ULTRA-SMALL PACKAGE SLIM POLARIZED RELAY FEATURES

Transcription

1 TESTING GN ULTRA-SMALL PACKAGE SLIM POLARIZED RELAY GN-RELAYS FEATURES.6±.3.7±..7±.3.±. 9.±.3.3±..6±.3.7±..7±.3.±...39 Compact slim body saves space Thanks to the small surface area of.7 mm.6 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 6 µs (FCC part 68) Surge withstand between contacts and coil:, V µs (Bellcore) 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 close-together are minimized. This all means a packaging density higher than ever before. 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.3 inch) Destructive vibration resistance: to Hz (at double amplitude of mm.97 inch) SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 A ) Contact material Rating power Expected life (min. operations) switching capacity (resistive load) switching power (resistive load) switching voltage switching current switching capacity Single side stable coil latching Form C mω Stationary: AgPd+Au clad Movable: AgPd A 3.3 A V AC 3 W, 37. V A, V AC A µa m mw (. to ) 3mW ( ) mw (. to ) mw ( ) Mechanical (at 8 cpm) 7 Electrical (at cpm) A 3 resistive.3 A V AC resistive 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: 6 ms; detection time: µs. * 6 Half-wave pulse of sine wave: 6 ms. * 7 Detection time: µs. * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6) Characteristics Initial insulation resistance* Initial Between open contacts breakdown Between contact sets voltage* Between contacts and coil Initial surge voltage Between open contacts ( 6 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 68), V (Bellcore) 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* Destructive* 6 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. 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.

2 GN TYPICAL APPLICATIS Telephone exchange, transmission equipment Communications devices Measurement devices Home appliances, and audio/visual equipment Handheld and portable products ORDERING INFORMATI 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 6 : 6V 9 : 9V : V : V Packing style Nil: Tube packing Z: Tape and reel packing (piked from /6/7/8 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 68 F) () Standard PC board terminal Operating Function Single side stable Operating Function coil latching 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. () Surface-mount terminal Operating Function Single side stable Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) current, ma (±%) Coil resistance, Ω (±%) : 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. power, mw allowable AGNH AGN AGNH AGN AGN AGN 9..7,8 8 AGN , Standard PC board terminal Coil Rating, Set (max.) (initial) Reset (max.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable AGNH AGN AGNH AGN AGN AGN , 8 AGN 8 8.,8 36 Tube packing Tape and reel packing Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable AGN H AGN HZ AGN 3 AGN 3Z AGN H AGN HZ AGN 6 AGN 6Z AGN 9 AGN 9Z AGN AGN Z 9..7,8 8 AGN AGN Z ,

3 Operating Function coil latching Tube packing Tape and reel packing Coil Rating, Set (max.) (initial) Reset (max.) (initial) 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 (±%) power, mw GN allowable AGN H AGN HZ AGN 3 AGN 3Z AGN H AGN HZ AGN 6 AGN 6Z AGN 9 AGN 9Z AGN AGN Z , 8 AGN AGN Z 8 8.,8 36 DIMENSIS. PC board terminal.6±.3.7±. (.) (.) 9.±.3.3±..7±.3.±. PC board pattern Schematic (Bottom view) Single side stable (Deenergized condition) 3 coil latching (Reset condition) 3.±..6±. (.) (.9).±..87±.6 3.±..6±.6 3.±.3.38±..±..±. 3.±..6± dia dia..87 Tolerance: ±. ± Direction indication Direction indication. Surface-mount terminal ) A type.6±.3.7±..7±.3.±. Suggested mounting pad Single side stable (Deenergized condition) Schematic (Top view) coil latcing (Reset condition).±..±. (.) (.) 9.±.3.3± ±..6±. (.) (.9).±..87±.6 3.±..6±.6 7.±.3.9±. 3.±..6± Tolerance: ±. ±. 3 Direction indication 3 Direction indication ) S type.6±.3.7±..7±.3.±. Suggested mounting pad ±..±. (.) (.) 9.±.3..3± ±..6±. (.) (.9).±..87±.6 3.±..6±.6.7±.3.±. 3.±..6± Tolerance: ±. ±. REFERENCE DATA. switching capacity. Life curve Switching current, A..3 DC resistive load AC resistive load No. of operations, 3 DC 3V resistive load AC V resistive load 3 Contact V Switching current, A 7

4 GN NOTES. Coil power ) As a general rule, only a pure DC power supply should be used for the coil drive. ) To ensure proper operation, the voltage applied to both terminals of the coil should be ±% (at C 68 F) the rated voltage of the coil. Also, be aware that the pick-up and drop-out voltages will fluctuate depending on the ambient temperature and conditions. 3) The ripple factor for the voltage applied to the coil should be less than %. ) For set and reset latching relays, the rated voltage should be applied to the coil for ms or more.. Coil connection When connecting coils, refer to the wiring diagram to prevent mis-operation or malfunction. 3. External magnetic field Since GN relays are highly sensitive polarized relays, their characteristics will be affected by a strong external magnetic field. Avoid using the relay under that conditions.. Cleaning In automatic cleaning, cleaning with the boiling method is recommended. Avoid ultrasonic cleaning which subjects the relay to high frequency vibrations. It may cause the contacts to stick. lt is recommended that a fluorinated hydrocarbon or other alcoholic solvent be used.. 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) ) Tape and reel packing (A type) ()- Tape dimensions..6.7±..±.8 Relay polarity bar (Z type) GN relays.dia.79dia (S type) ()- Tape dimensions Relay polarity bar (Z type). +. dia.9 +. dia. +. dia.9 +. dia Tape coming out direction General tolerance ±. mm. inch..79 () Dimensions of plastic peel dia.79dia 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..7 GN relays Tape coming out direction.±..79± ±..± ±.3.9±...37 General tolerance ±. mm. inch ±.8 dia..87±.3 dia. 3±. dia..±.8 dia ±.3.9±. ± dia ±.39 dia. 37± dia..67±.79 dia..±..79±.8, A C B, 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. For Cautions for Use, see Relay Technical Information 9// 8 All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

5 TESTING GQ ULTRA-SMALL PACKAGE FLAT POLARIZED RELAY GQ-RELAYS FEATURES.6±.3.7±..6±.3.7±. 7.±.3.83±..±..±.8 7.±.3.83±...3 Compact flat body saves space With a small footprint of.6 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 6 µs (FCC part 68) Surge withstand between contacts and coil:, V µs (Bellcore) 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 close-together are minimized. This all means a packaging density higher than ever before. 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.3 inch) Destructive vibration resistance: to Hz (at double amplitude of mm.97 inch) SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 A ) Contact material Rating power Expected life (min. operations) switching capacity (resistive load) switching power (resistive load) switching voltage switching current switching capacity Single side stable coil latching Form C mω Stationary: AgPd+Au clad Movable: AgPd A 3.3 A V AC 3 W, 37. V A, V AC A µa m mw (. to ) 3mW ( ) mw (. to ) mw ( ) Mechanical (at 8 cpm) 7 Electrical (at cpm) A 3 resistive.3 A V AC resistive 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: 6 ms;detection time: µs. * 6 Half-wave pulse of sine wave: 6 ms. * 7 Detection time: µs. * 8 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6) Characteristics Initial insulation resistance* Initial Between open contacts breakdown Between contact sets voltage* Between contacts and coil Initial surge voltage Between open contacts ( 6 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 68), V(Bellcore) 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* Destructive* 6 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. 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

6 GQ TYPICAL APPLICATIS Telephone exchange, transmission equipment Communications devices Measurement devices Home appliances, and audio/visual equipment Handheld and portable products ORDERING INFORMATI 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 6 : 6V 9 : 9V : V : V Packing style Nil: Tube packing Z: Tape and reel packing (piked from /6/7/8 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 68 F) () Standard PC board terminal Operating Function Single side stable Operating Function coil latching 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. () Surface-mount terminal Operating Function Single side stable Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable AGQH AGQ AGQH AGQ AGQ AGQ 9..7,8 8 AGQ , Standard PC board terminal Coil Rating, Set (max.) (initial) Reset (max.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable AGQH AGQ AGQH AGQ AGQ AGQ , 8 AGQ 8 8.,8 36 Tube packing Tape and reel packing Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) current, ma (±%) Coil resistance, Ω (±%) 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 6 AGQ 6Z AGQ 9 AGQ 9Z AGQ AGQ Z 9..7,8 8 AGQ AGQ Z ,

7 Operating Function coil latching Tube packing Tape and reel packing Coil Rating, Set (max.) (initial) Reset (max.) (initial) current, ma (±%) Coil resistance, Ω (±%) 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. DIMENSIS. PC board terminal GQ allowable AGQ H AGQ HZ AGQ 3 AGQ 3Z AGQ H AGQ HZ AGQ 6 AGQ 6Z AGQ 9 AGQ 9Z AGQ AGQ Z , 8 AGQ AGQ Z 8 8.,8 36.6±.3.7±..±..±.8.±..6±..±. 3.±..87±.6 3.±.3.6±.6.±..38±..87±.6 7.±.3.83±..±..8±..8±..±.6 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..3.±..6±. 3.±..6±.6.6±.3.7±..±..87±.6.±..87±.6 7.±.3.83±..±..8±..8±..±.6 8.±.3.33±. Suggested mounting pad 3..6 Single side stable/ coil latching Single side stable (Deenergized condition) Direction indication Schematic (Top view) coil latcing (Reset condition) Direction indication ) S type..3.±..6±. 3.±..6±.6 REFERENCE DATA.6±.3.7±..±..87±.6.±..87±.6. switching capacity. Life curve 7.±.3.83±. 7.±.3.83±..±..8±..8±..±.6 Suggested mounting pad 3..6 Single side stable/ coil latching Tolerance: ±. ±. Switching current, A..3 DC resistive load AC resistive load No. of operations, 3 DC 3V resistive load AC V resistive load 3 Contact V Switching current, A 3

8 GQ NOTES. Coil power ) As a general rule, only a pure DC power supply should be used for the coil drive. ) To ensure proper operation, the voltage applied to both terminals of the coil should be ±% (at C 68 F) the rated voltage of the coil. Also, be aware that the pick-up and drop-out voltages will fluctuate depending on the ambient temperature and conditions. 3) The ripple factor for the voltage applied to the coil should be less than %. ) For set and reset latching relays, the rated voltage should be applied to the coil for ms or more.. Coil connection When connecting coils, refer to the wiring diagram to prevent mis-operation or malfunction. 3. External magnetic field Since GQ relays are highly sensitive polarized relays, their characteristics will be affected by a strong external magnetic field. Avoid using the relay under that condition.. Cleaning In automatic cleaning, cleaning with the boiling method is recommended. Avoid ultrasonic cleaning which subject the relay to high frequency vibrations. It may cause the contacts to stick. lt is recommended that a fluorinated hydrocarbon or other alcoholic solvent be used.. 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 Orientation (indicates PIN No.)stripe Stopper (red) ) Tape and reel packing (A type) ()- Tape dimensions Relay polarity bar (Z type) GQ relays +.. dia dia Tape coming out direction (S type) ()- Tape dimensions Relay polarity bar (Z type) GQ relays General tolerance ±. mm. inch () Dimensions of plastic peel.±..79±. +.. dia dia 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 dia..79dia dia..7.79dia Tape coming out direction ±.3.9± ±.3.9±. General tolerance ±. mm. inch ±.8 dia..87±.3 dia.. 3±. dia..96.±.8 dia. A C ±..79±.8 B ± dia ±.39 dia ± dia..99±.79 dia. Stopper (green) Stopper (red),, 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. For Cautions for Use, see Relay Technical Information 9// 3 All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

9 RJ(ARJ) SMD RELAYS WITH 8GHz CAPABILITIES RJ-RELAYS SPECIFICATIS FEATURES Contact Arrangement Form C Contact material Gold alloy Initial contact resistance mω W (at GHz, Impedance Contact rating Ω, V.S.W.R. &.) ma (resistive load) Rating W (at GHz, Impedance Contact carrying power Ω, V.S.W.R. &.) switching voltage 3 switching current.3 A DC V.S.W.R.. Insertion loss High frequency.db (without D.U.T. board s loss) characteristics Between (Initial) 3dB open contacts (~GHz, Isolation Impedance Between 3dB Ω) contact sets W (at GHz, impedance Ω, Input power V.S.W.R. &., at C) Mechanical (at 8 cpm) 7 Expected life W, at GHz, (min. operations) Electrical V.S.W.R. &. (at cpm) ma (resistive load) 6 Coil (at C, 68 F) power Single side stable mw coil latching mw ORDERING INFORMATI Ex. ARJ Excellent high frequency characteristics (Ω, at GHz) V.S.W.R.:. Insertion loss:.db Isolation: 3dB (Between open contacts) 3dB (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 TYPICAL APPLICATIS Measurement equipment market Attenuator circuits, spectrum analyzer, oscilloscope, mobile equipment, tester Mobile telecommunication market IMT, microwave communication Medical instruments market Characteristics Initial insulation resistance* MΩ (at ) Between open contacts Vrms Initial breakdown Between contact sets Vrms voltage* Between contact and coil Vrms Operate time [Set time]* 3 (at C) ms Release time (without diode)[reset time]* 3 (at C) ms Temperature rise (at C)* C Shock resistance Functional* m/s Destructive* 6, m/s Vibration resistance Functional* 7 to Hz at double amplitude of 3 mm Destructive to Hz at double amplitude of mm Conditions for operation, 3 C to 7 C Ambient temp. transport and storage* 8 F to 8 F (Not freezing and condensing at low temperature) Humidity to 8% R.H. Unit weight 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 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: 6ms, detection time: µs. * 6 Pulse of sine wave: ms. * 7 Detection time: µs * 8 Refer to 6. Conditions for operation, transport and storage mentioned in NOTES 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 6/7/8-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.

10 TYPES AND COIL DATA (at C 68 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, Standard PC board terminal Pick-up (max.) (initial) Drop-out (min.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw RJ(ARJ) allowable 3 ARJ ARJH ARJ ARJ ,88 6. Operating function coil latching Coil Rating, Standard PC board terminal Set (max.) (initial) Reset (min.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable 3 ARJ ARJH ARJ ARJ ,8 6.. 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 Tape and reel packing Pick-up (max.) (initial) Drop-out (min.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable 3 ARJA3 ARJA3Z ARJAH ARJAHZ ARJA ARJAZ ARJA ARJAZ ,88 6. Operating function coil latching Coil Rating, Carton packing Tape and reel packing Set (max.) (initial) Reset (min.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable 3 ARJA3 ARJA3Z ARJAH ARJAHZ ARJA ARJAZ ARJA ARJAZ ,8 6. 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) Isolation characteristics. V.S.W.R Insertion loss, db..... Isolation, db Between contact sets Between open contact. MHz GHz 8GHz Frequency 3. MHz GHz Frequency 8GHz 8 MHz GHz 8GHz Frequency 3

11 RJ(ARJ) DIMENSIS. Standard PC board terminal Expansion of A Schematic (Bottom view) Single side stable coil latching to. to.8 (Typical:.) (Typical:.) Direction indication NC 9 + Com Com NO NC 9 Com Com NO ribs should be soldered with PC board ground A 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. General tolerance: ±.3 ±. (Deenergized condition) (Reset condition). Surface mount terminal Expansion of A Schematic (Top view) Single side stable coil latching ribs should be soldered with PC board ground. A to. to.8 (Typical:.) (Typical:.) 3Better HF characteristics 8. may be obtained when this.33 portion is soldered with PC board ground. Direction indication 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 ±.

12 NOTES. Coil 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. The nominal voltage should be applied to the coil for more than ms to set/reset the latching type relay.. Coil connection When connecting coils, refer to the wiring diagram to prevent mis-operation or malfunction. 3. External magnetic field Since RJ relays are highly sensitive polarized relays, their characteristics will be affected by a strong external magnetic field. Avoid using the relay under that condition.. Cleaning For automatic cleaning, the boiling method is recommended. Avoid ultrasonic cleaning which subjects the relays to high frequency vibrations, which may cause the contacts to stick. It is recommended that alcoholic solvents be used.. Tape and reel packing ) Tape dimensions. dia..9 dia to..7. (Accumulation pitch:.79 ±..7±.) ) Dimensions of plastic reel.±..79± ±. 8..6± (.7) (.3) ±.8 dia..87±.3 dia. 3±. dia..±.8 dia to ± dia ±.39 dia. 37± dia..67±.79 dia..±..79±.8 6. Conditions for operation, transport and storage conditions ) Ambient temperature, humidity, and atmospheric pressure during usage, transport, and storage of the relay: () Temperature: 3 to +7 C to +8 F (However, tolerance range is 3 to +6 C to + F if package is carried as is.) () Humidity: to 8% RH (Avoid freezing and condensation.) The humidity range varies with the temperature. Use within the range indicated in the graph below. (3) Atmospheric pressure: 86 to 6 kpa Temperature and humidity range for usage, transport, and storage: 8 (Avoid freezing when used at temperatures lower than C 3 F) 3 Humidity, %R.H. Tolerance range (Avoid condensation when used at temperatures higher than C 3 F) Temperature, C F ) 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. 3) Freezing Condensation or other moisture may freeze on the relay when the temperature 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. ) Storage procedures for surface-mount terminal types Since the relay is very sensitive to humidity, it is packed in humidity-free, hermetically sealed packaging. When storing the relay, be careful of the following points: () Be sure to use the relay immediately after removing it from its sealed package. () When storing the relay for long periods of time after removing it from its sealed package, we recommend using a humidity-free bag with silica gel to prevent subjecting the relay to humidity. Furthermore, if the relay is solder mounted when it has been subjected to excessive humidity, cracks and leaks can occur. Be sure to mount the relay under the required mounting conditions. RJ(ARJ) 7. Soldering ) Surface-mount terminal In case of automatic soldering, the following conditions should be observed () Position of measuring temperature.mm.39inch B A: Surface of PC board where relay is mounted. B: Above the PC board surface. () IR (infrared reflow) soldering method T T T3 T T A: B: t t t3 t t T= C 3 F T=6 C 3 F T3=83 C 36 F T= C 73 F T=7 C 8 F Temperature rise of relay itself may vary according to the mounting level or the heating method of reflow equipment. Therefore, please set the temperature of soldering portion of relay terminal and the top surface of the relay case not to exceed the above mentioned soldering condition. It is recommended to check the temperature rise of each portion under actual mounting condition before use. ) Standard PC board terminal Please meet the following conditions if this relay is to be automatically soldered. () Preheating: C F (terminal solder surface) for max. 6 seconds () Soldering: C 8 F for max. seconds The effect on the relay depends on the actual substrate used. Please verify the substrate to be used. 3) Hand soldering Please meet the following conditions if this relay is to be soldered by hand. () Wattage: 3 to 6 W () Tip temperature/time: 8 to 3 C 36 to 7 F for max. seconds The effect on the relay depends on the actual substrate used. Please verify the substrate to be used. ) Avoid high frequency cleaning since this may adversely affect relay characteristics. Use alcohol-based cleaning solutions when cleaning relays. A t - t = 8 to s t - t3 = 3 to s t = 7 to 9 s

13 RJ(ARJ) Measuring method (Impedance Ω) Network analyzer B A R PORT B S parameter A test set R HP 8C HP 8A RF OUT RF IN PORT Connector No. Product name Contents HP mm testport, Extension cable HP 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> Through hole 86-. dia dia. <Standard PC board terminal> -.6 dia dia dia dia dia dia. <Calibration board> dia. -. dia dia dia or..6 or..76 or 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) 9. Others ) The switching lifetime is defined under the standard test condition specified in the JIS* C -996 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- and the phase is synchronous. Rocking and fusing can easily occur due to contact shifting High-frequency load- 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 frequency (3) Lower the ambient humidity ) Use the relay within specifications such as coil rating, contact rating and on/off service life. If used beyond limits, the relay may overheat, generate smoke or catch fire. 3) Be careful not to drop the relay. If accidentally dropped, carefully check its appearance and characteristics before use. ) Be careful to wire the relay correctly. Otherwise, malfunction, overheat, fire or other trouble may occur. ) If a relay stays on in a circuit for many months or years at a time without being activated, circuit design should be reviewed so that the relay can remain nonexcited. A coil that receives current all the time heats, which degrades insulation earlier than expected. A latching type relay is recommended for such circuits. 6) The latching type relay is shipped in the reset position. But jolts during transport or impacts during installation can change the reset position. It is, therefore, advisable to build a circuit in which the relay can be initialized (set and reset) just after turning on the power. 7) If silicone materials (e.g., silicone rubbers, silicone oils, silicone coating agents, silicone sealers) are used in the vicinity of the relay, the gas emitted from the silicone may adhere to the contacts of the relay during opening and closing and lead to improper contact. If this is the case, use a material other than silicone. 8) We recommend latching type when using in applications which involve lengthy duty cycles. * Japanese Industrial Standards 6 // All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

14 SX TESTING HIGH SENSITIVITY RELAY WITH GUARANTEED LOW LEVEL SWITCHING CAPACITY SX-RELAYS 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 sensitibity 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. SPECIFICATIS 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 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) Unit weight Functional* 6 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. 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. * 6 Half-wave pulse of sine wave: 6 ms; detection time: µs. * 7 Half-wave pulse of sine wave: 6 ms. * 8 Detection time: µs. * 9 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6) TYPICAL APPLICATIS This relay will be used for the small load for measuring instruments or others where a stable contact resistance is required.

15 ORDERING INFORMATI SX Ex. ASX A H Z Contact arrangement Operating function : Form C : Single side stable : coil latching : coil latching Type of operation : Standard type (B.B.M.) Terminal shape Nil: Standard PC board terminal A: Surface-mount terminal Coil voltage (DC) H:.V 3 : 3V H:.V 6 : 6V 9 : 9V : V : V 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. TYPES AND COIL DATA (at C 68 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 Standard PC board terminal coil latching coil latching Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable ASXH ASX ASXH ASX ASX ,6 3. ASX 9.6..,88 8 ASX , Standard PC board terminal Coil Rating, Set (max.) (initial) Reset (max.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable ASXH ASX ASXH ASX ,9 3 9 ASX , ASX , 3 8 ASX , 36 Standard PC board terminal Coil Rating, Set (max.) (initial) Reset (max.) (initial) current, ma (±%) Set coil Reset coil Coil resistance, Ω (±%) Set coil Reset coil power, mw Set coil Reset coil allowable ASXH ASX ASXH ASX ASX ,7, ASX ,7, ASX ,8 3,8 36

16 SX () 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 coil latching type coil latching type Tape and reel packing Coil Rating, Pick-up (max.) (initial) Drop-out (min.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable ASXAH ASXAHZ ASXA3 ASXA3Z ASXAH ASXAHZ ASXA6 ASXA6Z ASXA9 ASXA9Z ,6 3. ASXA ASXAZ 9.6..,88 8 ASXA ASXAZ , Tube packing Tape and reel packing Coil Rating, Set (max.) (initial) Reset (max.) (initial) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable ASXAH ASXAHZ ASXA3 ASXA3Z ASXAH ASXAHZ ASXA6 ASXA6Z ,9 3 9 ASXA9 ASXA9Z , ASXA ASXAZ , 3 8 ASXA ASXAZ , 36 Tube packing Tape and reel packing Coil Rating, Set (max.) (initial) Reset (max.) (initial) current, ma (±%) Set coil Reset coil Coil resistance, Ω (±%) Set coil Reset coil power, mw Set coil Reset coil allowable ASXAH ASXAHZ ASXA3 ASXA3Z ASXAH ASXAHZ ASXA6 ASXA6Z ASXA9 ASXA9Z ,7, ASXA ASXAZ ,7, ASXA ASXAZ ,8 3,8 36 DIMENSIS. PC board terminal Single side stable/ coil latching PC board pattern dia dia..8. Schematic (Bottom view) Single side stable (Deenergized condition) Direction indication coil latching (Reset condition) Direction indication coil latching dia dia..8. coil latching (Reset condition) Direction indication General tolerance: ±.3 ±. Tolerance: ±. ±.

17 SX. Surface-mount terminal Single side stable/ coil latching ±..37±... Suggested mounting pad.8.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, Single side stable (Deenergized condition) Schematic (Top view) Direction indication coil latching (Reset condition) Direction indication coil latching ±..37± ,,,,,,,,,,,,,,,,,,,,,,,,,,, coil latching (Reset condition) Direction indication 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 mvdc 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,, 3

18 SX NOTES. Coil power ) As a general rule, only a pure DC power supply should be used for the coil drive. ) To ensure proper operation, the voltage applied to both terminals of the coil should be ±% (at C 68 F) the rated voltage of the coil. Also, be aware that the pick-up and drop-out voltages will fluctuate depending on the ambient temperature and conditions. 3) The ripple factor for the voltage applied to the coil should be less than %. ) For set and reset latching relays, the rated voltage should be applied to the coil for ms or more.. Coil connection When connecting coils, refer to the wiring diagram to prevent mis-operation or malfunction. 3. External magnetic field Since SX relays are highly sensitive polarized relays, their characteristics will be affected by a strong external magnetic field. Avoid using the relay under that condition.. Cleaning In automatic cleaning, cleaning with the boiling method is recommended. Avoid ultrasonic cleaning which subject the relay to high frequency vibrations. It may cause the contacts to stick. lt is recommended that a fluorinated hydrocarbon or other alcoholic solvent be used.. 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 () Tape dimensions Relay polarity bar.±. (Z type) +.. dia..7±..7± dia..69±..±..±..6±..79±..±..±.3..6±..9±..787.,.±..8±..3±..±.8 6.±..±..63±..39±. SX relays Tape coming out direction General tolerance ±. mm. inch () Dimensions of plastic reel.±..79±. ±.8 dia..87±.3 dia. 3±. dia..±.8 dia ± dia ±.39 dia. 37± dia..67±.79 dia..±..79±.8 6. 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 A 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. C B For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

19 TESTING HIGHLY SENSITIVE V FCC SURGE WITHSTANDING MINIATURE RELAY DS-RELAYS DSE DSE SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 A) Contact material switching power Rating switching voltage (resistive) switching current Expected life (min. operations) carrying current Mechanical (at 6 cpm) Electrical A 3 VDC resistive.787 DSE * Gold capped silver-palladium contact also available for Form C 7 operations at. A resistive Coil (polarized) (at C 68 F) M type S type Single side stable coil latching coil latching Single side stable coil latching coil latching Minimum power power Minimum set and reset power set and reset power Minimum set and reset power set and reset power Minimum power 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 sliver 6 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. 36 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 µs 6 µs FEATURES High sensitivity: mw pick-up power mw pick-up power types available Latching types available High switching capacity: 6 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 6 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 Characteristics (at C 68 F) speed Initial insuration resistance* Initial breakdown voltage* 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 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), V (Expect DS-S type) Approx. 3 ms Approx. ms Approx. 3 ms Approx. 3 ms 6 C C, C: 9 m/s Functional* { G} C: 9 m/s {3 G} Destructive* 98 m/s { G} Functional* 6 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 Unit weight 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: 6ms * 6 Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6) 86

20 TYPICAL APPLICATIS Telecommunication equipment Office equipment Computer peripherals Security equipment Measuring instrumentation ORDERING INFORMATI 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 power S: mw nominal power Operating function Nil: Single side stable L: coil latching L: coil latching DS Coil voltage DC., 3,, 6, 9,,, 8 V *Reverse polarity types available (add suffix-r). Standard packing: Carton: pcs.; Case: pcs. TYPES Single side stable Voltage, 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 6 DSE-M-DC6V DSE-M-DC6V DSE-M-DC6V ( 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 6 DSE-S-DC6V DSE-S-DC6V DSE-S-DC6V ( 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, M (8 mw) type S (9 mw) type 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 6 DSE-ML-DC6V DSE-ML-DC6V DSE-ML-DC6V 9 DSE-ML-DC9V DSE-ML-DC9V DSE-ML-DC9V 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 6 DSE-SL-DC6V DSE-SL-DC6V DSE-SL-DC6V 9 DSE-SL-DC9V DSE-SL-DC9V DSE-SL-DC9V 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, 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 6 DSE-ML-DC6V DSE-ML-DC6V DSE-ML-DC6V (36 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 6 DSE-SL-DC6V DSE-SL-DC6V DSE-SL-DC6V (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. 87

21 DS COIL DATA (at C 68 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

22 DIMENSIS 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 6-.3 dia. DS Tolerance: ±. ±. Schematic (Bottom view) Single side stable Deenergized condition + 6 General tolerance: ±.3 ±. coil latching 6 + coil latching + SET 3 RST 6 + 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 6 are energized. Energize with reverse polarity to transfer contacts. COM 7 Diagram shows the "reset" position when terminals 3 and 6 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 6 pin IC socket Tolerance: ±. ±. Schematic (Bottom view) Single side stable Deenergized condition 9 3 N.O. N.C. COM 6 N.O. N.C. 8 6 COM + A polarity bar showing the relay direction can replace the schematic. coil latching 9 3 SET RST COM 6 + SET 8 RST 6 COM Diagram shows the "reset" position when terminals and 6 are energized. Energize with reverse polarity to transfer contacts. coil latching 9 3 SET COM 6 RST SET 8 Reset RST 6 COM Set + + Diagram shows the "reset" position when terminals and are energized. Energize terminals and 6 to transfer contacts. 89

23 DS Form C 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 6-.3 dia Schematic (Bottom view) Single side stable Deenergized condition 9 3 N.O. COM 6 N.C. COM N.C. N.O. N.O. N.C. COM + COM N.C. N.O A polarity bar showing the relay direction can replace the schematic. coil latching 9 3 SET COM 6 RST COM RST SET SET RST COM Tolerance: ±. ±. Diagram shows the "reset" position when terminals and 6 are energized. Energize with reverse polarity to transfer contacts. coil latching 9 3 SET COM 6 RST COM RST SET + COM RST SET SET RST COM + + COM RST SET Reset Set Diagram shows the "reset" position when terminals and are energized. Energize terminals and 6 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,, 3 Switching current, A F(t), % A V AC. Weibull. probability data., No. of operations,.a V AC.3A V AC.A V AC 9

24 -(). Coil termperature rise ( Form C single side stable type) Point measured: Inside the coil Ambient temperature: 8 to 9 C 6 to 66 F -(). Coil tempeature rise ( Form C single side stable type) Point measured: Inside the coil Ambient temperature: 7 to 8 C 63 to 6 F -(3). Coil temperature rise ( Form C coil latching type) Point measured: Inside the coil Ambient temperature: to C 68 to 7 F DS Temperature rise, C 6 3 3A A A Temperature rise, C 6 3 3A A A Temperature rise, C 6 3 3A A A Reset coil Set coil 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 68 F. Operate and release time characteristics ( Form C single side stable type) Test condition: Without diode connected to coil in parallel 6-(). Influence of adjuacent mounting ( Form C) Temperature rise, C 6 3 3A A A Reset coil Set coil Operate and release time, ms 3 Operate time (mean) Release time (mean) Rete of change, % Rete of change, % () () (3) Coil applied %V 8 Coil applied % Inter-relay distance, 6-(). Influence of adjacent mounting ( Form C) 6-(3). Influence of adjacent mounting ( Form C) Rete of change, % Rete of change, % () () (3) Rete of change, % () () (3) Rete of change, % () () (3) Inter-relay distance, Inter-relay distance, Inter-relay distance, For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, 9 Ltd.

25 TESTING MINIATURE RELAY DSY- RELAYS FEATURES Form C contact High sensitivity- mw nominal power High breakdown voltage V FCC surge between open contacts DIP-C type matching 6 pin IC socket Sealed construction SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 A) Contact material Rating (resistive) Expected life (min. operations) switching power switching voltage switching current carrying current Coil (polarized) (at C 68 F) Single side stable coil latching Form C mω Gold-clad sliver 6 W, 6. VA, V AC A 3 A Mechanical 8 Electrical A 3 A 3 Minimum power power Minimum set and reset power set and reset power Approx. 98 mw (7 mw: 8 V) Approx. mw (3 mw: 8 V) Approx. 88 mw (77 mw: 8 V) Approx. 8 mw (36 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: 6ms * 6 Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6). Characteristics (at C 68 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 6 C with nominal voltage across coil and at nominal switching capacity Functional* 9 m/s { G} Destructive* 98 m/s { G} Functional* 6 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 6 µs TYPICAL APPLICATIS Telecommunication equipment Office equipment Computer peripherals Security alarm systems Medical equipment ORDERING INFORMATI Ex DSY-S L DC V Operating function Coil voltage Nil: Single side stable DC., 3,, 6, L: coil latching 9,,, 8 V (Note) Standard packing: Carton: pcs. Case: pcs. R Polarity Nil: Standard polarity R: Reverse polarity 9

26 DSY TYPES AND COIL DATA (at C 68 F) Single side stable Pick-up (max.) (Note) Standard packing: Carton: pcs. Case: pcs. coil latching (Note) Standard packing: Carton: pcs. Case: pcs. Drop-out (min.) current ma (±%) Coil resistance, Ω (±%) power mw Maximum allowable (at C F ). DSY-S-DC.V DSY-S-DC3V DSY-S-DCV DSY-S-DC6V DSY-S-DC9V DSY-S-DCV DSY-S-DCV , DSY-S-DC8V , Reset set, (max.) current ma (±%) Coil resistance, Ω (±%) power, mw Maximum allowable (at C F ) Set Reset Set Reset Set Reset. DSY-SL-DC.V DSY-SL-DC3V DSY-SL-DCV DSY-SL-DC6V DSY-SL-DC9V DSY-SL-DCV DSY-SL-DCV , 3, DSY-SL-DC8V , 6, DIMENSIS Single side stable General tolerance: ±.3 ± PC board pattern (Copper-side view) dia 8-.3 dia. matching 6 pin IC socket Tolerance: ±. ±. Schematic (Bottom view) (Deenergized position) 9 N.O. N.O. 8 N.C. N.C. 6 Direction indication* 3 COM COM 6 *A polarity bar shows the relay direction. + coil latching PC board pattern (Copper-side view) dia -.3 dia. matching 6 pin IC socket Tolerance: ±. ±. Schematic (Bottom view) (Reset position) 9 SET SET 8 RST RST 6 Direction indication* 3 COM COM Reset *A polarity bar shows the relay direction Set General tolerance: ±.3 ±. Diagram shows the reset posetion when terminals and are energized. Energize terminals and 6 to transfer contacts. 96

27 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 3 A A A DSY -() 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 3 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 68 F -() Influence of adjacent mounting Tested sample: DSY-S-DCV, pcs. Ambient temperature: C 68 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 68 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 6 Pick-up/Drop-out V () () (3) 8 6 Pick-up/Drop-out V () () (3) 8 Coil applied %V Inter-relay distance, Inter-relay distance, For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, 97 Ltd.

28 TESTING, V BREAKDOWN VOLTAGE DS RELAYS DS-BT RELAYS FEATURES, V breakdown voltage Reinforced insulation between coil and contacts Surge voltage withstand: V FCC Parts 68 SPECIFICATIS Contact Arrangement Form C Form D Initial contact resistance, max. mω (By voltage drop 6 A) Contact material Gold-clad silver switching capacity A 3 A 3 Rating switching power 6 W, VA 3 W, 6. VA (resistive switching voltage, V AC load) switching current A A switching capacity** µa m Electrical Mechanical (at 8 cpm) 7 6 life (min. ope.) Electrical (at cpm) ** 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 Arrangement Form C Form D power 36 mw mw 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: 6ms * 6 Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6) Characteristics Arrangement Form C Form D speed 6 cpm at rated load Initial insulation resistance* MΩ (at ) Initial breakdown voltage* Between open contacts Between contacts and coil 7 Vrms for min. Vrms for min., Vrms for min. Between contacts sets 7 V V FCC surge voltage between open contacts, V Operate time* 3 (at nominal voltage) Approx. 3 ms Release time (without diode)* 3 (at nominal voltage) Approx. ms Temperature rise 6 C Vibration resistance Shock resistance Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight Functional* Destruction* to Hz at double amplitude of 3.3 mm to Hz at double amplitude of mm Functional* 6 9 m/s (3 G) Destruction 98 m/s ( G) Ambient temp. Humidity C to +7 C F to +8 F to 8%R.H. C to +6 C F to + F Approx.. g. oz TYPICAL APPLICATIS Modem Facsimile Telecommunication equipment ORDERING INFORMATI DSBT M D DC3V Contact arrangement S: 36 mw Nil: BBM (Form C) : Form C or ( Form C only) D: MBB Form D M: mw ( Form D only) ( Form D) Note: Standard packing; Carton: pcs. Case, pcs. Sensitivity MBB function Coil voltage DC., 3,, 6, 9,, V 9

29 TYPES AND COIL DATA (at C 68 F) ) Form C type Operating function Single side stable ) Form D type Operating function Single side stable Coil Note: Standard packing Tube: pcs. Case:, pcs. Pick-up (max.) Drop-out (min.) current, ma (±%) Coil resistance, Ω (±%) power, mw DS-BT allowable (at C F) DSBT-S-DC.V DSBT-S-DC3V DSBT-S-DCV DSBT-S-DC6V DSBT-S-DC9V DSBT-S-DCV DSBT-S-DCV 8.,6 3. Coil Pick-up (max.) Drop-out (min.) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable (at C F) DSBT-M-D-DC.V DSBT-M-D-DC3V DSBT-M-D-DCV DSBT-M-D-DC6V DSBT-M-D-DC9V DSBT-M-D-DCV DSBT-M-D-DCV 8.., DIMENSIS PC board pattern (Bottom view) 8-.9 dia dia General tolerance: ±.3 ± Tolerance: ±. ±. Schematic (Bottom view) 9 N.O. N.C. 3 6 COM N.O. N.C. COM REFERENCE DATA. Mechanical life test Tested sample: DSBT-S-DCV, pcs. Coil applied voltage: Operating frequency: 3 cpm Change of pick-up and drop-out voltage Pick-up/drop-out x 3 x Change of contact resistance Contact resistance, mω N.C. contact N.O. contact x x No. of operations, No. of operations, 93

30 DS-BT. Electrical life test (resistive) Tested sample: DSBT-S-DCV, 6 pcs. Condition: A 3 resistive load, 3 cpm Circuit 3 N.O.: No. 3 N.C.: No. 6 Pick-up/drop-out x x Contact resistance, mω N.C. contact N.O. contact x x No. of operations, No. of operations, 3. Coil temperature rise Tested sample: DSBT-S-DCV, pcs. Measured portion: Inside the coil 8. Operate and release time characteristics Tested sample: DSBT-S-DCV, pcs. Ambient temperature: 3 C 73 F Coil Without diode (T) Coil temperature rise, C A A N.O. contact Coil N.C. contact T T 3 T T T : Operate time T : Operate bounce time T 3: Release time T : Release bounce time Operate time, ms Coil power, mw 8 Coil applied %V Without diode (T) Without diode (T3) Without diode (T) Operate bounce time, ms... Measured terminals: 9-3 Release time, ms 6 3 Release bounce time, ms... Measured terminals: -6 Measured terminals: -3 Measured terminals: -8 8 Coil applied %V 8 Coil applied %V 8 Coil applied %V. Distribution of pick-up and drop-out voltage Tested sample: DSBT-S-DCV, pcs. 6. Distribution of breakdown voltage (between contacts and coil) Tested sample: DSBT-S-DCV, pcs. Quantity Specified value: Less than 3.7 Specified value: More than. Mean value (x): 3. Mean value (x):.6 : 3.69 :.3 :.6 :.78 Quantity Quantity 3 Mean: AC 69 V : AC 8 V : AC 7 V Pick-up V Drop-out V 3. AC AC AC 6 Breakdown V AC For Cautions for Use, see Relay Technical Information 9// 9 All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

31 COST SAVING SUBMINIATURE PC BOARD RELAYS HA-RELAYS FEATURES Compact construction Sensitive - very low power Soldering flux inflow prevented by molded construction Contact capacity - 3 A V AC, 3 Simple mechanism for stable quality - only 9 pieceparts Amber sealed types available HAE Amber Relays SPECIFICATIS HA Standard type Contacts Arrangement Contact material Initial contact resistance, max. (By voltage drop 6 A) Rating (resistive load) Expected life (min. operations) Coil Characteristics 8 switching power switching voltage switching current Form C Silver-nickel mω 7 VA, 9 W V AC, 3 3 A Mechanical 7 Electrical (resistive) Minimum power power Maximum speed Initial insulation resistance* (at C, % R.H.) Initial Between open contacts breakdown voltage* Between contacts and coil Operate time* 3 (at nominal voltage) (at C) Release time (without diode)* 3 (at nominal voltage)(at C) Temperature rise (at C) Shock resistance Vibration resistance Conditions for operation, transport and storage* (Not freezing and condensing at low temperature) Unit weight 3 A V AC 3 A 3 Functional Destructive Functional Destructive Ambient temp. Humidity (AC).8 VA, (DC) 3 mw (AC).9 VA, (DC) 36 mw cpm MΩ at 7 Vrms for min., Vrms for min. Approx. 6 ms (AC), Approx. ms (DC) Approx. 6 ms (AC), Approx. 3 ms (DC) (AC) 6 C, (DC) C with nominal coil voltage and at 3A switching current 98 m/s {G} 98 m/s {G} to Hz at double amplitude of mm to Hz at switching of mm C to + C F to + F to 8%R.H. Approx. g.3 oz Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as "Intial breakdown voltage" section * Detection current: ma HAE Amber sealed type Contacts Arrangement Contact material Initial contact resistance, max. (By voltage drop 6 A) Rating (resistive load) Expected life (min. operations) Coil Characteristics switching power switching voltage switching current Form C Gold-clad over silver-nickel mω VA, 9 W V AC, 3 A AC, 3A DC Mechanical 7 Electrical (resistive) Minimum power power Maximum speed Initial insulation resistance* (at C, % R.H.) Initial Between open contacts breakdown voltage* Between contacts and coil Operate time* 3 (at nominal voltage) (at C) Release time (without diode)* 3 (at nominal voltage)(at C) Temperature rise (at C) Shock resistance Vibration resistance Conditions for operation, transport and storage* (Not freezing and condensing at low temperature) Unit weight A V AC 3 A 3 Functional Destructive Functional Destructive Ambient temp. Humidity (AC).8 VA, (DC) 3 mw (AC).9 VA, (DC) 36 mw cpm MΩ at 7 Vrms for min., Vrms for min. Approx. 6 ms (AC), Approx. ms (DC) Approx. 6 ms (AC), Approx. 3 ms (DC) (AC) 6 C, (DC) C with nominal coil voltage and at 3A switching current 98 m/s {G} 98 m/s {G} 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. g.3 oz * 3 Excluding contact bounce time * Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6).

32 TYPICAL APPLICATIS Office machines, electrical home appliances, load management equipment. ORDERING INFORMATI Ex. HA E DC6V Contact arrangement Type classification Coil voltage HA : Form C Nil: Dust cover type E: Amber sealed type DC, 6, 9,, V AC 6,,, 8, V Notes:. For UL/CSA recognized types, add suffix UL/CSA. (Notes). Standard packing Carton: pcs., Case: pcs. or, pcs. TYPES AND COIL DATA (at C 68 F) voltage HA-AC6V HAE-AC6V HA-ACV HAE-ACV HA-ACV HAE-ACV HA-AC8V HAE-AC8V HA-ACV HAE-ACV HA-DCV HAE-DCV HA-DC6V HAE-DC6V HA-DC9V HAE-DC9V HA-DCV HAE-DCV HA-DCV HAE-DCV Pick-up (max.) Drop-out (min.) * current, ma power Note: The range of coil current AC type: ±% at 6 Hz, DC type: ±% at C 68 F coil temperature. Coil resistance, Ω (±%) Maximum allowable voltage 6 V AC.8 V AC. V AC.9 VA 6.6 V AC V AC 9.6 V AC. V AC 76.9 VA 3. V AC V AC 9. V AC.8 V AC 37.9 VA 6. V AC 8 V AC 38. V AC 9.6 V AC 9.9 VA.8 V AC V AC 9. V AC 3. V AC 8.9 VA 6. V AC mw mw mw mw mw,6 8.8 DIMENSIS HA HAE PC board pattern (Copper-side view) HA dia.. dia dia.. dia dia..3 dia dia.. dia dia.. dia..9 dia..3 dia Relay outline -. dia. -.7 dia..3.3 HAE -. dia. -.7 dia Relay outline Tolerance: ±. ±. Schematic (Bottom view) General tolerance: ±. ±. General tolerance: ±. ±. 3 9

33 HA REFERENCE DATA.-() Coil temperature rise (AC PC board type) Point measured: Inside the coil.-() Coil temperature rise (DC PC board type) Temperature rise, C 7 6 Hz 3 A Hz deactivated 6 Hz 3 A 6 Hz deactivated Temperature rise, C 3 Contact activated: 3 A Contact activated: A 3 8 Coil applied %V 8 Coil applied %V Operate and release time Sample: HA-DCV Sample: HA-ACV Operate time Release time Operate time Release time Time, ms Time, ms x x x 8 Coil applied %V x 8 Coil applied %V For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

34 Compact & Slim Form C Non-polarized Relay HX-RELAYS FEATURES Compact size of (W) 7. (L). (H) 9. mm (W).9 (L).9 (H).37 inch. Surge withstand voltage of, V (between contact and coil) Conforms to FCC Part 68. High-density mounting is possible High reliability The use of a gold-clad bifurcated structure for the movable contacts, and a low gas material for the forming materials and coil wiring ensures high contact reliability. SPECIFICATIS Contact Arrangement Initial contact resistance (By voltage drop 6 A) Contact material switching capacity (resistive load) switching power Rating (resistive load) switching voltage switching current switching capability power Expected life (min. operations) Form C mω Gold-clad silver alloy A 3,.3 A V AC 3 W (DC), 37. VA (AC), V AC A ma 3 mw Mechanical (at 8 cpm) 7 Electrical (at cpm) ( A 3,.3 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. 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. * Half- wave pulse of sine wave: ms, detection time: µs * Half- wave pulse of sine wave: 6ms * 6 Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6) Characteristics Initial insulation* resistance, MΩ (at ) Between contacts 7 V rms for min. Initial Between contact and breakdown, V rms for min. coil voltage Between contacts sets, V rms for min. Temperature rise* 6 C Operate time* 3 (at C 68 F) 6 ms (Approx. ms) Release time(without diode)* 3 (at C 68 F) ms (Approx. 3 ms) Shock resistance Vibration resistance Conditions for opetation, transport and storage* 7 Unit weight Functional* Destructive* Functional* 6 Destructive Ambient temperature Humidity Atmospheric pressure m/s {G}, m/s {G} to Hz at double amplitude of. mm to Hz at double amplitude of. mm to +7 C to +8 F to 8% R.H. 86 to 6 kpa Approx. g.7 oz TYPICAL APPLICATIS Telephone exchange, transmission equipment Communications devices Measurement devices Home appliances, and audio/visual equipment Office equipment ORDERING INFORMATI Contact arrangement Ex. HX 3V Coil voltage(dc) : Form C., 3,.,, 6, 9,, V Note:,V Surge (Bellcore) type is also available. Please consult us for details. 83

35 HX TYPES AND COIL DATA Contact arrangement Form C Coil rating, Standard PC board terminal arrangement Standard packing: Tube; pcs.; Case :, pcs. Pick-up (max.) (at C 68 F) Drop-out (min.) (at C 68 F) Normal current, ma (±%) (at C 68 F) Coil Resistance, ohm (±%) (at C 68 F) power, mw allowable (at 7 C 8 F). HX-.V HX-3V HX-.V HX-V HX-6V HX-9V HX-V HX-V , DIMENSIS. Standard PC board terminal type PC board pattern (Bottom view) Schematic (Bottom view) dia dia General tolerance: ±.3 ±. Tolerance: ±. ±. REFERENCE DATA. Maximum switching capacity. Life curve 3. Mechanical life Tested sample: HX- V, pcs. Switching current, A DC load (cos ϕ = ) AC load (cos ϕ = ) 3 3 Switching V No. of operations, 3 V AC resistive load 3 resistive load Switching current, A Ratio against the rated %V , No. of operations,. Electrical life ( A 3 resistive load) Tested sample: HX- V, 6 pcs. Operating frequency: cpm Change of pick-up and drop-out voltage Ratio against the rated %V No. of operations, Change of contact resistance Contact resistance, mω No. of operations,. Coil temperature rise Tested sample: HX- V Measured portion: Inside the coil Ambient temperature: C 77 F, 7 C 8 F Temperature rise, C C 8 F Room temperature ( C 77 F) 3 Coil applied %V A A A A 8

36 6. Operate/release time characteristics Tested sample: HX-V, pcs. 7. Distribution of pick-up and drop-out voltage Tested sample: HX-V, pcs. 8. Ambient temperature characteristics Tested sample: HX-V, pcs. HX 6 Set/reset time, msec. 3 Set time Reset time Quantity 3 3 Variation ratio, % 3 Drop-out voltage 6 8 Ambient temperature, C Coil applied %V Ratio against the rated %V 9. Distribution of contact resistance Tested sample: HX-V, pcs. ( contacts).-() High frequency characteristics Isolation characteristics.-() High frequency characteristics Insertion loss characteristics Quantity 3 Isolation, db Insertion loss, db Contact resistance, mω, Frequency, MHZ, Frequency, MHZ NOTES. Coil 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. The nominal voltage should be applied to the coil for more than ms to set/reset the latching type relay.. Cleaning In automatic cleaning, cleaning with the boiling method is recommended. Avoid ultrasonic cleaning which subject the relay to high frequency vibrations. It may cause the contacts to stick. lt is recommended that a fluorinated hydrocarbon or other alcoholic solvent be used. 3. Packing style Packing direction The relay is packed in a tube with the relay orientation mark on the left side, as shown in the figure below. Take note of the relay orientation when mounting relays on the printed circuit board. Stopper (gray) Orientation (indicates PIN No. ) stripe Stopper (green) The temperature range is to +7 C to +8 F. Automatic insertion To maintain the internal function of the relay, the chucking pressurre should not exceed the values below. Chucking pressure in direction A: 9.8 N { kgf} or less Chucking pressure in direction B: 9.8 N { kgf} or less Chucking pressure in direction C:.9 N { gf} or less A,,,,, Please chuck the portion. Avoid chucking the center of the relay. C B For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, 8 Ltd.

37 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 3 SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 A) Contact material Rating (resistive) Expected life (min. operations) Coil power switching capacity switching power switching voltage switching current carrying current Form C mω Gold-clad silver A 3 3 W 6 A A Mechanical (at 8 cpm) 7 Electrical (at cpm) A 3 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: 6ms * 6 Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6) mw mw Characteristics (at C 77 F, % Relative humidity) speed cpm (at nominal voltage) Initial insulation resistance* Initial breakdown voltage* Between contacts Between contact and coil 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 MΩ at MΩ at Vrms, Vrms ms (approx. ms) ms (approx. ms) C Functional* 98 m/s ( G) Destructive* 98 m/s ( G) Functional* 6 Destructive Ambient temp. Humidity 8.8 m/s {6 G}, to Hz at double amplitude of mm 7.6 m/s { G}, to Hz at double amplitude of mm C to +7 C F to +8 F to 8% R.H..8 g.63 oz TYPICAL APPLICATIS Automotive: Switching to small motor ) Automirrow controller )Retractable head light controller Push button device: Dial pulsing 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 ORDERING INFORMATI Ex. HY Z 3V 8 Contact arrangement Sensitivity Coil voltage (DC) : Form C Nil: High sensitivity mw., 3,.,, 6, 9,, V Z: Standard mw Standard packing: Carton: pcs. Case pcs.

38 TYPES AND COIL DATA (at C 68 F) Standard packing: Carton: pcs. Case: pcs. mw Standard type mw High sensitivity type Pick-up (max.) Drop-out (min.) Coil resistance, Ω (±%) current, ma power, mw HY allowable (at 7 C 8 F) HYZ-.V HYZ-3V HYZ-.V HYZ-V HYZ-6V HYZ-9V HYZ-V HYZ-V 8., Pick-up (max.) Drop-out (min.) Coil resistance, Ω (±%) current, ma power, mw allowable (at 7 C 8 F) HY-.V.... HY-3V HY-.V HY-V HY-6V HY-9V HY-V HY-V 8. 3, DIMENSIS PC board pattern (Copper-side view) (.8) (.3) 6- dia dia dia..6 dia (.8) (.3). Schematic (Bottom view) N.C. COM REFERENCE DATA General tolerance: ±.3 ±. N.O. Tolerance: ±. ±.. Maximum switching power. Life curve 3. Mechanical life Tested sample: HYZ-V, pcs. Ambient temperature: C to C 68 F to 77 F Contact current, A..... DC resistive AC resistive Contact V Life, resistive load V AC resistive load Switching current, A Ratio against the rated %V ,, No. of operations, 8

39 HY. Electrical life Tested sample: HY-V, 6 pcs. Condition: A 3 resistive load, 3 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 No. of operations, Change of contact resistance Contact resistance, mω 8 6 No. of operations, -(). Coil temperature rise ( mw high sensitivity type) Tested sample: HY-9V, pcs. Ambient temperature: C 7 F Coil temperature rise, C A A Coil applied %V -(). Coil temperature rise ( mw Standard type) Tested sample: HYZ-V, pcs. Ambient temperature: 3 C 7 F Coil temperature rise, C A A Coil applied %V 6. 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 7. Distribution of pick-up and drop-out voltages Tested sample: HY-V, pcs. Ambient temperature: 3 C 7 F 3 Quantity 8. Distribution of contact resistance Tested sample: HY-V, pcs. N.C. side N.O. side Quantity 3 N.C. side N.O. side 9. Malfunction shock Tested sample: HYZ-V, 6 pcs. 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 3 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 9// 8 All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

40 UL CSA VDE Pending Pending Pending UNIQUELY DESIGNED RELAY K-RELAYS a FEATURES times more reliable than similar designs Extra long life Mechanical: more than 8 operations Electrical ( A 3 V): more than 6 operations Versatile range for all applications Sealed construction Gold-clad bifurcated contacts Low and stable contact resistance Epoxy sealing resin Low level current switching possible a KEB KEB 9..7 K6EB Plastic header Gold-clad stationary contact Silver Highly reliable bifurcated contacts Amber plastic cover Silver Gold-clad movable contact Nickel silver contact arm SPECIFICATIS Contacts Arrangement Rating (resistive load) Expected life (min. operations) switching power switching voltage switching current,, 6 Form C W, VA V AC DC A Mechanical 8 Electrical ( A V AC) Contact Movable contact material (Bifurcated Stationary contact contacts) Initial contact resistance, max. (By voltage drop 6 A) Capacitance 6 Gold-clad silver Gold-clad silver mω Contact/Contact 3 pf Contact/Ground pf Characteristics (at C 68 F, % R.H.) speed cps. Initial insulation resistance, MΩ at Initial breakdown voltage Between open contacts, contact sets Between live parts and ground Between contacts and coil Operate time* (at nominal voltage) Release time* (at nominal voltage) Vibration resistance 7 Vrms 7 Vrms 7 Vrms Approx. ms Approx. ms 98 m/s { G}, to Hz at double amplitude of.6 mm Shock resistance 98 m/s { G} Conditions for operation, transport and storage (Not freezing and condensing at low temperature) Ambient pressure Unit weight (approx.) Ambient temperature* Humidity C, C: C to +6 C F to + F 6C: C to + C F to + F to 8% R.H., 3 Pa ±% {,3 mb ±%} KEB: 3 g.8 oz, KEB: 7 g.9 oz, K6EB: 3 g.6 oz * Excluding contact bounce time * Total temperature (temperature rise in coil plus ambient temperature) should be kept less than max. C F 3

41 K ORDERING INFORMATI Ex. K EB P V Contact arrangement Type classigication Terminal Coil (DC) Sensitivity : Form C : Form C 6: 6 Form C EB: Amber sealed type Nil: Plug-in, solder terminal P: PC board terminal 3 to V (Notes). Other coil and contact specifications are available on request for orders of more than, pcs. (Notes). Please state: Required coil resistance Gold clad/gold clad contacts (Notes). For UL/CSA or VDE recognized types, and suffix UL/CSA or VDE. (Notes) 3. Standard packing Carton: pcs. Case: pcs. TYPICAL APPLICATIS Typical applications include: Systems and equipment requiring higher reliability, Severe environmental uses, Alarm devices, Office machines, Telecommunication equipment, Pollution control equipment TYPES AND COIL DATA Plug-in and Solder Form C Form C 6 Form C For PC board (DC) Coil voltage (V) Pick-up (max. at C) Drop-out (min. at C) allowable (at C) Coil resistance* (Ω at C) Nil: High sensitivity relays : Ordinary sensitive relays coil power (mw) Inductance (H) Closed Armature KEB-3V- KEBP-3V KEB-6V- KEBP-6V KEB-V- KEBP-V KEB-V- KEBP-V , KEB-V- KEBP-V , KEB-8V- KEBP-8V ,6 3 6 KEB-V- KEBP-V , KEB-3V- KEBP-3V KEB-6V- KEBP-6V KEB-V- KEBP-V KEB-V- KEBP-V KEB-8V- KEBP-8V , 73 KEB-8V- KEBP-8V , 7 8 KEB-V- KEBP-V , K6EB-6V ,86..6 K6EB-V ,39.. K6EB-V , K6EB-8V ,7,3 3 8 K6EB-6V ,8,86 3 K6EB-V 77...,, 6 8 REFERENCE DATA Open * Less than, Ω: ±% More than, Ω: ±%. Life curve. Coil temperature rise (resistance method) 3. HS gas test (, ppm),, No. of operations 3 L R = L R = 7 ms 3 Current, A Coil temperature rise, C Operating power, W Contact resistance, mω 3 3 Sealed KE relay (Au/Ag contact) Exposure time, hrs.

42 DIMENSIS Form C K Plug-in terminal (KEB) (N.O.) (N.C.) GROUND STUD (3-8 NC-A) PC board pattern (Copper-side view) PC board terminal (KEBP) (N.O.) (N.C.) DIA.. DIA. For grounding Tolerance: ±.3 ±. Form C Plug-in terminal (KEB) (N.O.) (N.C.) (N.O.) (N.C.) GROUND STUD (3-8 NC-A) PC board pattern (Copper-side view) PC board terminal (KEBP) (N.O.) (N.C.) (N.O.) (N.C.) DIA.. DIA. For grounding Tolerance: ±.3 ±. 6 Form C Plug-in terminal (K6EB) (N.O.) (N.C.) (N.O.) (N.C.) (N.O.) (N.C.) GROUND STUD (3-8 NC-A) General tolerance: ±. ±.

43 K ACCESSORIES Solder terminal sockets (with hold-down clip) K-SS Form C (for KEB) DIA K-SS Form C (for KEB) DIA K6-SS 6 Form C (for K6EB) DIA PC board terminal sockets (with hold-down clip) K-PS Form C (for KEB) DIA PC BOARD PATTERN (Copper-side view) DIA.. DIA. For grounding..98 K-PS Form C (for KEB) DIA PC BOARD PATTERN (Copper-side view) DIA.. DIA. For grounding PC BOARD PATTERN (Copper-side view) K6-PS 6 Form C (for K6EB) DIA DIA.. DIA. For grounding..98 General tolerance: ± ±.39 6

44 MOUNTING DIMENSIS Plug-in socket mounting K ± FLAT WASHER LOCK WASHER HOLD-DOWN CLIP K RELAY (.. 6C) MOUNTING SCREW (.3mm or 3-8NC-A) MOUNTING PANEL MAX. THICKNESS IS TO BE KEPT LESS THAN 3mm. SOCKET FOR K RELAY MIN (a) (b) HOLE -.8 DIA. (a) K: K:. K6: (b) K: 6. MIN. K: 3.8. MIN. K6: MIN. General tolerance: ±. ±. Tolerance: ±. ±. For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, 7 Ltd.

45 CSA pending FLATPACK RELAY NF-RELAYS FEATURES. Flatpack. Long seller SPECIFICATIS Contacts Arrangement ] Initial contact resistance (By voltage drop 6 A) Contact material Rating, (resistive load) Expected life (min. operations) ]. MBB types available: MBB & MBB (See next page for contact positions.) Coil Typical Movable contact Stationary contact switching power switching voltage switching current Form C, Form C mω mω Gold-clad silver Gold-clad silver 6 W VA V AC, DC A Mechanical 8 Electrical (Resistive) power, at C A 3 A 3 6. A 3 7 C C power for continuous duty Approx. 3 mw Approx. 8 mw Approx. W at C F 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: 6ms * 6 Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6). Characteristics (at C 77 F, % R.H. seal level) speed Initial insulation resistance* Contact/Contact Electrostatic Contact/Coil capacitance Contact/Ground Between open contacts Initial Between contact sets breakdown voltage* Between live parts and ground Between contacts and coil Operate time* 3 (at nominal voltage) Release time (without diode)* 3 (at nominal voltage) Contact bounce Shock resistance Vibration resistance Functional* In de-energized condition cps, MΩ at Approx. pf Approx. 7 pf Approx. 6 pf 7 Vrms, Vrms, Vrms, Vrms ms (Approx. ms) ms (Approx. 3 ms) Approx.. ms 9. m/s {3 G} (In contact direction) 98 m/s { G} (perpendicular to contact) In energized 96 m/s condition { G} Destructive* 98 m/s { G} Functional* 6 Destructive Conditions for operation, transport and storage* 7 (Not freezing and condensing at low temperature) Unit weight In de-energized condition In energized condition Ambient temp. Humidity C C 9. m/s {3 G}, to Hz at double amplitude of. mm (in contact direction) 98 m/s { G} to Hz at double amplitude of.6 mm (perpendicular to contact) 7.6 m/s { G} to Hz at double amplitude of mm 96 m/s { G}, to Hz at double amplitude of 3.3 mm C to + 6 C F to +9 F to 8%R.H. Approx. g.9 oz Approx.. g. oz TYPICAL APPLICATIS NF relays are widely acceptable in applications where small size and high sensitivity are required. Such applications include: Electronic equipment, Household applications, Alarm systems, Office machines, Communication equipment, Measuring equipment, Remote control systems, General control circuits, Machine tools, Industrial machinery, etc. 98

46 ORDERING INFORMATI NF Ex. NF EB M 8V Contact arrangement Type classification MBB function Coil voltage (DC) Contact metarial : Form C : Form C EB: Standard Nil: Form C type M: MBB ( Form D) M: MBB ( Form D), 6,,, 8 V (Notes). For VDE recognized types, add suffix VDE. (Notes). For UL/CSA recognized type, add suffix-a, as NFEB-V-A whose ground terminal is cut off. (Notes) 3. Standard packing Carton: pcs.; Case: pcs. Nil: Gold-clad silver : Gold-cap over silver palladium TYPES AND COIL DATA (at C 77 F) *Less than, Ω: ±% *More than, Ω: ±% Drop-out allowable Inductance, H Pick-up Coil resistance,* power, Armarure (max.) Ω (min.) (at C) mw Open Close NFEB-V NFEB-6V NFEB-V NFEB-V 9.., NFEB-8V , NFEB-V NFEB-6V NFEB-V NFEB-V 9.. 3, NFEB-8V ,.. DIMENSIS Form C.8±.3.± dia..3 dia. Stand-off Resin rise max.. max.. N.O. N.C. Ground terminal Common terminal Coil terminal 8 Schematic 7 Terminal dimensions (except soldering) Width:.8.3 Thickness:.3. MBB contact position NF-M: terminal 6-7-8, PC board pattern (Copper-side view).9.93.±..± Relay outline 7.6±..3± DIA. () (.).7±..± ±..3±.8.3. () (.) Form C.8±.3.± dia..3 dia. Stand-off Resin rise max.. max.. N.O. N.C. Ground terminal Common terminal Coil terminal 8 Schematic 7 3 Terminal dimensions (except soldering) Width:.8.3 Thickness: MBB contact position NF-M: terminals 6-7-8, 9-- NF-M: terminals 6-7-8, 3--, -3-, 9-- General tolerance: ±. ±. (Except for the cover height) PC board pattern (Copper-side view)..83.±..± Relay outline 7.6±..3± DIA. () (.).7±..± ±..3±.8.3. () (.) 99

47 NF REFERENCE DATA. Life curve. Coil temperature rise (resistance method) 3. HS gas test No. of operations,, 3 Resistive Coil temperature rise, C 6 Contact resistance Ω Ω Ω Ω Ω mω mω mω Gas density: to ppm Temperature: C Humidity: 9% Sealed NFEB relay... Load current, A Operating power, W,, Exposure time, hrs. Contact reliability Test conditions:. Contact current/voltage: µa mv khz. Cycle rate cps. 3. Miscontact detection level: mw (= Ω). Detection method: Observation of all changeover contacts F(t)(%) No. of operations, 6 Test result: m =. µ =. 6 9% confidence level = contacts out of achieved million no miscontact operations.. High temperature test Test conditions: Ambient temperature: 8 C ± C Test method:. All contacts were switched for operations on A 3 resistive load.. Samples then were exposed to 8 C temperature for, hours, continuous 3. Contact resistance was measured with Hewlett- Packard testing equipment. Contact resistance, mω N.C. contacts N.O. contacts 3,, 3, Exposure, hrs. Test result: Amber relays showed a stable spread of contact resistance within the initially specified mω after, hours exposure. NOTES. Prevention of vibration and shock To reduce the likelihood of vibration and shock, we recommend that you install so that the contact action is not in the direction of gravity. Common terminal Top Coil terminal NC terminal NO terminal Bottom For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

48 6PDT FLATPACK AMP DIL RELAY NL-RELAYS NLE Amber Relays.9.9 FEATURES Space saving dimensions. mm 3. mm.9 mm. inch.76 inch.9 inch Latching types available Low power mw (single side stable) Transistor compatible High breakdown voltage for transient protection, Vrms between open contacts, contact sets, and, V FCC surge between open contacts Soldering flux inflow completely prevented SPECIFICATIS Contacts Arrangement** 6 Form C Contact material gold-clad silver** Initial contact resistance, max. (By voltage drop 6 A) Rating (resistive) Expected life (min. operations) switching capacity switching power switching voltage switching current ** MBB contact types also available: MBB, MBB & 6 MBB ** Gold capped silver-palladium contact also available Coil (polarized) (at C 77 F) mω A 3 6 VA, 6 W V AC, 3 A Mechanical 7 Electrical (resistive) Minimum power power Minimum set and reset power set and reset power A 3.6 A 6 Approx. 6 mw up to 6 : Approx. 7 mw : Approx. 9 mw Approx., mw Approx.,6 mw 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: 6ms * 6 Detection time: µs * 7 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6). Characteristics Maximum speed Initial insulation resistance* Breakdown voltage* Between open contacts, contact sets Between contacts and coil Operate time* 3 (at nominal voltage) Release time (without diode)* 3 (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 cps MΩ at, Vrms, Vrms ms (Approx. ms) ms (Approx. ms) 6 C with nominal coil voltage and at switching current A Functional* 7 m/s { G} Destructive* 98 m/s { G} Functional* 6 Destructive Ambient temp. Humidity 8.8 m/s {6 G}, to Hz at double amplitude of mm 7.6 m/ s { G}, to Hz at double amplitude of mm C to + C F to +3 F to 8% R.H. Approx. 7 g.6 oz TYPICAL APPLICATIS Telecommunications, security equipment, detection systems. ORDERING INFORMATI Ex. NL 6 EB X 6M L DC8V Contact arrangement Classification of type MBB function Operating function Coil voltage Contact material 6: 6 Form C EB: Amber sealed type Nil: 6 Form C Nil: Single side Nil: stable L: coil latching (Notes). For UL/CSA or VDE recognized types, add suffix UL/CSA or VDE. (Notes). Standard packing Carton: pcs. Case: pcs. DC:, 6,,, 8, 6, V Nil: Gold-clad silver : Gold-cap over : silver palladium

49 NL TYPES AND COIL DATA (at C 68 F) Single side stable Pick-up (max.) Coil Drop-out (min.) Maximum allowable Coil resistance, Ω (±%) power, mw NL6EBX-DCV NL6EBX-DC6V NL6EBX-DCV NL6EBX-DCV NL6EBX-DC8V , NL6EBX-DC6V , NL6EBX-DCV , DIMENSIS Single side stable..8.. PC board pattern (Bottom view) coil latching Set (max.) Coil * Reset (max.) Maximum allowable Coil resistance, Ω (±%) NL6EBX-L-DCV....6 NL6EBX-L-DC6V NL6EBX-L-DCV NL6EBX-L-DCV NL6EBX-L-DC8V , NL6EBX-L-DC6V , NL6EBX-L-DCV ,63 power, mw,6** * See NOTE ** Two coil latching series are for intermittent operation only. Power should be applied to coil continuously for no more than two minutes. coil latching..8.. PC board pattern (Bottom view) DIA HOLES -.7 DIA HOLES DIA HOLES -.7 DIA HOLES Schematic (Top view) Schematic (Top view) REFERENCE DATA Pick-up/drop-out V 8 9 Contact resistance, mω Electrical life ( A 3 resistive load). Coil temperature rise 7 N.C. contact N.O. contact 7 6 A carrying 6 3 Temperature rise, C General tolerance: ±.3 ±. No load No. of operations, NOTES On two coil latching relays. To maintain insulation between coils, terminals 6 and 7 should be connected to provide common return. 6 Latch coil Latch switch 7 Reset coil Reset switch No. of operations,. Two coil latching relays are for intermittent operation only. Power should be applied to coils for no more than two minutes; continuous operation may burn out the coils. Coil applied %V 3. Position of MBB contacts M ( Form D Form C): --, -- M ( Form D Form C): --, --8, 9-3-, -- For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

50 UL pending CSA pending LG LIFE RELAY NR-RELAYS FEATURES Sealed construction for automatic wave soldering and cleaning Latching types available High sensitivity TTL direct drive possible High speed Up to cycle/sec. operations Wide switching range and high welding resistance Gold cobalt (AuCo) contact permits Wider switching range from low level up to high current: µa to A Higher sticking resistance to inrush current Stable contact resistance from initial stage throughout life SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 A) Initial contact pressure Contact material Electrostatic capacitance Rating (resistive) Expected life (min. operations) Contact- Contact N.O. contact-coil Coil (polarized) (at C 77 F) Sealed type Magnetically sealed type Sealed type Magnetically sealed type Sealed type N.C. contact-coil Magnetically sealed type switching capacity Form C 6 mω Approx. g.8 oz Gold cobalt 3 pf pf pf pf pf 6 pf A VDC,.3A VAC switching power 33 VA, W switching voltage V AC, 3 switching current AC.3 A, DC A switching power Approx. mv µa Mechanical (at cps.) 9 Electrical (resistive) Minimum operting power power A /.3 A V AC. A 3 /. A V AC. A 3 /. A 3 V AC. A /. A V AC. A /. A V AC. A 9 /. A 9 V AC 6 (at cps.) 3 6 (at cps.) 6 (at cps.) 7 (at cps.) 7 (at cps.) 8 (at cps.) Single side stable 7 to 33 mw coil latching to mw coil latching 7 to 7 mw Single side stable 7 to 3 mw coil latching 7 to 3 mw coil latching 7 to 33 mw Characteristics (at C 77 F) speed cps. (mechanical) Initial insulation resistance* MΩ at * Initial breakdown voltage* 3 Between live parts and ground Between open contact Between contact and coil Operate time* (at nominal voltage) Release time (without diode)* (at nominal voltage) Contact Single side stable bounce time -coil /-coil latching Temperature rise, Vrms 3 Vrms ( ), Vrms 3 ms (Approx. ms) ms (Approx.. ms) Approx.. ms Approx..3 ms 3 C at. W power 6 C at W power Shock resistance Functional* 98 m/s { G} Destructive* 6 98 m/s { G} Vibration resistance Conditions for operation, transport and storage* 9 (Not freezing and condensing at low temperature) Unit weight Functional* 7 Destructive Ambient temp. Humidity 98 m/s { G}, to Hz at double amplitude of.6 mm* m/s { G}, to Hz at double amplitude of mm C to +6 C* 67 F to +9 F to 8% R.H. Approx. 7 g. oz Remarks * Specifications will vary with foreign standards certification ratings. * Measurement at same location as "Initial breakdown voltage" section * MΩ at between coils of coil latching type * 3 Detection current: ma, Except for between coils of coil latching type * Excluding contact bounce time * Half-wave pulse of sine wave: 6ms; detection time: µs * 6 Half-wave pulse of sine wave: 6ms * 7 Detection time: µs * 8 Although NR relays are rated at G/ cps. vibration resistance, they will withstand up to 6 G/, cps., provided they receive additional support such as anchoring to the PC board with epoxy resin. * 9 Refer to. Conditions for operation, transport and storage mentioned in AMBIENT ENVIRMENT (Page 6) * Total temperature (ambient temperature plus temperature rise in coil) should not exceed 9 C 9 F for single side stable, and C F for latching relays. See Reference Data for determination of coil voltage versus temperature.

51 TYPICAL APPLICATIS Telecommunications equipment, alarm devices, machine tools, NC machines, automatic warehouse control, conveyors, air-conditioners, pressing machines, textile machinery, elevators, control panels, pin-board programmers, parking meters, industrial robots, detectors, annunciators, optical instruments, business machines, NR time recorders, cash registers, copiers, vending machines, medical equipment. ORDERING INFORMATI EX. NR- H L D V Types of case H: Sealed S: Magnetically sealed Operating function Nil: Single side stable L: coil latching L: coil latching Coil voltage (DC), 6,,, V (Notes). Power types and Form A types are available on request. (Notes). For UL/CSA recognized types, delete N at head portion of part No. and add suffix UL/CSA, when ordering. Ex. RSD-V UL/CSA (Notes) 3. Standard packing Carton: pcs., Case: pcs. TYPES AND COIL DATA (at C 77 F) Single side stable (NR-SD) coil coil latching (NR-SLD) coil latching (NR-SLD) Pick-up (max.) (min.) (Note) Maximum allowable power: mw at C 77 F. Maximum allowable ( C F) Coil resistance, Ω (±%) power, mw Inductance, Henrys , ,.7 coil Pick-up (max.) Maximum allowable ( C F) Coil resistance, Ω (±%) power, mw Inductance, Henrys , , 96. 3, coil Pick-up (max.) Maximum allowable ( C F) Coil resistance, Ω (±%) power, mw Inductance, Henrys Set coil Reset coil ,7, ,, 3.8 DIMENSIS Ground terminal DIA.. DIA. Terminal dimensions (Except soldering) Terminal No. Thickness Width, 7, 3,, 6, ground terminal Soldering:.3. max DIA.. DIA General tolerance: ±. ±. Tolerance: ±. ±.8 3

52 NR DIFFERENCES BETWEEN NR RELAYS AND REED RELAYS Structure NR relays Reed relays "Getter" holes are formed on both pole shoes to obtain uniform contact resistance throughout life. Film-forming phenomena on contacts is thus fully prevented. Contact arrangement Form C Form A or Form B Contact capacity W (high contact pressure) to W Operating function Single side stable Latching Single side stable "Getter" hole Yes No REFERENCE DATA.-() Contact reliability Test sample: NR-SD-V pcs. Circuits: (A) Following figure with diode (B) Following figure without diode Start R Stop R R R R R R3 R R R3 R3 R Item to be checked: Detect with the circuit stopped Circuits: (A) Diode provided: The circuit does not stop throughout million times. (B) Diode not provided: λ6 =. -8 times.-() Contact reliability TEST CDITI Sample: NR-SD-V, pcs. Contact voltage: mv Contact current: µa Cycle rate: cps. Detection level: Ω Testing operation: 3 7 m =.9 σ =. 7 µ =.7 7 9% reliability limit:. 7 (Mean time between failure) F(t)(%) Coil temperature rise (under saturated condition) Coil temperature rise, C Magnetically sealed type Plastic sealed type 7,, Operating power, mw..... No. of operations, 7 (WEIBULL) 3.-() Operate time including bounce time (Single side stable) () Operate time including bounce time ( coil latching) 3.. Release time including bounce time (Single side stable) Operate time, ms x 8 Coil applied %V Operate time, ms x 8 Coil applied %V Release time, ms x 8 Coil applied %V

53 NR.-() Leaving at high temperature (Change of pick-up and drop-out voltages) Tested sample: NR-SD-V, 3 pcs. Condition: Deenergized leaving at 9 C 9 F (constant temperature) Voltage, V Drop out voltage x x.-() Leaving at high temperature (Change of contact resistance) Tested sample: NR-SD-V, 3 pcs. Condition: Deenergized leaving at 9 C 9 F (constant temperature) Contact resistance, mω, N.C. side contact N.O. side contact 6. High frequency characteristics Tested sample: NR-SD-V Tested condition: Isolation, db SG(Signal generator) A B N.O. N.C. Isolation loss between A and B is measured. Ω Ω,, Time, hr,, Time, hr Frequency, MHz 7. Contact sticking resistance TEST CDITI The purpose of this test was to confirm contact sticking resistance and contact stability against coil ripples. Tested Sample: NR-SD-V, pcs. Test method: Following coil ripples were applied. Test period: hours 7 Hz TEST RESULT No occurance of sticking was observed. Contact resistance: Fig. NR-SD-V: 9 mω to 3. mω Contact resistance mω x 8. Distribution of contact resistance Tested sample: NR-SD-V (WG type) pcs. Quantity 3 x =. mω 3σ = 9.7 mω, Energization time, Hr Fig. In actual application, above coil ripples should be avoided and use of a capacitor in the circuit is recommended to keep the ripple factor below %. 3 Contact resistance, mω 9.-() Rate of change in pick-up and drop-out voltage (Single side stable) 9.-() Rate of change in pick-up voltage ( coil latching).-() Mechanical life (Change of pick-up and drop-out V) Tested Sample: NR-SD-V, pcs. Operation frequency: cps Rate of change, % Drop-out voltage Pick-up voltage Rate of change, % Pick-up voltage Pick-up/drop-out Voltage, V Pick-up Voltage Drop-out Voltage Ambient temperature, C.-() Mechanical life (Change of contact resistance) Tested Sample: NR-SD-V, pcs. Operation frequency: cps Contact resistance, mω N.C. side N.O. side,,, No. of operations, Ambient temperature, C.-() Electrical life ( A resistive load) Tested sample: NR-SD-V, pcs. F(t)(%) η:.8 6 µ:.6 6 σ:.6 (Weibull probability paper) No. of operations,,,, No. of operations,.-() Electrical life Tested Sample: NR-SD-V, pcs. Load: 6 ma resistive load Frequency: cps Contact resistance, mω,, No. of operations, N.C. side N.O. side

54 NR.-(3) Electrical life Tested Sample: NR-SD-V, pcs. Load: ma inductive load with diode protection ( relay coils in parallel of NR-SD-V) Frequency: cps,.-()electrical life (37 ma relay coil load) Tested sample: NR-SD-V, pcs. Condition: HP-DC 6 pcs. in parallel, diode protector provided NR relay contact Contact resistance, mω Pick-up/drop-out V 6 8 x x Contact resistance, mω 8 6 L L L3 L L L6 L~L6: HP-DCV 6 pcs. in parallel Diode protector provided x,, 3 3 No. of operations, No. of operations, No. of operations,. Thermal electro motive force Tested Sample: NR-SD-V, pcs. Coil applied V: Ambient atmosphere: C 77 F, 6% RH Thermal EMF, µv 3. High temperature test TEST CDITI Tested Sample: NR-SD-V, 3 pcs. Ambient temperature: 8 C 76 F Humidity: less than % R.H. Exposure time:, hours with relays deenergized. TEST RESULT Contact resistance: Fig. All samples were measured less than mω in contact resistance throughout this test.. Influence of adjacent mounting Distance Type () Magnetically shielded type (.97). Resistive load test TEST CDITI Tested Sample: NR-SD-V, pcs. Load: A Resistive Cycle rate:. cps. Contact resistance in life test (.39) (.9) ±% ±% Sealed type ±% ±6% ±% Hour Contact resistance, mω 8 6 N.C. N.O. Contact resistance, mω N.C. N.O. Mean value of N.O. Mean value of N.C.,, Exposure time, hr No. of operations, 6 APPLICATI HINTS Contact protection circuit When using NR relays in inductive load circuits, a contact protection circuit is recommended. Examples: CR CR Diode S Relay contact S S r r c L c L L L : Inductive load. r = more than to 3 ohms. In an AC circuit impedance of L is to be somewhat smaller than impedance of r and c. Can be used for both AC and DC circuits. Use to ohms for r and. µf to. µf V for c in a general to V load circuit. For DC circuits only. 6

55 The following is life data under our HP relay load. Contact voltage Contact current Contact protection circuit Operating speed Expected life, min. op. 6 3 ma. µf + kω or diode op./s ma. µf + kω or diode op./s 3 7 ma. µf + kω or diode op./s 3 7 ma. µf + kω or diode op./s 7 8 ma. µf + kω op./s 3 7 ma. µf + kω or varistor op./s 7 ma. µf + kω op./s 7 (Notes). When inrush current occurs in the capacitor load circuit or incandescent lamp load circuit, reduce it to less than A. Electrical life of "AuCo" contact types is, operations in a A inrush current circuit.. When A to A inrush current occurs in the capacitor load circuit or incandescent lamp load circuit, the use of power types is recommended. NR coil latching types A) The circuit at right is recommended when using one coil for latching and the other coil for reset. NR relays are sensitive enough to be operated by the discharge of energy accumulated in the inner-coil capacitance. The use of a diode of over V breakdown will prevent misoperation from this source. In order to maintain the insulation between the two coils, connection of the terminal No. 3 and No. 6 or the terminal No. and No. is recommended, as shown in the right figure. Rectifiers should be inserted in this circuit when the nominal coil voltage of the NR relay is more than. B) No damage will occur to the coil of either the one or two coil latching types even if the voltage is as much as or 3 times the nominal coil voltage. C) If separate pulses are applied to each coil of the coil latching types, the first pulse will operate when the pulses are of equal voltage. When voltages differ the higher voltage will cause operation provided the voltage difference is greater than the measured pick-up voltage. Voltage difference on the coils will reduce contact pressure proportionately. Continuous bias voltage after an pulse lowers contact pressure and vibration resistance. coil coil bias voltage Ripple factor Coils should be operated on pure DC. Rectified AC may cause changes in the pick-up/drop-out characteristics because of the ripple factor. Use of a capacitor in the circuit is recommended to keep the ripple factor below %. R : relay R capacitor (ripple filter) E min. E max. E mean Pulsating component DC component To calculate the ripple factor E max. E min. Ripple factor (%) = % E mean E max. = max. value of pulsating component E min. = min. value of pulsating component E mean - average value DC component When designing NR relay circuits Care should be taken when designing relay circuits since the response of the relay is so fast that bouncing or chattering from conventional relays in the circuit may cause false operation. When using long lead wires When long wires (as long as m or more) are to be used, the use of resistance ( to Ω) in series with the contact is required in order to eliminate the effect of the possible inrush current due to the stray capacitance existing between the two wires or between the wire and ground. (Equivalent circuit) Contact of NR relay to Ω Lead wire ( to 3 m) + Energy accumulated in static capacitance 7

56 NR AC operation of latching relays When using circuits such as those at the right, avoid continued or extended latching or resetting power input. Latching switch Reset switch Latching switch Reset switch 6 3 coil bistable type coil bistable type Capacitor discharge operation of latching types When latching types by discharge of a capacitor, more reliable operation can be expected if the time to reach pick-up voltage is greater than ms at to µf: ( V type). C NR relay coil SW (V) more than ms Specified t NR relay contact C 6 3 C Flicker circuit Automatic coil circuit interruption Misoperation may occur in self-operated cutoff circuits such as shown at right. This can be avoided by adding a resistor and capacitor and increasing the pick-up voltage to above that specified. In a timer circuit, step-pulse voltage from PUT (Programmable Unijunction Transistor) or SBS (Silicon Bilateral Switch) is recommended. SW NR relay contact NR relay coil Coil voltage wave form V T (Time) NR relay coil Residual voltage When single side stable types or latching types are driven by transistor or UJT, residual voltage is sometimes applied to the coils and decreases contact pressure at N.O. side even if the transistor or UJT are in condition. As a result, characteristics of relays may be harmed. Design your circuits in principle to make such residual voltage zero. Short circuit prevention between N.C. and N.O. The separation of loads or insertion of a resistor for circuit protection are recommended for the circuits where large current flows due to arcing. (See Fig. ). Load COM N.C. Load separation Load N.C. COM N.O. N.O. Load Fig. 8

57 ACCESSORIES PC board terminal sockets (with hold-down clip) PC board pattern (Copper-side view) NR R-PS 3.39 E to.6 dia to.63 dia. Terminal width:.3. Terminal thickness:..7 General tolerance: ±. ±. Tolerance: ±. ±.8 For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, 9 Ltd.

58 HIGH FREQUENCY RG RELAYS WITH C AND C CTACTS RG-RELAYS Form C Excellent high frequency characteristics Isolation: 6dB (at 9 MHz) Insertion loss:. (at 9 MHz) Wide selection Characteristic impedance: Ω type and 7 Ω type Coil: Single side stable and latching type A switching capacity Sealed construction for automatic cleaning High sensitivity 3W ( Form C) in small size SPECIFICATIS Contact Arrangement Contact material Initial contact resistance, max. (By voltage drop 6 A) Form C, Form C Gold-clad silver mω W Rating (resistive) A switching capacity A High frequency characteristics (at 9 MHz) Ω 7 Ω Isolation 6 db 6 db Insertion loss db db V.S.W.R... 6 Expected life (min. operations) switching power switching voltage switching current Mechanical Electrical A Coil (polarized) (at C, 68 F) Form C Form C Single side stable 3 mw mw coil latching 7 mw mw coil latching 3 mw mw TYPICAL APPLICATIS Measuring instrument Testing equipment CATV converter Audio visual equipment TV game set Form C Characteristics Initial insulation resistance* Between open contacts Initial breakdown Between contacts and coil voltage* Between contacts and earth terminal Operate time* 3 (at nominal voltage) Release time* 3 (at nominal voltage)(without diode) Set time* 3 (at nominal voltage) Reset time* 3 (at nominal voltage) Temperature rise (at C) Shock resistance Vibration resistance Conditions for operation, transport and storage (Not freezing and condensing at low temperature) Unit weight ORDERING INFORMATI Ex. RG Functional* Destructive* Functional* 6 Destructive Ambient temp. Humidity C type C type MΩ at, Vrms, Vrms Vrms Approx. ms Approx. ms Approx. 7 ms Approx. 7 ms C with nominal coil voltage across coil and at nominal switching capacity 96 m/s { G} 98 m/s { G} to Hz at double amplitude of mm to Hz at double amplitude of mm C to 6 C 8 F to F to 8%R.H. Approx. 8 g.8 oz Approx. g.33 oz 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: 6ms * 6 Detection time: µs T L V Contact arrangement Characteristic impedance Operating function Coil voltage : Form C : Form C Nil: 7 Ω T: Ω Nil: Single side Nil: stable L: coil latching L: coil latching DC: 3,, 6, 9,,, 8 V Note: Standard packing; Carton: pcs. Case pcs.

59 RG TYPES ANE COIL DATA (at C 68 F) Form C Single side stable RG-3V RGT-3V RG-V RGT-V RG-6V RGT-6V RG-9V RGT-9V RG-V RGT-V RG-V RGT-V RG-8V RGT-8V voltage Pick-up max Drop-out min Coil resistance, Ω (±%) ,66 6,83 current, ma power, mw Maximum allowable ( C F) coil latching RG-L-3V RGT-L-3V RG-L-V RGT-L-V RG-L-6V RGT-L-6V RG-L-9V RGT-L-9V RG-L-V RGT-L-V RG-L-V RGT-L-V RG-L-8V RGT-L-8V voltage Set and reset (max.) Coil resistance, Ω (±%) ,9.8 3,66.8 current, ma power, mw Maximum allowable ( C F) coil latching RG-L-3V RGT-L-3V RG-L-V RGT-L-V RG-L-6V RGT-L-6V RG-L-9V RGT-L-9V RG-L-V RGT-L-V RG-L-V RGT-L-V RG-L-8V RGT-L-8V voltage Set and reset Coil resistance, Ω (±%) (max.) Coil Coil ,66 6, ,66 6,83 current, ma power, mw Maximum allowable ( C F) Form C Single side stable RG-3V RGT-3V RG-V RGT-V RG-6V RGT-6V RG-9V RGT-9V RG-V RGT-V RG-V RGT-V RG-8V RGT-8V voltage Pick-up max Drop-out min Coil resistance, Ω (±%) ,,76 current, ma power, mw Maximum allowable ( C F)

60 RG coil latching RG-L-3V RGT-L-3V RG-L-V RGT-L-V RG-L-6V RGT-L-6V RG-L-9V RGT-L-9V RG-L-V RGT-L-V RG-L-V RGT-L-V RG-L-8V RGT-L-8V voltage Set and reset (max.) Coil resistance, Ω (±%) 8 7,88, current, ma power, mw Maximum allowable ( C F) coil latching RG-L-3V RGT-L-3V RG-L-V RGT-L-V RG-L-6V RGT-L-6V RG-L-9V RGT-L-9V RG-L-V RGT-L-V RG-L-V RGT-L-V RG-L-8V RGT-L-8V voltage Set and reset Coil resistance, Ω (±%) (max.) Coil Coil ,, ,,76 current, ma power, mw Maximum allowable ( C F) DIMENSIS Form C type PC board pattern (Copper-side view).. - DIA -.39 DIA. Tolerance: ±. ±. Schematic (Bottom view) Deenergized condition Reset condition Reset condition Tolerance: ±.3 ± Single side stable coil latching coil latching Set coil Reset coil 7

61 RG Form C type PC board pattern (Copper-side view). 8- DIA DIA.. Tolerance: ±. ± Schematic (Bottom view) Set coil Reset coil General tolerance: ±.3 ±. REFERENCE DATA. Isolation RG-V 7 Ω characteristic impedance RGT-V Ω characteristic impedance Single side stable coil latching coil latching Deenergized condition Reset condition Reset condition Isolation, db Isolation, db Frequency, MHz Frequency, MHz. Insertion loss RG-V 7 Ω characteristic impedance RGT-V Ω characteristic impedance Insertion loss, db Insertion loss, db Frequency, MHz Frequency, MHz 8

62 3. Return loss RG-V 7 Ω characteristic impedance RGT-V Ω characteristic impedance RG Return loss, db Return loss, db Frequency, MHz Frequency, MHz -(). Operate and release time (C) RG-V 6 pcs. -(). Set and reset time (C) RG-L-V 6 pcs. -(3). Operate and release time (Without diode) (C) RG-V 6 pcs. Operate and release time, ms Operate time Release time x Set and reset time, ms Set time Reset time x Operate and release time, ms Operate time Release time x 8 Coil %V 8 Coil %V 8 Coil %V -(). Set and reset time (C) RG-L-V 6 pcs. -(). Bounce time (C) RG-V pcs. voltage is applied. Set and reset time, ms Set time Reset time x Frequency Operate bounce Frequency Release bounce 8 Coil %V..... Operate bounce, ms..... Release bounce, ms -(). Bounce time (C) RG-L-V pcs. voltage is applied. Set bounce Reset bounce Frequency Frequency..... Set bounce, ms..... Reset bounce, ms 9

63 RG 6-(). Mechanical life (C) RG-V pcs. 6-(). Mechanical life (C latching type) RG-L-V 6 pcs. Pick-up and drop-out voltage No. of operations, x x Set and reset V 8 6 Set voltage Reset voltage 3 No. of operations, x 7-(). Electrical life ( ma resistive load) RG-V 6 pcs. 7-(). Electrical life ( A resistive load) RG-V 6 pcs. Contact resistance, mω 8 6 x Contact resistance, mω 8 6 x 6 8 No. of operations, 6 8 No. of operations, 8-(). Rate of change in pick-up and drop-out voltage (C) RG-V pcs. RG-L-V pcs. Rate of change, % 3 Rate of change, % 3 Set voltage Reset voltage Ambient temperature, C 6 8 Ambient temperature, C 8-(). Rate of change in pick-up and dropout voltage (C) RG-V pcs. RG-L-V pcs. Rate of change, % 3 Rate of change, % 3 Set voltage Reset voltage Ambient temperature, C 6 8 Ambient temperature, C

64 Test condition RG Spectrum analyzer RG relay Measurement tool Ω or 7 Ω NM type connector. Characteristic impedance of all the measuring devices (signal generator and cable) is Ω or 7Ω.. The PC board for the test is double side copper clad phenolic paper laminate with thickness of.6 mm. 3. Grounding terminal holes are plated through.. Grounding terminal and one of the coil terminals are soldered to the PC board to be grounded.. Connection with measurement instrument is made with semi-rigid cable (Uniform Tube UT A) and high frequency NM type connector A PC board pattern. dia..9. dia Expanslon of A NOTES. Soldering Perform soldering under the conditions below. Within s at C 8 F Within s at 3 C 7 F Within 3s at 3 C 66 F. Counter voltage of DC relays If input is cut off in DC relays, a counter voltage is developed across the coil as a result of the collapse of the magnetic field. If the coil is used in a transistor circuit, the reverse voltage produced from the coil can cause a serious circuit malfunction. This counter voltage can be reduced considerably by connecting a capacitor or a diode in parallel with the coil. The level of reduction must be determined either by calculation if the coil data is available or by experiment. () Capacitor E SW Capacitor Relay Ry r () Diode SW Diode Relay Ry E 3. Latching relay In order to assure proper regardless of changes in the ambient usage temperature and usage conditions, nominal voltage should be applied to the coil for more than ms to set/reset the latching type relay. For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

65 . GHz MICROWAVE RELAY RK-RELAYS Excellent high frequency characteristics Isolation: 6dB (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 SPECIFICATIS Contact Arrangement Contact material Initial contact resistance, max. (By HP38A) Rating High frequency characteristics (Impedance Ω) Expected life (min. operations) Coil (at C, 68 F) Single side stable coil latching coil latching switching power switching voltage switching current switching capacity Isolation Insertion loss V.S.W.R. Mechanical. A Electrical W. GHz Form C Gold-clad mω W 3. A. A W (at. GHz, Impedance Ω) 6 db (at. GHz).3 db (at 9 MHz). (at 9 MHz) 6 3 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* 6 Destructive Ambient temp. Humidity MΩ at Vrms, Vrms Vrms Approx. 6 ms [Approx. ms] Approx. 3 ms [Approx. ms] 6 Cwith nominal coil voltage across coil and at nominal switching capacity 96 m/s { G} 98 m/s { G} to Hz at double amplitude of 3 mm to Hz at double amplitude of mm C to 6 C F to 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: 6ms * 6 Detection time: µs TYPICAL APPLICATIS Audio visual equipment broadcast satellite tuners VCRs, CATVs, TVs Communication equipment automobile telephones maritime telephones Instrumentation test equipment measuring equipment ORDERING INFORMATI Ex. RK Contact arrangement : Standard type R: R type (See Schematic on next page.) Note: Standard packing; Carton: pcs. Case pcs. L Operating function Nil: Single side stable L: coil latching L: coil latching V Coil DC 3,.,, 6, 9,, V

66 RK TYPES ANE COIL DATA (at C 68 F) Single side stable type Pick-up max. Drop-out min. Coil resistance, Maximum. allowable (at 6 C F) Ω (±%) current, ma power, mw RK-3V RKR-3V RK-.V RKR-.V RK-V RKR-V RK-6V RKR-6V RK-9V RKR-9V RK-V RKR-V RK-V RKR-V 8., coil latching type Set max. Reset max. Coil resistance, Maximum. allowable (at 6 C F) Ω (±%) current, ma power, mw RK-L-3V RKR-L-3V RK-L-.V RKR-L-.V RK-L-V RKR-L-V RK-L-6V RKR-L-6V RK-L-9V RKR-L-9V RK-L-V RKR-L-V RK-L-V RKR-L-V 8 8, coil latching type Set Reset Coil Maximum. allowable max. max. resistance, Ω (±%) current, ma power, mw (at 6 C F) RK-L-3V RK-L-.V RKR-L-3V RKR-L-.V RK-L-V RK-L-6V RK-L-9V RK-L-V RK-L-V RKR-L-V RKR-L-6V RKR-L-9V RKR-L-V RKR-L-V , DIMENSIS PC board pattern (Copper-side view) Schematic (Bottom view) (Single side stable and coil latching) 9-.9 dia dia... Standard contact arrangement RK Single side stable (Deenergized condition) R type contact arrangement RKR N.C. COM N.O. N.O. COM N.C (Single side stable and coil latching) ( coil latching) -.9 dia. -.3 dia... RK-L coil latching (Reset condition) RKR-L Stand-off RESET COM SET SET COM RESET ( coil latching) Stand-off Tolerance: ±. ±.3 RK-L coil latching (Reset condition) RKR-L RESET COM SET SET COM RESET General tolerance: ±.3 ±.

67 REFERENCE DATA.-() High frequency characteristics (Impedance 7Ω) Sample: RK-V Measuring method: Measured with HP network analyzer (HP873C) RK Insertion loss characteristics Isolation characteristics V.S.W.R. characteristics COM-NO...8 Insertion loss, db..6 COM-NC Isolation, db 6 COM-NO V.S.W.R..6. COM-NO.8 8 COM-NC. COM-NC. 3kHz.GHz 3GHz Frequency 3kHz.GHz 3GHz Frequency. 3kHz.GHz 3GHz Frequency.-() High frequency characteristics (Impedance Ω) Sample: RK-V Measuring method: Measured with HP network analyzer (HP873C) Insertion loss characteristics Isolation characteristics V.S.W.R. characteristics. Insertion loss, db...6 COM-NC COM-NO Isolation, db 6 COM-NO COM-NC V.S.W.R COM-NC COM-NO kHz.GHz 3GHz Frequency 3kHz.GHz 3GHz Frequency. 3kHz.GHz 3GHz Frequency. Coil temperature rise Sample: RK-V, RK-L-V, RK-L-V No. of samples: n = 6 Carrying current: ma Ambient temperature: C 77 F 3.-() Operate/Release time (Single side stable) Sample: RK-V; No. of samples: n = 6 3.-() Set/Reset time (Latching) Sample: RK-L-V, RK-L-V No. of samples: n = Temperature rise, C 8 6 RK-L-V RK-V, RK-L-V Operate/Reset time, ms 8 6 Operate time Release time Set/Reset time, ms 8 6 Set time Reset time 8 3 Voltage applied to coil, %V 8 Voltage applied to coil, %V 8 3 Voltage applied to the coil (%V) 3

68 RK.-() 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) 3 Pick-up/drop-out V 8 6 Set/Reset V 8 6 Contact resistance, mω, No. of operations,, No. of operations,, No. of operations,. Electrical life test (. A ) Sample: RK-V; No. of samples: n = 6 6. Ambient temperature characteristics Sample: RK-V; No. of samples: n = 6 7. Contact resistance distribution (initial) Sample: RK-V No. of samples: n = ( contacts) Pick-up/drop-out V 8 6 Rate of change, % Ambient temperature, C F Quantity 3 3 No. of operations, 3 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, % condition condition Rate of change, % Rate of change, % condition condition Inter-relay distance, (mm, inch) Inter-relay distance, (mm, inch) NOTES. Soldering Perform soldering under the conditions below. Within s at 6 C F Within 3 s at 3 C 66 F. Latching relay In order to assure proper regardless of changes in the ambient usage temperature and usage conditions, nominal voltage should be applied to the coil for more than 3 ms to set/reset the latching type relay. For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

69 GHz FORM C MICROWAVE RELAY RM-RELAYS Excellent high frequency characteristics Isolation: db (at GHz) Insertion loss.db (at GHz) V.S.W.R.:. (at GHz) High sensitivity in small size Size: 8... mm inch power: 36 mw (single side stable type) Sealed construction for automatic cleaning Latching types are also available SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By HP38A) Rating High frequency characteristics (Impedance Ω) Expected life (min. operations) Coil (at C, 68 F) Single side stable coil latching switching capacity Isolation Insertion loss V.S.W.R. Mechanical Electrical (at cpm) Form C mω. A W (at. GHz, Impedance Ω) db (at GHz). db (at GHz). (at GHz) 6 3 (. A ) ( W at. GHz, Impedance Ω) power 36 mw mw coil latching mw 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: 6ms * 6 Detection time: µs Characteristics speed (at rated load) Initial insulation resistance* Initial breakdown voltage* Operate time [Set time]* 3 (at nominal voltage) Temperature rise Between open contacts Between contact and coil Between contact and earth terminal Release time (without diode)[reset time]* 3 (at nominal voltage) Shock resistance Vibration resistance Conditions for operation, transport and storage (Not freezing and condensing at low temperature) Unit weight Functional* Destructive* Functional* 6 Destructive Ambient temp. Humidity cpm MΩ at Vrms for min., Vrms for min. Vrms for min. Approx. 6 ms [Approx. 3ms] Approx. 3 ms [Approx. 3ms] 6 C with nominal coil voltage across coil and at nominal switching capacity 98 m/s { G} 98 m/s { G} to Hz at double amplitude of. mm to Hz at double amplitude of mm C to 6 C F to F to 8% R.H. Approx. 7 g.7 oz TYPICAL APPLICATIS Measuring equipment (Attenuator circuits) Audio visual equipment Communication equipment ORDERING INFORMATI Ex. RM L V Contact arrangement : Form C Operating function Nil: Single side stable L: coil latching L: coil latching Coil voltage (DC) 3,.,, 6, 9,, V Note: Standard packing; Carton: pcs. Case pcs. 97

70 RM TYPES ANE COIL DATA (at C 68 F) Single side stable type Pick-up Drop-out Coil resistance, Ω (±%) power, allowable max. min. current, ma mw (at 6 C F) RM-3V RM-.V RM-V RM-6V RM-9V RM-V RM-V 8., coil latching type Set Reset Coil resistance, allowable max. Ω (±%) current, power, max. ma (±%) mw (at 6 C F) RM-L-3V RM-L-.V RM-L-V RM-L-6V RM-L-9V RM-L-V RM-L-V 8 8,3. 6. coil latching type Set max. Reset max. Coil resistance, Ω (±%) current, power, allowable (at 6 C F) ma (±%) mw Set coil Reset coil Set coil Reset coil Set coil Reset coil RM-L-3V RM-L-.V RM-L-V RM-L-6V RM-L-9V RM-L-V RM-L-V 8 8,, DIMENSIS PC board pattern (Bottom view) Single side stable and coil latching Single side stable and coil latching dia dia dia. -.8 dia coil latching coil latching dia dia Tolerance: ±.3 ± Schematic (Bottom view) dia. -.8 dia..7 Single side stable coil latching coil latching (Deenergized condition) (Reset condition) (Reset condition) 7..9 N.C. COM N.O. RESET COM SET RESET COM SET General tolerance: ±.3 ±. + N.C. COM Direction indication N.O. RESET COM Direction indication SET Set + RESET COM Direction indication SET Reset 98

71 REFERENCE DATA. High frequency characteristics Sample: RM-V Measuring method: Impedance Ω (Wiring diagram) dia..39 dia. dia..79 dia..8 dia..3 dia. dia..39 dia. Tolerance: ±. ±. PC board Double-sided through hole Material: Glass-PTFE RM Isolation Insertion loss V.S.W.R Isolation, db Frequency, GHz Insertion loss, db 3 3 Frequency, GHz V.S.W.R Frequency, GHz. Coil temperature rise Sample: RM-V; No. of samples: n = Carrying current: ma Point measured: Inside the coil Ambient temperature: 7 to 8 C 8.6 to 8. F 3.-() Operate/Release time (Single side stable) Sample: RM-V; No. of samples: n = 6 3.-() Set/Reset time (Latching) Sample: RM-L-V No. of samples: n = Temperature rise, C 8 6 Operate/Reset time, ms 8 6 Operate time Release time Set/Reset time, ms 8 6 Set time Reset time 8 Coil applied %V 8 Coil applied %V 8 Coil applied %V. Mechanical life test Sample: RM-V; No. of samples: n =. Electrical life test (. A ) Sample: RM-V; No. of samples: n = 6 Change of pick-up and drop-out voltage Change of contact resistance Ratio against the rated %V Ratio against the rated %V Contact resistance, mω , No. of operations, 3 No. of operations, 3 No. of operations, 99

72 RM 6. Ambient temperature characteristics Sample: RM-V; No. of samples: n = 7. Contact resistance distribution (initial) Sample: RM-V No. of samples: n = ( contacts) 8.-() Influence of adjacent mounting Rate of change, % 3 Pick-up voltage Mean value Mean value Ambient temperature, C, F 3 Quantity Contact resistance, mω Rate of change, % Rate of change, % condition condition Inter-relay distance, (mm, inch) 8.-() Influence of adjacent mounting Rate of change, % Rate of change, % Inter-relay distance, (mm, inch) NOTE. Soldering Soldering should be done under the following conditions. Temperature 6 C F 3 C 66 F Time Within s Within 3 s For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

73 LOW PROFILE HIGH FREQUENCY RELAY RP-RELAYS 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:.6 9 mm inch power: mw SPECIFICATIS Contact Arrangement Contact material Movable Stationary Initial contact resistance, max. (By voltage drop 6. A) Rating High frequency characteristics (Impedance Ω) Expected life (min. operations) Coil (at C, 68 F) switching capacity Isolation Insertion loss V.S.W.R. Mechanical (at 8 cpm) Electrical (at cpm) Voltage type. to Form C Silver alloy Gold-clad silver mω. A 3 Contact switching power: W (.8 GHz); Contact carrying power: 3 W (. GHz) W (.8 GHz) db (at GHz) db (at.8 GHz). db (at GHz) db (at.8 GHz). (at GHz).3 (at.8 GHz) 6 (. A 3 ) ( W at.8 GHz; V.S.W.R.: max..3) power mw 7 mw Characteristics 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) Cwith 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* 6 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: 6ms * 6 Detection time: µs TYPICAL APPLICATIS Antenna switching of mobile phone Switching signal of measuring equipment ORDERING INFORMATI Ex. RP H 3V Contact arrangement Terminal shape Coil voltage (DC) Nil: Standard PC board terminal : Form C H: Self-clinching terminal Note: Standard packing; Carton: pcs. Case, pcs.., 3,.,, 6, 9,, V 93

74 RP TYPES ANE COIL DATA (at C 68 F) Standard PC board terminal RP-.V RP-3V RP-.V RP-V RP-6V RP-9V RP-V RP-V 6.6 dia.63 dia 6. dia.39 dia DIMENSIS Self-clinching terminal RP-H-.V RP-H-3V RP-H-.V RP-H-V RP-H-6V RP-H-9V RP-H-V RP-H-V 6.3 dia.9 dia.8. Standard PC board terminal (.) (.) (.) (.). REFERENCE DATA Sample: RP-6V Measuring method: Impedance Ω Measuring tool: 6.8 dia.3 dia Soldering SMA connector Self-clinching terminal Pick-up max General tolerance: ±.3 ±. PC board Double-sided through hole Material: Glass-epoxy resin t=.mm.39 inch Copper plated thickness: 3 µm Drop-out min Coil resistance, Ω (±%) ,8,33 current, ma (±%) PC board pattern (Copper-side view) dia dia. Tolerance: ±. ±. Schematic (Bottom view) Direction indication Deenergized condition Insertion loss Return loss V.S.W.R Isolation, db power, mw 7 Maximum. allowable High frequency characteristics Isolation Frequency, GHz 9 Insertion loss, db 3 N.O. (Terminal Nos. -6) N.C. (Terminal Nos. -) Frequency, GHz Return loss, db N.O. (Terminal Nos. -6) 3 N.C. (Terminal Nos. -) Frequency, GHz V.S.W.R Frequency, GHz N.C. N.O.

75 . Coil temperature rise Sample: RP-6V; No. of samples: n = Carrying current:. A Ambient temperature: C 77 F Temperature rise, C Coil applied %V. Mechanical life Sample: RP-V; No. of samples: n = 8 Change of pick-up, drop-out voltage 3. Operate/release time Sample: RP-9V; No. of samples: n = With diode Time, ms 8 6 Operate time Release time 7 8 Coil applied %V. Electrical life (. A 3 ) Sample: RP-6V; No. of samples: n = 6 Change of pick-up/drop-out voltage Without diode Time, ms 8 6 Operate time Release time 7 8 Coil applied %V Change of contact resistance RP Pick-up/drop-out V 8 6, No. of operations, Pick-up/drop-out V 8 6 No. of operations, 3 Contact resistance, mω 8 6 No. of operations, 3 6. Ambient temperature characteristics Sample: RP-6V; No. of samples: n = 7. Contact resistance distribution (initial) Sample: RP-6V; No. of samples: n = Rate of change, % Drop-out voltage Pick-up voltage 6 8 Ambient temperature, C Quantity Contact resistance, mω 8.-() Influence of adjacent mounting Sample: RP-V; No. of samples: n = 6 8.-() Influence of adjacent mounting Sample: RP-V; No. of samples: n = 6 8.-(3) Influence of adjacent mounting Sample: RP-V; No. of samples: n = 6 Rate of change, % Rate of change, % Inter-relay distance, (mm, inch) Rate of change, % Rate of change, % Inter-relay distance, (mm, inch) Rate of change, % Rate of change, % Inter-relay distance, (mm, inch) 9

76 RP 9. High frequency switching test (. GHz, W) Sample: RP-6V; No. of samples: n = 6 Ambient temperature: C 68 F Change of pick-up/drop-out voltage Change of contact resistance Transmission T T T NOTES Stopper (green) RP relay T.s.s.s.s Dummy load (Ω) WD-3 Transmission: RF Tranceiver IC- (ICOH). Packing direction Relays are packed in a tube with the orientation stripe (PIN NO. ) toward the green stopper. Orientation (indicates PIN No. ) stripe. Automatic mounting 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 Pick-up/drop-out V 8 6 A C B () Direction A Direction B Direction C () (6) No. of operations, Chucking pressure* in the direction B: 9.8 N { kgf} or less Chucking pressure* in the direction C: 9.8 N { kgf} or less 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., *Value of chucking pressure is shown by the value of weight pressed on the portion ( mm.7 inch dia.). Contact resistance, mω 8 6 No. of operations, 3. Soldering Preheat according to the following conditions. Temperature C F or less Time Within minute Soldering should be done at C 8 F within s. For Cautions for Use, see Relay Technical Information 9// 96 All Rights Reserved, Copyright Matsushita Electric Works, Ltd.

77 TESTING SMALL POLARIZED RELAY WITH HIGH SENSITIVITY TF-RELAYS FEATURES High sensitivity: 8 mw power (Single side stable 3- V type) Surge voltage withstand: V FCC Part 68 Minimal magnetic interference allows high density mounting Sealed construction allows automatic cleaning Self-clinching terminal also available SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 A) Contact material Rating 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 3,. A V AC 3 W, 6. VA, V AC A µa m 8 mw (3 to ) mw ( ) 6 mw (8 ) mw (3 to ) mw ( ) mw (3 to ) mw ( ) Mechanical (at 8 cpm) 8 Electrical (at cpm) A 3 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. ORDERING INFORMATI 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 ms (Approx. ms) [ ms (Approx. ms)] ms (Approx. ms) [ ms (Approx. ms)] Functional* 9 m/s { G} Destructive* 6 98 m/s { G} Functional* 7 Destructive Ambient temperature Humidity 76. m/s {8G}, to Hz at double amplitude of 3 mm 9 m/s {3G}, to Hz at double amplitude of mm C to +7 C F to +8 F to 8% R.H. Approx. g.7 oz 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. *6 Half-wave pulse of sine wave: 6 ms. *7 Detection time: µs. *8 Refer to. Conditions for operation, transport and storage mentioned in Cautions for use (Page 78). Ex. TF L H 3V 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,.,,6,9,,,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 TF-V-3.

78 TF TYPES AND COIL DATA (at C 68 F). Single side stable Standard PC board terminal. Coil latching 3. Coil latching Self-clinching terminal Pick-up (max.) Drop-out (min.) current, ma (±%) Coil resistance, Ω (±%) 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 TF-V-3. power, mw allowable TF-3 V TF-H-3 V TF-. V TF-H-. V TF- V TF-H- V TF-6 V TF-H-6 V TF-9 V TF-H-9 V , TF- V TF-H- V ,8 8 8 TF- V TF-H- V 8..8, 36 TF-8 V TF-H-8 V , Standard PC board terminal Self-clinching terminal Set (max.) Reset (max.) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable TF-L-3 V TF-L-H-3 V TF-L-. V TF-L-H-. V TF-L- V TF-L-H- V TF-L-6 V TF-L-H-6 V TF-L-9 V TF-L-H-9 V ,7 3. TF-L- V TF-L-H- V 9 9.6,68 8 TF-L- V TF-L-H- V 8 8.,76 36 Standard PC board terminal Self-clinching terminal Set (max.) Reset (max.) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable TF-L-3 V TF-L-H-3 V TF-L-. V TF-L-H-. V TF-L- V TF-L-H- V TF-L-6 V TF-L-H-6 V TF-L-9 V TF-L-H-9 V TF-L- V TF-L-H- V ,39 8 TF-L- V TF-L-H- V ,88 36 DIMENSIS Standard PC board terminal. 9.3 PC board pattern (Copper-side view) dia -.39 dia Self-clinching terminal Single side stable (Deenergized condition) Schematic (Bottom view) -coil latching (Reset condition) Tolerance: ±. ±. -coil latching (Reset condition) Direction indication* Direction indication* Direction indication* General tolerance: ±.3 ±. *Orientation stripe typical-located on top of relay. 6

79 REFERENCE DATA. Maximum switching capacity. Life curve 3. Mechanical life Tested sample: TF-V, pcs. TF Switching current, A DC load (cosϕ=) AC load (cosϕ=) 3 Switching V No. of operations, 3 resistive load V AC resistive load.. Switching current, A Ratio against the rated voltage %V ,, No. of operations,.-() Electrical life (DC load) Tested sample: TF-V, 6 pcs. Condition: A 3 resistive load, cpm Change of pick-up and drop-out voltage Change of contact resistance.-() Electrical life (AC load) Tested sample: TF-V, 6 pcs Condition:. A V AC resistive load, cpm Change of pick-up and drop-out voltage Ratio against the rated %V Contact resistance, mω Ratio against the rated %V No. of operations, No. of operations, No. of operations, Change of contact resistance. Coil temperature rise Tested sample: TF-xxV Measured portion: Inside the coil Ambient temperature: 3 C 86 F 6. Operate/release time characteristics Tested sample: TF-V, pcs. Contact resistance, mω Temperature rise, C coil voltage 3-8 A A A A Operate/release time, ms 6 3 Release time Operate time No. of operations, 3 Coil applied %V 8 9 Coil applied %V 7. Set/reset time characteristics Tested sample: TF-L-V, pcs. Set/reset time, ms 6 3 Set time Reset time 8 9 Coil applied %V 8. Distribution of pick-up and drop-out voltage Tested sample: TF-V, pcs. Quantity 3 Drop-out voltage Pick-up voltage Ratio against the rated %V 9. Distribution of set and reset voltage Tested sample: TF-L-V, pcs. Quantity, Set voltage Reset voltage,,,,,,,,,,,,,, Ratio against the rated %V 7

80 TF. Ambient temperature characteristics Tested sample: TF-V, pcs. Variation ratio, % Ambient temperature, C 3 Drop-out voltage 6 8 x x. Distribution of contact resistance Tested sample: TF-V, 3 pcs. (3, contacts) Quantity Contact resistance,mω.-() High-frequency characteristics Tested sample: TF-xxV Isolation characteristics.-() High-frequency characteristics Tested sample: TF-xxV Insertion loss characteristics.-(3) High-frequency characteristics Tested sample: TF-xxV V.S.W.R.. Isolation, db Insertion loss, db V.S.W.R TF Relay V.S.W.R., Ω, Frequency,MHz, Frequency,MHz., Frequency,MHz 3.-() Malfunctional shock (single side stable) Tested sample: TF-V, 6 pcs 3.-() Malfunctional shock (latching) Tested sample: TF-L-V, 6 pcs. Z, Z X Y Y, X, Y 98m/s Deenergized condition Energized condition Z, Z X Y Y, X, Y 98m/s Reset state Set state X 98m/s Z 98m/s X 98m/s Z 98m/s 96m/s 98m/s 39m/s 98m/s Z, 88m/s X, 78m/s Y, 98m/s 98m/s Z, 96m/s 39m/s 88m/s 78m/s Y, 98m/s 98m/s X,.-() Influence of adjacent mounting.-() Influence of adjacent mounting.-(3) Influence of adjacent mounting Rate of change, % Rate of change, %.97 Inter-relay distance, Rate of change, % Rate of change, %.97 Inter-relay distance, Rate of change, % Rate of change, %.97 Inter-relay distance, 8

81 TF. Actual load test Tested sample: TF-V (3 ma 8 wire spring relay load) Change of pick-up and drop-out voltage Change of contact resistance Circuit 8 V DC Ω. µf. µf 3 Ω Wire spring relay Circuit diagram Ratio against the rated %V Contact resistance, mω No. of operations, 3 No. of operations, For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, 9 Ltd.

82 TESTING ULTRA LOW PROFILE AMP. POLARIZED RELAY TK-RELAYS FEATURES Low profile mm.7 inch height High contact capacity: A Surge withstand voltage between contact and coil:, V (Bellcore rating) SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 A) Contact material Rating 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 3 resistive Form C mω Gold-clad silver alloy A 3 6 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. 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: 6 ms; detection time: µs. * 6 Half-wave pulse of sine wave: 6 ms. * 7 Detection time: µs. * 8 Refer to. Conditions for operation, transport and storage mentioned in Cautions for use (Page 78). * 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 7) ORDERING INFORMATI 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 ( 6 µs), V Surge voltage between contacts and coil ( µs) [Bellcore], 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 3 ms (Approx.. ms) [ 3 ms (Approx. ms)] ms (Approx. ms) [ 3 ms (Approx. ms)] Functional* 7 m/s {7 G} Destructive* 6, m/s { G} Functional* 7 Destructive Ambient temperature* 9 Humidity 96 m/s {G}, to Hz at double amplitude of 3.3 mm 9 m/s {3G}, to Hz at double amplitude of mm C to +8 C F to +8 F to 8% R.H. Approx. g.3 oz. 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,.,, 6, L: coil latching H: Self-clinching terminal 9,, V L: coil latching 73

83 TK TYPES AND COIL DATA (at C 68 F). Single side stable Standard PC board terminal. Coil latching 3. Coil latching Self-clinching terminal Pick-up (max.) Drop-out (min.) current, ma (±%) 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. Coil resistance, Ω (±%) 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-6 V TK-H-6 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 Self-clinching terminal Set (max.) Reset (max.) current, ma (±%) Coil resistance, Ω (±%) 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-6 V TK-L-H-6 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 Self-clinching terminal Set (max.) Reset (max.) current, ma (±%) Coil resistance, Ω (±%) 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-6 V TK-L-H-6 V TK-L-9 V TK-L-H-9 V TK-L- V TK-L-H- V TK-L- V TK-L-H- V , 6. DIMENSIS Standard PC board terminal PC board pattern (Copper-side view) dia. holes 6-. dia. holes Tolerance: ±. ±. Self-clinching terminal Schematic (Bottom view) Single side stable -coil latching (Deenergized condition) (Reset condition) Direction indication* Direction indication* -coil latching (Reset condition) Direction indication* General tolerance: ±.3 ±. *Orientation stripe located on top of relay. 7

84 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, 3 resistive Ambient temperature, C 3 3 Switching V Switching current, A. Mechanical life Tested sample: TK-V, 8 pcs. Switching frequency: 3 Hz. Electrical life (DC load) Tested sample: TK-V, pcs. Condition: A 3 resistive load, cpm Change of pick-up and drop-out voltage Ratio against the rated %V Circuit + 3 Ratio against the rated %V ,, No. of operations, 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> 6. Coil temperature rise Tested sample: TK-V, 6 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 6 3 <Without diode> A A A Coil applied %V x - Temperature rise, C 6 3 A A A Coil applied %V 8. Distribution of pick-up and drop-out voltage Tested sample: TK-V, pcs. x - 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 Quamtity Ratio agaenst the rated %V 7

85 TK 9. Distribution of set and reset voltage Tested sample: TK-L-V, pcs. Quantity,,,,,,,,,,, Set voltage Reset voltage,,,,,,,,,,,,,,,,,,,, Ratio against the rated %V,,,,,,,,,,,,,. Ambient temperature characteristics Tested sample: TK-V, pcs. Variation ratio, % 3 Drop-out voltage x x Pick-up voltage 6 8 Ambient temperature, C 3. Distribution of contact resistance Tested sample TK-V, pcs. ( contacts) Quantity Contact resistance. mω. Distribution of operate/release bounce time Tested sample: TK-V, pcs. <Operate bounce time> <Release bounce time> 3.-() High-frequency characteristics Isolation characteristics Quantity 3 Quantity 3 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, 6 pcs. (single side stable); TK-L-V, 6 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 96m/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, %.97 Inter-relay distance, Rate of change, % Rate of change, %.97 Inter-relay distance, Rate of change, % Rate of change, %.97 Inter-relay distance, 76

86 6. Actual load test (3 ma 8 wire spring relay load) Circuit + 8 Ω.8 µf.8 µf Wire spning relay 8 8 Ω Change of pick-up and drop-out voltage Ratio against the rated %V No. of operations, Change of contact resistance Contact resistance, mω N.C. N.O. 3 No. of operations, TK For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, 77 Ltd.

87 SLIM POLARIZED RELAY TN-RELAYS FEATURES Small size for minimal PC board mounting requirements Small header area makes higher density mounting possible High sensitivity: mw nominal power (single side stable 3- V type) Surge voltage withstand: V FCC Part 68 Sealed construction allows automatic cleaning Self-clinching terminal also available SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 A) Contact material Rating 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 6 mω Gold-clad silver A 3,. A V AC 3 W, 6. VA, V AC A µa m mw (3 to ) mw ( ) 3 mw (8 ) mw (3 to ) mw ( ) mw (3 to ) 3 mw ( ) Mechanical (at 8 cpm) 8 Electrical (at cpm) A 3 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. 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. ORDERING INFORMATI 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* 6 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} 76. m/s {8G}, to Hz at double amplitude of 3 mm 9 m/s {3G}, to Hz at double amplitude of mm C to +7 C F to +8 F to 8% R.H. Approx.. g.3 oz * Half-wave pulse of sine wave: ms; detection time: µs. * 6 Half-wave pulse of sine wave: 6 ms. * 7 Detection time: µs. * 8 Refer to. Conditions for operation, transport and storage mentioned in Cautions for use (Page 78). 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,.,,6,9,,,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.

88 TYPES AND COIL DATA (at C 68 F). Single side stable Standard PC board terminal. Coil latching 3. Coil latching Self-clinching terminal Pick-up (max.) Drop-out (min.) current, ma (±%) Coil resistance, Ω (±%) 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. power, mw TN allowable TN-3 V TN-H-3 V TN-. V TN-H-. V TN- V TN-H- V TN-6 V TN-H-6 V TN-9 V TN-H-9 V TN- V TN-H- V 9..7,8 8 TN- V TN-H- V ,88 36 TN-8 V TN-H-8 V , Standard PC board terminal Self-clinching terminal Set (max.) Reset (max.) current, ma (±%) Coil resistance, Ω (±%) 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-6 V TN-L-H-6 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 36 Standard PC board terminal Self-clinching terminal Set (max.) Reset (max.) current, ma (±%) Coil resistance, Ω (±%) 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-6 V TN-L-H-6 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., DIMENSIS Standard PC board terminal... Self-clinching terminal PC board pattern (Copper-side view).6... Schematic (Bottom view) Single side stable -coil latching (Deenergized condition) (Reset condition) -. dia. hole -.39 dia. hole Tolerance: ±. ±. -coil latching (Reset condition) General tolerance: ±.3 ± Direction indication* Direction indication* Direction indication* *Orientation stripe located on top of relay

89 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=) 3 Switching V No. of operations, 3 resistive load V AC resistive load.. Switching current, A Ratio against the rated %V ,, No. of operations,. Electrical life (DC load) Tested sample: TN-V, pcs. Condition: A 3 resistive load, cpm Change of pick-up and drop-out voltage Ratio against the rated voltage %V No. of operations, 6. Operate/release time characteristics Tested sample: TN-V, pcs. Operate and release time, ms 6 3 Operate time Release time Change of contact resistance Contact resistance,mω Terminal No. 3 Terminal No No.of operations, 7. Set/reset time characteristics Tested sample: TN-L-V, pcs. Set and reset time, ms 6 3 Set time Reset time. Coil temperature rise Tested sample: TN-V Point measured: Inside the coil Ambient temperature: Room temperature ( to 6 C), 7 C (77 to 79 F), 8 F Temperature rise, C Carrying current A (Room temp.) A (Room temp.) A (7 C) A (7 C) Coil applied %V 8. Distribution of pick-up and drop-out voltages Tested sample: TN-V, pcs. Quantity 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 3,,, voltage,set Reset voltage Ratio against the rated %V,,,,. Ambient temperature characteristics Tested sample: TN-V, pcs. x Drop-out voltage 3 x Ambient temperature, C Variation ratio, %. Distribution of contact resistance Tested sample: TN-V, 38 pcs. (38 contacts) Quantity 3 Terminal No. 7,8,9 Side Terminal No.,3, side 3 Contact resistance,mω

90 -(). Malfunctional shock (single side stable) Tested sample: TN-V, 6 pcs. -(). Malfunctional shock (latching) Tested sample: TN-L-V, 6 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, 3-(). Influence of adjacent mounting 3-(). Influence of adjacent mounting Rate of change, % Rate of change, % Rate of change, % Rate of change, %.97 Inter-relay distance,.97 Inter-relay distance,. 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 Contact resistance, mω Terminal No. 3 3 No. of operations, 3 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. 3 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 9// All Rights Reserved, Copyright Matsushita Electric Works, 3 Ltd.

91 TESTING LOW PROFILE FORM C RELAY TQ-RELAYS 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 68 Sealed construction allows automatic washing Self-clinching terminal also available M.B.B. contact types available SPECIFICATIS Contact Standard (B.B.M) type M.B.B.type Arrangement Form C Form C Form D Initial contact resistance, max. (By voltage drop 6 A) mω Contact material Rating power Expected life (min. operations) switching capacity (resistive load) switching power (resistive load) Gold-clad silver A 3. A V AC A 3 V DC 3 W, 6. V A 3 W switching voltage, V AC switching current A switching capacity µa m Single side stable coil latching mw (3 to ) mw ( ) 3 mw (8 ) mw (3 to ) mw ( ) 8 mw (3 to ) mw (8 ) mw mw coil latching mw (3 to ) 3 mw ( ) mw Mechanical (at 8 cpm) 8 7 Electrical (at cpm) ( A 3 resistive) A 3 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. 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. * 6 Half-wave pulse of sine wave: 6 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) 3 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: Measuring condition Functional* Destructive* 6 Functional* 7 Destructive Ambient temperature Humidity 9 m/s {G} 98 m/s {G} 76. m/s {8G}, to Hz at double amplitude of 3 mm 9 m/s {3G}, 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.6 oz. µs Ω * 9 Refer to. Conditions for operation, transport and storage mentioned in Cautions for use (Page 78). 33

92 TQ ORDERING INFORMATI EX. TQ H L M 3V Contact arrangement : Form C : Form C Terninal shape 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. 3,.,, 6, 9,,, 8* V TYPES AND COIL DATA (at C 68 F). Standard (B.B.M.) type Form C type. Single side stable Standard PC board terminal. Coil latching 3. Coil latching Self-clinching terminal Pick-up (max.) Drop-out (min.) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable TQ-3 V TQH-3 V TQ-. V TQH-. V TQ- V TQH- V TQ-6 V TQH-6 V TQ-9 V TQH-9 V TQ- V TQH- V 9..7,8 8 TQ- V TQH- V ,88 36 TQ-8 V TQH-8 V , Standard PC board terminal Self-clinching terminal Set (max.) Reset (min.) current, ma (±%) Coil resistance, Ω (±%) 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-6 V TQH-L-6 V TQ-L-9 V TQH-L-9 V TQ-L- V TQH-L- V , 8 TQ-L- V TQH-L- V ,8 36 Standard PC board terminal Self-clinching terminal Set (max.) Reset (min.) current, ma (±%) Coil resistance, Ω (±%) 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-6 V TQH-L-6 V TQ-L-9 V TQH-L-9 V TQ-L- V TQH-L- V TQ-L- V TQH-L- V 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. 3

93 Form C type. Single side stable Standard PC board terminal. Coil latching 3. Coil latching Self-clinching terminal Pick-up (max.) Drop-out (min.) current, ma (±%) Coil resistance, Ω (±%) power, mw 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. TQ allowable TQ-3 V TQH-3 V TQ-. V TQH-. V TQ- V TQH- V TQ-6 V TQH-6 V TQ-9 V TQH-9 V TQ- V TQH- V TQ- V TQH- V 8..7, TQ-8 V TQH-8 V , Standard PC board terminal Self-clinching terminal Set (max.) Reset (min.) current, ma (±%) Coil resistance, Ω (±%) 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-6 V TQH-L-6 V TQ-L-9 V TQH-L-9 V TQ-L- V TQH-L- V TQ-L- V TQH-L- V ,88 36 Standard PC board terminal Self-clinching terminal Set (max.) Reset (min.) current, ma (±%) Coil resistance, Ω (±%) 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-6 V TQH-L-6 V TQ-L-9 V TQH-L-9 V TQ-L- V TQH-L- V TQ-L- V TQH-L- V , 36. M.B.B. type Single side stable Standard PC board terminal Self-clinching terminal Pick-up (max.) Drop-out (min.) current, ma (±%) Coil resistance, Ω (±%) 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-6 V TQH-M-6 V TQ-M-9 V TQH-M-9 V TQ-M- V TQH-M- V TQ-M- V TQH-M- V ,88 36 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. 3

94 TQ DIMENSIS ) Form C, Form D Standard PC board terminal PC board pattern (Copper-side view) dia dia Tolerance: ±. ± Self-clinching terminal Single side stable (Deenergized condition) Schematic (Bottom view) -coil latching (Reset condition) coil latching (Reset condition) General tolerance: ±.3 ±. Direction indication* Direction indication* Direction indication* *Orientation stripe typical-located on top of relay ) Form C Standard PC board terminal Self-clinching terminal General tolerance: ±.3 ±. Single side stable (Deenergized condition) Direction indication* PC board pattern (Copper-side view) dia dia Schematic (Bottom view) -coil latching (Reset condition) Direction indication* Tolerance: ±. ±. -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=) 3 Switching V No. of operations, 3 resistive load V AC resistive load.. Switching current, A Ratio against the rated %V ,, No. of operations, 36

95 TQ.-() Electrical life (DC load) Tested sample: TQ-V, 6 pcs. Condition: A 3 resistive load, cpm Change of pick-up and drop-out voltage Change of contact resistance.-() Electrical life (AC load) Tested sample: TQ-V, 6 pcs. Condition:. A V AC resistive load, cpm Change of pick-up and drop-out voltage Ratio against the rated %V Contact resistance, mω Ratio against the rated %V No. of operations, No. of operations, No. of operations, Change of contact resistance.-() Coil temperature rise (C) Tested sample: TQ-V Measured portion: Inside the coil Ambient temperature: 3 C 86 F.-() Coil temperature rise (C) Tested sample: TQ-V Measured portion: Inside the coil Ambient temperature: 3 C 86 F Contact resistance, mω Temperature rise, C coil voltage 3 to type type A A A Temperature rise, C A A No. of operations, 3 Coil applied %V 3 Coil applied %V 6.-() Operate/release time characteristics Tested sample: TQ-V, pcs. 6.-() 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 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, 3 pcs. (3 contacts) Quantity 3,,, yyy,, yy,y Set voltage Reset voltage Ratio against the rated %V,,, yyy yy,,, y yy,,, y yyy,,, Variation ratio,% Drop-out voltage x x 6 8 Ambient temperature, C Quantity 3 3 Contact resistance, mω 37

96 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 , Frequency,MHz, Frequency,MHz.. Frequency,GHz.-() Malfunctional shock (single side stable) Tested sample: TQ-V, 6 pcs..-() Malfunctional shock (latching) Tested sample: TQ-L-V, 6 pcs. 3.-() Influence of adjacent mounting Z, Z X X, Y Y Y, 98m/s X 98m/s Deenergized condition Energized condition 96m/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 96m/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, %.97 Inter-relay distance, 3.-() Influence of adjacent mounting 3.-(3) Influence of adjacent mounting.-() Contact reliability ( ma resistive load) Tested sample: TQ-V Condition: Detection level Ω Rate of change, % Rate of change, %.97 Inter-relay distance, Rate of change, % Rate of change, %.97 Inter-relay distance, F(t), % m=. µ=.7 7 9% reliability limit = (Weibull probability paper). No. of operations, 6.-() Contact reliability ( µa resistive load) Tested sample: TQ-V Condition: Detection level Ω 38 F(t), % m=. µ=6. 7 9% reliability limit = 9. 6 (Weibull probability paper). No. of operatins, 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 No. of operations,

97 TQ Change of contact resistance 6.. 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 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-: Terminal Nos. -3-: 6 x:.6 µs 3σn-: 63.8 µs : 3 µs :3 µs 6 x:7.6 µs 3σn-: 7. µs : 7 µs :87 µs ~ 3 µs min. ~ ~ ~ ~ ~ 3 ~ 3 µs min. 3 µs max. ~ ~ ~ 7 ~ ~ ~ 3 ~ 3 µs max. 7.-() Distribution of M.B.B. time Sample: TQ-M-V, 8 pcs. Terminal Nos : Terminal Nos : 6 x:.6 µs 3σn-: 67.3 µs :3 µs : µs 6 x:8.7 µs 3σn-: 6.7 µs : 9 µs :98 µs ~ 6 3 µs min. ~ ~ ~ ~ ~ 3 ~ 3 µs max. ~ 3 µs min. ~ ~ ~ ~ ~ 3 ~ 3 µs max. For Cautions for Use, see Relay Technical Information 9// All Rights Reserved, Copyright Matsushita Electric Works, 39 Ltd.

98 TESTING LOW-PROFILE SURFACE-MOUNT RELAY TQ-SMD RELAYS FEATURES Low-profile: 6 mm.36 inch in height comforming to EIA standards (Tape height: max. 6. mm.6 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 High capacity: A High sensitivity: Form C; mw power consumption (Single side stable type) SPECIFICATIS Contact Arrangement Initial contact resistance, max. (By voltage drop 6 A) Contact material Rating 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 3,. A V AC 6 W, 6. VA, V AC A µa m mw (. to ) mw ( ) 3 mw (8 ) 7 mw (. to ) mw ( ) mw (. to ) mw ( ) Mechanical (at 8 cpm) 8 Electrical (at cpm) A 3 resistive A 3 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. 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: 6 ms; detection time: µs * 6 Half-wave pulse of sine wave: 6 ms * 7 Detection time: µs * 8 Refer to. Conditions for operation, transport and storage mentioned in Cautions for use (Page 78). Characteristics Initial insulation resistance* Initial breakdown voltage Initial surge voltage Between open contacts Between contact sets Between contact and coil Between open contacts ( 6 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 68), V (Bellcore) 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* 6, m/s { G} Functional* 7 Destructive Ambient temperature Humidity m/s {G}, to Hz at double amplitude of 3.3 mm 9 m/s {3G}, to Hz at double amplitude of mm C to +8 C* 3 F to +8 F to 8% R.H. Approx. g.7 oz

99 ORDERING INFORMATI TQ-SMD 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,.,, 6, Nil: Tube packing SA: terminal type L: coil latching 9,,, 8* V Z: Tape and reel packing (picked from the 6/7/8/9/-pin side) SL: High connection reliability L: coil latching SA: surface-mount terminal type SS: Space saving surface- SA: mount terminal type *8 V coil type: Single side stable only Notes:. Tape and reel (picked from //3//-pin side) is also available by request. suffix -X is needed when ordering. (ex.) TQSA-3V-X. Tape and reel packing symbol -Z or -X are not marked on the relay. Surface-mount terminal variation Variation Terminal style Normal environments (indoor) Ambient environment Drastic temperature fluctuations (outdoor) SA type (Standard surface-mount terminal type) ±..3±... Recommended SL type (Highly connection reliability surface-mount terminal type) ±..3±... Recommended Recommended SS type (Space saving surface-mount terminal type) ±. ±... Recommended Recommended TYPES. Single side stable. coil latching Pick-up (max.) Drop-out (min.) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable TQS -. V TQS -3 V TQS -. V TQS - V TQS -6 V TQS -9 V TQS - V 9..7,8 8 TQS - V ,88 36 TQS -8 V , Set (max.) Reset (max.) current, ma (±%) Coil resistance, Ω (±%) power, mw allowable TQS -L-. V TQS -L-3 V TQS -L-. V TQS -L- V TQS -L-6 V TQS -L-9 V , TQS -L- V 9 9.8,7 7 8 TQS -L- V 8 8.,76 36

100 TQ-SMD 3. coil latching Set (max.) Reset (max.) 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. power, mw allowable TQS -L-. V TQS -L-3 V TQS -L-. V TQS -L- V TQS -L-6 V TQS -L-9 V TQS -L- V 9 9.7,8 8 TQS -L- V ,88 36 DIMENSIS SA type SL type ±..3± ±..3±..... Recommendable mounting pad (Top view) SA type SL type For glue-pad Schematic (Top view) Single side stable (Deenergized condition) Direction indication* *Orientation stripe located on top of relay. -coil latching (Reset condition) SS type ±. ±... General tolerance: ±.3 ± SS type Direction indication* *Orientation stripe located on top of relay. -coil latching (Reset condition) Direction indication* *Orientation stripe located on top of relay. REFERENCE DATA Tolerance: ±. ±.. 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, 3 V AC resistive load 3 resistive load Ratio against the rated %V Contact V.. Switching current, A IRS,, No. of operations,