMOTIVE LOW PROFILE MICRO-ISO/MICRO-8 RELAY CV (ACV) CV RELAYS (ACV) Micro ISO c type Micro ISO a type Micro 8 plug-in type Micro 8 PCB type FEATURES Low profile:. mm(l) mm(w).7 mm(h).88 inch(l).9 inch(w).8 inch(h) Low temperature rise Terminal temperature has been reduced compared with using our conventional product Low sound pressure level Noise level has been reduced approx.db compared with using our conventional product. Wide line-up Micro ISO/Micro 8 terminal types and resistor and diode inside type, PCB terminal type (Micro 8 only). Plastic sealed type Plastically sealed for automatic cleaning. Compact and high-capacity A load switching N.O.: A, N.C.: A ( carrying current: at 8 C 8 F) TYPICAL APPLICATIONS Headlights Magnetic clutches Radiator fans Blowers Fog lamps Tail lights Heaters Defoggers Horns Condenser fans, etc. SPECIFICATIONS Contact Arrangement Form A Form C Contact material Silver alloy Initial contact resistance (By voltage drop A) mω Contact voltage drop Rating Expected life (min. operation) Coil switching capacity carrying current switching capacity # Mechanical (at cpm) Electrical (at rated load) operating power # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. en_ds : J N.O.:. V (at A) N.O.: A V DC N.O.: A (Continuous, at 8 C 8 F) A for minutes, A for hour (at C 8 F) A for minutes, A for hour (at 8 C 8 F) A * N.O.:. V (at A switching) N.C.:. V (at A switching) N.O.: A V DC N.C.: A V DC <N.O.> N.O.: A (Continuous, at 8 C 8 F) A for minutes, A for hour (at C 8 F) <N.C.> N.C.: A (Continuous, at 8 C 8 F) A for minutes, A for hour (at 8 C 8 F).8 W,. W (with resister inside type) Characteristics operating speed (at nominal switching capacity) cpm Initial insulation resistance* MΩ (at ) Initial breakdown Between open contacts Vrms for min. voltage* 3 Between contacts and coil Vrms for min. Operate time* (at nominal voltage) (at C 8 F) (initial) ms Release time* (at nominal voltage) (at C 8 F) (initial) Shock resistance Vibration resistance Conditions in case of operation, transport and storage* 9 (Not freezing and condensing at low temperature) ms ms (with diode inside type) Functional* m/s { G} Destructive*, m/s { G} Functional* 7 Destructive* 8 Ambient temp* Humidity Hz to Hz,. m/s {. G} Hz to Hz,. m/s {. G} C to +8 C F to +8 F % R.H. to 8% R.H. Mass Approx..g.3 oz Remarks * At nominal switching capacity, operating frequency: s ON, s OFF * Measurement at same location as Initial breakdown voltage section. * 3 Detection current: ma * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Time of vibration for each direction; X Y X, Y, Z direction: hours Z * 9 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). * Ambient temperature C 7 F type is also available. Please contact us for details. 37 Automotive

333 CV (ACV) ORDERING INFORMATION Ex. A CV Product name Contact arrangement Mounting classification Type classification Coil CV : Form C 3: Form A : Micro ISO plug-in type : Micro 8 plug-in type 3: Micro 8 PC board type Note: Standard packing; Carton (Tube): pcs.; Case: pcs. : Standard type : With diode inside : With resistor inside : TYPES. Micro ISO terminal type Coil voltage (DC) Contact arrangement Mounting classification Type classification Part No. V. Micro 8 terminal type Form A Form C COIL DATA (at C 8 F) * Other pick-up voltage types are also available. Please contact us for details. Plug-in terminal Standard type With diode inside type With resistor inside type Standard type With diode inside type With resistor inside type ACV ACV3 ACV3 ACV ACV ACV Coil voltage (DC) Contact arrangement Mounting classification Type classification Part No. V Pick-up * (Initial) Form A Form C Drop-out (Initial) 7.. Plug-in terminal PC board terminal Plug-in terminal PC board terminal Coil resistance, W 8±%.3±% (with resistor) Standard type With diode inside type With resistor inside type Standard type With diode inside type With resistor inside type Standard type With diode inside type With resistor inside type Standard type With diode inside type With resistor inside type operating current, ma 7±% 8±% (with resistor) operating power, W.8. (with resistor) ACV ACV3 ACV3 ACV3 ACV33 ACV33 ACV ACV ACV ACV ACV3 ACV3 Usable voltage range, to DIMENSIONS. Micro ISO terminal type.7.8 Schematic (Bottom view) Form A 3 mm inch Sealed by epoxy resin *A Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. Including diode type, including resistor type also available Form C 3 Including diode type, including resistor type also available * Intervals between terminals is measured at A surface level. 38 en_ds : J

334 . Micro 8 terminal type ). Plug-in type.7.8 Schematic (Bottom view) Form A 87 CV (ACV) 8 mm inch a 8 Sealed by epoxy resin 8 *A Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. Including diode type, including resistor type also available 87 8 Form C 87A 8 Including diode type, including resistor type also available * Intervals between terminals is measured at A surface level. ). PC board type Schematic (Bottom view) Form A *A a Sealed by epoxy resin Dimension: Tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. 8 Form C Including diode type, including resistor type also available A 8 Including diode type, including resistor type also available Automotive REFERENCE DATA. Coil temperature rise (A) Point measured: Inside the coil Contact carrying current: A Coli applied voltage: 3.V. Distribution of pick-up and drop-out voltage Sample: ACV, pcs 3. Distribution of operate and release time Sample: ACV, pcs. Temperature rise, C 8 9 A Frequency 7 Pick-up voltage Drop-out voltage Quantity, n Operate time Release time 7 8 Ambient temperature, C Voltage, V Operate and release time, ms en_ds : J 39

335 CV (ACV) -(). Electrical life test (Resistive load) Sample: ACV, 3pcs. Load: Resistive load (NC switching) A Switching frequency: (ON : OFF = s : s) Ambient temperature: Room temperature Circuit 3.VDC Load current waveform Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, mω No. of operations, X Up: Coil voltage V waveform ms Down: Load current waveform A ms -(). Electrical life test (Lamp load) Sample: ACV, 3pcs. Load: Wx, inrush: 9A/steady: A, lamp actual load Switching frequency: (ON : OFF = s : s) Ambient temperature: Room temperature Circuit 3.VDC W W W W Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage Drop-out voltage. No. of operations, X X Change of contact resistance Contact resistance, mω X. No. of operations, Load current waveform Inrush current: 9A, steady current: A Up: Coil V voltage waveform ms Down: Load current waveform A ms en_ds : J

336 CV (ACV) -(3). Electrical life test (Motor load) Sample: ACV, 3pcs. Load: inrush: 8A/steady: 8A, radiator fan actual load (motor free) Switching frequency: (ON : OFF = s : s) Ambient temperature: Room temperature Circuit 3.VDC M M Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage X Drop-out voltage 3 X Change of contact resistance Contact resistance, mω X No. of operations, No. of operations, Load current waveform Inrush current: 8A, steady current: 8A Up: Coil V voltage waveform ms Down: Load current waveform A ms Cautions regarding the protection element. Part numbers without protection elements V models When connecting a coil surge protection circuit to these relays, we recommend a Zener diode with a Zener voltage of V or higher, or a resistor (8Ω to,ω). When a diode is connected to the coil in parallel, the release time will slow down and working life may shorten. Before use, please check the circuit and verify that the diode is not connected in parallel to the coil drive circuit.. Part numbers with diodes These relays use a diode in the coil surge protection element. Therefore, the release time is slower and the working life might be shorter compared to part numbers without protection elements and part numbers with resistors. Be sure to use only after evaluating under actual load conditions. 3. Part numbers with resistors This part number employs a resistor in the coil surge protection circuit; therefore, an external surge protection element is not required. In particular, when a diode is connected in parallel with a coil, the revert time becomes slower which could adversely affect working life. Please check the circuit and make sure that a diode is not connected in parallel with the coil drive circuit. Automotive For Cautions for Use, see Relay Technical Information (page 39). en_ds : J 3

337 EV (AEV) COMPACT BUT CUT OFF DC POWER CURRENT, POWER CAPSULE CONTACT RELAY. EV RELAYS (AEV) FEATURES A a a A a a Small size & light weight: size /, weight / (compared to conventional contactors) No arc space is required: size including arc space /9 (compared to conventional contactors) The arc is not exposed to the outside, therefore, no arc space is not required. Safety construction The arc is not exposed, therefore, the contactor is explosion proof and intrinsically safe. Quiet: operation noise / (compared to conventional contactors). Along with the above-mentioned miniaturization, the operation noise has been reduced to 7dB, and, in addition, the operation noise remains unchanged when a current of A or more is interrupted. High contact reliability The contact part is hermetically sealed with H mixed gas, hence the contact resistance remains stable regardless of the ambient conditions. Mounting direction is not specified The weight of the movable parts is light, and also the restoring force is large, hence the contactor is relatively unaffected by gravity. Line-up of indicator Type (A Type only) A line-up of relays with indicator that can monitor the relay operation. Coil voltage type is also available SPECIFICATIONS Contact Type A type A type A type Arrangement Rating switching capacity (resistive load) Short term current cut-off current Overload opening/ closing rating Reverse direction cut-off Contact voltage drop operating power Expected life (min. operations) Mechanical Electrical Form A, Form A Form A Form A A A A A (min) (mm ) A (min) (mm ) A (min) (.mm ),A V DC (3 cycles) # A ( cycles) #3 A ( cycles) A V DC ( cycles).v When current (is A per ) contact set 3W (Inrush, approx.s) W (Stable) A A ( cycles) #3 ( cycles) #3 A V A DC ( cycles) ( cycles) #3 #3.V When current (is A per ) contact set W Form A: Form A: A 3 L/R q ms A 3 L/R q ms #3.V When current (is A per ) contact set W A 3 L/R q ms #3 Characteristics Initial insulation resistance MΩ (at ) * Initial breakdown voltage Between open contacts Between contact and coil Operate time (at C) (at nominal voltage) Reset time (without diode) (at C) (at nominal voltage) Shock resistance Vibration resistance Conditions for operation, transport and storage (Not freezing and condensing at low temperature) Mass AC, Vrms for min. * AC, Vrms for min. * ms *3 ms * Functional 9 m/s { G}* Destructive 9 m/s { G}* Functional 3 m/s {. G} Hz to Hz* 7 Destructive 3 m/s {. G} Hz to Hz* 8 Ambient temperature Humidity C to +8 C* 9 F to +7 F % R.H. to 8% R.H. A Form A: g.oz A Form A:, g 38.8oz A: 3 g.oz A: g.93oz Remarks * Measurement at same location as Initial breakdown voltage section. * Detection current: ma. * 3 voltage applied to the coil,excluding bounce time. * voltage applied to the coil. * Half-wave pulse of sine wave: ms; detection time: µs. * Half-wave pulse of sine wave: ms. * 7 Detection time: µs. * 8 3 directions, each hours. * 9 Storage: 8 C 8 F. Notes * Same specifications as the V type. # Condition: switching cycles,each cut off, A. # Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). #3 The electrical load performance value for the A and A types applies when a varistor is connected in parallel to the coil. Please be warned that working life will be reduced when a diode is used. 3 en_ds_3_: J

338 Indicator ratings Arrangement Form A Form B Material Gold-clad Rating (resistive load). A (Low level load = min. ma) Contact resistance mω Note: Indicator type is only available for the A type. TYPICAL APPLICATIONS Electric Vehicle Hybrid Electric Vehicle ORDERING INFORMATION Ex. A EV EV (AEV) Product Name EV Indicator contact Contact arrangement Contact rating Coil voltage arrangement : Form A 3: A : without indicator contact : : Form A : A : a contact (A type only) : (A type) : A 3: b contact (A type only) Packing quantity Types Inner Outer A Form A pc. pcs. A Form A pc. pcs. A Form A pc. pcs. A Form A pc. pcs. SPARE PARTS Installing parts Part No. Packing Quantity M8 nut with washer for A type AEV8 pcs. M screw for A type AEV8 pcs. M screw for A type AEV83 pcs. Bus bar for A type AEV8 pcs. TYPES AND COIL DATA (at C 8 F) Part No. Coil Pick-up Drop-out coil current Operating power, W ( ) allowable Automotive AEV* AEV* AEV AEV 9.8 A ±% (at peak)* 3W (Inrush, approx..s) W (Stable). A ±% W AEV* AEV* 8.9 A ±% (at peak)*. A ±% (at peak)* 3W (Inrush, approx..s) W ( Form A) W ( Form A) 3 AEV AEV.8 A ±% W Note: * Same coil data as Indicator type. en_ds_3_: J 33

339 EV (AEV) DIMENSIONS A a dia dia. Main terminal M8: AEV8 (included) (Width across nut: mm.7 inch) (lead wire).8.39 Schematic (TOP VIEW) Coil( ) Coil( ) mm inch Z 9 8 Y 7 89X Z 9 8 Y 7 8 X GND/AVX(Green) wire diameter.sq V+/AVX(White) wire diameter.sq 3 output side has polarities (+) and (-) Mounting dimensions dia -.9 dia 3.3. Plate (Lot No.) (Terminal height) General tolerance: less than (.39) ±.3 (±.) (.39) to (.99) ±. (±.) more than (.99) ±. (±.39) A a Indicator Type dia dia. Main terminal M8: AEV8 (included) (Width across nut: mm.7 inch) (lead wire).8.39 Schematic (TOP VIEW) Coil(+) Coil( ) Z 9 8 Y 7 89X Z 9 8 Y 7 8 X GND/AVX(Green) wire diameter.sq V+/AVX(White) wire diameter.sq NO/AVX(Blue) wire diameter.sq/aev, NC/AVX(Red) wire diameter.sq/aev3,3 COM/AVX(Black) wire diameter.sq Indicator: NO or NC Indicator: COM output side has polarities (+) and (-) Mounting dimensions dia -.9 dia (Terminal height) Plate (Lot No.) General tolerance: less than (.39) ±.3 (±.) (.39) to (.99) ±. (±.) more than (.99) ±. (±.39) 3 en_ds_3_: J

340 A a EV (AEV) mm inch dia dia. Main terminal M8: AEV8 (included) (Width across nut: mm.7 inch) + 3 Z 9 8 Y X Z Y 7 X 89 (lead wire) V+/AVX(White) wire diameter.sq GND/AVX(Green) wire diameter.sq Schematic (TOP VIEW) Coil( ) Coil( ) output side has polarities (+) and (-) Mounting dimensions dia dia... Plate (Lot No.) (Terminal height) General tolerance: less than (.39) ±.3 (±.) (.39) to (.99) ±. (±.) more than (.99) ±. (±.39) A a Indicator Type dia dia Main terminal M8: AEV8 (included) (Width across nut: mm.7 inch) + 3 Z 9 8 Y X Z 9 8 Y 7 X 89 (lead wire) V+/AVX(White) wire diameter.sq GND/AVX(Green) wire diameter.sq NO/AVX(Blue) wire diameter.sq/aev, NC/AVX(Red) wire diameter.sq/aev3,3 COM/AVX(Black) wire diameter.sq + Schematic (TOP VIEW) output side has polarities (+) and (-) Mounting dimensions dia dia Coil(+) Coil( ) Indicator: NO or NC Indicator: COM Automotive... Plate (Lot No.) (Terminal height) General tolerance: less than (.39) ±.3 (±.) (.39) to (.99) ±. (±.) more than (.99) ±. (±.39) en_ds_3_: J 3

341 EV (AEV) A mm inch Schematic (TOP VIEW) Z 9 8 Y 7 X 89 - V+.GND/AEX(Gray) wire diameter.sq *Input coil wire is not polarized Coil dia dia (lead wire).8.39 output side has polarities (+) and (-) Mounting dimension Mscrew: AEV83 (installed) Mscrew: AEV8. Bus bar (3q): AEV8 (installed). -.3 dia -.9 dia Z 9 8 Y 7 X 89.. (terminal height).39. General tolerance: less than (.39) ±.3 (±.) (.39) to (.99) ±. (±.) more than (.99) ±. (±.39) A Mscrew:AEV83 Schematic (TOP VIEW) Coil Z 9 8 Y X V+GND/AEX(Gray) wire diameter.sq *Input coil wire is not polarized output side has polarities (+) and (-) dia dia (lead wire) Mounting dimension. -.3 dia -.9 dia (terminal height)..7 3 Z 9 8 Y 7 8 X 9.39 General tolerance: less than (.39) ±.3 (±.) (.39) to (.99) ±. (±.) more than (.99) ±. (±.39) REFERENCE DATA -() Ambient temperature characteristics (A type) Sample: AEV,3pcs Variation ratio, % 8 - x Pick-Up voltage Ambient - - x temperature, C - x - Drop-out voltage - Operate time () Ambient temperature characteristics (A type) Sample: AEV,3pcs Variation ratio, % Ambient temperature, C - - Pick-Up voltage Drop-out voltage x- - x - x 8 Operate time 3 en_ds_3_: J

342 NOTES. When installing the relay, always use washers to prevent loosening of the screws. Tighten each of the screws within the rated ranges given below. Exceeding the maximum torque may result in breakage. Mounting is possible in either direction. M8 screw (for A main terminal): 8 to N m M screw ( A, A, A main unit mounting section) ( A main terminal):. to 3. N m M screw ( A terminal):.8 to.7 N m. The coils ( A type) and contacts ( A, A, A) of the relay are polarized, so follow the instructions in the connection schematic when connecting the coils and contacts. Type A has contains a reverse surge voltage absorption circuit; therefore a surge protector is not needed. We recommend installing a surge protector varistor (ZNR) for the A and A types. Avoid using a diode as this may result in decreased cut-off capability. 3. As a general rule, do not use a relay if it has been dropped.. Avoid mounting the relay in strong magnetic fields (near a transformer or magnet) or close to an object that radiates heat.. Electrical life This relay is a high-voltage direct-current switch. In its final breakdown mode, it may lose the ability to provide the proper cut-off. Therefore, do not exceed the indicated switching capacity and life. (Please treat the relay as a product with limited life and replace it when necessary.) In the event that the relay loses cut-off ability, there is a possibility that burning may spread to surrounding parts, so configure the layout so that the power is turned off within one second. When using the A type, to prevent increases in the contact resistance, do not allow switching without any load.. Permeation life of internal gas This relay uses a hermetically encased contact (capsule contact) with gas inside. The gas has a permeation life that is affected by the temperature inside the capsule contact (ambient temperature + temperature rise due to flow of electrical current). For this reason, make sure the ambient operating temperature is between and 8 C and +7 F, and the ambient storage temperature is between and 8 C and +8 F. 7. If the power is turned off and then immediately on after applying the rated voltage (current) continuously to the relay s coil and contact, the resistance of the coil will increase due to a rise in the coil temperature. This causes the pick-up voltage to rise, and possibly exceed the rated pick-up voltage. In these circumstances, take measures such as reducing the load current, limiting the duration of current flow, and applying a coil voltage higher than the rated operating voltage (quick start). 8. Main contact ratings in the ratings apply to when there is a resistive load. If you are using an inductive load (L load) such that L/R > ms, add surge protection in parallel with the inductive load. If this is not done, the electrical life will decrease and cut-off failure may occur. 9. When using the A type, mount it as far away as possible from amateur wireless transmitters or devices that may generate large surges. To prevent malfunctioning due to high emission levels, it may be necessary to take measures for E.M.I., such as adding a line noise filter or an electromagnetic shield.. Since coil current control is performed, a slight amount of superimposed line noise may be generated in the input line system. If this noise must be removed, install a line noise filter. EV (AEV). Be careful that foreign matter and oils and fats kind doesn't stick to the main terminal part because it is likely to cause a terminal part to give off unusual heat.. Avoid excessive load applied to the terminal in case of installing such as a bus bar etc., because it might give bad influence to the opening and closing performance. M8 screw terminal (A main terminal part) Terminal pulling up strength; N per terminal The up-down rotation torque applied to the terminal; N m 3. When the A type is driven, sufficient current capacity is required when power is applied. When stabilized DC voltage is used, please verify that nominal coil current during peeks has a capacity of % or more for each relay. Automotive For Cautions for Use, see Relay Technical Information (page 39). en_ds_3_: J 37

343 JJ-M COMPACT SIZE AUTOMOTIVE RELAY JJ-M RELAYS FEATURES mm inch Compact (half-size). The base area is approximately half the size of conventional (JS-M) relays. The controller unit can be made more compact. Base area has been reduced by one half.8. JSM.7 JJM.. Perfect for automobile electrical systems. Over openings possible with a motor load, an inrush current of A, and steady state current of A. (N.O. side) Standard terminal pitch employed The terminal array used is identical to that used in small automotive relays. Plastic sealed type. Plastically sealed for automatic cleaning. Line-up of Form A and Form C. TYPICAL APPLICATIONS Power windows Auto door lock Electrically powered sun roof Electrically powered mirror Cornerring lamp, etc. SPECIFICATIONS Contact Arrangement Form A Form C Contact material Silver alloy Initial contact resistance (By voltage drop A) mω Rating (resistive load) Expected life (min. operations) Coil switching capacity switching capacity # carrying current Mechanical (at cpm) Electrical (at rated load) operating power A A A (N.O.) A (N.C.) 3 A (V, at C 8 F for minutes) A (V, at C 8 F for hour) A (V, at 8 C 8 F for minutes) A (V, at 8 C 8 F for hour) # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. 7 Resistive * (N.O.)* (N.C.)* 3 Motor load * (N.O.)* * (N.O.)* 7 (N.C.)* 8 mw Remarks * at A, at cpm, operating frequency: s ON, 9s OFF * at A, operating frequency: s ON, 9s OFF * 3 at A, at cpm, operating frequency: s ON, 9s OFF * at A (steady), A (inrush) * at A (Motor lock), operating frequency:. s ON, 9. s OFF * at A (steady), A (inrush) Characteristics operating speed (at rated load) cpm Initial insulation resistance* 9 MΩ (at ) Initial breakdown Between open contacts Vrms for min. voltage* Between contact and coil Vrms for min. Operate time* (at nominal voltage) Release time (without diode)* (at nominal voltage) (Initial) Shock resistance Vibration resistance Conditions in case of operation, transport and storage* (Not freezing and condensing at low temperature) Mass ms (at C 8 F) ms (at C 8 F) Functional* m/s { G} Destructive* 3, m/s { G} Functional* Destructive* Ambient temp. Humidity Hz to Hz,. m/s {. G} Hz to Hz,. m/s {. G} C to +8 C F to +8 F % R.H. to 8% R.H. Approx. g.7 oz * 7 at A (Motor lock) * 8 at peak A (Braking current) operating frequency:. s ON, 9. s OFF * 9 Measurement at same location as Initial break down voltage section. * Detection current: ma * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * 3 Half-wave pulse of sine wave: ms * Detection time: µs * Time of vibration for each direction; X, Y, Z direction: hours X Y Z * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). 38 en_ds : 88J

344 ORDERING INFORMATION Ex. JJM a - V JJ-M Contact arrangement a: : Form A Form C Coil voltage(dc) V (Note) Standard packing: Carton: pcs.; Case:, pcs. TYPES AND COIL DATA (at C 8 F) Contact arrangement Part No. Pick-up (Initial) * Other pick-up voltage types are also available. Please contact us for details. Drop-out (Initial) Coil resistance Ω operating current ma operating power mw Usable voltage range, Form A JJMa- V 7.. ±% 3.3±% to Form C JJM- V 7.. ±% 3.3±% to DIMENSIONS A Note: Marked terminal is only for Form C type * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. Schematic (Bottom view) a COM COIL COM COIL c NO NO NC mm inch PC board pattern (Bottom view) a. dia..9 dia dia..9 dia dia. 3-. dia. c.. -. dia. -. dia Tolerance: ±. ±. Automotive Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. REFERENCE DATA. Coil temperature rise Sample: JJM-V, pcs Point measured: Inside the coil Contact current: Now current through contact, A, A, A, A Resistance method, ambient temperature 8 C 8 F. switching capability (Resistive load) 3. Ambient temperature and operating voltage range (N.O. side: room temperature) Temperature rise, C 8 Coil applied V A A A A Non current through contact Switching VDC Switching current, A Coil applied VDC 3 Pick-up voltage (cold start) Ambient temperature, C en_ds : 88J 39

345 JJ-M. Distribution of pick-up and drop-out voltage Sample: JJM-V, pcs. Distribution of operate time Sample: JJM-V, pcs. Distribution of release time Sample: JJM-V, pcs * With diode 7 Pick-up voltage Drop-out voltage 7 7 Frequency Frequency Frequency Voltage, V Time, ms Time, ms 7-(). Electrical life test (at rated load) Sample: JJM-V Quantity: n = (NC = 3, NO = 3) Load: Resistive load (NC side: A, NO side: A ); Operating frequency: ON s, OFF 9s Ambient temperature: Room temperature Pick-up and drop-out V 7 3 Contact welding: time Miscontact: time X Pick-up voltage Drop-out voltage No. of operations, X 7-(). Electrical life test (Motor free) Sample: JJM-V, pcs. Load: A, Inrush A, Brake current 8A, Power window motor load (Free condition). Operating frequency: (ON : OFF =.s : 9.s) Ambient temperature: Room temperature Circuit : Tested sample M Change of pick-up and drop-out voltage Pick-up and drop-out V Contact welding: time Miscontact: time Pick-up voltage Drop-out voltage X X Change of contact resistance Contact resistance, mω N.C. side N.O. side X(N.C.) X(N.O.) No. of operations, No. of operations, 7-(3). Electrical life test (Motor lock) Sample: JJM-V, pcs. Load: A, VDC, Power window motor actual load (lock condition). Operating frequency: (ON : OFF = s : s) Ambient temperature: Room temperature Circuit : Tested sample M Change of pick-up and drop-out voltage Pick-up and drop-out V 7 3 Contact welding: time Miscontact: time X Pick-up voltage Drop-out voltage. No. of operations, X Change of contact resistance Contact resistance, mω N.C. side N.O. side. No. of operations, X(N.C.) X(N.O.) 3 en_ds : 88J

346 7-(). Electrical life test (Lamp load) Sample: JJM-V, pcs. Load: 7W+W, min. A (steady), Lamp actual load Operating frequency: ON s, OFF 3s Ambient temperature: Room temperature Circuit : Inrush current: A, Steady current:.a A ms Change of pick-up and drop-out voltage Pick-up and drop-out V Pick-up voltage X 3 Drop-out voltage X No. of operations, Change of contact resistance Contact resistance, mω JJ-M For Cautions for Use, see Relay Technical Information (page 39). Automotive N.C. side N.O. side X(N.O.) X(N.C) No. of operations, en_ds : 88J 3

347 JJ-M(w) DOUBLE MAKE CONTACT AUTOMOTIVE RELAY JJ-M RELAYS (Double make type) FEATURES mm inch Small size The smallest double make type relay.(w).(l) 3.9(H) mm.7(w).(l).7(h) inch Pattern design simplification Simplified pattern design is possible because, while double make construction is employed, the external COM terminal is single. Standard terminal pitch employed The terminal array used is identical to that used in JJM relays(c type). Plastic sealed type Plastically sealed for automotive cleaning. COM COIL N.O. N.O. <Schematic> SPECIFICATIONS Contact Arrangement Double make contact Contact material Silver alloy Initial contact resistance (By voltage drop A) mω Contact voltage drop.v (at A) Rating Expected life (min. operations) Coil switching capacity carrying current operating power switching capacity # A (at A, lamp load) A (V, at C 8 F), A (V, at 8 C 8 F) A Mechanical (at cpm) 7 Electrical (lamp load) *, mw # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * At A (lamp), operating frequency: s ON, s OFF * Measurement at same location as initial breakdown voltage section. * 3 Detection current: ma * Excluding contact bounce time. * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * 7 Detection time: µs * 8 Time of vibration for each direction; X, Y direction: hours Z direction: hours X Y Characteristics operating speed (at nominal switching capacity) cpm Initial insulation resistance* MΩ (at ) Initial breakdown Between open contacts Vrms for min. voltage* 3 Between contact and coil Vrms for min. Operate time* (at nominal voltage)(at C 8 F) ms (Initial) Release time (without diode)* (at nominal voltage)(at C 8 F) ms (Initial) Shock resistance Vibration resistance Conditions in case of operation, transport and storage* 9 (Not freezing and condensing at low temperature) Mass Functional* m/s { G} Destructive*, m/s { G} Functional* 7 Destructive* 8 Ambient temp. Humidity Hz to Hz,. m/s {. G} Hz to Hz,. m/s {. G} C to +8 C F to +8 F % R.H. to 8% R.H. Approx. g.7 oz Z * 9 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). TYPICAL APPLICATIONS Car alarm system flashing lamp etc. ORDERING INFORMATION Ex. JJM w V Contact arrangement Double make contact Coil voltage (DC) V Standard packing: Carton(tube package) pcs. Case:,pcs. 3 en_ds : J

348 TYPES AND COIL DATA (at C 8 F) Single side stable type Part No. DIMENSIONS Pick-up (Initial) Drop-out (Initial) Coil resistance Ω operating current, ma operating power, mw JJ-M(w) Usable voltage range, JJMw-V.9. ±% 83.3±%, to....7 Schematic (Bottom view) mm inch PC board pattern (Bottom view) A* Pre-soldering N.O. -. dia. -. dia. COM. dia...39 COIL.9 dia. N.O Tolerance: ±. ± Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. * Dimensions (thickness and width) of terminal in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. EXAMPLE OF CIRCUIT Control circuit for signal lights (security system) Flasher Relay JJ relay Double make type Turn signal SW Automotive L L L L L L Turn signal lamp Left Right REFERENCE DATA. Coil temperature rise Sample: JJMw-V, pcs. Point measured: Inside the coil Contact carrying current: A, A Ambient temperature: Room temperature, 8 C 8 F A( A), Room temperature Temperature rise, C 8 8A( A), 8 C 8 F Coil applied V en_ds : J. Ambient temperature and operating voltage range Coil applied VDC 3 Pick-up voltage (cold start) Ambient temperature, C 3. Distribution of pick-up and drop-out voltage Sample: JJMW-V, pcs. Frequency, n 7 Pick-up voltage Drop-out voltage Voltage, V 33

349 JJ-M(w). Distribution of operate time Sample: JJMW-V, pcs. Quantity, n Time, ms. Distribution of release time Sample: JJMW-V, pcs. * Without diode Quantity, n Time, ms. Electrical life test (Lamp load) Sample: JJMw-V, pcs. Load:.A, inrush 8A, W Operating frequency: (ON : OFF = s : s) Ambient temperature: Room temperature Circuit: Tested sample Load current waveform Current value per contact on one side Inrush current: 8A, Steady current:.a A ms Change of pick-up and drop-out voltage Pick-up and drop-out V 8 Contact welding: time Miscontact: time Pick-up voltage Drop-out voltage No. of operations, X X Change of contact resistance Contact resistance, mω No. of operations, X For Cautions for Use, see Relay Technical Information (page 39). 3 en_ds : J

350 JS-M Global Standard Terminal Pitch Automotive Power Relay JS-M RELAYS.8... c FEATURES Low pick-up voltage for high ambient use Sealed construction Global standard terminal pitch Usable at high temperature: 8 C 8 F TYPICAL APPLICATIONS Power-window Car antenna Door lock Intermittent wiper Interior lighting Power seat Power sunroof Car stereo Horn Lift gate, etc. mm inch SPECIFICATIONS Contact Arrangement Contact material Initial contact resistance (By voltage drop A) Contact voltage drop Rating Expected life (min. ope.) * Measured after operating times at the rated load Coil Contact rating switching capacity carrying current switching power switching voltage switching current switching capacity # Mechanical life (at 8 cpm) Electrical (at cpm) operating power High capacity Standard type type Form A, Form C Silver alloy * mω * mω. V (at A ) A (resistive) A (resistive) A (at C 8 F for minutes) A (at C 8 F for hour) A (at 8 C 8 F for minutes) A (at 8 C 8 F for hour) A W A ( A max. at 8 C) A 7 Resistive N.O.: N.C.: Standard type mw High capacity type Load Form C Form C Form A Form A N.O. N.C. N.O. N.C. carry current A A A A A A make current A A A A A A break current A A A A A A Characteristics operating speed (at rated load) Initial insulation resistance* Initial Between open contacts breakdown Between contacts and voltage* coil Operate time* 3 (at nominal voltage) Release time (without diode)* 3 (at nominal voltage) Shock resistance Vibration resistance Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Mass cps. MΩ (at ) 7 Vrms for min., Vrms for min. Approx. ms Approx. ms Functional* 98 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Ambient temp. Humidity Hz to Hz at double amplitude of. mm Hz to Hz at double amplitude of mm C to +8 C F to +8 F % R.H. to 8% R.H. Approx. g.3 oz # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Measurement at same location as Initial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). Automotive ORDERING INFORMATION Ex. JSM a F V Contact arrangement a: Form A : Form C Note: Standard packing: Carton: pcs. Case: pcs. en_ds : J Protective construction Coil voltage (DC) Contact material Nil: Sealed construction F: Flux-resistant type V : Standard type ( A) : High capacity type ( A) 3

351 JS-M TYPES AND COIL DATA (at C 8 F) Contact arrangement Coil Standard type ( A) High capacity type ( A) Sealed type Flux-resistant type Sealed type * Other pick-up voltage types are also available. Please contact us for details. Flux-resistant type Pick-up Drop-out Coil resistance Ω operating current, ma operating power, mw Form A JSMa-V- JSMaF-V- JSMa-V- JSMaF-V-.3.9 ±% 3.3±% Form C JSM-V- JSMF-V- JSM-V- JSMF-V-.3.9 ±% 3.3±% allowable (at 8 C 7 F ) DIMENSIONS A* N.O. N.C Dimension: General tolerance mm.39 inch: ±. ±. to 3mm.39 to.8 inch: ±. ±.8 3mm.8 inch: ±.3 ±. * Dimensions (thickness and width) of terminal specified in this catalog is measured before pre-soldering. Intervals between terminals is measured at A surface level. Schematic (Bottom view) a COIL COIL COM c COM PC board pattern (Bottom view) a c N.O. N.O. N.C. -.3 dia. -. dia dia. -. dia. mm inch Tolerance: ±. ±. REFERENCE DATA -(). Coil temperature rise (A) Measured portion: Inside the coil Contact carrying current, A Ambient temperature: Room temperature, 8 C 8 F -(). Coil temperature rise (A) Measured portion: Inside the coil Contact carrying current, A Ambient temperature: Room temperature, 8 C 8 F. switching capability (Resistive load) (N.O. side: room temperature) Temperature rise, C 8 Room temperature 8 C Temperature rise, C 8 Room temperature 8 C Switching VDC Coil applied V Coil applied V Switching current, A 3 en_ds : J

352 3. Ambient temperature and operating voltage range. Distribution of pick-up and drop-out voltage Sample: JSM-V-, pcs. JS-M. Distribution of operate and release time Sample: JSM-V-, pcs. Coil both side without diode Coil applied VDC 3 Pick-up voltage (cold start) Ambient temperature, C Quantity, n 7 Pick-up voltage Drop-out voltage Voltage, V Quantity, n Time, ms Operate time Release time -(). Electrical life test (Motor load) Sample: JSM-V-, 3pcs. Load: A (Inrush), A (Steady) Switching frequency: (ON : OFF = s : 9s) Circuit : DCV DCV Tested sample M Pick-up and drop-out V 3 Contact welding: times Miscontact: times Pick-up voltage Drop-out voltage X X No. of operations, -(). Electrical life test (Lamp load) Sample: JSM-V-, pcs. Load:.A (Inrush), 9.A. (Steady) Switching frequency: (ON : OFF = s : 3s) Circuit : DC.V DCV Tested sample Pick-up and drop-out V 3 Pick-up voltage X Contact welding: times Miscontact: times Drop-out voltage X Automotive No. of operations, For Cautions for Use, see Relay Technical Information (page 39). en_ds : J 37

353 JT-N COMPACT ECONOMICAL AMP. RELAY JT-N RELAYS FEATURES High switching capacity A for Form A contact arrangements Form A or Form C TMP types available UL/CSA recognized Class F types standard PCB type TMP type SPECIFICATIONS Contacts PCB & TMP type Arrangement Form A Form C Initial contact resistance, max. (By voltage drop method, mω A) Contact material Silver alloy Rating Expected life * The life is for open venting-hole condition. Coil at C 8 F switching power switching voltage switching current switching capacity # N.C.: 77 VA 8 VA N.O.: VA 77 V AC A ma, Mechanical 7 Electrical (Resistive load) operating power A 77 V AC * Approx. 8 mw N.C.: A N.O.: A N.O.: A 77 V AC * N.C.: A 77 V AC * Characteristics Initial insulation resistance* Initial Between contacts breakdown Between contacts voltage* and coil Operate time* 3 (at nominal voltage) Release time (without diode)* 3 (at nominal voltage) Shock resistance Vibration resistance Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight PCB & TMP type MΩ at, Vrms, Vrms ms ms Functional* 98 m/s { G} Destructive* 98 m/s { G} Functional* Destructive Ambient temp. Humidity 88. m/s {9 G}, to Hz at double amplitude of. mm 7. m/s { G}, to Hz at double amplitude of mm C to +8 C 7 F to +8 F to 8% R.H. PCB type: Approx. g (.88 oz) TMP type: Approx. g (. oz) # This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as Intial breakdown voltage section * Detection current: ma * 3 Excluding contact bounce time * Half-wave pulse of sine wave: ms; detection time: µs * Half-wave pulse of sine wave: ms * Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRONMENT (page 8). TYPICAL APPLICATIONS Automotive Air conditioner Heating & ventilation Home appliance 38 en_ds : J

354 ORDERING INFORMATION JT-N Relays (PCB and TMP type) JTN a S TMP F DCV JT-N Contact arrangement Protective construction Mounting classification a: Form A : Form C S: Sealed type PA: PCB type TMP: TMP type Notes:. UL/CSA approved type is standard.. Standard packing: PCB type: Carton: pcs. Case: pcs. TMP type: Carton: pcs. Case: pcs. Coil insulation Coil voltage F: Class F DC,, 9,,, 8, V COIL DATA (at C 8 F) Pick-up Drop-out Coil resistance, Ω (±%) operating power, mw allowable (max.) (Initial) (min.) (Initial) PCB & TMP PCB & TMP (at 7 C 8 F) DIMENSIONS. PCB type Form A Terminals Form C mm inch Terminals PC board pattern (Bottom view) dia dia. Terminal.... Coil Terminals -. dia. -. dia. Schematic (Bottom view) PC board pattern (Bottom view) dia dia. Terminal.... Coil Terminals -. dia. -. dia. Schematic (Bottom view) Automotive dia dia dia dia Tolerance:... TMP type Form A Terminals Terminal.... Form C Terminals Terminal COM NC NO COM NC NO PC board pattern (Bottom view) dia dia Schematic Coil Terminals -. dia. -. dia. PC board pattern (Bottom view) dia dia N.C. Schematic Coil Terminals -. dia. -. dia... COM N.O..... N.O. COM dia. -.3 dia. (Top view) (Bottom view) dia. -.3 dia. (Top view) (Bottom view) Tolerance:.. en_ds : J 39

355 JT-N REFERENCE DATA. Change of rate of pick-up and drop-out voltage (at C 8 F) Sample: JTNS-TMP-F-DCV ( pcs.). Operate & release time (at C 8 F) Sample: JTNS-TMP-F-DCV ( pcs.) 3. Operate & release time (at C 8 F) Sample: JTNaS-PA-F-DCV ( pcs.) Rate of change, % Drop-out voltage Pick-up voltage Ambient temperature, C F Time, ms Operate time Release time 8 9 Coil applied %V Operate/release time, ms Operate time Release time 8 9 Coil applied %V. Distribution frequency of pick-up voltage (at C 8 F) Sample: JTNS-TMP-F-DCV ( pcs.). Distribution frequency of drop-out voltage (at C 8 F) Sample: JTNS-TMP-F-DCV ( pcs.).-() Coil temperature rise (TMP type)* Ambient temperature: C 8 F Sample: JTNaS-TMP-F-DCV ( pcs.) Distribution frequency Distribution frequency Temperature rise, C 8 A A Pick-up V Drop-out V 8 Coil applied %V * Coil temperature rise of sealed types are same as data of the dust cover type. Ambient temperature: C 3 F Sample: JTNaS-TMP-F-DCV ( pcs.) Ambient temperature: 8 C 8 F Sample: JTNaS-TMP-F-DCV ( pcs.) Ambient temperature: C F Sample: JTNaS-TMP-F-DCV ( pcs.) Temperature rise, C A A Temperature rise, C A A Temperature rise, C A A 8 Coil applied %V 8 Coil applied %V 8 Coil applied %V For Cautions for Use, see Relay Technical Information (page 39). 37 en_ds : J

356 Safety Relays

357 SFD POLARIZED, MONOSTABLE SAFETY RELAY WITH FORCIBLY GUIDED DOUBLE CONTACTS SFD RELAY Features Relay complies with EN, Type A Overvoltage category as per IEC - III / kv Rated voltage as per IEC - basic insulation inside Polution degree outside 3 inside Coil-contact V V V Tolerance ±.3mm Weight approx. 7g Contact-contact V V V SPECIFICATIONS Contact Contact configuration (a = normally open / NO, b = normally closed / NC) Contact material Contact resistance (initial at, A) Making and breaking capacities (breathing hole open) * switching voltage switching voltage / min. switching current Pick-up / drop-out / bounce time (approx. values at U nominal ) Mechanical life Coil Operate / release voltage (% of U nominal at C) Pick-up/nominal power consumption at C Remarks ab AgSnO, with Au flash mω A V / 3A V V V / ma 7. / 7 / ms 7 ops 7% / % 8 / mw Characteristics switching frequency (without load) Hz Permissible ambient temperature at nominal power consumption - C to +7 C Upper temperature limit C Test voltage: open contact / contact-contact / contact-coil / / V rms Insulation resistance at (initial) 9 Ω Shock resistance (ms) NO/NC * G Vibration resistance Hz ( Hz, amplitude mm) * G Degree of protection IP7 / IP *3 Important: Relay characteristics may be influenced by: strong external magnetic fields magnetic conductive materials near the relay narrow top-to-top mounting (printed surface to printed surface) Note: Suitable for most common washing methods except ultrasonic cleaning. * According to EN 97--: 997, table AC / DC3 * Contact interruption <µs *3 Breathing hole open ORDERING INFORMATION Ex. SFD DC V Coil voltage (DC), 9,, 8,, 3, 8, 37 en_ds : D

358 COIL DATA Part number Coil nominal voltage VDC Operate voltage VDC Release voltage VDC Coil resistance Ω (±%, C) SFD Coil inductance (mh) SFD-DCV SFD-DC9V SFD-DCV SFD-DC8V SFD-DCV SFD-DCV SFD-DC3V SFD-DC8V SFD-DCV.. 7 ELECTRICAL LIFE Voltage Current Load type Frequency Duty cycle No. of contacts No. of ops. V AC 8A AC.Hz % * 8, * V AC A AC.33Hz % *, * V AC A AC.33Hz % *3, *,* V AC / 3A AC *.33Hz % *3, *,* 8A DC.33Hz % *3, *,* 3A DC 3 *.33Hz % *3, *,* 3A L/R = ms.33hz % *3, *,* * EN 97--: 997; table C. * Breathing hole closed *3 Breathing hole open * Ambient temperature +7 C * Dielectric strength according to EN8-:. REFERENCE DATA Load limit curve Coil voltage characteristics.7... Permissible coil voltage without contact load (nominal coil resistance).3.. Permissible coil voltage with contact load of x A and close mounting of relays (nominal coil resistance) Ucoil / Ucoil rated Average value of pick-up voltage without previous coil heating Safety... Minor increase due to temperature compensation.3.. Average value of drop-out voltage without previous coil heating Ambient temperature [ C] Loads in the range under the curve can be switched safely. The arc will extinguish before the opposite contact makes. Permissable coil voltages and pick-up and drop-out characteristics at various ambient temperatures. en_ds : D 373

359 SFD Connection diagram and pcb bore hole data Contact current characteristics + o o o o o 7 8. o - 9o o o o Bottom view The contacts are shown in the deenergized condition. o o o o o o.8 o o o o Grid typical value for manual insertion. - typical value for automatic insertion Thermal continuous current I th [A] Ucoil = %, Load on NC - Ucoil = %, Load on all NO Ucoil = %, Load on all NO Ucoil = %, Load on all NO The curves are determined by the contact resistance APPLICATION NOTES Ambient temperature [ C] Nipple If required a breathing hole can be made in the cover by removing the nipple. However be aware that the degree of protection will reduce from IP7 to IP! For Cautions for Use, see Relay Technical Information (page 39). 37 en_ds : D

360 SF3 POLARIZED, MONOSTABLE SAFETY RELAY WITH FORCIBLY GUIDED CONTACTS SF3 RELAY Features 3.3±...±. Relay complies with EN, Type A Overvoltage category as per IEC - III / kv Rated voltage as per IEC - basic insulation inside Polution degree outside 3 outside Coil-contact V V V Tolerance ±.3mm Weight approx. 7g Contact-contact V V V SPECIFICATIONS Contact Characteristics Contact configuration (a = normally open / NO, b = normally closed / NC) Contact material 3ab AgSnO, with Au flash switching frequency (without load) Permissible ambient temperature at nominal power consumption Hz - C to +7 C Contact resistance (initial at, A) Making and breaking capacities (breathing *, *3 A hole open) mω V / 3A V Upper temperature limit C Test voltage: open contact / contact-contact / contact-coil / / V rms switching voltage switching voltage / min. switching current Pick-up / drop-out / bounce time (approx. values at U nominal ) Mechanical life V V / ma. / 7 / 3ms 7 ops Insulation resistance at (initial) Shock resistance (ms) NO/NC * Vibration resistance Hz ( Hz, amplitude mm) * Solder bath temperature, maximum duration 9 Ω G G C, s Degree of protection IP7 / IP *3 Coil Operate / release voltage (% of U nominal at C) Pick-up/nominal power consumption at C 7% / % 8 / mw Important: Relay characteristics may be influenced by: strong external magnetic fields magnetic conductive materials near the relay narrow top-to-top mounting (printed surface to printed surface) Safety Remarks * According to EN 97--: 997, table AC / DC3 * Contact interruption <µs *3 Breathing hole open Note: Suitable for most common washing methods except ultrasonic cleaning. ORDERING INFORMATION Ex. SF3 DC V Coil voltage (DC), 9,, 8,, 3, 8, en_ds : D 37

361 SF3 COIL DATA Part number ELECTRICAL LIFE REFERENCE DATA Coil nominal voltage VDC Operate voltage VDC Release voltage VDC Coil resistance Ω (±%, C) Coil inductance (mh) SF3-V SF3-9V SF3-V SF3-8V SF3-V SF3-V SF3-3V SF3-8V SF3-V.. 7 Voltage Current Load type Frequency Duty cycle No. of contacts No. of ops. V AC 8A cos ϕ =.33Hz % *,*, *,* V AC A cos ϕ =.33Hz % *, *,* V AC A cos ϕ =.33Hz % *, *,* V AC / 3A AC *.Hz % *3, *,* V AC.A cos ϕ =..Hz % *3, *,* V AC.3A cos ϕ =.3.Hz % *3, *,* V AC.A cos ϕ =.3.Hz % *3, *,* A resistive.33hz % *, *,* A resistive.hz % *,, *,* 3A DC 3 *.33Hz % *3, *,* 3A L/R = ms.33hz % *3, *,* * EN 97--: 997; table C. * Breathing hole closed *3 Breathing hole open * Ambient temperature +7 C * Dielectric strength according to EN8-:. * Normally open contacts Load limit curve Loads in the range under the curve can be switched safely. The arc will extinguish before the opposite contact makes. Coil voltage characteristics Ucoil / Ucoil rated Permissible coil voltage with contact load of x A and close mounting of relays (nominal coil resistance) Average value of pick-up voltage without previous coil heating Minor increase due to temperature compensation Average value of drop-out voltage without previous coil heating Permissible coil voltage without contact load (nominal coil resistance) Ambient temperature [ C] Permissable coil voltages and pick-up and drop-out characteristics at various ambient temperatures. 37 en_ds : D

362 SF3 Connection diagram and pcb bore hole data Contact current characteristics + o o o o o 7 8. o - 9o o o o Bottom view The contacts are shown in the deenergized condition. o o o o o o o o o o Grid. APPLICATION NOTES Nipple If required a breathing hole can be made in the cover by removing the nipple. However be aware that the degree of protection will reduce from IP7 to IP! Safety.8 Thermal continuous current I th [A] Ucoil = %, Load on NC - Ucoil = %, Load on NO 7-8 and NO 9- The curves are determined by the contact resistance typical value for manual insertion. - typical value for automatic insertion Ambient temperature [ C] en_ds : D 377

363 SFD POLARIZED, MONOSTABLE SAFETY RELAY WITH FORCIBLY GUIDED CONTACTS SFD RELAY Features Relay complies with EN, Type B Overvoltage category as per IEC - III / kv. Rated voltage as per IEC - basic insulation inside Polution degree outside 3 inside Coil-contact V V V Tolerance±.3mm Weight approx. 7g Contact-contact forcibly linked pair only all other contacts V V V V V V SPECIFICATIONS Contact Contact configuration (a = normally open / NO, b = normally closed / NC) Contact material Contact resistance (initial at, A) Making and breaking capacities (breathing hole open) * switching voltage switching voltage / min. switching current Pick-up / drop-out / bounce time (approx. values at U nominal ) Mechanical life Coil Operate / release voltage (% of U nominal at C) Pick-up/nominal power consumption at C Remarks ab AgSnO, with Au flash mω A V / 3A V V V / ma 8. / 7. / 3ms 7 ops 7% / % 8 / mw Characteristics switching frequency (without load) Hz Permissible ambient temperature at nominal power consumption - C to +7 C Upper temperature limit C Test voltage: open contact / contact-contact / contact-coil / / V rms Insulation resistance at (initial) 9 Ω Shock resistance (ms) NO/NC * G Vibration resistance Hz ( Hz, amplitude mm) * G Degree of protection IP7 / IP *3 Important: Relay characteristics may be influenced by: strong external magnetic fields magnetic conductive materials near the relay narrow top-to-top mounting (printed surface to printed surface) Note: Suitable for most common washing methods except ultrasonic cleaning. * According to EN 97--: 997, table AC / DC3 * Contact interruption <µs *3 Breathing hole open ORDERING INFORMATION Ex. SFD DC V Coil voltage (DC), 9,, 8,, 3, 8, 378 en_ds_7_: D

364 COIL DATA Part number Coil nominal voltage VDC Operate voltage VDC Release voltage VDC Coil resistance Ω (±%, C) SFD Coil inductance (mh) SFD-DCV SFD-DC9V SFD-DCV SFD-DC8V SFD-DCV SFD-DCV SFD-DC3V SFD-DC8V SFD-DCV ELECTRICAL LIFE Voltage Current Load type Frequency Duty cycle No. of contacts No. of ops. V AC 8A AC.Hz % * 8, * V AC A AC.33Hz % * / 8 *3, * V AC A AC.33Hz % *3, *,* V AC / 3A AC *.33Hz % *3, *,* 8A DC.33Hz % *3, *,* 3A DC 3 *.33Hz % *3, *,* 3A L/R = ms.33hz % *3, *,* * EN 97--: 997; table C. * Breathing hole closed *3 Breathing hole open * Ambient temperature +7 C * Dielectric strength according to EN8-:. REFERENCE DATA Load limit curve Coil voltage characteristics.7... Permissible coil voltage without contact load (nominal coil resistance).3. Permissible coil voltage with contact load of x A (nominal coil resistance). Ucoil / Ucoil rated Average value of pick-up voltage without previous coil heating Safety... Minor increase due to temperature compensation.3.. Average value of drop-out voltage without previous coil heating Ambient temperature [ C] Loads in the range under the curve can be switched safely. The arc will extinguish before the opposite contact makes. Permissable coil voltages and pick-up and drop-out characteristics at various ambient temperatures. en_ds_7_: D 379

365 SFD Connection diagram and pcb bore hole data 3 o o o o Contact current characteristics + o o - 9 o o o o o 7 o o o o 8 9 o o o o Bottom view The contacts are shown in the deenergized condition. o o o o o o o o Grid. Thermal continuous current I th [A] Ucoil = %, Load on NC - Ucoil = %, Load on NO 7-8 Ucoil = %, Load on all NO The curves are determined by the contact resistance.73 o o o o o o o o o Ambient temperature [ C] typical value for manual insertion. - typical value for automatic insertion APPLICATION NOTES Actuator Outer contact Inner contact Rotating armature Nipple If required a breathing hole can be made in the cover by removing the nipple. However be aware that the degree of protection will reduce from IP7 to IP! Operation of forcibly guided contacts, Type B If an outer contact should weld, then the forced operated inner contacts driven by the actuator remain open. The rotating armature remains free to move. The unaffected contact pairs can operate normally, i.e. their function to make or break remains unaffected. Actuator Outer contact Inner contact Rotating armature If an inner contact should weld, then the movement of the rotating armature is blocked via the actuator. Open contacts of all four contact pairs remain open. This arrangement corresponds to a conventional forcibly guided contact operation. Actuator Outer contact Inner contact Rotating armature For Cautions for Use, see Relay Technical Information (page 39). 38 en_ds_7_: D

366 LOW PROFILE SAFETY RELAY WITH FORCIBLY GUIDED CONTACTS SFND RELAY SFND Features Relay complies with EN, Type B Polarized magnet system with snap action function Extremely small total power loss - coil power consumption of 39mW - Double contacts with low contact resistance, e.g. [(A).mΩ] NO = 3mW Relay height,.mm Tolerance ±.3 mm Weight approx. g Reinforced insulation according to EN 78 - between coil-contacts and contacts-contacts - rated voltage of the circuits / V or 77 / 8Vrms - rated impulse voltage of kv clearance. mm - pollution degree creepage distance.mm SPECIFICATIONS Contact Contact configuration (a = normally open / NO, b = normally closed / NC) Contact material Contact resistance (initial at, A) Typical contact resistance switching capacity switching voltage switching voltage / min. switching current Pick-up / drop-out / bounce time (approx. values at U nominal ) Mechanical life Coil ab AgSnO, with Au flash mω.mω A/8A * V AC V AC / DC Reference V / ma 3 / * / ms 7 ops Operate / release and holding at C (% of U nominal ) *3 7% / % min. 8% Pick-up/nominal power consumption 9-3 / 39-mW Characteristics switching frequency (without load) Hz Permissible ambient temperature at nominal power consumption *3 - C to 9 C Upper temperature limit C Test voltage: open contact / contact-contact / contact-coil / / V rms Insulation resistance at (initial) 9 Ω Shock resistance (ms) NO/NC * / G Vibration resistance Hz ( Hz, amplitude mm) * G Degree of protection RT III * Important: Relay characteristics may be influenced by: strong external magnetic fields magnetic conductive materials near the relay narrow top-to-top mounting (printed surface to printed surface) Safety * See ELECTRICAL LIFE (Reference Data) * on page 38. * Without diode *3 See also REFERENCE DATA on page 383. * Contact interruption <µs * According to EN 8-:, table ORDERING INFORMATION Ex. SFND DC V Coil voltage (DC), 9,,, 8,, 3, 8, Other coil voltage available upon request en_ds_8_: D 38

367 SFND COIL DATA (at C) Part number Coil nominal voltage Operate voltage * Release voltage * Coil resistance Ω (±%, C) SFND-DCV SFND-DC9V SFND-DCV SFND-DCV... SFND-DC8V SFND-DCV.7..8 SFND-DCV SFND-DC3V SFND-DC8V SFND-DCV * Operate and release voltage at different temperatures, see REFERENCE DATA on page 383, coil voltage characteristics. SWITCHING CAPABILITY Making / breaking capacities according to EN 97--:, table / ; AC: A V AC / DC3: A Endurance / overload test according to UL 8 edition, sections / 3; A V AC / A ; B / R; File E78 ELECTRICAL LIFE (Reference Data) * Voltage Current (A) Load type Frequency Duty cycle No. of contacts No. of ops. V AC 8 AC.Hz % 8, V AC AC.Hz %, V AC. AC.Hz %,, V AC / AC.Hz % 3, * DC.Hz %,,.7 DC 3.Hz % >,, * * Test conditions: Room temperature, breathing hole closed, dielectric strength according to EN8-:. * Has to be confirmed Further data is under preparation. DIMENSIONS Outer dimensions 3.3 Breathing hole Stand-off.3 (x).8 (x)... General tolerance: ± (.) Projection mode: Schematic (Bottom view) PC board pattern (Bottom view) dia., typical value for manual insertion. dia., typical value for automatic insertion 38 en_ds_8_: D

368 REFERENCE DATA SFND Coil voltage characteristics 7 permissible coil voltage without contact load Coil applied voltage [%] operative range of the coil voltage typical operate and release voltage with the +/-3σ range without preheated coil min. release voltage at the end of the electrical life min. recommended holding voltage Ambient temperature [ o C] Thermic operating range Switching time in relation to coil excitement at C 7 7 NO contacts simultaneously x 8A x A x A To the right of the curves the relay operates in a temperature range exceeding the stated limit of o C Safety Coil applied voltage [%] Coil applied voltage [%] 9 bbm 8 7 NC NO Ambient temperature [ o C] Typ. pick-up time [ms] en_ds_8_: D 383

369 SFND REFERENCE DATA, continued Load limit curve Contact voltage [VDC] 7 W W W W W 8 W W W W W Contact current [A] Time / current characteristic Current [A] Fuse-link D II A, V operating class gl (A gg) DIN 9 SFND, Contact withstand current glass tube x mm, V Fuse-link,3A F (quick acting) IEC 7-/... Time [Sec] 38 en_ds_8_: D

370 APPLICATION NOTES The SFND Safety Relay SFND NC contact - Sub card Armature NO contact - Remark: Only NC - monitors all NO contacts! NO contact 7-8 Main card 7 9 Sub card NO contact NO contact 9- NC contact - Legend for interpreting contact conditions Contact NC (Normally Closed) NO (Normally Open) Condition Closed Fully open Open Open or closed Closed Fully open Open Open or closed Symbol Contact gap Maximum (~.mm) >.mm (forcibly guided) Not defined Maximum (~.mm) >.mm (forcibly guided) Not defined The SFND under normal operating conditions Condition Illustration of Relay State Condition of Contacts - Coil deenergized. - Armature in deenergized position. - NC contacts closed. - NO contacts have a contact gap of approx..mm Coil energized. - Armature in energized position. - NO contacts closed. - NC contacts have a contact gap of approx..mm Safety en_ds_8_: D 38

371 SFND The SFND safety relay with welded contacts Condition Illustration of Relay State Condition of Contacts - NC - welded. - Coil energized. - Armature nearly in deenergized position All NO contacts are forcibly guided. - The NO contact gaps are min..mm. - For NC -, the contact condition is not defined. - NC - welded. - Coil energized. - Armature nearly in deenergized position All NO contacts are forcibly guided. - The NO contact gaps are min..mm. - For NC -, the contact condition is not defined. - NO - welded. - Coil deenergized. - Armature nearly in energized position All (both) NC contacts are forcibly guided. - The NC contact gaps are min..mm. - For all NO contacts, the contact condition is not defined. - NO -3 welded. - Coil deenergized. - Armature in nearly energized position All (both) NC contacts are forcibly guided. - The NC contact gaps are min..mm. - For all NO contacts, the contact condition is not defined. - NO 7-8 welded. - Coil deenergized. - Armature in deenergized position NC - is closed!! - All non-welded NO contacts show their max. contact gap. - NC - forcibly guided to the welded contact by sub card. The contact gap is min..mm. - NO 9- welded. - Coil deenergized. - Armature in deenergized position NC - is closed!! - All non-welded NO contacts show their max. contact gap. - NC - forcibly guided to the welded contact by sub card. The contact gap is min..mm. 38 en_ds_8_: D

372 Failure modes, application examples SFND ) Feedback loop, ) Self-holding circuit, 3) Safety circuit, ) Auxilliary contacts Condition of contacts at deenergized coil. Self-holding circuit, three safety circuits One contact welded, e.g. NO 9- of K. 7 9 K 8 3 K K K ) ) ) 3) 3) 3) ) One contact welded, e.g. NO - of K. Condition of contacts at deenergized coil 7 K 8 K Condition of contacts at deenergized coil.. Four safety circuits One contact welded, e.g. NO 9- of K. K K K K Condition of contacts at deenergized coil ) 3) 3) 3) 3) ) (see wiring example, p. 388) One contact welded, e.g. NO - of K. K K Condition of contacts at deenergized coil.. Two safety circuits 7 9 K 8 3 Both contacts of one path are welded, e.g. NO 7-8 and NO -3. A safety circuit needs two paths in this failure mode. The contacts 9-, -, and -3 of K interrupt the load. K K Safety K ) 3) 3) ) (see wiring example, p. 388) { { Both contacts of one path are welded, e.g. NO 9- and NO -. A safety circuit needs two paths in this failure mode. The contacts 7-8, -, and -3 of K interrupt the load. Condition of contacts at deenergized coil K K en_ds_8_: D 387

373 SFND Wiring for application examples. and st layer nd layer For Cautions for Use, see Relay Technical Information (page 39). 388 en_ds_8_: D

374 Relay Technical Information

375 Definition of Relay Terminology Relay Technical Information Definition of Relay Terminology COIL (also referred to as primary or input) Coil Voltage (Rated Coil Voltage) A single value (or narrow range) of source voltage intended by design to be applied to the coil or input. Pick-Up Voltage (Pull-In Voltage or Must Operate Voltage) As the voltage on an unoperated relay is increased, the value at or below which all contacts must function (transfer). Drop-Out Voltage (Release or Must Release Voltage) As the voltage on an operated relay is decreased, the value at or above which all contacts must revert to their unoperated position. Maximum Continuous Voltage The maximum voltage that can be applied continuously to the coil without causing damage. Short duration spikes of a higher voltage may be tolerable, but this should not be assumed without first checking with the manufacturer. Operating Current The value of current flow in the coil when nominal voltage is impressed on the coil Operating Power The value of power used by the coil at nominal voltage. For DC coils expressed in watts; AC expressed as volt amperes. Power (W or VA) = Voltage Current. Coil Resistance This is the DC resistance of the coil in DC type relays for the temperature conditions listed in the catalog. (Note that for certain types of relays, the DC resistance may be for temperatures other than the standard C 8 F.) Coil Designation Single side stable type coil latching type coil latching type Non-polarized Polarized -terminal 3-terminal or + or + + A black coil represents the energized state. For latching relays, schematic diagrams generally show the coil in its reset state. Therefore, the coil symbol is also shown for the reset coil in its reset state. 39 J

376 CONTACTS (secondary or output) Contact Forms Denotes the contact mechanism and number of contacts in the contact circuit. Contact Symbols Form A contacts (normally open contacts) Form B contacts (normally closed contacts) Form C contacts (changeover contacts) Form A contacts are also called N.O. contacts or make contacts. Form B contacts are also called N.C. contacts or break contacts. Form C contacts are also called changeover contacts or transfer contacts. MBB Contacts Abbreviation for make-before-break contacts. Contact mechanism where Form A contacts (normally open contacts) close before Form B contacts open (normally closed contacts). Rated Switching Power The design value in watts (DC) or volt amperes (AC) which can safely be switched by the contacts. This value is the product of switching voltage x switching current, and will be lower than the maximum voltage and maximum current product. Maximum Switching Voltage The maximum open circuit voltage which can safely be switched by the contacts. AC and DC voltage maximums will differ in most cases. Maximum Switching Current The maximum current which can safely be switched by the contacts. AC and DC current maximums may differ. Maximum Switching Power The upper limit of power which can be switched by the contacts. Care should be taken not to exceed this value. Maximum Carrying Current The maximum current which after closing or prior to opening, the contacts can safely pass without being subject to temperature rise in excess of their design limit, or the design limit of other temperature sensitive components in the relay (coil, springs, insulation, etc.). This value is usually in excess of the maximum switching current. Minimum switching capability This value is a guideline as to the lowest possible level at which it will be possible for a low level load to allow switching. The level of reliability of this value depends on switching frequency, ambient conditions, change in the desired contact resistance, and the absolute value. Please use a relay with AgPd contacts if your needs analog low level loads, control, or a contact resistance of mω or less. We recommend that you verify with one of our sales offices regarding usage. Maximum Switching Capacity This is listed in the data column for each type of relay as the maximum value of the contact capacity and is an interrelationship of the maximum switching power, maximum switching and maximum switching current. The switching current and switching voltage can be obtained from this graph. For example, if the switching voltage is fixed in a certain application, the maximum switching current can be obtained from the intersection between the voltage on the axis and the maximum switching power. Maximum Switching Capacity (TX relay) Example: Using TX relay at a switching voltage of, the maximum switching current is A. (Maximum switching capacity is given for a resistive load. Be sure to carefully check the actual load before use.) Switching current, A DC resistive load Contact V Contact Resistance This value is the combined resistance of the resistance when the contacts are touching each other, the resistance of the terminals and contact spring. The contact Definition of Relay Terminology resistance is measured using the voltagedrop method as shown below. The measuring currents are designated in Fig.. A A : Ammeter V : Voltmeter R : Variable resister Fig. Test Currents Rated Contact Current or Test Current Switching Current (A) (ma) Less than.. or more and less than.. or more and less than or more, V Measured contact R Power source (AC or DC) The resistance can be measured with reasonable accuracy on a YHP 38A milliohmmeter. In general, for relays with a contact rating of A or more, measure using the voltage-drop method at A. Capacitance This value is measured between the terminals at khz and C 8 F. Technical Info. J 39

377 Definition of Relay Terminology PERFORMANCE Insulation Resistance The resistance value between all mutually isolated conducting sections of the relay, i.e. between coil and contacts, across open contacts and between coil or contacts to any core or frame at ground potential. This value is usually expressed as initial insulation resistance and may decrease with time, due to material degradation and the accumulation of contaminants. Breakdown Voltage (Hi-Pot or Dielectric Strength) The maximum voltage which can be tolerated by the relay without damage for a specified period of time, usually measured at the same points as insulation resistance. Usually the stated value is in VAC (RMS) for one minute duration. Surge Withstand Voltage The ability of the device to withstand an abnormal externally produced power surge, as in a lightning strike, or other phenomenon. An impulse test waveform is usually specified, indicating rise time, peak value and fall time. (Fig. ), V 7 V Fig. µs µs Operate Time (Pull-In or Pick-Up Time) The elapsed time from the initial application of power to the coil, until the closure of the normally open contacts. (With multiple pole devices the time until the last contact closes.) This time does not include any bounce time. Release Time (Drop-Out Time) The elapsed time from the initial removal of coil power until the reclosure of the normally closed contacts (last contact with multi-pole) this time does not include bounce. Set Time Term used to describe operate time of a latching relay. Reset Time Term used to describe release time of a latching relay. With a -coil magnetic latching relay the time is from the first application of power to the reset coil until the reclosure of the reset contacts. With a single coil latching relay, the time is measured from the first application of reverse coil voltage until the reclosure of the reset contact. Contact Bounce (Time) Generally expressed in time (ms), this refers to the intermittent switching phenomenon of the contacts which occurs due to the collision between the movable metal parts or contacts, when the relay is operated or released. Operate Bounce Time The time period immediately following operate time during which the contacts are still dynamic, and ending once all bounce has ceased. Release Bounce Time The time period immediately following release time during which the contacts are still dynamic, ending when all bounce has ceased. Shock Resistance, Destructive The acceleration which can be withstood by the relay during shipping or installation without it suffering damage, and without causing a change in its operating characteristics. Usually expressed in G s. Shock Resistance, Functional The acceleration which can be tolerated by the relay during service without causing the closed contacts to open for more than the specified time. (usually µs) Vibration Resistance, Destructive The vibration which can be withstood by the relay during shipping, installation or use without it suffering damage, and without causing a change in its operating characteristics. Expressed as an acceleration in G s or displacement, and frequency range. Vibration Resistance, Functional The vibration which can be tolerated by the relay during service, without causing the closed contacts to open for more than the specified time. Mechanical Life The minimum number of times the relay can be operated under nominal conditions (coil temperature, humidity, etc.) with no load on the contacts. Electrical Life The minimum number of times the relay can be operated under nominal conditions with a specific load being switched by the contacts. Maximum Switching Frequency This refers to the maximum switching frequency which satisfies the mechanical life or electrical life under repeated operations by applying a pulse train at the rated voltage to the operating coil. Life Curve This is listed in the data column for each type of relay. The life (number of operations) can be estimated from the switching voltage and switching current. For example, for a DS relay operating at: Switching voltage = V AC Switching current =.A The life expectancy is, operations. However, this value is for a resistive load. Be sure to carefully check the actual load before use. Life Curve Life ( ), resistance load V AC resistance load Current (A) 39 J

378 HIGH FREQUENCY CHARACTERISTICS Isolation High frequency signals leak through the stray capacitance across contacts even if the contacts are separated. This leak is called isolation. The symbol db (decibel) is used to express the magnitude of the leak signal. This is expressed as the logarithm of the magnitude ratio of the signal generated by the leak with respect to the input signal. The larger the magnitude, the better the isolation. Insertion Loss At the high frequency region, signal disturbance occurs from self-induction, resistance, and dielectric loss as well as from reflection due to impedance mismatching in circuits. Loss due to any of these types of disturbances is called insertion loss. Therefore, this refers to the magnitude of loss of the input signal. The smaller the magnitude, the better the relay. V.S.W.R. (Voltage Standing Wave Ratio) High frequency resonance is generated from the interference between the input signal and reflected (wave) signal. V.S.W.R. refers to the ratio of the maximum value to minimum value of the waveform. The V.S.W.R. is when there is no reflected wave. It usually becomes greater than. Notes:. Except where otherwise specified, the tests above are conducted under standard temperature and humidity ( C to 3 C 9 F to 9 F, to 7%). Definition of Relay Terminology. The coil impressed voltage in the switching tests is a rectangular wave at the rated voltage. 3. The phase of the AC load operation is random. PROTECTIVE CONSTRUCTION Several different degrees of protection are provided for different relay types, for resistance to dust, flux, contaminating environments, automatic cleaning, etc. Open Type For reasons of cost, some devices are not provided with any enclosure. It is usually assumed that the end application will be in an overall enclosure or protective environment. Dust Cover Type Most standard relays are provided with a dust cover of some type. This protects the relay from large particulate contamination, and also may protect user personnel from a shock hazard. Flux-Resistant Type In this type of construction, solder flux penetration is curtailed by either insert molding the terminals with the header, or by a simple sealing operation during manufacturing. Sealed Type This type of sealed relay totally excludes the ingress of contaminants by way of a sealing compound being applied to the header/cover interface. The constituent components are annealed for physical and chemical stability. This annealing process drives off residual volatiles in the plastics, insuring a contaminant free environment inside the sealed relay, resulting in more stable contact resistance over life. Hermetic Seal The plastic sealed type is not a true hermetic seal, there is an exchange of gas molecules through the plastic cover over time. The only true hermetic seals are metal to metal and glass to metal. The entire device is purged with dry nitrogen gas prior to sealing, improving reliability. CONSTRUCTION AND CHARACTERISTIC Type Construction Characteristics Automatic Soldering Automatic Cleaning Harmful Gas Resistance Dust Cover Type Flux-Resistant Type Sealed Type ;Base ; Base Sealing resin Most basic construction where the case and base (or body) are fitted together. Terminals are sealed or molded simultaneously. The joint between the case and base is higher than the surface of the PC board. Terminals, case, and base are filled with sealing resin. No No No Yes No No Yes Yes Yes Technical Info. Metal case Metallic Hermetic Seal Type Hermetically sealed with metal case and metal base. Terminals are sealed with glass. Yes Yes Yes Glass Metal base J 393

379 Definition of Relay Terminology OPERATIONAL FUNCTION Single Side Stable Type Relay which turns on when the coil is energized and turns off when deenergized. (Fig. 3) 3 + Coil Latching Type Relay with a latching construction composed of coils: set coil and reset coil. The relay is set or reset by alternately applying pulse signals of the same polarity. (Fig. ) Operation Indication Indicates the set and reset states either electrically or mechanically for easy maintenance. An LED wired type (LED wired HC relay), lamp type (lamp wired HP relay) are available. (Fig. ) Fig Direction indication* TX relay Coil Latching Type Relay with a latching construction that can maintain the on or off state with a pulse input. With one coil, the relay is set or reset by applying signals of opposite polarities. (Fig. ) Fig Direction indication* TX relay Fig. LED wired HC relay 3 Fig Direction indication* TX relay TERMINAL CONFIGURATION Type PC board through hole terminal PC board self-clinching terminal PC board surface-mount terminal Plug-in terminal Quick connect terminal Screw terminal Typical relay type Terminal configuration Typical relay type GQ, GN, TQ, TN, TK, TX, TX-D relay, DS relay, DS-BT relay, RP relay, JS relay, JW relay, SEB relay, JQ relay, PQ relay TQ, TN, TK, TX, TX-D relay GQ-SMD, GN-SMD, TX-SMD, TQ-SMD HJ relay, HC relay HP relay, HE relay HL relay, HK relay HN relay JC relay JR relay HE relay EP relay EJ relay MOUNTING METHOD Type Insertion mount Surface mount Socket mount Terminal socket mount TM relay TMP type ;Terminal Mounting configuration ;Socket Typical relay type GQ, GN, TQ, TN, TK, TX, TX-D relay, DS relay, DS-BT relay, RP relay, SEB relay GQ-SMD, GN-SMD, TX-SMD, TQ-SMD NC relay HC relay HL relay Notes:. Sockets are available for certain PC board relays. (SEB relay, ST relay, etc.). M type (solder type) for direct screw mounting of case is also available. (HG relay) HJ relay, HC relay HP relay, HG relay HL relay, HK relay HN relay HC relay JR relay JC relay JR relay LF relay JT-N relay 39 J