PHOTOMOS & SOLID STATE RELAYS

Transcription

1 PART : ELECTROMECHANICAL RELAYS RELAY CATALOG PART PHOTOMOS & SOLID STATE RELAYS

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

3 Application of the EC Directives to All-or-Nothing Relays EMC Directive The EMC Directive concerns primarily the finished products. In applying the Directive to components, the Guidelines should be consulted to determine whether the component in question has a direct function. Electric motors, power supply units or temperature controls represent examples of such components with direct function. These types of components must be provided with a CE marking. Components which are integrated into a device, such as relays, do not have an independent function of their own. A given relay may perform differing functions in different devices. Consequently, all-or-nothing relays must be considered components without direct function which are not subject to the EMC Directive. All-or-nothing - be they electro-mechanical relays or solid state relays - shall not be labeled with a CE marking nor shall a declaration of conformity be issued within the scope of the EMC Directive. Low Voltage Directive Relays with terminals for printed boards/plug-andsocket connections do not come within the purview of the Low Voltage Directive. The Low Voltage Directive concerns electrical equipment intended for incorporation into a device as well as equipment intended for direct use. In the case of electrical equipment which is considered a basic component intended for incorporation into other electrical equipment, the properties and safety of the final product will be largely dependent on how it is integrated: as such, these components do not fall within the Low Voltage Directive and shall not be CE marked. The Guidelines specifically cite electro-mechanical basic components such as connectors, relays with terminals for printed circuit boards and micro switches. They are therefore not subject to the scope of the Low Voltage Directive. considerations apply to common-place relays with plug-in connections available also with printed board terminals. Here again, safety is a function of the individual application. In evaluating these relays performance from the perspective of the Low Voltage Directive, the same conclusion is reached as with the printed board relay. As such, CE marking is not mandatory for this type of relay. Machinery Directive The Machinery Directive differentiates between machines, machine parts and safety components. Relays are not part of any of these categories. The listing of safety components in Appendix IV is conclusive and does not include relays. Consequently, a CE marking shall not be affixed nor shall a declaration of conformity or manufacturer s declaration be issued under the Machinery Directive. As of this moment, none of the aforementioned directives require CE marking for all-or-nothing relays. RoHS Directive The substances prohibited by the RoHS Directive (Pb, Hg, Cd, Cr +, PBB, PBDE) concern categories of devices that are mostly, but not entirely, intended for private use. Components such as relays are not listed in these categories. Therefore they do not directly fall within the scope of this directive. However, if the user employs relays in devices that fall within the scope of this directive, the user must also acknowledge the substances prevented. In order to adapt to this situation in good time, all Panasonic relays are generally RoHS compliant. Except for larger relays which may, for example, find application in switching cabinets, the same. Guidelines (version dated March, 7) for the Application of the Council Directive /8/EC.. Guidelines (version dated August 7) for the Application of the Council Directive /9/EC.. This writing deals exclusively with non-specified-time all-or-nothing relays. The abbreviated term all-ornothing relay has been introduced merely for purposes of convenience. The term includes solid state all-ornothing relays.

4 Table of Contents Table of Contents Alphabetical List of Semiconductor Relays... PhotoMOS Selector Chart... Solid State Relay Selector Chart... PhotoMOS Relay Dimensions... 8 PhotoMOS Relay Schematic and Wiring Diagrams PhotoMOS Relay Technical Information... 7 How PhotoMOS Relays Operate... 7 Terminology... 8 PhotoMOS Relays Cautions for Use... 9 PhotoMOS Relays for Various Applications... 7 PhotoMOS Relay Application Examples PhotoMOS Relays for Automotive Applications GU SOP Form A High Capacity (AQYGS, AQYGS, AQYGS) GU SOP Form A (AQY S)... 8 GU SOP Form A (AQV S)... 8 GU SOP Form A High Capacity Voltage-sensitive (AQYFGS)... 9 GU Form A High Capacity (AQYGH)... 9 GU Form A (AQV, AQVH) GU SOP Form A (AQW S)... GU Form A (AQW )... GU SOP Form B (AQY S)... 7 GU SOP Form B (AQVS)... GU Form B (AQV)... GU Form B (AQW)... 7 GU SOP Form A & B (AQW S)... GU Form A & B (AQW)... GU SOP Form A Short Circuit Protection (AQYKS) GU Form A Short Circuit Protection (AQVKL).. GU SOP Form A Current Limiting (AQYLS)... GU Form A Current Limiting (AQYHL)... 8 GU Form A Current Limiting (AQWHL)... GU-E Form A (AQY EH)... GU-E Form A (AQV E, AQV EH)... 8 GU-E Form A (AQW EH)... GU-E Form B (AQY EH)... GU-E Form B (AQVE, AQV EH)... 9 GU-E Form B (AQWEH)... GU-E Form A & B (AQW EH)... RF Form A (AQV )... 7 RF VSSOP Form A C R/C R (AQY)... 7 RF SON Form A C R (AQYNM)... 8 RF SSOP Form A C R (AQYNV)... 8 RF SON Form A C R (AQY M) RF SSOP Form A C R (AQY V)... 9 RF SSOP C R Voltage-sensitive (AQYF V) 98 RF SOP Form A C R (AQY S)... RF SOP Form A C R (AQS S)... 7 RF SOP Form A C R Voltage-sensitive (AQSF S)... RF SSOP Form A C R (AQYRV)... RF SOP Form A C R (AQY R S)... 8 RF SOP Form A C R (AQWRS)... RF SOP Form A Low on-resistance (AQV NS) RF Form A Low on-resistance (AQV N)... 9 RF SOP Form A Low on-resistance (AQW7NS) RF Form A Low on-resistance (AQW N)... RF SOP Form A Low on-resistance (AQSRS) 9 HE Form A (AQV )... HE SOP Form A High Capacity (AQVGS)... HE Form A High Capacity... 9 HE Form A (AQW)... HE Form B (AQV, AQVH)... HE Form B (AQW)... 8 HE Form A & B (AQW)... HF Form A (AQV, )... HS Form A (AQV)... 9 HS SOP Form A... 7 PD Form A (AQY7 ) Power Form A (AQZ, )... 8 Power Form B (AQZ) Form A Voltage-sensitive (AQZ D, D)... 9 Power Form A High Capacity (AQZ ) Photovoltaic MOSFET Driver (APV, )... SSR Description and Circuit Configurations... 8 Principle of Operation... Terminology of Phototriac Coupler/AQ-H... Terminology of SSR... Cautions For Use of Phototriac Coupler/AQ-H... Cautions for Use of SSR... 7 Phototriac Coupler/AQ-H Application Examples.. SSR Application Examples... Phototriac Coupler (APT)... AQ-H RELAYS... AQ-G RELAYS... AQ RELAYS... 9 AQ-J RELAYS... AQ-A RELAYS...

5 Alphabetical List of Semiconductor Relays Alphabetical List of Semiconductor Relays APT... APV,... AQ... 9 AQ-A... AQ-G... AQ-H... AQ-J... AQSF S... AQS S... 7 AQSRS... 9 AQV,... AQVKL... AQV, AQVH AQV E, AQV EH... 8 AQV S... 8 AQV... 7 AQV N... 9 AQV NS... AQV... 9 AQVG... 9 AQVG... 9 AQVGS... AQV... AQV... AQVE, AQV EH... 9 AQVS... AQV, AQVH... AQWHL... AQW... AQW EH... AQW S... AQWRS... AQW7NS... AQW N... AQW... AQW... 7 AQWEH... AQW... 8 AQW... AQW EH... AQW S... AQW... AQY... 7 AQYHL... 8 AQYKS... AQYLS... AQYFGS... 9 AQYGH... 9 AQYGS, AQYGS, AQYGS AQY EH... AQY S... 8 AQY... 7 AQYF V AQY M AQY S... AQY V... 9 AQYNM... 8 AQYNV... 8 AQYRV... AQY R S... 8 AQY AQY EH... AQY S... 7 AQZ,... 8 AQZ D, D... 9 AQZ AQZ... 89

6 PhotoMOS & Solid State Relays Selector Chart

7 PhotoMOS Form A Signal Relays PhotoMOS Selector Chart PhotoMOS Selector Chart t Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Switching speed (I LED = ma) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQYGS High capacity type V.A /.A./. 8pF.mA.mA.ms.ms,V AC 79.A AQYGS High capacity type V.A /.A./. 8pF.mA.mA.ms.ms,V AC 79.A AQYGS High capacity type V.A /.A./.7 pf.ma.ma.ms.ms,v AC 79 C-UL, TÜV, UL, VDE A AQYS V.A /.A.8/. 8pF.mA.mA.ms.ms,V AC 8 BSI, CSA, C-UL, TÜV, UL.A : AQYLS Current limiting V.A / -. x. x.mm.8a ( limit current [typ.]) / pf.ma.ma.ms.ms,v AC BSI, CSA, C-UL, TÜV, UL.A AQYS PSpice V.A /.A 7/ pf.ma.ma.ms.ms,v AC 8 BSI, CSA, C-UL, TÜV, UL.A AQYKS Short circuit protected V.A / -.A (Cut off current [typ.])./ pf.ma.ma.ms.ms,v AC BSI, CSA, C-UL, TÜV, UL.A AQYS PSpice V.A /.A / pf.ma.ma.ms.ms,v AC 8 BSI, CSA, C-UL, TÜV, UL.A 7

8 PhotoMOS Form A Signal Relays PhotoMOS Selector Chart Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Switching speed (I LED = ma) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQYS Sensitive type V.A /.A.8/..8pF.mA.mA.ms.ms,V AC 7.A Sensitive type V.A /.A 9/.8pF.mA.mA.ms.ms,V AC 7 AQYS :.A. x. x.mm AQYS Sensitive type V.A /.A 7/.8pF.mA.mA.ms.ms,V AC 7.A V.A /.A./. pf.ma.ma.ms.ms,v AC AQYEH BSI, CSA, C-UL, TÜV, UL, A VDE AQYEH V.A /.A.8/. 8pF.mA.mA.ms.ms,V AC BSI, CSA, C-UL, TÜV, UL.A AQYGH High capacity type V.A /.A./.7 pf.ma.ma.ms.ms,v AC 9 C-UL, UL, VDE.A : V.A /.A / pf.ma.ma.ms.ms,v AC AQYEH BSI, CSA, C-UL, TÜV, UL,.A VDE DIP :.78 x. x.mm SMD:.78 x. x.9mm V.A /.A 8/ pf.ma.ma.ms.ms,v AC AQYEH BSI, CSA, C-UL, TÜV, UL,.A VDE AQYHL Current limiting V.A / -.8A ( limit current [typ.]) / pf.ma.ma.ms.ms,v AC 8 BSI, CSA, C-UL, TÜV, UL.A V.A /.A / pf.ma.ma.ms.ms,v AC AQYEH BSI, CSA, C-UL, TÜV, UL,.A VDE 8 9

9 PhotoMOS Form A Signal Relays PhotoMOS Selector Chart Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Switching speed (I LED = ma) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQVS PSpice V.A /.A.8/. pf.ma.ma.ms.ms,v AC 8 CSA, C-UL, TÜV, UL.A AQVS PSpice V.A /.9A./. pf.ma.ma.ms.ms,v AC 8 CSA, C-UL, TÜV, UL.A AQV7S PSpice V.A /.8A / 7pF.mA.mA.ms.ms,V AC 8 CSA, C-UL, TÜV, UL :.A AQVS PSpice V.A /.A / pf.ma.ma.ms.ms,v AC 8. x. x.mm CSA, C-UL, TÜV, UL.A AQVS PSpice V.A /.A / pf.ma.ma.ms.ms,v AC 8 CSA, C-UL, TÜV, UL.A AQVS PSpice V.A /.A 7/ pf.ma.ma.ms.ms,v AC 8 CSA, C-UL, TÜV, UL.A PSpice V.A /.A.8/. pf.ma.ma.ms.ms,v AC 97 AQV CSA, C-UL, TÜV, UL :.A AQVG High capacity type V.A /.A.8/. pf.ma.ma.ms.ms,v AC 9 CSA, C-UL, TÜV, UL, VDE.A High capacity type V.A /.A./.8 pf.ma.ma.ms.ms,v AC 9 AQVG DIP : 8.8 x. x.9mm SMD: 8.8 x. x.mm.a AQVGS : High capacity type 8V.A /.A.9/. pf.ma.ma.ms.ms,v AC.A. x. x.mm AQV PSpice V.A /.9A./. pf.ma.ma.ms.ms,v AC 97 CSA, C-UL, TÜV, UL :.A AQV7 PSpice V.8A /.A / 7pF.mA.mA.ms.ms,V AC 97 CSA, C-UL, TÜV, UL.8A AQV DIP : 8.8 x. x.9mm PSpice V.A /.A / pf.ma.ma.ms.ms,v AC 97 SMD: 8.8 x. x.mm CSA, C-UL, TÜV, UL.A

10 PhotoMOS Form A Signal Relays PhotoMOS Selector Chart Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Switching speed (I LED = ma) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQVE V.A /.A / pf.ma.ma.ms.ms,v AC 8 CSA, C-UL, TÜV, UL.A AQVEH V.A /.A / pf.ma.ma.ms.ms,v AC 8 BSI, CSA, C-UL, TÜV, UL, VDE.A AQV PSpice V.A /.A / pf.ma.ma.ms.ms,v AC 97 CSA, C-UL, TÜV, UL.A AQVE V.A /.A / pf.ma.ma.ms.ms,v AC 8 CSA, C-UL, TÜV, UL.A AQVEH V.A /.A / pf.ma.ma.ms.ms,v AC 8 BSI, CSA, C-UL, TÜV, UL, VDE.A AQVH : V.A /.A / pf.ma.ma.8ms.ms,v AC 97 BSI, CSA, C-UL, TÜV, UL, VDE.A AQV PSpice V.A /.A 7/ pf.ma.ma.ms.ms,v AC 97 CSA, C-UL, TÜV, UL.A DIP : 8.8 x. x.9mm SMD: 8.8 x. x.mm AQV V DC.7A /.8A./. pf.ma.8ma.ms.ms,v AC C-UL, TÜV, UL.7A AQV V.A /.8A./ pf.ma.8ma.ms.ms,v AC C-UL, TÜV, UL.A AQV V.A /.8A./. pf.ma.ma.ms.ms,v AC CSA, C-UL, TÜV, UL.A AQV V DC.A /.A.7/.7 pf.ma.8ma.ms.ms,v AC C-UL, TÜV, UL.A AQV V.A /.A.7/. pf.ma.8ma.ms.ms,v AC C-UL, TÜV, UL.A

11 PhotoMOS Form A Signal Relays PhotoMOS Selector Chart Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Switching speed (I LED = ma) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQV V.A /.A.7/. pf.ma.ma.ms.ms,v AC CSA, C-UL, TÜV, UL.A AQVKL Short circuit protected V DC.A / -./ pf ma.ma.ms.ms,v AC CSA, C-UL, TÜV, UL, VDE.A AQV V.A /.A.8/. pf.ma.ma.ms.ms,v AC CSA, C-UL, TÜV, UL.A : AQV7 V.A /.7A./. 7pF.mA.mA.ms.ms,V AC CSA, C-UL, TÜV, UL.A DIP : 8.8 x. x.9mm AQV SMD: 8.8 x. x.mm V DC.A /.A.7/ pf.ma.8ma.ms.ms,v AC C-UL, TÜV, UL.A AQV V.A /.A./8 7pF.mA.8mA.ms.ms,V AC C-UL, TÜV, UL.A AQV V.A /.A./8. 7pF.mA.mA.ms.ms,V AC CSA, C-UL, TÜV, UL.A

12 PhotoMOS Form A Signal Relays PhotoMOS Selector Chart Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Switching speed (I LED = ma) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQVH V.A /.A./8 7pF.mA.mA.ms.ms,V AC BSI, CSA, C-UL, TÜV, UL,.A VDE AQV V DC.8A /.A./8 pf.ma.8ma.ms.ms,v AC C-UL, TÜV, UL.8A AQV V.A /.A./ 7pF.mA.8mA.ms.ms,V AC C-UL, TÜV, UL.A AQV Sensitive type V.A /.A / pf.ma.ma.ms.ms,v AC 9 CSA, C-UL, TÜV, UL :.A AQV V.A /.A./ 7pF.mA.mA.ms.ms,V AC CSA, C-UL, TÜV, UL DIP : 8.8 x. x.9mm SMD: 8.8 x. x.mm.a AQVH V.A /.A./ 7pF.mA.mA.ms.ms,V AC BSI, CSA, C-UL, TÜV, UL,.A VDE AQV9,V.A /.9A 8/ 8pF.mA.mA.ms.ms,V AC CSA, C-UL, TÜV, UL.A AQV8,V.A /.A / 8pF.mA.mA.ms.ms,V AC CSA, C-UL, TÜV, UL.A 7

13 PhotoMOS Form A Power Relays PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQZ V DC.A / 9.A./.9 7pF.mA.mA.ms.ms,V AC 8 CSA, C-UL, TÜV, UL.A AQZ V DC.A /.A.8/.7 7pF.mA.mA.ms.ms,V AC 8 : CSA, C-UL, TÜV, UL.A AQZ7 V DC.A /.A./. 9pF.mA.mA.ms.ms,V AC 8 CSA, C-UL, TÜV, UL x. x.mm AQZ V DC.7A /.A./. 9pF.mA.mA.ms.ms,V AC 8 CSA, C-UL, TÜV, UL.7A.A AQZ V.A /.A./. pf.ma.ma.ms.ms,v AC 99 : CSA, UL.A x 9 x mm AQZ V.A / 9.A./.8 pf.ma.ma.ms.ms,v AC 8 CSA, C-UL, TÜV, UL.A V.A /.A./. pf.ma.ma.ms.ms,v AC 8 AQZ : CSA, C-UL, TÜV, UL.A AQZ7 V.A /.A 7/ pf.ma.ma.ms.ms,v AC 8 CSA, C-UL, TÜV, UL x. x.mm.a AQZ V.A /.A./. pf.ma.ma.ms.ms,v AC 8 CSA, C-UL, TÜV, UL.A AQYFGS Built-in resistor V.A /.A./. pf Operate voltage V Fon :.A (max.).v. x. x.mm Turn off voltage V Foff (min.).8v.ms.ms V AC 9 8 9

14 PhotoMOS Form A Power Relays PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQZ V.A /.A./. pf.ma.ma.ms.ms,v AC 99 : CSA, UL.A x 9 x mm AQY7 V.A /.A./.8 pf.ma.ma.ms.ms,v AC 78 CSA, C-UL, UL.A AQY7 V.A /.A./. pf.ma.ma.ms.ms,v AC 78 CSA, C-UL, UL :.A AQY77 V.A /.A.7/. DIP : 9. x 8.8 x.9mm pf.ma.ma.ms.ms,v AC 78 CSA, C-UL, UL SMD: 9. x 8.8 x.7mm.a AQY7 V.A /.A./. pf.ma.ma.ms.ms,v AC 78 CSA. C-UL, UL.A

15 PhotoMOS Form A Low CxR PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQYRT Low CxR V.A.8/. pf.ma.ma.ms.ms V AC 7.A Low CxR V.A 9./..pF.mA.mA.ms.ms V AC 7 AQYNT :.8 x. x.9mm.a AQYNT Low CxR V.A./7..pF.mA.mA.ms.ms V AC 7.A AQYNM Low CxR V.A / -./7..pF.mA.mA.ms.ms V AC 8.A Low CxR V.A /.7A.8/. pf.ma.ma.ms.ms V AC 89 AQYRM :. x.9 x.mm AQYNM Low CxR V.A / - 9./..pF.mA.mA.ms.ms V AC 89.A.A AQYNV Low CxR V.A /.A./7..pF.mA.mA.ms.ms,V AC 8.A AQYRV Low CxR V.A /.A./. pf.ma.ma.7ms.ms,v AC 9.A.A AQYNV Low CxR PSpice V.A /.A 9./..pF.mA.mA.ms.ms,V AC 9.A AQYRV : Low CxR PSpice V.A /.7A.7/..pF.mA.mA.ms.ms,V AC 9.A AQYFRV. x. x.8mm Built-in resistor V.A /.7A.7/..A.pF Operate voltage V Fon (max.).v Turn off voltage V Foff (min.).8v.ms.ms V AC 98 AQYFNV Built-in resistor V.A /.A 9./..A pf Operate voltage V Fon (max.).v Turn off voltage V Foff (min.).8v.ms.ms V AC 98 AQYRV Low CxR 8V.A /.A./.pF.mA.mA.ms.ms,V AC.A

16 PhotoMOS Form A Low CxR PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQYNS Low CxR V.A /.A 9./..pF.mA.mA.ms.ms,V AC 7 CSA, TÜV, UL.A AQYRS Low CxR V.A /.7A.8/. pf.ma.ma.ms.ms V AC CSA, TÜV, UL.A AQYRS : Low CxR V.A /.A.8/..pF.mA.mA.ms.ms,V AC 8. x. x.mm AQYRS Low CxR 8V.A /.7A.8/. 7.pF.mA.mA.7ms.ms,V AC 8.A.A AQYRS Low CxR 8V.A /.A./.pF.mA.mA.ms.ms,V AC 8.A AQV7NS V.A /.A / pf.ma.ma.ms.ms,v AC CSA, TÜV, UL :.A AQVNS V.A /.A 7/ pf.ma.ma.ms.ms,v AC. x. x.mm CSA, TÜV, UL.A AQV V.8A /.8A /.pf.ma.ma.ms.ms,v AC 7 CSA, TÜV, UL.8A AQV : 8V.A /.A /.8pF.mA.mA.ms.ms,V AC 7 CSA, TÜV, UL.A AQV7N V.7A /.A / pf.ma.ma.ms.ms,v AC 9 CSA, TÜV, UL DIP : 8.8 x. x.9mm SMD: 8.8 x. x.mm.7a AQVN V.A /.A 7/ pf.ma.ma.ms.ms,v AC 9 CSA, TÜV, UL.A

17 PhotoMOS Form B PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals Form B Signal Relays AQYS V.A /.A /. pf.ma.ma.ms.ms,v AC 7 CSA, UL, VDE.A V.A /.A 8/ pf.ma.ma.ms.ms,v AC 7 AQYS : BSI, CSA, TÜV, UL. x. x.mm.a AQYS V.A /.A / pf.ma.ma.ms.ms,v AC 7 BSI, CSA, TÜV, UL.A AQYEH V.A /.A /. 8pF.mA.mA.ms.ms,V AC CSA, UL, VDE.A : V.A /.A 8/ pf.ma.ma.ms.ms,v AC AQYEH BSI, CSA, UL DIP :.78 x. x.mm SMD:.78 x. x.9mm.a AQYEH V.A /.A / pf.ma.ma.ms.ms,v AC BSI, CSA, UL.A AQVS : V.A /.A / pf.ma.ma.ms.ms,v AC CSA, TÜV, UL.A. x. x.mm 7

18 PhotoMOS Form B PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQVEH V.A /.A 8/ pf.ma.ma.ms.ms,v AC 9 BSI, CSA, TÜV, UL, VDE.A AQVEH V.A /.A /. 8pF.mA.mA.ms.ms,V AC 9 CSA, TÜV, UL, VDE.A AQVE V.A /.A / pf.ma.ma.ms.ms,v AC 9 CSA, TÜV, UL.A AQVEH V.A /.A / pf.ma.ma.ms.ms,v AC 9 : BSI, CSA, TÜV, UL, VDE.A AQV V.A /.A./8. pf.ma.ma.ms.ms,v AC CSA, UL DIP : 8.8 x. x.9mm SMD: 8.8 x. x.mm AQV V.A /.A / pf.ma.ma.ms.ms,v AC CSA, TÜV, UL.A.A AQV V.A /.A./ 7pF.mA.mA.ms.ms,V AC CSA, TÜV, UL.A AQVH V.A /.A./ 7pF.mA.mA.ms.ms,V AC CSA, TÜV, UL.A Form B Power Relays AQZ V.A /.A.8/. : pf.ma.ma 7.ms.ms,V AC 89 CSA, UL.A x. x.mm 8 9

19 PhotoMOS Form A Signal Relays PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQWS V.A /.A / pf.ma.ma.ms.ms,v AC CSA, TÜV, UL.A AQWS : V.A /.A.8/. -.ma.ma.ms.ms,v AC CSA, TÜV, UL.A 9.7 x. x.mm AQWS V.8A /.A / pf.ma.ma.ms.ms,v AC CSA, TÜV, UL.8A AQWEH V.A /.A.8/. 8pF.mA.mA.ms.ms,V AC CSA, TÜV, UL.A AQWEH V.A /.A 8/ pf.ma.ma.ms.ms,v AC CSA, TÜV, UL :.A AQWHL Current limiting V.A / -.8A ( limit current [typ.]) / pf.ma.ma.ms.ms,v AC CSA, TÜV, UL.A DIP : 9.8 x. x.mm AQWEH V.A /.A / pf.ma.ma.ms.ms,v AC SMD: 9.8 x. x.9mm CSA, TÜV, UL.A AQWEH V.A /.A / pf.ma.ma.ms.ms,v AC CSA, TÜV, UL.A

20 PhotoMOS Form A Signal Relays PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals AQW V.A /.A.8/. pf.ma.ma.ms.ms,v AC CSA, TÜV, UL.A AQW V.A /.9A./. pf.ma.ma.ms.ms,v AC CSA, TÜV, UL.A AQW7 V.A /.8A / 7pF.mA.mA.ms.ms,V AC CSA, TÜV, UL : AQW V.A /.A / pf.ma.ma.ms.ms,v AC CSA, TÜV, UL.A.A AQW DIP : 9.78 x. x.9mm V.A /.A / pf.ma.ma.ms.ms,v AC SMD: 9.78 x. x.mm CSA, TÜV, UL.A AQW V.A /.A./ 7pF.mA.mA.ms.ms,V AC CSA, TÜV, UL.A AQW V.A /.A 7/ pf.ma.ma.ms.ms,v AC CSA, TÜV, UL.A

21 PhotoMOS Other Types PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals Form A Low CxR AQW7NS V.A /.A / pf.ma.ma.ms.ms,v AC C-UL, TÜV, UL :.A AQWRS Low CxR V.A /.A / pf.ma.ma.ms.ms,v AC C-UL 9.7 x. x.mm.a AQW7N V.A /.A / pf.ma.ma.ms.ms,v AC CSA, TÜV, UL :.A AQWN V.A /.A 7/ pf.ma.ma.ms.ms,v AC CSA, TÜV, UL DIP : 9.78 x. x.9mm SMD: 9.78 x. x.mm.a Form B V.A /.A / pf.ma.ma.ms.ms,v AC AQWEH BSI, CSA, TÜV, UL :.A DIP : 9.8 x. x.mm SMD: 9.8 x. x.9mm AQW V.A /.A / pf.ma.ma.ms.ms,v AC 7 CSA, TÜV, UL :.A AQW V.A /.A / 7pF.mA.mA.ms.ms,V AC 8 CSA, TÜV, UL DIP : 9.78 x. x.9mm SMD: 9.78 x. x.mm.a

22 PhotoMOS Other Types PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals Form A / Form B AQWS : V.A /.A /. 8pF (N.O.) pf.a (N.C.).mA.mA.ms.m,V AC CSA, TÜV, UL, VDE 9. x. x.mm V.A /.A 8/ pf (N.O) AQWS : pf.a (N.C.).mA.mA.ms.ms,V AC BSI, CSA, TÜV, UL 9.7 x. x.mm AQWEH : V.A /.A /. 8pF (N.O.) 8pF.A (N.C.).mA.mA.ms (N.O.).ms (N.C.).ms,V AC CSA, TÜV, UL, VDE DIP : 9.78 x. x.9mm SMD: 9.78 x. x.mm V.A /.A 8/ pf (N.O.) AQWEH : pf.a (N.C.).mA.mA.ms.ms,V AC BSI, CSA, TÜV, UL V.A /.A / pf (N.O.) AQWEH pf DIP : 9.8 x. x.mm.a (N.C.) SMD: 9.8 x. x.9mm.ma.ma.ms.ms,v AC BSI, CSA, TÜV, UL AQW V.A /.A 7/ pf (N.O.) : pf.a (N.C.).mA.mA.ms.ms,V AC CSA, TÜV, UL AQW V.A /.A N.O.: /.A N.C.: DIP : 9.78 x. x.9mm / SMD: 9.78 x. x.mm 7pF.mA.mA.ms.ms,V AC CSA, TÜV, UL 7

23 PhotoMOS Other Types PhotoMOS Selector Chart Switching speed Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Peak load V DC/AC Continuous load current/ Peak load current (ms) ON resistance (typical/max.) capacitance (typical) LED operate current(max.) LED turn-off current (min.) Turn-on time (max.) Turn-off time (max.) I/O isolation voltage Page Approvals Multichannel AQSNS Low CxR V.A /.A 9./. pf.ma.ma.ms.ms V AC 7.A AQSRS Low CxR 8V.7A /.A./..pF.mA.mA.ms.ms,V AC 9 CSA, TÜV, UL :.7A AQSFRS Built-in resistor V.A /.A./..pF Operate voltage V Fon.7 x. x.mm.a (max.).v Turn off voltage V Foff (min.).8v.ms.ms V AC AQSFNS Built-in resistor V.A /.A 9./..A pf Operate voltage V Fon (max.).v Turn off voltage V Foff (min.).8v.ms.ms V AC 8 9

24 Photovoltaic MOSFET drivers PhotoMOS Selector Chart Type = Popular Type Photo with Dimensions (Picture scale: DIN A) Features Drop-out voltage (typical/min.) Switching speed Short circuit current (typical/min.) LED operate current (max.) LED turn-off current (min.) Turn-on time (typical) Turn-off time (typical) I/O isolation voltage Page Approvals APVV : Ultra small SSOP housing 8./.V 8 / μa.ma.ma.8ms.ms,v AC C-UL. x. x.8mm µa 8µA APVS Ultra small SMD (SOP) housing 8.7/.V / μa.ma.ma.ms.ms,v AC C-UL : µa µa APVS. x. x mm Ultra small SMD (SOP) housing 8./.V 8 / μa.ma.ma.8ms.ms,v AC C-UL µa 8µA APV : V breakdown voltage 8.7/.V / μa.ma.ma.ms.ms,v AC C-UL µa µa DIP : 8.8 x. x.mm SMD: 8.8 x. x.9mm

25 Photo-Triac Couplers Solid State Relays Selector Chart Solid State Relay Selector Chart H Type Photo with Dimensions (Picture scale: DIN A) Features Repetitive peak OFF-state voltage Max. load current/ Non-repetitive surge current ( cycle, Hz) PeakONstate voltage (max.) Peak OFF-state current (max.) LED trigger current (max.) LED drop-out voltage (max.) Turn-on time (max.) Zero-cross voltage (max.) I/O isolation voltage Connection type Switching diagram Page Approvals APTS Zero-cross SOP pin V.A /.A.V A ma.v.ms V,7V AC SMT (SOP) C-UL, UL, VDE.A ZC Zero-cross circuit APTS : Random SOP pin SMT (SOP). x. x.mm APTS Low zero-cross SOP pin.v V SMT (SOP) ZC Zero-cross circuit APT Zero-cross DIP pin V.A /.A.V A ma.v.ms V,V AC PCB, SMT C-UL, UL, VDE.A ZC Zero-cross circuit APT : Random DIP pin PCB, SMT DIP :.78 x. x.mm SMD:.78 x. x.9mm APT Low zero-cross DIP pin.v V PCB, SMT ZC Zero-cross circuit

26 Photo-Triac Couplers Solid State Relays Selector Chart Type Photo with Dimensions (Picture scale: DIN A) Features Repetitive peak OFF-state voltage Max. load current/ Non-repetitive surge current ( cycle, Hz) PeakONstate voltage (max.) Peak OFF-state current (max.) LED trigger current (max.) LED drop-out voltage (max.) Turn-on time (max.) Zero-cross voltage (max.) I/O isolation voltage Connection type Switching diagram Page Approvals APT Zero-cross DIP pin V.A /.A.V A ma.v.ms V,V AC PCB, SMT C-UL, UL, VDE.A ZC Zero-cross circuit : APT Random DIP pin PCB, SMT APT DIP : 8.8 x. x.9mm SMD: 8.8 x. x.mm Low zero-cross DIP pin.v V PCB, SMT ZC Zero-cross circuit

27 Photo-Triac Couplers Wide Terminal Solid State Relays Selector Chart Type Photo with Dimensions (Picture scale: DIN A) Features Repetitive peak OFF-state voltage Max. load current/ Non-repetitive surge current ( cycle, Hz) PeakONstate voltage (max.) Peak OFF-state current (max.) LED trigger current (max.) LED drop-out voltage (max.) Turn-on time (max.) Zero-cross voltage (max.) I/O isolation voltage Connection type Switching diagram Page Approvals APTW Zero-cross DIP pin wide terminal V.A /.A.V A ma.v.ms V,V AC PCB, SMT C-UL, UL, VDE.A ZC Zero-cross circuit APTW : Random DIP pin wide terminal PCB, SMT DIP :.78 x. x.mm SMD:.78 x. x.7mm APTW Low zero-cross DIP pin wide terminal.v V PCB, SMT ZC Zero-cross circuit APTW Zero-cross DIP pin wide terminal V.A /.A.V A ma.v.ms V,V AC PCB, SMT C-UL, UL, VDE.A ZC Zero-cross circuit APTW : Random DIP pin wide terminal PCB, SMT APTW DIP : 8.8 x. x.9mm SMD: 8.8 x. x.mm Low zero-cross DIP pin wide terminal.v V PCB, SMT ZC Zero-cross circuit 7

28 AQH Relays Solid State Relays Selector Chart Type Photo with Dimensions (Picture scale: DIN A) Features Repetitive peak OFF-state voltage Max. load current/ Non-repetitive surge current ( cycle, Hz) PeakONstate voltage (max.) Peak OFF-state current (max.) LED trigger current (max.) LED drop-out voltage (max.) Turn-on time (max.) Zero-cross voltage (max.) I/O isolation voltage Connection type Switching diagram Page Approvals AQH Photo-Triac Zero-cross V.A / A.V A ma.v.ms V,V.A C-UL, UL, VDE AQH Photo-Triac Random AQH AQH : Photo-Triac Zero-cross Photo-Triac Random V.A / A.V A ma.v.ms V,V.A PCB, SMT With zero-cross switch: 8 + ZC Zero-cross circuit AQH AQH DIP : 9.78 x. x.9mm SMD: 9.78 x. x.mm Photo-Triac Zero-cross Photo-Triac Random V.9A / 9A.V A ma.v.ms V,V.9A Without zero-cross switch: 8 + AQH Photo-Triac Zero-cross V.A / A.V A ma.v.ms V,V.A AQH Photo-Triac Random 8 9

29 Solid State SIL and DIL Types Solid State Relays Selector Chart Type Features voltage Max. load current/ Non-repetitive surge current ( cycle, Hz) OFF-state leakage current (max.) voltage impedance Drop-out voltage (min.) Operate time Release time Breakdown voltage Connection type Terminal layout Page Approvals : AQG A Photo-Triac Zero-cross Integrated snubber circuit 7 - V AC A / 8A.mA - V DC.k V ½ cycle of voltage sine A 9. -.V DC.8k wave + ms ½ cycle of voltage sine wave + ms,v AC PCB.. 7. C-UL, UL,. VDE V DC.k -. dia. Photo-Triac Random Integrated snubber circuit 7 - V AC A / 8A.mA - V DC.k V ms ½ cycle of voltage sine A 9. -.V DC.8k wave + ms,v AC. x. x.mm V DC.k AQG A Photo-Triac Zero-cross Integrated snubber circuit : A 7 - V AC A / A.mA - V DC.k V ½ cycle of voltage sine 9. -.V DC.8k wave + ms ½ cycle of voltage sine wave + ms,v AC PCB dia V DC.k Photo-Triac Random Integrated snubber circuit 7 - V AC A / A.mA - V DC.k V ms ½ cycle of voltage sine A 9. -.V DC.8k wave + ms,v AC. x. x.mm V DC.k AQ Photo-Transistor - V DC A / A (s) ma - 8V DC.k.8V.ms ms,v AC PCB A (DC output) Slim : A. Copper foil 9 CSA, TÜV, UL x x.mm dia. AQ Photo-Transistor - V DC A / A (s) ma - 8V DC.k.8V.ms ms,v AC A (DC output) : A x x.mm

30 Solid State SIL and DIL Types Solid State Relays Selector Chart Type Features voltage Max. load current/ Non-repetitive surge current ( cycle, Hz) OFF-state leakage current (max.) voltage impedance Drop-out voltage (min.) Operate time Release time Breakdown voltage Connection type Terminal layout Page Approvals AQ A (AC output) : Photo-Transistor Zero-cross 7 - V AC A / 8A ma - 8V DC.k.8V ½ cycle of voltage sine A wave + ms ½ cycle of voltage sine wave + ms,v AC PCB Slim. Copper foil 9 CSA, TÜV, UL x x.mm.. Flat.. -. dia. x x mm..7 Copper foil -. dia. AQ A (AC output) : x x.mm Photo-Triac Zero-cross and random type available 7 - V AC A / A ma A - V DC ( current, max. ma).v ½ cycle of voltage sine wave + ms ½ cycle of voltage sine wave + ms,v AC (between input and output),v AC (between input, output and case). PCB Slim.. Flat. Copper foil. -. dia. 9 VDE x x mm..7 Copper foil -. dia. AQ Photo-Transistor 7 - V AC A (A without heat sink) / A ma - 8V DC.k.8V ½ cycle of A (AC output) Zero-cross voltage sine : A wave + ms x mm ½ cycle of voltage sine wave + ms,v AC (between input and output),v AC (between input, output and case). PCB 9 Copper foil CSA, TÜV,. UL.. -. dia. AQ Photo-Triac 7 - V AC A (A without heat sink) / A ma - V DC A (AC output) : Zero-cross and random type available A ( current, max. ma) x mm.v ½ cycle of voltage sine wave + ms ½ cycle of voltage sine wave + ms,v AC (between input and output),v AC (between input, output and case). PCB 9 Copper foil VDE dia.

31 Solid State SIL and DIL Types Solid State Relays Selector Chart.. Type Features voltage Max. load current/ Non-repetitive surge current ( cycle, Hz) OFF-state leakage current (max.) voltage impedance Drop-out voltage (min.) Operate time Release time Breakdown voltage Connection type Terminal layout Page Approvals -. dia. or M Solid State Hockey Puck Types AQ-J Photo-Triac Zero-cross Ultra-compact size Built-in varistor 7 - V AC A / A ma - V DC V ½ cycle of voltage sine - 8V DC 8 wave + ms 8-8V DC.k A / A - V DC - 8V DC 8 8-8V DC.k ½ cycle of voltage sine wave + ms,v AC (between input and output),v AC (between input, output and case) C-UL, TÜV A / A - V DC - 8V DC 8 8-8V DC.k AQ-A Photo-Triac Zero-cross and random type available Built-in varistor and LED indication 7 - V AC A / A ma - V DC ( current, max. ma) V ½ cycle of voltage sine wave + ms ½ cycle of voltage sine wave + ms,v AC (between input and output),v AC (between input, output and case) A

32

33 PhotoMOS Relays

34 PhotoMOS Relay Dimensions Type Dimensions mm inch Through hole terminal type Surface mount terminal type PC board pattern (Bottom view) CAD Data CAD Data Max. -.8 dia. Max. -. dia... AQY(DIP) AQY(DIP) Series.±..±..±..± ±..88± ±..±..7±..±. Max. Terminal thickness =..8 General tolerance: ±. ±..±..±..7±..±.. ±. ± ±..88± ±..±..7±..±...9 Terminal thickness =..8 General tolerance: ±. ±... Tolerance: ±. ±. Mounting pad (Top view) Tolerance: ±. ±. AQV(DIP) AQV(DIP) AQV(DIP) AQV(DIP) AQV(DIP) AQV(DIP) AQV(DIP) AQV(DIP) AQV(DIP) Series Through hole terminal type Surface mount terminal type PC board pattern (Bottom view) CAD Data CAD Data.±. 7.±..±..±..9±..±.8 8.8±..± Max. Max. Terminal thickness =...±..± ±..± Max.. General tolerance: ±. ±. General tolerance: ±. ± Terminal thickness = dia. -. dia Tolerance: ±. ±. Recommended mounting pad (Top view) APV(DIP) Series Through hole terminal type Surface mount terminal type PC board pattern (Bottom view) CAD Data CAD Data.±. 7.±..±..±..9±..±.8 8.8±..± Max. Max. Terminal thickness =...±..± General tolerance: ±. ± ±..± Max Terminal thickness =.. General tolerance: ±. ±. -.8 dia. -. dia Tolerance: ±. ±. Recommended mounting pad (Top view) Download CAD Data from our Web site. 8 ds_x_en_pmos_technical_information: D

35 Type Dimensions mm inch AQW(DIP) AQW(DIP) AQW(DIP) AQW(DIP) AQW(DIP) AQW(DIP) AQW(DIP) Series.9±..±.8 Through hole terminal type Surface mount terminal type PC board pattern (Bottom view) CAD Data CAD Data Max Max. Max. Terminal thickness = General tolerance: ±. ± dia. 8-. dia... Terminal thickness =.. General tolerance: ±. ± Tolerance: ±. ±. Recommended mounting pad (Top view) PhotoMOS Through hole terminal type Surface mount terminal type Max. PC board pattern (Bottom view) Max. CAD Data CAD Data 8-.8 dia. 8-. dia AQW EH (DIP) AQW HL (DIP) AQW EH (DIP) AQW EH (DIP) Series.±..±..±..± ±..88±. 7.±..± ±..±. Max. Terminal thickness =..8 General tolerance: ±. ±..±..±..7±..±.. ±. 9.8±..88±. ± ±..±...9.7±..±. Terminal thickness =..8 General tolerance: ±. ± Tolerance: ±. ±. Mounting pad (Top view) Tolerance: ±. ±. AQY (VSSOP) Series CAD Data : DC+ : DC : AC/DC : AC/DC Recommended mounting pad (Top view) (.) (.87)..8 General tolerance: ±..7. Tolerance : ±..9. Recommended mounting pad (Top view) AQY(SON) Series CAD Data : DC+ : DC : AC/DC : AC/DC Tolerance: ±.±. General tolerance: ±.±.8 Download CAD Data from our Web site. ds_x_en_pmos_technical_information: D 9

36 Type Dimensions mm inch..7 Recommended mounting pad (Top view) APV(SSOP) AQY(SSOP) Series CAD Data (.8).8. (.9) Terminal thickness =.. General tolerance: ±. ± Tolerance: ±. ±. Recommended mounting pad (Top view) APV(SOP) APV(SOP) AQY (SOP) AQY(SOP) AQY(SOP) AQY(SOP) Series CAD Data....9 ±. ± ±. ± ±. ±.8 ±. ±... Terminal thickness = General tolerance: ±. ±. Tolerance: ±. ±... Recommended mounting pad (Top view) AQV(SOP) AQV(SOP) AQV(SOP) AQV(SOP) Series CAD Data...±..8± ±..7±.8 ±..79± ±..8±... Terminal thickness = General tolerance: ±. ±. Tolerance: ±. ±... Recommended mounting pad (Top view) AQW(SOP) AQW(SOP) AQW(SOP) Series CAD Data 9.7±..9± ±..7±.8 ±..79±.8...8±..8±... Terminal thickness = General tolerance: ±. ±. Tolerance: ±. ±. Recommended mounting pad (Top view)...±..7±.8.8±..8±....7 AQS(SOP) Series CAD Data.7±..8± ±..79± Terminal thickness =.. General tolerance: ±. ±. Tolerance: ±. ±. Download CAD Data from our Web site. ds_x_en_pmos_technical_information: D

37 Type Dimensions mm inch Through hole terminal type Surface mount terminal type PC board pattern (Bottom view) to Max dia dia.. AQY7 Power (DIP) Series CAD Data ± ±.8 ± ±.8. ±.. ± ±. ±.8 ±. ±. to CAD Data Terminal thickness =.. General tolerance: ±. ± ±..8. ± ± ±. ±.8 ±.8 ±. ± Terminal thickness =.. General tolerance: ±. ± Tolerance: ±. ±. Recommended mounting pad (Top view) Tolerance: ±. ±. PhotoMOS ±..87±.8.±..8±.8.8±..±.8 PC board pattern (Bottom view) -.8 dia. -. dia. -. dia. -. dia. AQZ(SIL) AQZ(SIL) AQZ(SIL) Series CAD Data ±..± General tolerance: ±. ± AC/DC type ➀ : DC- ➁ : DC+ ➂ : DC or AC ➃ : DC or AC Tolerance: ±. ±. DC type ➀ : DC- ➁ : DC+ ➂ : DC- ➃ : DC+ AQZ(SIL) Series CAD Data Max Max... Min. 8.. Max. 9.. General tolerance: ±. ±. -.8dia. -.dia. ➀ : DC - ➁ : DC ➂ : AC or DC ➃ : AC or DC Mounting hole location(bottom view) 7.9 Copper foil. Terminal dia Pitch tolerance: ±. ±. Download CAD Data from our Web site. ds_x_en_pmos_technical_information: D

38 PhotoMOS Relay Schematic and Wiring Diagrams Schematic type configuration Connection Wiring diagram AQV(DIP) Series AQV(DIP) Series a DC A E IF IL - VL (DC) + IL - VL (DC) + AC/DC A E IF IL VL (AC,DC) IL VL (AC,DC) AQV(DIP) Series a DC B E IF + IL VL (DC) - + IL VL (DC) E IF - - IL VL (DC) IL VL (DC) + + Can be also connected as Form A type. (However, the sum of the continuous load current should not exceed the absolute maximum rating.) - DC C E IF IL + VL (DC) - IL + VL (DC) - AQY (VSSOP) + a AC/DC AQY (SOP) AQY (DIP, SOP) AQY(SOP, SSOP, SON) AQY7 (Power-DIP) Series a AC/DC E IF IL VL (AC,DC) IL VL (AC,DC) Notes:. E: Power source at input side; VIN: voltage; IF: LED forward current; IIN: current; VL: voltage; IL: current; R: Current limit resistor.. Method of connecting the load at the output is divided into types. *Terminal cannot be used, since it is in the internal circuit of the relay. ds_x_en_pmos_technical_information: D

39 Schematic type configuration Connection Wiring diagram AQY F AQY F Series a AC/DC VIN IF IL VL (AC,DC) IL VL (AC,DC) PhotoMOS AC/DC A E IF IL VL (AC,DC) IL VL (AC,DC) AQV (DIP, SOP) AQV (DIP, SOP) AQV(DIP)* AQV (DIP, SOP) Series Terminal cannot be used, since it is in the internal circuit of the relay. a DC B E IF + IL VL (DC) - + IL VL (DC) E IF - - IL VL (DC) IL VL (DC) + + Can be also connected as Form A type. (However, the sum of the continuous load current should not exceed the absolute maximum rating.) - DC C E IF IL + VL (DC) - IL + VL (DC) - () Two independent Form A use 8 8 AQW (DIP, SOP) AQW (DIP, SOP) AQW Series 8 7 a AC/DC E IF E IF () Form A use E IF IL IL IL VL (AC,DC) VL (AC,DC) VL (AC,DC) IL IL IL VL (AC,DC) VL (AC,DC) VL (AC,DC) IL VL (AC,DC) IL VL (AC,DC) AQY (DIP, SOP) Series b AC/DC E IF IL VL (AC,DC) IL VL (AC,DC) Notes:. E: Power source at input side; VIN: voltage; IF: LED forward current; IIN: current; VL: voltage; IL: current; R: Current limit resistor.. Method of connecting the load at the output is divided into types. * AQV series in SOP is also possible. Please inquire. ds_x_en_pmos_technical_information: D

40 Schematic type configuration Connection Wiring diagram AC/DC A E IF IL VL (AC,DC) IL VL (AC,DC) E IF + IL VL (DC) - + IL VL (DC) Ð AQV (DIP, SOP) AQV (DIP) Series Terminal cannot be used, since it is in the internal circuit of the relay. b DC B E IF - - IL VL (DC) IL VL (DC) + + Can be also connected as Form B type. (However, the sum of the continuous load current should not exceed the absolute maximum rating.) DC C E IF IL + VL (DC) - IL + VL (DC) - () Two independent Form A & Form B use 8 8 AQW (DIP, SOP) AQW (DIP) Series N.C. N.O. 8 7 ab AC/DC E IF E IF 7 E IF () Form A Form B use 8 7 IL IL IL VL (AC,DC) VL (AC,DC) VL (AC,DC) IL IL IL VL (AC,DC) VL (AC,DC) VL (AC,DC) IL VL (AC,DC) IL VL (AC,DC) () Two independent Form B use 8 8 AQW (DIP) AQW (DIP) Series 8 7 b AC/DC E IF E IF () Form B use 7 8 IL IL VL (AC,DC) VL (AC,DC) 7 8 IL IL VL (AC,DC) VL (AC,DC) E IF 7 IL VL (AC,DC) 7 IL VL (AC,DC) IL VL (AC,DC) IL VL (AC,DC) Notes:. E: Power source at input side; VIN: voltage; IF: LED forward current; IIN: current; VL: voltage; IL: current; R: Current limit resistor.. Method of connecting the load at the output is divided into types. ds_x_en_pmos_technical_information: D

41 Schematic type configuration Connection Wiring diagram AQS(SOP) Series a AC/DC E E E E IF IF IF IF IL IL IL IL VL (AC,DC) VL (AC,DC) VL (AC,DC) VL (AC,DC) 9 IL IL IL IL VL (AC,DC) VL (AC,DC) VL (AC,DC) VL (AC,DC) PhotoMOS + - V IN IIN IL VL (AC,DC) IL VL (AC,DC) AQS F (SOP) Series a AC/DC V IN V IN IIN IIN 7 IL IL VL (AC,DC) VL (AC,DC) IL IL VL (AC,DC) VL (AC,DC) 8-9 V IN IIN 8 9 IL VL (AC,DC) 9 IL VL (AC,DC) AQZ(SIL) Series a DC IF E R IL IL + VL (DC) - + VL (DC) - AQZ(SIL) AQZ(SIL) Series - + a AC/DC IF E R IL IL VL (AC or DC) VL (AC or DC) AQZ D (SIL) Series a DC IIN VIN IL IL + VL (DC) - + VL (DC) - Notes:. E: Power source at input side; VIN: voltage; IF: LED forward current; IIN: current; VL: voltage; IL: current; R: Current limit resistor.. Method of connecting the load at the output is divided into types. ds_x_en_pmos_technical_information: D

42 Schematic type configuration Connection Wiring diagram AQZ D (SIL) Series - + a AC/DC IIN VIN IL IL VL (AC or DC) VL (AC or DC) AQZ(SIL) Series - + b AC/DC E IF R IL VL (AC or DC) IL VL (AC or DC) Power MOSFET drive wiring diagram IF APVS (SOP) APVS (SOP) APVV (SSOP) Control circuit a E External MOSFET VL (AC, DC) Example of each input power supply and current limit resistors (IF = ma) E IF R E V V V External VL (DC) MOSFET R Approx. 8Ω Approx..kΩ Approx..kΩ Power MOSFET drive wiring diagram IF E External MOSFET VL (AC, DC) External VL (DC) MOSFET APV(DIP) a Control circuit Example of each input power supply and current limit resistors (IF = ma) E IF R E V V V R Approx. 8Ω Approx..kΩ Approx..kΩ Notes:. E: Power source at input side; VIN: voltage; IF: LED forward current; IIN: current; VL: voltage; IL: current; R: Current limit resistor.. Method of connecting the load at the output is divided into types. ds_x_en_pmos_technical_information: D

43 PhotoMOS Relay Technical Information How PhotoMOS Relays Operate OUT OUT LED Power MOSFET PhotoMOS Optoelectronic device IN (-) When operated IN (+) When turned off When a signal current flows to the input terminals the LED on the input side emits light. When the signal current at the input terminal is cut off, the LED stops emitting light. The emitted light passes through transparent silicon and reaches the photoelectric element (solar cell) which is mounted opposite the LED. When the emitted light from the LED stops, the voltage of the photoelectric element decreases. The photoelectric element converts the received light to a voltage corresponding to the quantity of light. This voltage passes through a control circuit and charges the MOSFET gate on the output side. When the voltage supplied from photoelectric element decrease, the control circuit rapidly discharges the gate charge of MOSFET. When the MOSFET gate voltage supplied from the photoelectric element reaches a preset voltage value, the MOSFET begins to conduct and turns on the load. This control circuit makes MOSFET stop conducting and immediately turns off the load. Note: The explanation above applies to the current driving method. Products using the voltage driving method employ a different internal structure and operating principle. ds_x_en_pmos_technical_information: D 7

44 Terminology Electrical Term Symbol Description LED forward current IF Current that flows between the input terminals when the input diode is forward biased. LED reverse voltage VR Reverse breakdown voltage between the input terminals. Peak forward current IFP instantaneous value of the forward current. LED operate current IFON Current when the output switches on (by increasing the LED current) with a designated supply voltage and load connected between the output terminals. LED turn off current IFoff Current when the output switches off (by decreasing the LED current) after operating the relay with a designated supply voltage and load connected between the output terminals. LED dropout voltage VF Dropout voltage between the input terminals due to forward current. Power dissipation Pin Allowable power dissipation between the input terminals. voltage VL Supply voltage range at the output used to normally operate the PhotoMOS relay. Represents the peak value for AC voltages. current value that flows continuously between the output terminals of the PhotoMOS Continuous load current IL relay under designated ambient temperature conditions. Represents the peak value for AC current. Obtained using the equation below from dropout voltage VDS (on) between the output On resistance Ron terminals (when a designated LED current is made to flow through the input terminals and the designated load current through the output terminals.) Ron = VDS (on)/il Off state leakage current Ileak Current flowing to the output when a designated supply voltage is applied between the output terminals with no LED current flow. Power dissipation Pout Allowable power dissipation between the output terminals. Turn on time Ton Delay time until the output switches on after a designated LED current is made to flow through the input terminals. Turn off time Toff Delay time until the output switches off after the designated LED current flowing through the input terminals is cut off. I/O capacitance Ciso Capacitance between the input and output terminals. capacitance Cout Capacitance between output terminals when LED current does not flow. I/O isolation resistance Riso Resistance between terminals (input and output) when a specified voltage is applied between the input and output terminals. Total power dissipation PT Allowable power dissipation in the entire circuit between the input and output terminals. I/O isolation voltage Viso Critical value before dielectric breakdown occurs, when a high voltage is applied for minute between the same terminals where the I/O isolation resistance is measured. Operating temperature Topr Ambient temperature range in which the PhotoMOS relay can operate normally with a designated load current conditions. Storage temperature Tstg Ambient temperature range in which the PhotoMOS relay can be stored without applying voltage. Reliability tests Classification Item Condition Purpose High temperature storage test Tstg (Max.) Determines resistance to long term storage at high temperature. Life tests Low temperature storage Tstg (Min.) Determines resistance to long term storage at low temperature. test High temperature and high Determines resistance to long term storage at high temperature 8 C 8 F, R.H. 8% humidity storage test and high humidity. Thermal environment tests Mechanical environment tests Continuous operation life test Temperature cycling test Thermal shock test VL = Max.,, IF = LED operate current (Max.) Low storage temperature (Tstg Min.) High storage temperature (Tstg Max.) Low temperature ( C) ( F), High temperature ( C) ( F) * to Hz at double amplitude of mm for Power PhotoMOS relays. *,9 m/s, ms for Power PhotoMOS relays. Determines resistance to electrical stress (voltage and current). Determines resistance to exposure to both low temperatures and high temperatures. Determines resistance to exposure to sudden changes in temperature. Determines resistance to thermal stress occurring while Solder burning resistance C F, s soldering. Determines the resistance to vibration sustained during shipment Vibration test 9 m/s { G}, to, Hz* or operation. 9,8 m/s Shock test {, G}. ms* ; Determines the mechanical and structural resistance to shock.,9 m/s { G} ms Drop test Terminal strength test Solderability Dropped at a height of 8 cm on oak board Determined from terminal shape and cross section Determines the mechanical resistance to drops sustained during shipment or operation. Determines the resistance to external force on the terminals of the PhotoMOS relay mounted on the PC board while wiring or operating. C F s (with soldering flux) Evaluates the solderability of the terminals. 8 ds_x_en_pmos_technical_information: D

45 PhotoMOS Relays Cautions for Use SAFETY WARNINGS Do not use the product under conditions that exceed the range of its specifications. It may cause overheating, smoke, or fire.. Applying stress that exceeds the absolute maximum rating If the voltage or current value for any of the terminals exceeds the absolute maximum rating, internal elements will deteriorate because of the overvoltage or overcurrent. In extreme cases, wiring may melt, or silicon P/N junctions may be destroyed. Therefore, the circuit should be designed in such a way that the load never exceed the absolute maximum ratings, even momentarily.. Derating design Derating is essential in any reliable design and a significant factor in consideration of product life. Sufficient derating is needed against maximum rating when designing a system. And also, relays should be examined using a measurement equipment. Do not touch the recharging unit while the power is on. There is a danger of electrical shock. Be sure to turn off the power when performing mounting, maintenance, or repair operations on the relay (including connecting parts such as the terminal board and socket). Derated voltages must be considered according to operating and environmental conditions the relay will be subjected to.. Unused terminals The No. terminal is used with the circuit inside the relay. Therefore, do not connect it to the external circuitry with either connection method A, B or C. ( Form A -pin type). Short across terminals Do not short circuit between terminals when relay is energized, since there is possibility of breaking of the internal IC.. Surge voltages at the input If reverse surge voltages are present at the input terminals, connect a diode in reverse parallel across the input terminals and keep the reverse voltages below the reverse breakdown voltage. Check the connection diagrams in the catalog and be sure to connect the terminals correctly. Erroneous connections could lead to unexpected operating errors, overheating, or fire. circuits are below shown. ) -pin ) Power type PhotoMOS. Recommended LED forward current (IF) or recommended input voltage (VIN) It is recommended that the LED forward current (IF) or the input voltage (VIN) of each PhotoMOS Relay should be set according to the following table. Product name Recommended LED forward current (IF) AQV,, Series ma APV, Series (MOSFET drivers) DIP SOP SSOP SON VSSOP SIL AQY, Series AQY Series AQV, Series AQV Series AQV, Series AQW Series AQW, Series AQW Series AQW,, Series AQS Series AQYGS, AQYGS AQY H, H Series AQYKS AQYHL AQY7 Series AQV H Series AQV H, H Series AQVG AQVGS AQW H, H, H Series AQWHL AQV AQZ,, Series AQZ Series ma to ma ma to ma 7. Ripple in the input power supply If ripple is present in the input power supply, observe the following: ) For LED operate current at Emin, please maintain the value mentioned in the table of. Recommended LED forward current (IF). ) Please make sure for Emax. is no higher the LED operate current at than ma. Emin. Emax. ) Please maintain the input voltage at least V for Emin. (GU, RF and Power voltage-sensitive type). ) Please make sure the input voltage for Emax. is no higher than V (GU and RF voltage-sensitive type). ) Please make sure the input voltage for Emax. is no higher than V (Power voltage-sensitive type). Product name SOP SSOP AQY F Series, AQSF Series SIL AQZ D, AQZ D Notes: indicates two or more characters of number or alphabet. indicates a single-digit figure. Recommended input voltage (VIN) V ds_x_en_pmos_technical_information: D 9

46 8. spike voltages ) If an inductive load generates spike voltages which exceed the absolute maximum rating, the spike voltage must be limited. circuits of AC/DC dual use type are shown below. It is the same with DC only type. ) -pin Add a clamp diode to the load Add a CR snubber circuit to the load. Notes for mounting ) If many different packages are combined on a single substrate, then lead temperature rise is highly dependent on package size. For this reason, please make sure that the temperature of the terminal solder area of the PhotoMOS relay falls within the temperature conditions of item 9 before mounting. ) If the mounting conditions exceed the recommended solder conditions in item, resin strength will fall and the nonconformity of the heat expansion coefficient of each constituent material ) Power type Add a clamp diode to the load Add a CR snubber circuit to the load Add a varistor to the PhotoMOS Relay ) Even if spike voltages generated at the load are limited with a clamp diode if the circuit wires are long, spike voltages will occur by inductance. Keep wires as short as possible to minimize inductance. will increase markedly, possibly causing cracks in the package, severed bonding wires, and the like. For this reason, please inquire with us about whether this use is possible.. wiring pattern With AQY* or AQW*, AQS series avoid installing the input (LED side) wiring pattern to the bottom side of the package if you require the specified I/O isolation voltage (Viso) after mounting the PC board. Since part of the frame on the output side is exposed, it may cause fluctuations in the I/O isolation voltage. 9. Cleaning solvents compatibility The PhotoMOS relay forms an optical path by coupling a light-emitting diode (LED) and photodiode via transparent silicon resin. For this reason, unlike other directory element molded resin products (e.g., MOS transistors and bipolar transistors), avoid ultrasonic cleansing if at all possible. We recommend cleaning with an organic solvent. If you cannot avoid using ultrasonic cleansing, please ensure that the following conditions are met, and check beforehand for defects. Frequency: 7 to 9 khz Ultrasonic output: No greater than.w/cm Cleaning time: No longer than s Cleanser used: Asahiklin AK- Other: Submerge in solvent in order to prevent the PCB and elements from being contacted directly by the ultrasonic vibrations. Note: Applies to unit area ultrasonic output for ultrasonic baths. Portion of output side frame ( terminal side) wiring pattern ( terminal side) May not allow the prescribed I/O withstand voltage (Viso) to be achieved *except for GU-E (Reinforced,V) type. Soldering ) When soldering PC board terminals, keep soldering time to within s at C F. ) When soldering surface-mount terminals, SOP, SSOP, SON and VSSOP package, the following conditions are recommended. () IR (Infrared reflow) soldering method T T T t T = to 8 C to F T = C F T = C 8 F or less* t = to s or less t = s or less * C 7 F or less for SON, VSSOP package t () Soldering iron method Tip temperature: to C to 7 F Wattage: to W Soldering time: within s When using lead-free solder, we recommend a type with an alloy composition of Sn. Ag. Cu. Please inquire about soldering conditions and other details. () Others Check mounting conditions before using other soldering methods (DWS, VPS, hot-air, hot plate, laser, pulse heater, etc.) The temperature profile indicates the temperature of the soldered terminal on the surface of the PC board. The ambient temperature may increase excessively. Check the temperature under mounting conditions. 7 ds_x_en_pmos_technical_information: D

47 . The following shows the packing format ) Tape and reel mm inch Tape dimensions Dimensions of paper tape reel VSSOP -pin.8 ±.. ±..9 ±.. ±.8 Tractor feed holes +.. dia dia..7 ±.. ±.8 Direction of picking. ±..7 ±. Device mounted. ±. on tape ±. dia. 8 ±. ±.. ±..9 ±. dia..79 ±.. ±..7 ±..9 ±.. ±..7 ±.. ±..7 ±. PhotoMOS () When picked from and -pin side: Part No. AQY TY (Shown above) () When picked from and -pin side: Part No. AQY TW SON -pin. ±.. ±. Device mounted on tape. ±.. ±.8 Tractor feed holes +.. dia dia.. ±.. ±..79 ±..7 ±..8 ±.. ±.8. ±..7 ±. Direction of picking. ±. dia..9 ±. dia..7 ±..9 ±.. ±..7 ±.. ±..7 ±. () When picked from and -pin side: Part No. AQY MY (Shown above) () When picked from and -pin side: Part No. AQY MW Tractor feed holes. +. dia dia. Direction of picking ±.8.87 ±. 8 ± dia.. ±.9 dia. SSOP -pin. ±.. ±.. ±.. ±..8 ±.. ±.8 Device mounted on tape.7 ±.. ±.. ±..7 ±.. ±..7 ±..7±..9 ±.. +. dia dia.. ±..7 ±.. ±..7 ±. ±..79 ±. ± dia. 9.8 ±.79 dia. 8 ± dia.. ±.9 dia. () When picked from and -pin side: Part No. AQY VY, APVVY (Shown above) () When picked from and -pin side: Part No. AQY VW, APVVW ±. dia.. ±. dia. ±. ±.. ±.9.79 ±. Tractor feed holes.±. dia..±..±. dia..±. Direction of picking 7.±..7±..8±..9±. SOP -pin Device mounted on tape.8±..±. ±..7±. ±..7±. ±..79±..±..7±..7±. ±..8±..7±..±. dia..±. dia. () When picked from /-pin side: Part No. AQY SX, APV SX (Shown above) () When picked from /-pin side: Part No. AQY SZ, APV SZ Tractor feed holes.±. dia..±..±. dia..±. Direction of picking ±. 7.±..7±..7±..8±..9±. SOP -pin.8±..±. Device mounted on tape ±..7±. ±..79±..±..7±. ±..7±..9±..7±..±. dia..±. dia. () When picked from //-pin side: Part No. AQV SX (Shown above) () When picked from //-pin side: Part No. AQV SZ Notes: indicates two or more characters of number or alphabet. indicates a single-digit figure. ds_x_en_pmos_technical_information: D 7

48 mm inch Tape dimensions Dimensions of paper tape reel SOP 8-pin.8±..±..±..±. Device mounted on tape Tractor feed holes.±. dia..±. dia. ±..7±. Direction of picking 7.±..9±. ±..7±. ±..79±..7±..9±. 7.±..9±. ±..±..±..±..±. dia..±. dia. ±..79±. ±.8.87±. 8± dia..±.9 dia. ± dia. 9.8±.79 dia. 8± dia..±.9 dia. () When picked from ///-pin side: Part No. AQW SX (Shown above) () When picked from //7/8-pin side: Part No. AQW SZ ±. dia..±. dia. 7.±. ±.89±.9.79±.9 SOP -pin Tractor feed holes.±. dia..±..±. dia..±. Device mounted on tape Direction of picking 7.±..9±..7±..9±. 7.±..9±. ±..±..±..9±. ±..79±. ±.8.87±. 8± dia..±.9 dia. ± dia. 9.8±.79 dia. 8± dia..±.9 dia..8±..±. ±..7±. ±..7±. ±..79±..±. dia..±. dia. () When picked from //////7/8-pin side: Part No. AQS SX (Shown above) () When picked from 9///////-pin side: Part No. AQS SZ ±. dia..±. dia. 7.±. ±.89±.9.79±.9 Power-DIP -pin SMD.±..±. Device mounted on tape Direction of picking.±. Tractor feed holes.9± dia..± dia..7±..7±..9±..±..±..±..9±. 9.7±..8±. ±..79±. ±.8.87±. ± dia..97±.9 dia. ± dia..99±.79 dia. ± dia..97±.9 dia..±..77±..±..±..±..79±..±. dia..±. dia. () When picked from /-pin side: Part No. AQY 7 AX (Shown above) () When picked from /-pin side: Part No. AQY 7 AZ ±. dia..±. dia..±..7±.8.±.79.7±. DIP -pin Surface mount terminal.±..±..±..±. Device mounted on tape Tractor feed holes ±.. dia. ±..9 dia. Direction of picking ±..7±..±..±. ±. ±..7±..79±..7±..9±..±..7±. ±..±..7±..7±..±. dia..±. dia. ±..79±. ±.8.87±. 8± dia..±.9 dia. ± dia..8±.79 dia. 8± dia..±.9 dia. () When picked from /-pin side: Part No. AQY HAX, AQYHLAX (Shown above) () When picked from /-pin side: Part No. AQY HAZ, AQYHLAZ ±. dia..±. dia..±. ±..±.79.79±..±..±. Tractor feed holes ±.. dia. ±..9 dia. Direction of picking ±..7±..±..±..7±..9±. ±.8.87±. 8± dia..±.9 dia. DIP 8-pin Surface mount terminal (Reinforced insulation type).±..±. Device mounted on tape ±..7±. ±..79±. 7.±..9±. ±..±..±..±..±. dia..±. dia. ±..79±. ± dia..8±.79 dia. 8± dia..±.9 dia. () When picked from ///-pin side: Part No. AQW EHAX, AQWHLAX (Shown above) () When picked from //7/8-pin side: Part No. AQW EHAZ, AQWHLAZ Notes: indicates two or more characters of number or alphabet. indicates a single-digit figure. ±. dia..±. dia. 7.±. ±..89±.79.79±. 7 ds_x_en_pmos_technical_information: D

49 Tape dimensions Dimensions of paper tape reel mm inch DIP -pin Surface mount terminal.±..77±. Tractor feed holes dia ±. dia..±. Device mounted on tape Direction of picking.7±..±..98±..9±. ±..7±. ±. ±..79±..79±. 7.±..9±. ±..±. 9.±..±..±. dia..±. dia. () When picked from //-pin side: Part No. AQV AX (Shown above) () When picked from //-pin side: Part No. AQV AZ ±..79±. ±.8.87±. 8± dia..±.9 dia. ± dia..8±.79 dia. 8± dia..±.9 dia. ±. dia..±. dia. 7.±. ±..89±.79.79±. PhotoMOS DIP -pin Surface mount terminal (Photovoltaic MOSFET driver).±..77±. Tractor feed holes dia ±. dia..±. Device mounted on tape Direction of picking.7±..±..98±..9±. ±..7±. ±. ±..79±..79±. 7.±..9±. ±..±. 9.±..±..±. dia..±. dia. () When picked from //-pin side: Part No. APVAX (Shown above) () When picked from /-pin side: Part No. APVAZ ±..79±. ±.8.87±. 8± dia..±.9 dia. ± dia..8±.79 dia. 8± dia..±.9 dia. DIP 8-pin Surface mount terminal (Basic insulation type).±..77±. Tractor feed holes dia..± dia..±. Device mounted on tape Direction of picking ±..±..7±..7±..±..9±. ±..7±. ±..79±. 7.±..9±. ±..±..±..±..±. dia..±. dia. ±. dia..±. dia. 7.±. ±..89±.79.79±. () When picked from ///-pin side: Part No. AQW AX (Shown above) () When picked from //7/8-pin side: Part No. AQW AZ Note: indicates two or more characters of number or alphabet. ds_x_en_pmos_technical_information: D 7

50 ) Tube Devices are packaged in a tube so that pin No. is on the stopper B side. Observe correct orientation when mounting (PD type, GU them E type on PC [AQY EH, boards. AQW EH], GU Current Limit Function type [AQY HL, AQW HL]) (DIP type) (SOP type) (Power type) Stopper B StopperB (green) Green Stopper B Stopper A StopperA (gray) Gray Stopper A The power photomos relays are stick packed so that the number terminal is in the direction of stopper B. One stick contains power photomos relays.. Transportation and storage ) Extreme vibration during transport will warp the lead or damage the relay. Handle the outer and inner boxes with care. ) Storage under extreme conditions will cause soldering degradation, external appearance defects, and deterioration of the. The following storage conditions are recommended: Temperature: to C to F Humidity: Less than 7% R.H. Atmosphere: No harmful gasses such as sulfurous acid gas, minimal dust. ) PhotoMOS relays implemented in VSSOP, SON, SSOP, SOP are sensitive to moisture and come in sealed moistureproof packages. Observe the following cautions on storage. After the moisture-proof package is unsealed, take the devices out of storage as soon as possible (within month C/7% R.H.). If the devices are to be left in storage for a considerable period after the moistureproof package has been unsealed, it is recommended to keep them in another moisture-proof bag containing silica gel (within months at the most).. Current limit function (output current control) ) Current limit function aims to increase resistance to surges when the switch is turned on. Before using this function, connect the varistor to the output as shown in the figure below. Varistor Surge: μs,.kv * Set the varistor voltage to V or less. ) The current limit function capability can be lost if used longer than the specified time. Be sure to set the output loss to the max. rate.. Deterioration and destruction caused by discharge of static electricity (RF C R, ) This phenomenon is generally called static electricity destruction, and occurs when static electricity generated by various factors is discharged while the relay terminals are in contact, producing internal destruction of the element. To prevent problems from static electricity, the following precautions and measures should be taken when using your device. ) Employees handling relays should wear anti-static clothing and should be grounded through protective resistance of k to M. ) A conductive metal sheet should be placed over the work table. Measuring instruments and jigs should be grounded. ) When using soldering irons, either use irons with low leakage current, or ground the tip of the soldering iron. (Use of lowvoltage soldering irons is also recommended.) ) Devices and equipment used in assembly should also be grounded. ) When packing printed circuit boards and equipment, avoid using high-polymer materials such as foam styrene, plastic, and other materials which carry an electrostatic charge. ) When storing or transporting relays, the environment should not be conducive to generating static electricity (for instance, the humidity should be between and %), and relays should be protected using conductive packing materials. 7 ds_x_en_pmos_technical_information: D

51 7. Short circuit protection circuit The short circuit protection circuit is designed to protect circuits from excess current. Therefore, surge current may be detected as current overload in which case the output current will be cut and the off state maintained. For this reason, please include the inrush current in the load current and keep it below the maximum load current. Also, in order to maintain stability of internal IC operation, maintain an input current of at least ma (Latch type), ma (Non Latch type). 8. Photovoltaic MOSFET driver cautions for use When two external MOSFETs are connected with a common source terminal, oscillation may occur when operation is restored. Therefore, please insert a to, ohms resistor between the gate terminal of the first MOSFET and the gate terminal of the second MOSFET. A typical example of this is given in the circuit below. R Ω 9. Power PhotoMOS Relays cautions for use () LED current (Standard type) For rising and dropping ratio of input LED current (di/dt), maintain min. A/s. () voltage (Voltage sensitive type) For rising and dropping ratio of input voltage (dv/dt), maintain min. mv/s. () Adjacent mounting ) When relays are mounted close together with the heat-generated devices, ambient temperature may rise abnormally. Mounting layout and ventilation should be considered. ) When many relays are mounted close together, load current should be reduced. (Refer to the date of current vs. ambient temperature in adjacent mounting. ) () Recommended load voltage As a guide in selecting PhotoMOS Relays, please refer to the following table. ) Power photomos relays ( Form A) DC type AC/DC type Absolute maximum rating voltage current Recomm ended load voltage AQZ V DC. A DC,, V DC AQZ V DC. A DC 8 V DC AQZ7 V DC. A DC V DC AQZ V DC.7 A DC V DC AQZ AQZ AQZ7 AQZ Peak AC V Peak AC V Peak AC V Peak AC V Peak AC. A Peak AC. A Peak AC. A Peak AC. A V AC;,, V DC V AC 8 V DC 8 V AC V DC V AC V DC ) Power PhotoMOS relays ( Form B) AC/DC type AQZ Absolute maximum rating voltage Peak AC V current Peak AC. A ) Power PhotoMOS relays Voltagesensitive type ( Form A) DC type AC/DC type Absolute maximum rating voltage current Recomm ended load voltage V AC V DC Recomm ended load voltage AQZD V DC. A DC., V DC AQZD V DC. A DC 8 V DC AQZ7D V DC. A DC V DC AQZD V DC. A DC V DC AQZD AQZD AQZ7D AQZD Peak AC V Peak AC V Peak AC V Peak AC V Peak AC.7 A Peak AC.8 A Peak AC.9 A Peak AC. A V AC;,, V DC V AC 8 V DC 8 V AC V DC V AC V DC ) Power PhotoMOS relay High Capacity type ( Form A) AC/DC type AQZ AQZ Absolute maximum rating voltage Peak AC, DC V Peak AC, DC V current Peak AC, DC A Peak AC, DC A Recomm ended load voltage V AC,,V DC V AC V DC PhotoMOS ds_x_en_pmos_technical_information: D 7

52 PhotoMOS Relays for Various Applications Automatic meter reading Medical equipment Security Equipment The needs of centralized remote meter reading systems for water, gas and electricity in medium and high rise apartments and new subdivisions are now increasing. PhotoMOS relays are capable of controlling from low level signals up to power signals and feature low leakage current and noise from the optoelectronic device and power MOSFET combination. PhotoMOS Medical equipment which processes low level signals includes electrocardiographs, electroencephalographs, and X-ray CT scanners. PhotoMOS relays accurately transfer low level signals (less than several hundred millivolts). Furthermore, they are also convenient in driving rotary solenoids such as those used to automatically switch voltage ranges. Rotary solenoid There are many types of security systems from home and office security to building security. PhotoMOS relays are ideal for use as input interfaces for system sensors and output interfaces for alarms. interface: Low leakage current makes use possible for low level voltage and current input. interface: s either AC or DC up to a load voltage of V. AC Telephone line Threshold and driver - Modulator Indicator light + Receiver circuit Centralized sensor control circuit Receiver Drive circuit Telecommunications Communications equipment OA equipment A variety of signals, with levels from millivolts (at microamperes) to tens of volts (at several hundred milliamperes), AC or DC, and even high bit-rate signals, can be superimposed on telephone lines, the heart of telecommunication networks. The switches in telecommunication circuits, which normally carry DC signals, also carry AC signals on top of the DC level when an intermittent signal (e.g. ringer signal) is being sent. PhotoMOS relays are capable of controlling small level (millivolts at microamperes) AC or DC signals. AC/DC switches Line switching (normal or reverse) AC/DC switches DC switches The future of communications is in satellite communications. Satellite-communications feature many advantages such as indifference to terrestrial disasters, wide service areas, simple circuit modification and simultaneous conversations. An important control operation in communications equipment is fast automatic tuning. PhotoMOS relays can easily be connected in parallel, difficult with conventional transistor type. As a result, a variety of circuit connection are possible and power circuits can also be designed. Impedance detection circuit Ω input M M Coupler Ω input OA equipment usually contains a sensor control unit (for temperature, speed, torque, etc.), drive unit, power supply unit, and a processing unit which controls the overall system. It is organized similarly to compact factory automation machinery. PhotoMOS relays have wide application in the interfaces for signals which connect the functions of these units. Operates on a mw input to enable direct control of C-MOS devices. Signal transfer through optical coupling achieves high resistance to noise and transients, eliminating the need for adding a snubber circuit to the output to control the load voltage. Advantages in the total cost and reliability in the control system result from the absence of AC leakage current related to the snubber circuit. Subscriber test equipment Ringing and ring trip Telephone line test equipment Control unit (microcomputer) + V Actuator Instrumentation Programmable controller I/O bus V AC With the spread of microcomputer chips, the latest instruments are required to measure a variety of signals at high speeds under various conditions. PhotoMOS relays are recommended for measurement scanning functions, automatic zero-point compensation to eliminate zero-point error, and measurement sequence interfaces (e.g. alarm interface.) Scanner Programmable amplifier Measurement A/D programmable converter controller The output circuit of a programmable controller requires various interfaces to match the load type. Recently, as the computing speed and data processing speed increase, problems may arise from noise at the input interface as well as at the output interface. PhotoMOS relays are resistant to inrush current (due to phase shift) and eliminate the need for snubber circuits as long as they are operated within the ratings. Furthermore, use of PhotoMOS relays decreases the mounting area requirements, resulting in more compact programmable controllers. MPU LED Control Conversion circuit AC/DC combination type 7 ds_x_en_pmos_technical_information: J

53 If you are a user experiencing difficulty with solid-state relays and triacs: If you would like to control small analog signals with a photocoupler and solid-state relays. PhotoMOS relays feature low offset voltages and on resistances of. or less. (AQV Connection) If you require a device with a small leakage current (as opposed to bipolar devices having large internal leakage currents). PhotoMOS relays have leakage currents in the order of microamperes and can control up to V (peak). (AQV8) If you would like to directly control analog signals and you would like a device integrating a photocoupler, driver and analog IC to simplify the circuit as much as possible. PhotoMOS relays contain all of these functions in a single package. Furthermore, circuit design is simplified as a power supply is unnecessary since the internal optoelectronic device directly drives the power MOSFET. PhotoMOS If you require a snubber circuit with a triac or solid-state relay, but are concerned about the snubber circuit s AC leakage current. If you require a device for AC control that is resistant to ambient temperature changes and input signal noise. PhotoMOS relays are resistant to transients and as long as they are operated within the maximum ratings, eliminate the need for adding a snubber circuit to the output to control the rise in load voltage. Leakage current ceases to be a problem, with cost and reliability being other advantages. PhotoMOS relays do not employ the self-trigger mechanism used in SCRs and triacs. Therefore, they do not switch on accidentally. Furthermore, the noise suppression of optoelectronic devices make them highly resistant to ambient noise for operation at temperatures up to 8 C 7 F. PhotoMOS Relay Application Examples High Response Speed Microprocessor system I/O board R R V Vcc = V R = 7 Ω R = 8 Ω C C =. μf Measurements for AQV(V) AC/DC type Turn on time at ma LED current.8 ms Turn on time with speed-increase capacitor (LED current ma). ms Data bus Latch OUT OUT OUT OUT COM AC,OUT AC,OUT Power output COM Four outputs are available with two relays. AC output is also provided. Increased power in parallel configuration Dial Pulse Generator Capacitor Switch Circuit + Line. H Instrumentation block C - Line transformer Scanner Ch Ch Ch - Ch + Ch n ds_x_en_pmos_technical_information: J 77

54 PhotoMOS Relays for Automotive Applications Before Selecting PhotoMOS Relays for Automotive Applications Some changes in specification parameters are needed when PhotoMOS relays are used in certain automotive applications. Automotive grade About Specification Reviews Automotive applications require specification reviews. This is important and necessary in order to prevent performance, quality and reliability problems. The following parameters should be reviewed with a local Panasonic sales representative: PhotoMOS relays are generally used in automotive environment since stricter enhanced quality controls are needed. The user is cautioned and asked to Targeted application Targeted levels of quality and reliability Circuits description of load level, driving methods, etc. Service conditions Influence at failure and failsafe concepts, etc. inquire with a local Panasonic sales representative before designing the products in such environments. About Derating Design Derating is essential in any reliable design and a significant factor in consideration of product life. Sufficient derating is needed against maximum rating when designing a system. Please contact your local Panasonic sales representative to determine derated percentages of the maximum load voltage and maximum load current ratings. Relays should be examined using measurement equipment. Derated voltages must be considered according to the operating and environmental conditions the relay will be subjected to. In case of automotive applications, more allowance should be given to maximum ratings and installation of safety measures (i.e. use of double circuits). Misuse of the products listed in this document shall be made at the users own risk. Products for Automotive Applications Types and absolute maximum ratings (Ambient temperature: C 77 F) Part number Type Package Contact configuration voltage (VL)* Continuous load current (IL)* Temperature limits Operating (Topr) Storage (Tstg) AQWHAX GU DIP8pin (SMD) Form A V ma (ma)* C to +8 C AQWHAX GU DIP8pin (SMD) Form A V ma (ma)* F to +8 F AQV8HAX HE DIPpin (SMD) Form A V ma * Indicate the peak AC and DC values. * In case of using only channel C to + C F to + F Electric (Ambient temperature: C 77 F) Part number Item Symbol AQWHAX AQWHAX AQV8HAX LED operate Typ. ma ma.8ma IFon current Max. ma ma ma LED turn off Typ..mA.mA.mA IFoff current Max..8mA.8mA.7mA LED dropout Typ..V.V.V VF voltage Max..V.V.V Transfer On resistance Off state leakage current Turn on time Turn off time Typ. For further particulars on automotive grade PhotoMOS relays, please inquire with a Panasonic sales representive. PhotoMOS Relays for Automotive Applications Ron 7.8 Max.. IF = ma Max. ILeak A A A IF = ma, VL = Max. Typ..ms.ms.8ms Ton Max..ms ms ms Typ..ms.8ms.ms Toff Max..ms.ms.ms Test conditions IF = ma (AQWHAX, AQWHAX ) IF = 7.mA (AQV8HAX ) IF = ma (AQWHAX, AQWHAX ) IF = 7.mA (AQV8HAX ) 78 ds_x_en_pmos_technical_information: J

55 GU SOP Form A High Capacity * (AQY) * CAD Data mm inch Miniature SOP-pin type with high capacity up to.a AQYGS, AQYGS, AQYGS FEATURES. Continuous load current: Max..A high capacity (AQYGS). Low on resistance: typical. (AQYGS). Broad lineup of high capacity types GU SOP Form A High Capacity (AQY) TYPICAL APPLICATIONS Measuring instruments Security and disaster-preventing system: use in I/O for alarm and security devices, etc. * Please refer to our website for the latest information regarding compliance to standards. PhotoMOS TYPES rating** voltage current Package Tube packing style Part No. Tape and reel packing style Picked from the /-pin side Picked from the /-pin side Tube Packing quantity Tape and reel AC/DC dual use V.A AQYGS AQYGSX AQYGSZ.A SOP-pin AQYGS AQYGSX AQYGSZ V.A AQYGS AQYGSX AQYGSZ tube contains: pcs. batch contains:, pcs., pcs. ** Indicate the peak AC and DC values. Note:. For space reasons, the three initial letters of the part number AQY, the surface mount terminal shape indicator S and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number AQYGSX is G.). For types with a built-in resistor, see page 9. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYGS AQYGS AQYGS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V Continuous load current IL.A. A. A Peak AC, DC Peak load current Ipeak A A ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqy_gs: 8D 79

56 GU SOP Form A High Capacity (AQY). Electrical (Ambient temperature: C 77 F) Item Symbol AQYGS AQYGS AQYGS Condition LED operate current IFon.9mA ma. ma IL = ma LED turn off current Minimum. ma. ma IFoff.8 ma. ma IL = ma Transfer LED dropout voltage VF. V (. V at IF = ma). V IF = ma... IF = ma On resistance Ron...7 Within s on time Off state leakage current ILeak A IF = ma VL = Max.. ms. ms IF = ma Turn on time* Ton IL = ma. ms. ms VL = V. ms. ms IF = ma Turn off time* Toff IL = ma. ms VL = V I/O capacitance Ciso.8 pf. pf f = MHz VB = V *Turn on/turn off time Initial I/O isolation resistance Minimum Riso, M V DC Max. switching frequency times/s times/s IF = ma duty = % VL = Max. 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page ds_x_en_aqy_gs: 8D

57 REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. GU SOP Form A High Capacity (AQY). On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC) Continuous load current: Max.(DC). Turn on time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) current, A... AQYGS AQYGS AQYGS On resistance, Ω.8... AQYGS AQYGS AQYGS Turn on time, ms AQYGS, AQYGS AQYGS PhotoMOS Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). LED operate current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC). LED turn off current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) Turn off time, ms.8... AQYGS, AQYGS LED operate current, ma AQYGS, AQYGS LED turn off current, ma AQYGS, AQYGS AQYGS 8 8 AQYGS 8 8 AQYGS LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V..... ma ma ma ma ma 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F AQYGS Current, A.. Voltage, V - AQYGS AQYGS. 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A AQYGS, AQYGS AQYGS voltage, V ds_x_en_aqy_gs: 8D 8

58 GU SOP Form A High Capacity (AQY).Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F.Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms AQYGS AQYGS, AQYGS LED forward current, ma Turn off time, ms.... AQYGS, AQYGS AQYGS LED forward current, ma capacitance, pf AQYGS AQYGS AQYGS Applied voltage, V.Max. switching frequency vs. load voltage and load current LED current: ma Ambient temperature: C 77 F duty=% Max. switching frequency, time/s AQYGS AQYGS 7 voltage, V current, A 8 ds_x_en_aqy_gs: 8D

59 GU SOP Form A (AQY S) TESTING AQY S CAD Data mm inch Miniature SOP-pin type of V/V/V load voltage FEATURES. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. Small SOP-Pin package The device comes in a miniature SOP- pin type measuring (W). (L). (H). mm (W).9 (L).7 (H).8 inch. Low-level off state leakage current of max. A. voltage V, V and V types available GU SOP Form A (AQY S) TYPICAL APPLICATIONS Telecommunication (PC, electronic notepad) Measuring and testing equipment Factory automation equipment Security equipment High speed inspection machines PhotoMOS TYPES AC/DC dual use rating* voltage current Package Tube packing style Part No. Tape and reel packing style Picked from the /-pin side Picked from the /-pin side V ma AQYS AQYSX AQYSZ tube contains: V ma SOP-pin AQYS AQYSX AQYSZ pcs. batch contains: V ma AQYS AQYSX AQYSZ, pcs. Packing quantity * Indicate the peak AC and DC values. Note: For space reasons, the three initial letters of the part number AQY, the surface mount terminal indicator S and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number AQYSX is.) RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYS AQYS AQYS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V Continuous load current IL. A. A. A Peak AC, DC Peak load current Ipeak. A. A. A ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F Tube Tape and reel, pcs. ds_x_en_aqys: J 8

60 GU SOP Form A (AQY S). Electrical (Ambient temperature: C 77 F) Item Symbol AQYS AQYS AQYS Remarks LED operate current.9 ma IFon ma LED turn off current Minimum. ma IFoff.8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma.8 7 IF = ma On resistance Ron. Within s on time Off state leakage current ILeak A IF = ma VL = Max. Turn on time*. ms. ms. ms IF = ma Ton ms. ms. ms.8 ms. ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance Ciso. pf f = MHz VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F 7. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). current, ma AQYS AQYS AQYS On resistance, Ω - - AQYS AQYS AQYS 8 8 Turn on time, ms AQYS AQYS AQYS 88 8 ds_x_en_aqys: J

61 . Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. LED operate current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) GU SOP Form A (AQY S). LED turn off current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) Turn off time, ms.... AQYS AQYS, AQYS LED operate current, ma LED turn off current, ma PhotoMOS 7. LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma LED dropout voltage, V ma ma ma ma ma 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, ma AQYS AQYS Voltage, V 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F - -. Current, A... AQYS. Voltage, V Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A AQYS, AQYS AQYS 8 voltage, V. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F.Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time, ms..8.. AQYS. AQYS, AQYS LED forward current, ma.turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F Turn off time, ms AQYS AQYS AQYS LED forward current, ma capacitance, pf AQYS AQYS, AQYS Applied voltage, V ds_x_en_aqys: J 8

62 GU SOP Form A (AQV S) AQV S CAD Data mm inch Miniature SOP-pin type of to V load voltage FEATURES. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. Small SOP-Pin package The device comes in a miniature SOP measuring (W). (L). (H). mm (W).7 (L).8 (H).8 inch approx. % of the volume and % of the footprint size of DIP type GU SOP Form A (AQV S). Low-level off state leakage current of max. A. Wide variation of load voltage V to V TYPICAL APPLICATIONS Telephones Measuring instruments Computers Industrial robots High-speed inspection machines TYPES AC/DC dual use * Indicate the peak AC and DC values. Note: For space reasons, the two initial letters of the part number AQ and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number AQVSX is VS.) RATING rating* voltage current Package Tube packing style Part No. Tape and reel packing style Picked from the //-pin side Picked from the //-pin side V ma AQVS AQVSX AQVSZ V ma AQVS AQVSX AQVSZ V ma AQV7S AQV7SX AQV7SZ SOP-pin V ma AQVS AQVSX AQVSZ V ma AQVS AQVSX AQVSZ V ma AQVS AQVSX AQVSZ Tube tube contains: 7 pcs. batch contains:, pcs. Packing quantity Tape and reel, pcs.. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQVS AQVS AQV7S AQVS AQVS AQVS Remarks LED forward current IF ma LED reverse voltage VR V f = Hz, Peak forward current IFP A Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V V V V A. A. A. A. A. A. A A connection: Continuous load current IL B. A. A. A. A. A. A Peak AC, DC C.8 A. A.8 A. A. A. A B, C connection: DC Peak load current Ipeak.A.9A.8A. A. A. A A connection: ms ( shot) VL= DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Storage Tstg C to + C F to + F Non-condensing at low temperatures 8 ds_x_en_aqvs: J

63 GU SOP Form A (AQV S). Electrical (Ambient temperature: C 77 F) Type of Item Symbol connection AQVS AQVS AQV7S AQVS AQVS AQVS Remarks LED operate.7 ma IFon current ma LED turn off Minimum. ma IFoff current. ma LED dropout. V (. V at IF = ma) VF voltage. V IF = ma.8. 7 IF = ma Ron A.. Within s on time..... IF = ma On resistance Ron B Within s on time IF = ma Ron C Within s on time Transfer *Turn on/turn off time Off state leakage current Turn on time* Turn off time I/O capacitance Initial I/C isolation resistance IF = ma ILeak A VL = Max.. ms. ms. ms. ms. ms. ms IF = ma Ton. ms. ms. ms. ms. ms. ms VL = Max..8 ms. ms. ms. ms. ms. ms IF = ma Toff. ms VL = Max..8 pf f = MHz Ciso. pf VB = V Minimum Riso, M V DC PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see Page. For Schematic and Wiring Diagrams, see Page. For Cautions for Use, see Page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqvs: J 87

64 GU SOP Form A (AQV S) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A. -() On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).-() On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) current, ma AQVS AQVS AQV7S AQVS AQVS On resistance, Ω AQVS AQVS On resistance, Ω AQVS AQVS AQV7S AQVS () On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). On resistance, Ω 8 AQVS Turn on time, ms.... AQVS,AQVS Turn off time, ms... AQVS. AQVS,AQV7S. AQVS AQVS, AQVS - 88 AQVS,AQV7S,AQVS,AQVS LED operate current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC). LED turn off current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) 7. LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma. LED operate current, ma LED turn off current, ma LED dropout voltage, V..... ma ma ma ma ma ds_x_en_aqvs: J

65 8. -(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F 8.-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F GU SOP Form A (AQV S) 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Current, A Voltage,V AQVS AQVS AQV7S AQVS AQVS 8 AQVS Voltage,V Current, ma Off state leakage current, A AQVS AQVS 8 voltage, V PhotoMOS.Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F..Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms AQVS,AQVS AQVS Turn off time, ms AQVS AQVS AQVS AQVS AQV7S AQVS capacitance, pf AQVS,AQVS,AQVS AQV7S AQVS AQVS AQVS,AQVS,AQV7S LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqvs: J 89

66 GU SOP Form A High Capacity Voltage-sensitive (AQYFGS) AQYFGS L.mm.9inch W.mm.7inch H.mm.8inch CAD Data Space-saving SOP-pin high capacity type with built-in input registor FEATURES. Built-in input resistor means less man-hours when mounting The voltage-sensitive type, which eliminates the need to mount an external input resistor, is now available in a small package (recommended input voltage is V). Man-hours spent mounting external input resistors are cut and board designing is simplified.. Saves space on PC board Since the small package size remains the same while including a built-in input resistor, space on the PC board is saved. This makes it easier to incorporate space savings when designing miniature devices. GU SOP Form A High Capacity Voltage-sensitive (AQYFGS). Continuous load current of.a This miniature SOP type controls.a/ V load. TYPICAL APPLICATIONS. Measuring and testing equipment Semiconductor testing equipment, Probe cards, Datalogger, Board tester and other testing equipment.. Telecommunication, Broadcasting, and Medical equipment Existing way of mounting external resistors With resistors built in Space saved <Artistic impression of PC board space savings due to built-in resistor> *Above is in case of SSOP. TYPES AC/DC dual use rating* voltage current Package Tube packing style Part No.* Tape and reel packing style Picked from the /-pin side Picked from the /-pin side V.A SOP-pin AQYFGS AQYFGSX AQYFGSZ Packing quantity Notes: * Indicate the peak AC and DC values. * For space reasons, only FG is marked on the product. The three initial letters of the part number AQY, the package (SOP) indicator S, and the packing style indicator X or Z have been omitted. RATING. Absolute maximum ratings (Condition: ambient temperature C 77 F) Item Symbol AQYFGS Remarks voltage VIN V reverse voltage VRIN V Power dissipation Pin mw *mw for a voltage (peak AC) VL V current IL.A Peak AC, DC Peak load current Ipeak A ms (shot), VL=DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso V AC Operating temperature Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage temperature Tstg C to + C F to + F 9 ds_x_en_aqyfgs: J Tube tube contains: pcs. batch contains:, pcs. Tape and reel, pcs.

67 GU SOP Form A High Capacity Voltage-sensitive (AQYFGS). Electrical (Condition: ambient temperature C 77 F) Item Symbol AQYFGS Condition Typ..V Operate voltage VFon Max. V Min..8V Turn off voltage VFoff Typ..V IL = ma current Typ. IIN 8.mA VIN = V On resistance Typ.. VIN = V, Ron Max.. Within s on time capacitance Typ. Cout Max. VIN = V, VB = V, f = MHz Off state leakage current Typ. ILeak Max. A VIN = V, VL = Max. Typ..7ms Turn on time* Ton Max. ms VIN = V, IL = ma, VL = V Typ..ms Turn off time* Toff Max..ms Transfer Typ..8pF f = MHz, VB = V I/O capacitance Ciso Max..pF f = MHz, VB = V Initial I/O isolation resistance Min. Riso,M V DC operating frequency Max. cps VIN = V, duty = % VI II = 7V A *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Minimum Unit voltage VIN.. V For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqyfgs: J 9

68 GU SOP Form A High Capacity Voltage-sensitive (AQYFGS) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F.On resistance vs. ambient temperature Measured portion: between terminals and voltage: V; voltage: Max. (DC); Continuous load current: Max. (DC).Turn on time vs. ambient temperature voltage: V; voltage: V (DC); Continuous load current: ma (DC). current, A.. On resistance, Ω.8.. Turn on time, ms Turn off time vs. ambient temperature voltage: V; voltage: V (DC); Continuous load current: ma (DC). 7.Turn on voltage vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) 8.Turn off voltage vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) Turn off time, ms... Turn on voltage, V Turn off voltage, V current vs. ambient temperature voltage: V.Current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F. current vs. input voltage Ambient temperature: C 77 F (Recommended input voltage:.v) current, ma Current, A.. Voltage, V. current, ma voltage, V 9 ds_x_en_aqyfgs: J

69 GU SOP Form A High Capacity Voltage-sensitive (AQYFGS).Off state leakage current vs. load voltage Measured portion: between terminals and Ambient temperature: C 77 F.Turn on time vs. input voltage Measured portion: between terminals and voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F.Turn off time vs. input voltage Measured portion: between terminals and voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. Off state leakage current, A Turn on time, ms Turn off time, ms.... PhotoMOS - voltage, V voltage, V 7 7 voltage, V. capacitance vs. applied voltage Measured portion: between terminals and Frequency: MHz, m Vrms; Ambient temperature: C 77 F.Max. operating speed vs. load voltage-load current voltage: V Ambient temperature: C 77 F duty=% capacitance, pf Max. operating speed, cps Applied voltage, V 7 voltage, V current, A ds_x_en_aqyfgs: J 9

70 GU Form A High Capacity (AQYGH) AQYGH (Height includes standoff) CAD Data mm inch -pin high capacity of.a, I/O isolation voltage of,v FEATURES. Greatly increased capacity Continuous load current:.a. Reinforced insulation I/O isolation voltage:, V AC. Compact -pin DIP type. The improved performance relative to mercury or mechanical relays GU Form A High Capacity (AQYGH) TYPICAL APPLICATIONS Measuring instruments Security and disaster-preventing system: use in I/O for alarm and security devices, etc. TYPES AC/DC dual use rating* voltage current Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the /-pin side Picked from the /-pin side V. A AQYGH AQYGHA AQYGHAX AQYGHAZ Packing quantity *Indicate the peak AC and DC values. Note: For space reasons, the three initial letters of the part number AQY, the surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYGH(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Continuous load current IL. A Peak AC, DC Peak load current Ipeak. A ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F Tube tube contains pcs. batch contains, pcs. Tape and reel, pcs. 9 ds_x_en_aqygh: J

71 GU Form A High Capacity (AQYGH). Electrical (Ambient temperature: C 77 F) Item Symbol AQYGH(A) Condition LED operate current. ma IFon ma IL = ma LED turn off current Minimum. ma IFoff. ma IL = ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma. IF = ma On resistance Ron.7 Within s on time Off state leakage current ILeak A IF = ma VL = Max.. ms IF = ma Turn on time* Ton IL = ma. ms VL = V Transfer. ms IF = ma Turn off time* Toff IL = ma. ms VL = V I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F.. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC) Continuous load current: Max.(DC). Turn on time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) current, A.. On resistance, Ω.8.. Turn on time, ms ds_x_en_aqygh: J 9

72 GU Form A High Capacity (AQYGH). Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). LED operate current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC). LED turn off current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) Turn off time, ms.8.. LED operate current, ma LED turn off current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V..... ma ma ma ma ma 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F - -. Current, A - -. Voltage, V 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A voltage, V.Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F.Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F 8 Turn on time, ms Turn off time, ms... capacitance, pf 7. LED forward current, ma LED forward current, ma Applied voltage, V 9 ds_x_en_aqygh: J

73 GU Form A (AQV, AQVH) TESTING (Standard type) (Reinforced type) AQV, AQVH -pin type for switching low-level analog signal GU Form A (AQV, AQVH) CAD Data.... mm inch FEATURES. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. Controls various types of loads such as relays, motors, lamps and solenoids. Optical coupling for extremely high isolation Unlike mechanical relays, the PhotoMOS relay combines LED and optoelectronic device to transfer signals using light for extremely high isolation.. Eliminates the need for a counter electromotive force protection diode in the drive circuits on the input side. Stable on-resistance. Low-level off state leakage current of max. A 7. Reinforced insulation type of I/O voltage,v also available TYPICAL APPLICATIONS High-speed inspection machines Telephone equipment Data communication equipment Computers PhotoMOS TYPES AC/DC dual use I/O isolation Standard, V AC Reinforced, V rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Picked from the //-pin side V ma AQV AQVA AQVAX AQVAZ V ma AQV AQVA AQVAX AQVAZ V 8 ma AQV7 AQV7A AQV7AX AQV7AZ V ma DIP-pin AQV AQVA AQVAX AQVAZ V ma AQV AQVA AQVAX AQVAZ V ma AQV AQVA AQVAX AQVAZ V ma AQVH AQVHA AQVHAX AQVHAZ Tube tube contains pcs. batch contains pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQV(A) AQV(A) AQV7(A) AQV(A) AQV(A) AQV(A) AQVH(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V V V V V A. A. A.8 A. A. A. A. A Continuous load A connection: Peak AC, DC IL B. A. A. A. A. A. A. A current B, C connection: DC C.8 A. A. A.7 A. A.8 A. A Peak load current Ipeak. A.9 A. A. A. A. A. A A connection: ms ( shot), VL=DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temp. limits Storage Tstg C to + C F to + F ds_x_en_aqv: J 97

74 GU Form A (AQV, AQVH). Electrical (Ambient temperature: C 77 F) Transfer Item *Turn on/turn off time Symbol Type of connection** AQV(A) AQV(A) AQV7(A) AQV(A) AQV(A) AQV(A) AQVH(A) Condition LED operate current ma ma ma ma ma ma. ma IFon ma ma ma ma ma ma ma LED turn off current Minimum. ma. ma. ma. ma. ma. ma. ma IFoff.79 ma.79 ma.79 ma.79 ma.79 ma.79 ma.79 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma IF = ma Ron A... Within s on time IF = ma On resistance Ron B Within s on time IF = ma Ron C Within s on time IF = ma capacitance Cout A pf pf 7 pf pf pf pf pf VB = V f = MHz Off state leakage current ILeak A IF = ma VL = Max. Turn on time*. ms. ms. ms. ms. ms.8 ms. ms IF= ma** Ton ms ms. ms. ms. ms. ms.8 ms ll=max. Turn off time*.8 ms. ms. ms. ms. ms. ms. ms IF = ma Toff. ms. ms. ms. ms. ms. ms. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF Standard type: Reinforced type: to ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page ds_x_en_aqv: J

75 REFERENCE DATA -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A.7 current, A AQV AQV AQV7 -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A AQV AQV(H) current, ma 8 AQV GU Form A (AQV, AQVH) -(). On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC) Continuous load current: Max. (DC) On resistance, Ω AQV AQV PhotoMOS (). On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC) Continuous load current: Max. (DC). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). On resistance, Ω 8 - AQV AQV(H) AQV AQV7-88 Turn on time, ms... - AQV,AQV AQVH AQV,AQV,AQV7 AQV - 88 Turn off time, ms.. AQVH AQV,. AQV,,7 AQV (). LED operate current vs.ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) -(). LED operate current vs.ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) -(). LED turn off current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) LED operate on current, ma AQV AQV AQV7 AQV AQV AQV LED operate on current, ma AQVH LED turn off current, ma ds_x_en_aqv: J 99

76 GU Form A (AQV, AQVH) -(). LED turn off current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) LED turn off current, ma - AQVH LED dropout voltage vs. ambient temperature Sample: All types LED current: to ma. LED dropout voltage, V ma ma ma ma ma 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, A... AQV AQV Voltage, V (). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, ma Voltage, V AQV7 AQV AQV(H) AQV 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A AQV AQV(H) 8 voltage, V -(). Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time, ms AQV,AQV AQV,AQV,AQV7 AQV LED forward current, ma -(). Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F..Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms.... Turn off time, ms AQV AQV AQVH AQV AQV,,7 capacitance, pf AQV(H),AQV,AQV AQV7 AQV AQV AQVH LED forward current, ma LED forward current, ma Applied voltage,v ds_x_en_aqv: J

77 AQW S CAD Data 8 7 mm inch Miniature SOP8-pin type of V/V/V load voltage FEATURES. channels in miniature SOP8-pin design The device comes in a super-miniature SO package measuring (W). (L) 9.7 (H). mm (W).7 (L).9 (H).8 inch approx. 8% of the volume and % of the footprint size of DIP8-pin type.. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. Low-level off state leakage current of max. A GU SOP Form A (AQW S) TESTING GU SOP Form A (AQW S) TYPICAL APPLICATIONS Measuring instruments Data communications Computers Industrial robots High-speed inspection machines. PhotoMOS TYPES AC/DC dual use rating* voltage current Package Tube packing style * Indicate the peak AC and DC values. Note: The packing style indicator X or Z are not marked on the relay. Part No. Tape and reel packing style Picked from the ///-pin side Picked from the //7/8-pin side V ma AQWS AQWSX AQWSZ tube contains: V ma SOP8-pin AQWS AQWSX AQWSZ pcs. batch contains: V 8mA AQWS AQWSX AQWSZ, pcs. Packing quantity RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQWS AQWS AQWS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V Peak AC, DC Continuous load current IL. A (. A). A (. A).8 A (. A) ( ): in case of using only channel Peak load current Ipeak. A. A. A A connection: ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F Tube Tape and reel, pcs. ds_x_en_aqws: J

78 GU SOP Form A (AQW S). Electrical (Ambient temperature: C 77 F) Item Symbol AQWS AQWS AQWS Remarks LED operate current.9 ma IFon ma LED turn off current Minimum. ma IFoff.8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma.8 IF = ma On resistance Ron. Within s on time Off state leakage current ILeak A IF = ma VL = Max. Turn on time*. ms. ms. ms IF = ma Ton ms. ms.8 ms. ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/ Turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA -() current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F When using channels..-() current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F When using channels -() On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) current, A.8... AQWS current, A 8 AQWS AQWS On resistance, Ω AQWS ds_x_en_aqws: J

79 .-() On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) On resistance, Ω AQWS AQWS. Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). AQWS. Turn on time, ms GU SOP Form A (AQW S) AQWS AQWS. Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn off time, ms... AQWS AQWS AQWS PhotoMOS LED operate current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC). LED turn off current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) 7. LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma. LED operate current, ma LED turn off current, ma LED dropout voltage, V..... ma ma ma ma ma () Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Current, A AQWS Voltage, V () Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F AQWS 8 AQWS Voltage, V Current, ma 9. Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A AQWS AQWS AQWS 8 voltage, V.Turn on time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time, ms AQWS AQWS AQWS LED forward current, ma ds_x_en_aqws: J.Turn off time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn off time, ms AQWS AQWS AQWS LED forward current, ma. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F capacitance, pf AQWS AQWS, AQWS Applied voltage, V

80 GU Form A (AQW ) AQW CAD Data mm inch Compact DIP8-pin type of V to V load voltage FEATURES. Compact 8-pin DIP size The device comes in a compact (W). (L) 9.78 (H).9 mm (W). (L).8 (H). inch, 8-pin DIP size (through hole terminal type).. Applicable for Form A use as well as two independent Form A use. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. High sensitivity and high speed response Can control max.. A load current with ma input current. Fast operation speed of typ.. ms (AQW). GU Form A (AQW ). Low-level off state leakage current of max. A. Wide variation of load voltage V to V TYPICAL APPLICATIONS High-speed inspection machines Telephones equipment Computer TYPES AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the ///-pin side Picked from the //7/8-pin side V ma AQW AQWA AQWAX AQWAZ V ma AQW AQWA AQWAX AQWAZ V ma AQW7 AQW7A AQW7AX AQW7AZ DIP8-pin V ma AQW AQWA AQWAX AQWAZ V ma AQW AQWA AQWAX AQWAZ V ma AQW AQWA AQWAX AQWAZ *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQW(A) AQW(A) AQW7(A) AQW(A) AQW(A) AQW(A) Remarks LED forward current IF ma LED reverse voltage VR V f = Hz, Peak forward current IFP A Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V V V V Continuous load current IL. A (.A). A (. A). A (. A). A (. A). A (. A). A (. A) Peak load current Ipeak. A.9 A.8 A. A. A. A Power dissipation Pout 8 mw Total power dissipation PT 8 mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Storage Tstg C to + C F to + F Peak AC, DC ( ): in case of using only channel A connection: ms ( shot), VL = DC Between input and output/between contact sets Non-condensing at low temperatures ds_x_en_aqw: J

81 *Turn on/turn off time GU Form A (AQW ). Electrical (Ambient temperature: C 77 F) Item Symbol AQW(A) AQW(A) AQW7(A) AQW(A) AQW(A) AQW(A) Condition LED operate.9 ma IFon current ma LED turn off Minimum. ma IFoff current.8 ma LED dropout. V (. V at IF = ma) VF voltage. V IF = ma.8. 7 IF = ma On resistance Ron.. Within son time Off state leakage IF = ma ILeak A current VL = Max. Turn on time*. ms. ms. ms. ms. ms.8 ms IF = ma Ton ms ms. ms. ms. ms. ms.8 ms. ms. ms. ms. ms. ms IF = ma Turn off time* Toff Transfer. ms.8 pf f = MHz I/O capacitance Ciso. pf VB = V Initial I/C isolation resistance Minimum Riso, M V DC PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see Page 9. For Schematic and Wiring Diagrams, see Page. For Cautions for Use, see Page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F -() On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).-() On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) current, ma AQW AQW AQW7 AQW AQW On resistance, Ω AQW AQW On resistance, Ω 8 AQW AQW AQW AQW AQW7-88 ds_x_en_aqw: J

82 GU Form A (AQW ). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. LED operate current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) Turn on time, ms... AQW,AQW AQW Turn off time, ms... AQW, AQW,,7 LED operate ourrent, ma - AQW,AQW,AQW7-88 AQW LED turn off current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) LED turn off current, ma () Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Current, ma AQW7 AQW AQW AQW Voltage, V.Turn off time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. 7. LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma. LED dropout voltage, V ma ma ma ma ma 9. Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A AQW AQW 8 voltage, V. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F 8-() Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F. Current, A Voltage, V AQW AQW.Turn on time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time, ms AQW,AQW AQW,AQW,AQW7 AQW LED forward current, ma Turn off time, ms AQW AQW AQW AQW,7 AQW capacitance, pf AQW,AQW AQW7 AQW AQW AQW LED forward current, ma Applied voltage, V ds_x_en_aqw: J

83 TESTING VDE GU SOP Form B (AQY S) (AQYS, S) (AQYS) AQY S CAD Data mm inch Normally closed SOP-pin type of V/V/V load voltage FEATURES. Small SOP-pin package The device comes in a super-miniature SO package -pin type measuring (W). (L). (H). mm (W).9 (L).7 (H).8 inch. Low on-resistance The AQ series (normally closed type) has a low on-resistance. This has been achieved thanks to the built-in MOSFET processed by our proprietary method, DSD (Doublediffused and Selective Doping) method. Cross section of the normally-closed type of power MOS Passivation membrane Source electrode Gate electrode Intermediate insulating membrane GU SOP Form B (AQY S). Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. Low-level off-state leakage current of max. A TYPICAL APPLICATIONS Power supply Measuring instruments Security equipment Telephone equipment Sensing equipment PhotoMOS N+ N+ P+ N+ N+ P+ Gate oxidation membrane N- N+ Drain electrode TYPES AC/DC dual use rating* voltage current Package Tube packing style Part No. Tape and reel packing style Picked from the /-pin side Picked from the /-pin side V ma AQYS AQYSX AQYSZ tube contains: V ma SOP-pin AQYS AQYSX AQYSZ pcs. batch contains: V ma AQYS AQYSX AQYSZ, pcs. Packing quantity * Indicate the peak AC and DC values. Note: For space reasons, the three initial letters of the part number AQY, the surface mount terminal shape indicator S and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number AQYSX is ) RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYS AQYS AQYS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V Continuous load current IL. A. A. A Peak AC, DC Peak load current Ipeak. A. A. A ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperture Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F Tube Tape and reel, pcs. ds_x_en_aqys: J 7

84 GU SOP Form B (AQY S). Electrical (Ambient temperature: C 77 F) Item Symbol AQYS AQYS AQYS Remarks LED operate (OFF) current.9 ma IFoff ma LED reverse (ON) current Minimum. ma IFon.8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma 8 IF = ma On resistance Ron. Within s on time Off state leakage current ILeak A IF = ma VL = Max. Operate (OFF) time*.9 ms. ms.7 ms IF = ma ma Toff ms ms. ms. ms.8 ms IF = ma ma Transfer Reverse (ON) time* Ton ms ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Operate/Reverse time % Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F 7. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; Continuous load current: Max.(DC). Operate (OFF) time vs. ambient temperature LED current: ma; voltage: Max.(DC); Continuous load current: Max.(DC) current, ma AQYS AQYS AQYS On resistance, Ω AQYS AQYS AQYS Operate (OFF) time, ms.. AQYS AQYS AQYS ds_x_en_aqys: J

85 . Reverse (ON) time vs. ambient temperature LED current: ma; voltage: Max.(DC); Continuous load current: Max.(DC) Reverse (ON) time, ms AQYS AQYS AQYS LED operate (OFF) current vs. ambient temperature Sample: All types; voltage: Max.(DC); Continuous load current: Max.(DC) LED operate (OFF) current, ma GU SOP Form B (AQY S). LED reverse (ON) current vs. ambient temperature Sample: All types; voltage: Max.(DC); Continuous load current: Max.(DC) LED reverse (ON) current, ma PhotoMOS 7. LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma. LED dropout voltage, V ma ma ma ma ma 9-(). Off state leakage current vs. load voltage Measured portion: between terminals and ; LED current: ma; Ambient temperature: C 77 F Off state leakage current, A AQYS AQYS 8 voltage, V.Reverse (ON) time vs. LED forward current Measured portion: between terminals and ; voltage: Max.(DC); Continuous load current: Max.(DC); Ambient temperature: C 77 F. 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F AQYS Current, ma AQYS.. Voltage, V 9-(). Off state leakage current vs. load voltage Measured portion: between terminals and ; LED current: ma; Ambient temperature: C 77 F Off state leakage current, A AQYS voltage, V -(). capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F. AQYS Current, A Voltage, V Operate (OFF) time vs. LED forward current Measured portion: between terminals and ; voltage: Max.(DC); Continuous load current: Max.(DC); Ambient temperature: C 77 F. Operate (OFF) time, ms..... AQYS AQYS AQYS LED forward current, ma -(). capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Reverse (ON) time, ms..... AQYS AQYS AQYS capacitance, pf 8 AQYS AQYS capacitance, pf AQYS LED forward current, ma ds_x_en_aqys: J Applied voltage, V Applied voltage, V 9

86 GU SOP Form B (AQVS)..8 AQVS CAD Data mm inch Normally closed SOP-pin type of V load voltage FEATURES. Miniature SOP-pin package The device comes in a small SOP measuring (W). (L). (H). mm (W).7 (L).8 (H).8 inch approx. % of the volume and % of the footprint size of DIP type. (DIP) (SOP) Approx. % Volume Footprint Approx. %. Low on-resistance (typ. ) for normally-closed type This has been achieved thanks to the built-in MOSFET processed by our proprietary method, DSD (Double- Diffused and Selective Doping) method. GU SOP Form B (AQVS). Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. Low-level off state leakage current of max. A TYPICAL APPLICATIONS Telephones Measuring instruments Computers Industrial robots High-speed inspection machines Cross section of the normally-closed type of power MOS Passivation membrane Source electrode Gate electrode Intermediate insulating membrane N+ N+ P+ N+ N+ P+ Gate oxidation membrane N- N+ Drain electrode TYPES AC/DC dual use rating* voltage current Package Tube packing style Part No. Tape and reel packing style Picked from the //-pin side Picked from the //-pin side V ma SOP-pin AQVS AQVSX AQVSZ Packing quantity * Indicate the peak AC and DC values. Note: For space reasons, only VS is marked on the product. The two initial letters of the part number AQ and the packing style indicator X or Z have been omitted. Tube tube contains: 7 pcs. batch contains:, pcs. Tape and reel, pcs. ds_x_en_aqvs: J

87 RATING GU SOP Form B (AQVS). Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQVS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V A. A Continuous load current IL B. A A connection: Peak AC, DC B, C connection: DC C. A Peak load current Ipeak. A A connection: ms ( shot) VL= DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F. Electrical (Ambient temperature: C 77 F) Item Symbol Type of connection AQVS Remarks LED operate (OFF) current. ma IFoff ma IL= Max. LED reverse (ON) current Minimum. ma IFon. ma IL= Max. LED dropout voltage. V (. V at IF = ma) VF. V IF= ma IF= ma Ron A IL= Max. Within s on time IF = ma On resistance Ron B Within s on time IF = ma Ron C. Within s on time Off state leakage current ILeak A IF = ma, VL = Max. Operate (OFF) time*.7 ms IF= ma ma Toff. ms VL = Max..8 ms IF= ma ma Transfer Reverse (ON) time* Ton. ms VL = Max. I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/C isolation resistance Minimum Riso, M V DC *Operate/Reverse time PhotoMOS % Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqvs: J

88 GU SOP Form B (AQVS) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; Continuous load current: ma (DC). Operate (OFF) time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). current, ma 8 On resistance, Ω Operate (OFF) time, ms Reverse (ON) time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). Reverse (ON) time, ms LED operate (OFF) current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED operate (OFF) current, ma. LED reverse (ON) current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED operate (ON) current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED drop out voltage, V ma ma ma ma ma Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, ma Voltage,V Off state leakage current vs. load voltage Measured portion: between terminals and ; LED current: ma; Ambient temperature: C 77 F Off state leakage current, A voltage, V ds_x_en_aqvs: J

89 .Operate (OFF) time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F..Reverse (ON) time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. GU SOP Form B (AQVS). capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Operate (OFF) time, ms..... Reverse (ON) time, ms..... capacitance, pf 8 PhotoMOS LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqvs: J

90 GU Form B (AQV) 8.8. AQV Normally closed -pin type of V load voltage FEATURES. Low on-resistance (typ. ) for normally-closed type This has been achieved thanks to the built-in MOSFET processed by our proprietary method, DSD (Doublediffused and Selective Doping) method. GU Form B (AQV). High sensitivity and low onresistance Can control max.. A load current with ma input current.. Low-level off state leakage current of max. A CAD Data mm inch Cross section of the normally-closed type of power MOS Passivation membrane Source electrode Gate electrode Intermediate insulating membrane N+ N+ P+ N+ N+ P+ Gate oxidation membrane TYPICAL APPLICATIONS Security equipment Telephone equipment (Dial pulse) Measuring instruments N- N+ Drain electrode. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion. TYPES AC/DC dual use I/O isolation voltage rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side, V AC V ma DIP-pin AQV AQVA AQVAX AQVAZ *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Type of Item Symbol connection AQV(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forwrd current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V A. A Continuous load current IL B. A A connection: Peak AC, DC B, C connection: DC C. A Peak load current Ipeak. A A connection: ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F ds_x_en_aqv: J

91 *Operate/Reverse time GU Form B (AQV). Electrical (Ambient temperature: C 77 F) Type of Item Symbol connection AQV(A) Condition LED operate (OFF). ma IFoff current. ma IL= ma LED reverse (ON) current Minimum. ma IFon.9 ma IL= ma LED dropout voltage. V (. V at IF= ma) VF. V IF= ma IF = ma Ron A IL= Max. Within s on time IF= ma On resistance Ron B IL= Max. Within s on time IF= ma Ron C IL= Max.. Within s on time Off state leakage current ILeak A IF= ma VL = V Operate (OFF) time*.7 ms IF = ma ma Toff. ms IL = ma.8 ms IF= ma ma Transfer Reverse (ON) time* Ton. ms IL = ma I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC PhotoMOS % Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqv: J

92 GU Form B (AQV) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; Continuous load current: ma (DC). Operate (OFF) time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). current, ma 8 On resistance, Ω Operate (OFF) time, ms Reverse (ON) time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). Reverse (ON) time, ms LED operate (OFF) current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED operate (OFF) current, ma. LED reverse (ON) current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED reverse (ON) current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma Operate (OFF) time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, ma Voltage, V Reverse (ON) time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; LED current: ma; Ambient temperature: C 77 F Off state leakage current, A voltage, V. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Operate (OFF) time, ms.... Reverse (ON) time, ms..8.. capacitance, pf 8.. LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqv: J

93 GU Form B (AQW) AQW Normally closed DIP8-pin type of V load voltage FEATURES. Approx. / the space compared with the mounting of Two Form B PhotoMOS units Two Form B units GU Form B (AQW) TYPICAL APPLICATIONS High-speed inspection machines Telephone equipment Computers PhotoMOS CAD Data Form B type 8 7 mm inch. Applicable for Form B use as well as two independent Form B use. Controls load currents up to. A with an input current of ma. High speed switching: operate time typ.. ms. Extremely low closed-circuit offset voltages to enable control of small analog signals without distortion TYPES AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side V ma DIP8-pin AQW AQWA AQWAX AQWAZ *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQW(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Peak AC, DC Continuous load current IL. A (. A) ( ): in case of using only channel Peak load current Ipeak. A ms ( shot), VL = DC Power dissipation Pout 8 mw Total power dissipation PT 8 mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstag C to + C F to + F ds_x_en_aqw: J 7

94 GU Form B (AQW). Electrical (Ambient temperature: C 77 F) Item Symbol AQW(A) Condition LED operate (OFF) current.7 ma IFoff ma LED reverse (ON) current Minimum. ma IFon. ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma IF = ma On resistance Ron IL= Max. Within s on time Off state leakage current ILeak A IF = ma VL = Max. Operate (OFF) time*. ms IF = ma ma Toff ms. ms IF = ma ma Transfer Reverse (ON) time* Ton ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Operate/Reverse time % Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Using only channel. On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; Continuous load current: ma (DC). Operate (OFF) time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). current, ma Using channels 8 On resistance, Ω Operate (OFF) time, ms ds_x_en_aqw: J

95 . Reverse (ON) time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). Reverse (ON) time, ms LED operate (OFF) current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED operate (OFF) current, ma GU Form B (AQW). LED reverse (ON) current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED reverse (ON) current, ma PhotoMOS LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma Operate (OFF) time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Voltage, V Current, ma.reverse (ON) time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. 9. Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A voltage, V. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F Operate (OFF) time, ms.... Reverse (ON) time, ms..8.. capacitance, pf 8.. LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqw: J 9

96 GU SOP Form A & B (AQW S) TESTING AQWS VDE (AQWS) AQW S Both NO and NC contacts incorporated in a small SOP8-pin package GU SOP Form A & B (AQW S) CAD Data mm inch FEATURES. Normally open and normally closed contacts in a SOP package The device comes in a miniature SOP measuring (W). (L) 9.7 (H). mm (W).7 (L).9 (H).8 inch approx. 8% of the volume and % of the footprint size of DIP type.. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion. Low-level off-state leakage current of max. A N.C. N.O. 8 7 Volume Footprint (DIP) (SOP) Approx. 8% Approx. %. V type couples high capacity (.A) with low on-resistance (typ. ) (AQWS).. Applicable for Form A Form B use as well as two independent Form A and Form B use TYPICAL APPLICATIONS Power supply Measuring equipment Security equipment Telephone equipment Computer input machines Industrial robots High-speed inspection machines TYPES AC/DC dual use rating* voltage current Package Tube packing style * Indicate the peak AC and DC values. Note: The packing style indicator X or Z are not marked on the relay. Part No. Tape and reel packing style Picked from the ///-pin side Picked from the //7/8-pin side V ma AQWS AQWSX AQWSZ SOP8-pin V ma AQWS AQWSX AQWSZ Tube tube contains: pcs. batch contains:, pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQWS AQWS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V Peak AC, DC Continuous load current IL. A (. A). A (. A) ( ): in case of using only a or b, channel Peak load current Ipeak. A. A ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqw_s: J

97 GU SOP Form A & B (AQW S). Electrical (Ambient temperature: C 77 F) Item Symbol AQWS AQWS Condition LED operate current.9 ma IFon ma LED reverse current Minimum. ma IFoff.8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma IF 8 = ma (N.O.) IF= ma (N.C.) On resistance Ron. Within s on time IF = ma (N.O.) Off state leakage current ILeak A IF= ma (N.C.) VL = Max. Operate time* Ton (N.O.). ms (N.O.),.9 ms (N.C.).8 ms (N.O.),. ms (N.C.) IF = ma ma Toff (N.C.). ms. ms Toff (N.O.).8 ms (N.O.),. ms (N.C.). ms (N.O.),. ms (N.C.) IF = ma ma Transfer Reverse time* Ton (N.C.). ms. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Operate/Reverse time ) N.O. ) N.C. PhotoMOS 9% % % Ton Toff Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F current, ma AQWS (Using only channel) AQWS (Using channels) AQWS (Using only channel) AQWS (Using channels) ds_x_en_aqw_s: J.On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) On resistance, Ω - - Between terminals and (N.O.) Between terminals 7 and 8(N.C.) AQWS AQWS 8 8.Operate time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Operate time, ms Between terminals and (N.O.) Between terminals 7 and 8(N.C.) AQWS AQWS 8 8

98 GU SOP Form A & B (AQW S).Reverse time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Reverse time, ms..8.. AQWS Between terminals and (N.O.) Between terminals 7 and 8(N.C.) AQWS 7.LED operate current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) Between terminals and (N.O.) Between terminals 7 and 8(N.C.) LED operate current, ma 8.LED reverse current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) Between terminals and (N.O.) Between terminals 7 and 8(N.C.) LED reverse current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma -(). Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F - -9 Off state leakage current, A - Between terminals and (N.O.) Between terminals 7 and 8(N.C.) AQWS -(). Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Between terminals and (N.O.) Between terminals 7 and 8(N.C.) Voltage, V AQWS - - Current, ma 9-(). Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F - -9 Off state leakage current, A - Between terminals and (N.O.) Between terminals 7 and 8(N.C.) AQWS 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F - Between terminals and (N.O.) Between terminals 7 and 8(N.C.) Current, A AQWS. Voltage, V.Operate time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F Between terminals and (N.O.) Between terminals 7 and 8(N.C.) Operate time, ms AQWS AQWS - 8 voltage, V - 8 voltage, V LED forward current, ma.reverse time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Between terminals and (N.O.) Between terminals 7 and 8(N.C.). Reverse time, ms... AQWS AQWS. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F Between terminals and (N.O.) Between terminals 7 and 8(N.C.) capacitance, pf AQWS AQWS LED forward current, ma Applied voltage, V ds_x_en_aqw_s: J

99 GU Form A & B (AQW) AQW Both NO and NC contacts incorporated in a DIP8-pin package GU Form A & B (AQW) CAD Data N.C mm inch FEATURES. Approx. / the space compared with the mounting of a set of Form A and Form B PhotoMOS relays. Applicable for Form A Form B use as well as two independent Form A and Form B use. Controls load currents up to. A with ma input current. Extremely low closed-circuit offset voltages to enable control of small analog signals without distortion. Stable on-resistance TYPICAL APPLICATIONS High-speed inspection machines Telephone equipment Computers Sensing equipment PhotoMOS N.O. TYPES AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side V ma DIP8-pin AQW AQWA AQWAX AQWAZ *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQW(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Peak AC, DC Continuous load current IL. A (. A) ( ): in case of using only a or b, channel Peak load current Ipeak. A ms ( shot), VL = DC Power dissipation Pout 8 mw Total power dissipation PT 8 mw I/O isolation voltage Viso, V AC Between input and output/between contact sets Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqw: J

100 GU Form A & B (AQW). Electrical (Ambient temperature: C 77 F) Item Symbol AQW(A) Condition LED operate current IFon (N.O.).9 ma IFoff (N.C.) ma IL = ma LED reverse current Minimum IFoff (N.O.). ma IFon (N.C.).8 ma IL = ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma IF 7 = ma (N.O.) IF = ma (N.C.) On resistance Ron IL = ma within s on time IF = ma (N.O.) Off state leakage current ILeak A IF = ma (N.C.) VL = V Operate time* Ton (N.O.).8 ms (N.O.). ms (N.C.) IF = ma ma Toff (N.C.) ms IL = ma Toff (N.O.). ms (N.O.). ms (N.C.) IF = ma ma Transfer Reverse time* Ton (N.C.) ms IL = ma I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Operate/Reverse time ) N.O. ) N.C. 9% % % Ton Toff Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F current, ma Using only channel Using channels 8. On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: V (DC); Continuous load current: ma (DC) On resistance, Ω Between terminal and (N.O.) Between terminal 7 and 8 (N.C.). Operate time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) Operate (OFF) time, ms Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) ds_x_en_aqw: J

101 . Reverse time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) Reverse (ON) time, ms Between terminal and (N.O.) Between terminal 7 and 8 (N.C.). LED operate current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED operate (OFF) current, ma Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) GU Form A & B (AQW). LED reverse current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED reverse (NO) current, ma Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) PhotoMOS LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma - 88.Operate time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F Operate (OFF) time, ms Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Between terminal 7 and 8 (N.C.) 8 Current, ma Voltage, V Between terminal and (N.O.).Reverse time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F Reverse (ON) time, ms Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) 9. Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A Between terminal 7 and 8 (N.C.) Between terminal and (N.O.) 8 voltage, V. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F capacitance, pf 8 Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqw: J

102 GU SOP Form A Short Circuit Protection (AQYKS) TESTING AQYKS CAD Data mm inch Small SOP-pin type with short circuit protecting (Latch type) FEATURES. Short circuit protection (Latch type) When the output current exceeds a fixed amount, it is cut and the off state is maintained. The relay can be restored by turning off the input current and then turning it back on.. Miniature SOP-pin package. Controls low-level analog signals. Low-level off state leakage current GU SOP Form A Short Circuit Protection (AQYKS) TYPICAL APPLICATIONS Modem and telephone equipment Measuring and testing equipment Security equipment Industrial equipment Traffic signal control TYPES AC/DC dual use rating* voltage current Package Tube packing style Part No. Tape and reel packing style Picked from the /-pin side) Picked from the /-pin side V ma SOP-pin AQYKS AQYKSX AQYKSZ Packing quantity * Indicate the peak AC and DC values. Note: For space reasons, only K is marked on the product. The three initial letters of the part number AQY, the surface mount terminal shape indicator S and the packing style indicator X or Z are not marked on the relay. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYKS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Continuous load current IL. A Peak AC, DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F Tube tube contains: pcs. batch contains:, pcs. Tape and reel, pcs. ds_x_en_aqyks: J

103 GU SOP Form A Short Circuit Protection (AQYKS). Electrical (Ambient temperature: C 77 F) Item Symbol AQYKS Condition LED operate current. ma IFon. ma LED turn off current Minimum. ma IFoff. ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma. IF = ma On resistance Ron IL = ma Within s on time Off state leakage current ILeak A IF = ma VL = V Minimum ma IF = ma Cut off current Ishut ma Over current Within ms on time protection ma Detection time Tshut s IF = ma VL = V DC short circuit Turn on time*.7 ms IF = ma Ton ms.7 ms IF = ma Transfer Turn off time* Toff ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqyks: J 7

104 GU SOP Form A Short Circuit Protection (AQYKS) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; current: Max.(DC). Turn on time vs. ambient temperature LED current: ma; Continuous load current: Max.(DC) current, ma 8 On resistance, Ω Turn on time, ms Turn off time vs. ambient temperature LED current: ma; Continuous load current: Max.(DC).. LED operate current vs. ambient temperature Continuous load current: Max.(DC). LED turn off current vs. ambient temperature Continuous load current: Max.(DC) Turn off time, ms... LED operate current, ma LED turn off current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F - - Current, ma - - Voltage,V Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A voltage, V 8 ds_x_en_aqyks: J

105 .Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max.(DC); Continuous load current:max.(dc); Ambient temperature: C 77 F. GU SOP Form A Short Circuit Protection (AQYKS).Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max.(DC); Continuous load current:max.(dc); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms. Turn off time, ms... capacitance, pf PhotoMOS LED forward current, ma LED forward current, ma Applied voltage, V.Cut off current vs. ambient temperature Measured portion: between terminals and ; LED current: ma, within ms on time.detection time vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max.(DC); Cut off current, ma Detection time, μs ds_x_en_aqyks: J 9

106 GU SOP Form A Short Circuit Protection (AQYKS) What is short circuit protection latch type? When the load current exceeds specifications, the short circuit protection function kicks in and completely cuts off the load current, thus turning off the relay. The short circuit protection inside the PhotoMOS relay instantaneously (typ. s) and completely cuts of the load current. This protects any circuits that follow the PhotoMOS relay from excess current. There is almost no heating of the PhotoMOS relay, which prevents it from becoming damaged. To restore the function of the relay turn off the input current and then turn it back on. In order to operate the short circuit protection function, ensure that the input current is at least IF = ma. voltage and output current V-I of PhotoMOS relay with short circuit protection circuit current Operation chart Relay input current ma voltage Occurrence of short circuit current Abnormal current Relay output current ma Normal relay operation Detection time (approx. μs) The short circuit current detection device latches when the relay is off. The relay operates normally when the input current is reset. If the output section shorts even after the input current is reset, it will latch when the short circuit current is detected again and the relay turns off. ds_x_en_aqyks: J

107 GU Form A Short Circuit Protection (AQVKL) VDE AQVKL Short circuit protection (Non-latch type) only for DC load GU Form A Short Circuit Protection (AQVKL) CAD Data.... mm inch FEATURES. Protects Circuit from excess current The short circuit protection function prevents the continued flow of short current. After short current is detected, load current is monitored, and if the load returns to normal, the relay returns to normal operation.. No need for fuses, polyswitches, or other protectors The built-in short circuit protection function eliminates the need for overcurrent protectors, reducing mounting costs and space requirements.. High capacity Can control up to.a (V DC) load current. TYPICAL APPLICATIONS Industrial equipment Traffic signal control Security equipment PhotoMOS TYPES rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side DC only V ma DIP-pin AQVKL AQVKLA AQVKLAX AQVKLAZ *Indicate the DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQVKL(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL 7 to V Continuous load current IL. A Peak AC, DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqvkl: J

108 GU Form A Short Circuit Protection (AQVKL). Electrical (Ambient temperature: C 77 F) Item Symbol AQVKL(A) Condition LED operate current.8 ma IFon ma IL = ma LED turn off current Minimum. ma IFoff.7 ma IL = ma LED dropout voltage. V (.7 V at IF = ma) VF. V IF = ma On resistance. IF = ma Ron. short circuit detection voltage V VLSHT 7 V IF = ma Off state leakage current ILeak A IF = ma VL = Max.. ms IF = ma Turn on time* Ton IL = ma. ms VL = V Transfer. ms IF = ma Turn off time* Toff IL = ma. ms VL = V I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqvkl: J

109 REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F GU Form A Short Circuit Protection (AQVKL). On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; current: Max.(DC). Turn on time vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: V (DC); current: ma current, ma On resistance, Ω.. Turn on time, ms PhotoMOS Turn off time vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: V (DC); current: ma (DC).. LED operate current vs. ambient temperature Measured portion: between terminals and ; current: ma. LED turn off current vs. ambient temperature Measured portion: between terminals and ; current: ma Turn off time, ms.... LED operate current, ma.. LED turn off current, ma Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A voltage, V Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, A Voltage, V LED dropout voltage vs. ambient temperature Measured portion: between terminals and ; LED current: to ma. LED dropout voltage, V ma ma ma ma ds_x_en_aqvkl: J

110 GU Form A Short Circuit Protection (AQVKL).Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); current: ma (DC); Ambient temperature: C 77 F.Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); current: ma (DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms Turn off time, ms... capacitance, pf - LED forward current, ma.short circuit peak current vs. time Measured portion: between terminals and ; LED current: ma; resistance: ; Ambient temperature: C 77 F Short circuit peak current, A... Time, S VL=V VL=V VL=V LED forward current, ma.short current monitoring interval vs. time Measured portion: between terminals and ; LED current: ma; resistance: ; Ambient temperature: C 77 F What is short circuit protection Non-latch type? If the load current reaches a predetermined overcurrent level, the output-side short circuit protection function cuts off the load current. It then monitors the load current, and if it returns to normal, automatically recovers to normal relay operation. In order to operate the short circuit protection function, ensure that the input current is at least IF = ma. Short current monitoring interval, ms Time, S Operation chart (Non-latch type) Current Current VL=V VL=V VL=V short detected Function operation Applied voltage, V turn off ds_x_en_aqvkl: J

111 GU SOP Form A Current Limiting (AQYLS) TESTING AQYLS Miniature SOP-pin type with current limiting GU SOP Form A Current Limiting (AQYLS) CAD Data mm inch FEATURES. Current limiting function To control an over current from flowing, the current limit function has been realized. It keeps an output current at a constant value when the current reaches a specified current limit value.. Enhances the capability of surge resistance between output terminals The current limit function controls the ON time surge current to enhance the capability of surge resistance between output terminals.. Small SOP-Pin package The device comes in a super-miniature SO package -Pin type measuring (W). (L). (H). mm (W).9 (L).7 (H).8 inch. Controls low-level analog signals. Low-level off state leakage current TYPICAL APPLICATIONS Telephone equipment Modem Measuring equipment PhotoMOS TYPES AC/DC dual use rating* voltage current Package Tube packing style Part No. Tape and reel packing style Picked from the /-pin side Picked from the /-pin side V ma SOP-pin AQYLS AQYLSX AQYLSZ Packing quantity * Indicate the peak AC and DC values. Note: For space reasons, only L is marked on the product. The three initial letters of the part number AQY, the surface mount terminal shape indicator S and the packing style indicator X or Z are not marked on the relay. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYLS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Continuous load current IL. A Peak AC, DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F Tube tube contains: pcs. batch contains:, pcs. Tape and reel, pcs. ds_x_en_aqyls: J

112 GU SOP Form A Current Limiting (AQYLS). Electrical (Ambient temperature: C 77 F) Item Symbol AQYLS Condition LED operate current. ma IFon ma LED turn off current Minimum. ma IFoff. ma LED dropout voltage Minimum. (. V at IF = ma) VF. V IF = ma IF = ma On resistance Ron Within s on time IF = Off state leakage current ILeak A VL = Max. Current limit.8 A IF = ma Turn on time*. ms IF = ma Ton. ms.8 ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC) Continuous load current: Max.(DC). Turn on time vs. ambient temperature LED current: ma; voltage: Max.(DC); Continuous load current: Max.(DC). current, ma 8 On resistance, Ω Turn on time, ms ds_x_en_aqyls: J

113 . Turn off time vs. ambient temperature LED current: ma; voltage: Max.(DC); Continuous load current: Max.(DC). GU SOP Form A Current Limiting (AQYLS). LED operate current vs. ambient temperature voltage: Max.(DC); Continuous load current: Max.(DC). LED turn off current vs. ambient temperature voltage: Max.(DC); Continuous load current: Max.(DC) Turn off time, ms.... LED operate current, ma LED turn off current, ma PhotoMOS LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, ma Voltage, V Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A voltage, V.Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max.(DC); Continuous load current: Max.(DC); Ambient temperature: C 77 F..Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max.(DC); Continuous load current: Max.(DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms..8.. Turn off time, ms..8.. capacitance, pf.. LED forward current, ma LED forward current, ma Applied voltage, V What is current limit? When a load current reaches the specified output control current, a current limit function works against the load current to keep the current a constant value. The current limit circuit built into the PhotoMOS relay thus controls the instantaneous load current to effectively ensure circuit safety. This safety feature protects circuits downstream of the PhotoMOS relay against over-current. But, if the current-limiting feature is used longer than the specified time, the PhotoMOS relay can be destroyed. Therefore, set the output loss to the max. rate or less. Comparison of output voltage and output current V-I Characteristics current voltage ds_x_en_aqyls: J 7

114 GU Form A Current Limiting (AQYHL) TESTING AQYHL DIP-pin type with current limiting and reinforced insulation GU Form A Current Limiting (AQYHL) CAD Data...9. mm inch FEATURES. Current Limiting Function To control an over current from flowing, the current limit function has been realized. It keeps an output current at a constant value when the current reaches a specified current limit value.. Enhances the capability of surge resistance between output terminals The current limit function controls the ON time surge current to enhance the capability of surge resistance between output terminals.. Reinforced insulation of, V More than. mm internal insulation distance between inputs and outputs. Con-forms to EN, EN9 (reinforced insulation).. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. High sensitivity and low onresistance. Low-level off state leakage current TYPICAL APPLICATIONS Telephone equipment Modem TYPES AC/DC dual use I/O isolation voltage Reinforced, V rating* voltage current Package Through hole terminal Tube packing style *Indicate the peak AC and DC values. Note: For space reasons, only HL is marked on the product. The three initial letters of the part number AQY, the surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Part No. Surface-mount terminal Tape and reel packing style Picked from the /-pin side Picked from the /-pin side V ma DIP-pin AQYHL AQYHLA AQYHLAX AQYHLAZ Packing quantity RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYHL(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Continuous load current IL. A Peak AC, DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F Tube tube contains: pcs. batch contains:, pcs. Tape and reel, pcs. 8 ds_x_en_aqyhl: J

115 GU Form A Current Limiting (AQYHL). Electrical (Ambient temperature: C 77 F) Item Symbol AQYHL(A) Condition LED operate current. ma IFon. ma LED turn off current Minimum. ma IFoff. ma LED dropout voltage Minimum. (. V at IF = ma) VF. V IF = ma IF = ma On resistance Ron Within s on time IF = ma Off state leakage current ILeak A VL = Max. Current limit.8 A IF = ma Turn on time*. ms IF = ma Ton. ms.8 ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC) Continuous load current: Max.(DC). Turn on time vs. ambient temperature LED current: ma; voltage: Max.(DC); Continuous load current: Max.(DC). current, ma On resistance, Ω Turn on time, ms ds_x_en_aqyhl: J 9

116 GU Form A Current Limiting (AQYHL). Turn off time vs. ambient temperature LED current: ma; voltage: Max.(DC); Continuous load current: Max.(DC).. LED operate current vs. ambient temperature voltage: Max.(DC); Continuous load current: Max.(DC). LED turn off current vs. ambient temperature voltage: Max.(DC); Continuous load current: Max.(DC) Turn off time, ms... LED operate current, ma LED turn off current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Voltage, V Current, ma 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A voltage, V.Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max.(DC); Continuous load current: Max.(DC); Ambient temperature: C 77 F.Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max.(DC); Continuous load current: Max.(DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms... Turn off time, ms... capacitance, pf LED forward current, ma LED forward current, ma Applied voltage, V What is current limit? When a load current reaches the specified output control current, a current limit function works against the load current to keep the current a constant value. The current limit circuit built into the PhotoMOS relay thus controls the instantaneous load current to effectively ensure circuit safety. This safety feature protects circuits downstream of the PhotoMOS relay against over-current. But, if the current-limiting feature is used longer than the specified time, the PhotoMOS relay can be destroyed. Therefore, set the output loss to the max. rate or less. Comparison of output voltage and output current V-I Characteristics current voltage ds_x_en_aqyhl: J

117 GU Form A Current Limiting (AQWHL) TESTING AQWHL Two output type with current limiting and reinforced insulation GU Form A Current Limiting (AQWHL) CAD Data mm inch FEATURES. Current Limiting Function To control an over current from flowing, the current limit function has been realized. It keeps an output current at a constant value when the current reaches a specified current limit value.. Enhances the capability of surge resistance between output terminals The current limit function controls the ON time surge current to enhance the capability of surge resistance between output terminals.. Reinforced insulation of, V More than. mm internal insulation distance between inputs and outputs. Con-forms to EN, EN9 (reinforced insulation).. Applicable for Form A use as well as two independent Form A use.. Controls low-level analog signals. High sensitivity and high speed response. Can control max.. A load current with ma input current. This enables fast operation speed of typ.. ms 7. Low-level off state leakage current TYPICAL APPLICATIONS Telephone equipment Modem PhotoMOS TYPES AC/DC dual use I/O isolation voltage Reinforced, V AC rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the ///-pin side V ma DIP8-pin AQWHL AQWHLA AQWHLAX AQWHLAZ *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Packing quantity Picked from the Tube //7/8-pin side tube contains: pcs. batch contains: pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQWHL(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Continuous load current IL. A (. A) Peak AC, DC ( ): in case of using only channel Power dissipation Pout 8 mw Total power dissipation PT 8 mw I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F Tape and reel, pcs. ds_x_en_aqwhl: J

118 GU Form A Current Limiting (AQWHL). Electrical (Ambient temperature: C 77 F) Item Symbol AQWHL(A) Condition LED operate current. ma IFon. ma LED turn off current Minimum. ma IFoff. ma LED dropout voltage Minimum. (. V at IF = ma) VF. V IF = ma IF = ma On resistance Ron Within s on time IF = ma Off state leakage current ILeak A VL = Max. Current limit.8 A IF = ma Turn on time*. ms IF = ma Ton. ms.8 ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC) Continuous load current: Max.(DC). Turn on time vs. ambient temperature LED current: ma; voltage: Max.(DC); Continuous load current: Max.(DC) current, ma On resistance, Ω Turn on time, ms ds_x_en_aqwhl: J

119 . Turn off time vs. ambient temperature LED current: ma; voltage: Max.(DC); Continuous load current: Max.(DC). GU Form A Current Limiting (AQWHL). LED operate current vs. ambient temperature voltage: Max.(DC); Continuous load current: Max.(DC). LED turn off current vs. ambient temperature voltage: Max.(DC); Continuous load current: Max.(DC) Turn off time, ms..... LED operate current, ma LED turn off current, ma PhotoMOS LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Voltage, V Current, ma 9. Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A voltage, V.Turn on time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max.(DC); Continuous load current: Max.(DC); Ambient temperature: C 77 F.Turn off time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max.(DC); Continuous load current: Max.(DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms... Turn off time, ms... capacitance, pf LED forward current, ma LED forward current, ma Applied voltage, V What is current limit? When a load current reaches the specified output control current, a current limit function works against the load current to keep the current a constant value. The current limit circuit built into the PhotoMOS relay thus controls the instantaneous load current to effectively ensure circuit safety. This safety feature protects circuits downstream of the PhotoMOS relay against over-current. But, if the current-limiting feature is used longer than the specified time, the PhotoMOS relay can be destroyed. Therefore, set the output loss to the max. rate or less. Comparison of output voltage and output current V-I Characteristics current voltage ds_x_en_aqwhl: J

120 GU-E Form A (AQY EH) TESTING AQY EH High cost-performance DIP-pin type with reinforced insulation GU-E Form A (AQY EH) CAD Data...9. mm inch FEATURES. Reinforced insulation of, V More than. mm internal insulation distance between inputs and outputs. Con-forms to EN, EN9 (reinforced insulation).. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. High sensitivity and low onresistance Can control max.. A load current with ma input current. Low on-resistance of typ. (AQYEH).. Low-level off state leakage current of max. A TYPICAL APPLICATIONS Modem Telephone equipment Security equipment Sensing equipment TYPES AC/DC dual use I/O isolation voltage Reinforced, V rating* voltage current Package Through hole terminal Tube packing style *Indicate the peak AC and DC values. Note: For space reasons, the initial letters of the part number AQY, the surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number AQYEHAX is EH) RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYEH(A) AQYEH(A) AQYEH(A) AQYEH(A) AQYEH(A) Remarks LED forward current IF ma LED reverse voltage VR V f = Hz, Peak forward current IFP A Duty factor =.% Power dissipation Pin 7mW voltage (peak AC) VL V V V V V Continuous load current IL A. A. A. A. A Peak AC, DC ms ( shot), Peak load current Ipeak A. A. A. A. A VL= DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Part No. Surface-mount terminal Tape and reel packing style Picked from the /-pin side Picked from the /-pin side V, ma AQYEH AQYEHA AQYEHAX AQYEHAZ V ma AQYEH AQYEHA AQYEHAX AQYEHAZ V ma DIP-pin AQYEH AQYEHA AQYEHAX AQYEHAZ V ma AQYEH AQYEHA AQYEHAX AQYEHAZ V ma AQYEH AQYEHA AQYEHAX AQYEHAZ Operating Topr C to +8 C F to +8 F Storage Tstg C to + C F to + F Tube tube contains: pcs. batch contains:, pcs. Packing quantity Tape and reel, pcs. Non-condensing at low temperatures ds_x_en_aqyeh: J

121 GU-E Form A (AQY EH). Electrical (Ambient temperature: C 77 F) Item Symbol AQYEH(A) AQYEH(A) AQYEH(A) AQYEH(A) AQYEH(A) Condition LED operate current.ma IFon.mA IL=Max. LED turn off current Minimum.mA IFoff.mA IL=Max. LED dropout voltage. (. V at IF=mA) VF.V IF=mA..8 8 IF=mA On resistance Ron IL=Max... Within s on time Off state leakage current ILeak A IF=mA VL=Max. Turn on time*.ms ms.ms IF=mA Ton ms ms.ms IL=Max. Transfer.ms.ms.8ms.ms IF=mA Turn off time* Toff.ms IL=Max..8pF f =MHz I/O capacitance Ciso.pF VB =V Initial I/O isolation resistance Minimum Riso,M V DC *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F.7 current, ma AQYEH AQYEH current, A.8... AQYEH AQYEH current, A AQYEH ds_x_en_aqyeh: J

122 GU-E Form A (AQY EH) -(). On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) -(). On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) -(). On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) On resistance, Ω AQYEH AQYEH On resistance, Ω. AQYEH On resistance, Ω 8 AQYEH. AQYEH (). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). -(). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) -(). Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time, ms. AQYEH, AQYEH Turn on time, ms... AQYEH AQYEH Turn off time, ms... AQYEH, AQYEH.. AQYEH (). Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. LED operate current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC). LED turn off current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) Turn off time, ms.... AQYEH AQYEH LED operate current, ma LED turn off current, ma AQYEH LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma LED dropout voltage, V ma ma ma ma ma 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F AQYEH 8 AQYEH Voltage, V Current, ma 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F. Current, A AQYEH AQYEH... Voltage, V ds_x_en_aqyeh: J

123 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F 9-(). Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F GU-E Form A (AQY EH) 9-(). Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Current, A... AQYEH Voltage, V Off state leakage current, A AQYEH AQYEH - 8 voltage, V Off state leakage current, A AQYEH - AQYEH AQYEH - 8 voltage, V PhotoMOS -(). Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F -(). Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F -(). Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time, ms... AQYEH AQYEH Turn on time, ms...7 AQYEH AQYEH Turn off time, ms... AQYEH AQYEH AQYEH AQYEH LED forward current, ma -(). Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. LED forward current, ma -(). capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F LED forward current, ma -(). capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn off time, ms.. AQYEH. AQYEH LED forward current, ma capacitance, pf AQYEH AQYEH AQYEH Applied voltage, V capacitance, pf AQYEH AQYEH Applied voltage, V ds_x_en_aqyeh: J 7

124 GU-E Form A (AQVE, AQV EH) (Standard type) TESTING (Reinforced type) AQV E, High cost-performance DIP-pin type, reinforced insulation available GU-E Form A (AQV E, AQV EH) CAD Data.... mm inch FEATURES. Reinforced insulation of I/O isolation voltage,v (Reinforced insulation type). Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. Stable on-resistance. Low-level off state leakage current of max. A TYPICAL APPLICATIONS High-speed inspection machines Telephone equipment Data communication equipment Computers TYPES AC/DC dual use I/O isolation Standard, V AC Reinforced, V rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side V ma AQVE AQVEA AQVEAX AQVEAZ V ma AQVE AQVEA AQVEAX AQVEAZ DIP-pin V ma AQVEH AQVEHA AQVEHAX AQVEHAZ V ma AQVEH AQVEHA AQVEHAX AQVEHAZ *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQVE(A) AQVE(A) AQVEH(A) AQVEH(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V V A. A. A. A. A A connection: Peak AC, DC Continuous load current IL B. A. A. A. A B, C connection: DC C.7 A. A.7 A. A Peak load current Ipeak. A. A. A. A A connection: ms ( shot), VL=DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temp. Storage Tstg C to + C F to + F 8 ds_x_en_aqve: J

125 GU-E Form A (AQVE, AQV EH). Electrical (Ambient temperature: C 77 F) Type of Item Symbol connection AQVE(A) AQVE(A) AQVEH(A) AQVEH(A) Condition LED operate current. ma. ma IFon ma LED turn off current Minimum. ma. ma IFoff. ma. ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma IF = ma Ron A Within s on time.... IF = ma On resistance Ron B Within s on time.... IF = ma Ron C Within s on time IF = ma capacitance Cout A pf VB = V f = MHz Transfer *Turn on/turn off time Off state leakage current Turn on time* Turn off time* I/O capacitance Initial I/O isolation resistance IF = ma ILeak A VL = Max.. ms.7 ms IF = ma ma** Ton. ms ll = Max.. ms IF = ma ma Toff. ms.8 pf f = MHz Ciso. pf VB = V Minimum Riso, M V DC PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF Standard type: Reinforced type: to ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqve: J 9

126 GU-E Form A (AQVE, AQV EH) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection:a AQVE (H) AQVE (H) current, ma 8. On-resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) On resistance, Ω AQVE (H) AQVE (H). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time, ms...8. AQVEH, AQVEH AQVE AQVE Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. LED operate current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC). LED turn off current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) Turn off time, ms... AQVE AQVEH, AQVEH LED operate current, ma AQVEH, AQVEH AQVE,AQVE LED turn off current, ma AQVEH, AQVEH AQVE,AQVE AQVE LED dropout voltage vs. ambient temperature Sample: All types LED current: to ma. LED dropout voltage, V ma ma ma ma ma 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F AQVE(H) 8 AQVE(H) Voltage, V Current, ma 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A AQVE(H) AQVE(H) 8 voltage, V ds_x_en_aqve: J

127 -(). Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. GU-E Form A (AQVE, AQV EH) -(). Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. -(). Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time, ms AQVE AQVE Turn on time, ms.... AQVEH, AQVEH Turn off time, ms.8... AQVE AQVE PhotoMOS LED forward current, ma LED forward current, ma LED forward current, ma -(). Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn off time, ms... AQVEH, AQVEH capacitance, pf. LED forward current, ma Applied voltage, V ds_x_en_aqve: J

128 GU-E Form A (AQW EH) TESTING AQW EH High cost-performance DIP8-pin type with reinforced insulation GU-E Form A (AQW EH) CAD Data mm inch FEATURES. Reinforced insulation of, V More than. mm internal insulation distance between inputs and outputs. Con-forms to EN, EN9 (reinforced insulation).. Applicable for Form A use as well as two independent Form A use. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. High sensitivity and high speed response Can control max.. A load current with ma input current. Fast operation speed of typ.. ms (AQWEH).. Low-level off state leakage current of max. A TYPICAL APPLICATIONS Modem Telephone equipment Security equipment Sensing equipment TYPES AC/DC dual use I/O isolation voltage Reinforced, V rating* voltage current Package Through hole terminal Tube packing style *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQWEH(A) AQWEH(A) AQWEH(A) AQWEH(A) Remarks LED forward current IF ma LED reverse voltage VR V f = Hz, Peak forward current IFP A Duty factor =.% Power dissipation Pin 7mW voltage (peak AC) VL V V V V Continuous load current Part No. Surface-mount terminal Tape and reel packing style Picked from the ///-pin side Picked from the //7/8-pin side V ma AQWEH AQWEHA AQWEHAX AQWEHAZ V ma AQWEH AQWEHA AQWEHAX AQWEHAZ DIP8-pin V ma AQWEH AQWEHA AQWEHAX AQWEHAZ V ma AQWEH AQWEHA AQWEHAX AQWEHAZ IL. A (. A). A (. A). A (. A) Tube tube contains: pcs. batch contains: pcs.. A (. A) Peak load current Ipeak. A. A. A. A Power dissipation Pout 8mW Total power dissipation PT 8mW I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Storage Tstg C to + C F to + F Packing quantity Tape and reel, pcs. Peak AC, DC ( ): in case of using only channel ms ( shot), VL= DC Non-condensing at low temperatures ds_x_en_aqweh: J

129 GU-E Form A (AQW EH). Electrical (Ambient temperature: C 77 F) Item Symbol AQWEH(A) AQWEH(A) AQWEH(A) AQWEH(A) Condition LED operate current.ma IFon.mA IL=Max. LED turn off current Minimum.mA IFoff.mA IL=Max. LED dropout voltage. V (. V at IF=mA) VF.V IF=mA.8 8 IF=mA On resistance Ron IL=Max.. Within s on time Off state leakage current ILeak A IF=mA VL=Max. Turn on time* ms.ms IF=mA Ton ms.ms IL=Max..8ms.ms IF=mA Transfer Turn off time* Toff.ms IL=Max. I/O capacitance.8pf f =MHz Ciso.pF VB =V Initial I/O isolation resistance Minimum Riso,M V DC *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F.8 -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F.7 current, ma AQWEH AQWEH (using only channel) (using only channel) AQWEH (using channels) AQWEH (using channels) current, A.7 AQWEH (using only channel) AQWEH (using channels) current, A AQWEH (using only channel) AQWEH (using channels) ds_x_en_aqweh: J

130 GU-E Form A (AQW EH) -(). On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) -(). On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) -(). On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) On resistance, Ω AQWEH AQWEH On resistance, Ω. AQWEH On resistance, Ω 8 AQWEH Turn on time vs. ambient temperature Sample: All types LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn off time vs. ambient temperature Sample: All types LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. LED operate current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) Turn on time, ms.. AQWEH AQWEH AQWEH Turn off time, ms.... AQWEH AQWEH AQWEH LED operate current, ma. - - AQWEH 88. AQWEH LED turn off current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) LED turn off current, ma (). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F. Current, A.. AQWEH Voltage, V LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma LED dropout voltage, V ma ma ma ma ma 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F.8 Current, A... AQWEH Voltage, V (). Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F 8 AQWEH Current, ma AQWEH Voltage, V 9-(). Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A AQWEH AQWEH voltage, V ds_x_en_aqweh: J

131 9-(). Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F -.Turn on time vs. LED forward current Sample: All types Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F GU-E Form A (AQW EH).Turn off time vs. LED forward current Sample: All types Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Off state leakage current, A AQWEH AQWEH Turn on time, ms... AQWEH AQWEH AQWEH AQWEH Turn off time, ms... AQWEH AQWEH AQWEH AQWEH PhotoMOS - 8 voltage, V LED forward current, ma LED forward current, ma -(). capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F -(). capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F capacitance, pf capacitance, pf AQWEH AQWEH AQWEH AQWEH Applied voltage, V Applied voltage, V ds_x_en_aqweh: J

132 GU-E Form B (AQY EH) TESTING (AQYEH, EH) VDE (AQYEH) AQY EH Normally closed DIP-pin economic type with reinforced insulation GU-E Form B (AQY EH) CAD Data...9. mm inch FEATURES. High cost-performance type of PhotoMOS relay Form B output. Low on-resistance This has been realized thanks to the built-in MOSFET processed by our proprietary method, DSD (Doublediffused and Selective Doping) method. Cross section of the normally-closed type of power MOS Passivation membrane Source electrode Gate electrode Intermediate insulating membrane. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. High sensitivity and low onresistance Can control max.. A load current with ma input current. Low on-resistance of typ. (AQYEH).. Low-level off-state leakage current N+ N+ P+ N+ N+ P+ Gate oxidation membrane N- N+ Drain electrode. Reinforced insulation of, V More than. mm internal insulation distance between inputs and outputs. Conforms to EN, EN9 (reinforced insulation). TYPICAL APPLICATIONS Power supply Measuring equipment Security equipment Modem Telephone equipment Electricity, plant equipment Sensing equipment TYPES Type AC/DC dual use I/O isolation voltage Reinforced, V rating* voltage current Package Through hole terminal Tube packing style *Indicate the peak AC and DC values. Note: For space reasons, the initial letters of the part number AQY, the surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number AQYEHAX is EH.) Part No. Surface-mount terminal Tape and reel packing style Picked from the /-pin side Picked from the /-pin side Packing quantity V ma AQYEH AQYEHA AQYEHAX AQYEHAZ tube contains: V ma DIP-pin AQYEH AQYEHA AQYEHAX AQYEHAZ pcs. batch contains: V ma AQYEH AQYEHA AQYEHAX AQYEHAZ, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYEH(A) AQYEH(A) AQYEH(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V Continuous load current IL. A. A. A Peak AC, DC Peak load current Ipeak. A. A. A ms ( shot), VL= DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F Tube Tape and reel, pcs. ds_x_en_aqyeh: J

133 GU-E Form B (AQY EH). Electrical (Ambient temperature: C 77 F) Item Symbol AQYEH(A) AQYEH(A) AQYEH(A) Condition LED operate (OFF) current. ma IFoff. ma IL=Max. LED reverse (ON) current Minimum. ma IFon. ma IL=Max. LED dropout. (. V at IF = ma) VF voltage. V IF = ma 8 IF = ma On resistance Ron. Within s on time Off state leakage current ILeak A IF = ma VL = Max. Operate (OFF) time*. ms. ms.8 ms IF = ma ma Toff. ms. ms. ms. ms. ms IF = ma ma Transfer Reverse (ON) time* Ton. ms I/O capacitance.8 pf f =MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso,M V DC *Operate/Reverse time PhotoMOS % Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F 7. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max.(DC); Continuous load current: Max. (DC) current, ma AQYEH AQYEH current, ma AQYEH On resistance, Ω AQYEH AQYEH AQYEH 88 ds_x_en_aqyeh: J 7

134 GU-E Form B (AQY EH). Operate (OFF) time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Operate (OFF) time, ms AQYEH AQYEH AQYEH 8 8. Reverse (ON) time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Reverse (ON) time, ms.8... AQYEH(A) - - AQYEH AQYEH 8 8. LED operate (OFF) current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) LED operate (OFF) current, ma LED reverse (ON) current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) LED reverse (ON) current, ma (). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F - -. Current, A... AQYEH. Voltage, V Reverse (ON) time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. 7. LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A AQYEH AQYEH AQYEH 8 voltage, V. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F AQYEH 8 AQYEH Voltage, V Current, ma.operate (OFF) time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F Operate (OFF) time, ms AQYEH AQYEH,AQYEH LED forward current, ma Reverse (ON) time, ms... AQYEH AQYEH,AQYEH capacitance, pf AQYEH. AQYEH,AQYEH LED forward current, ma Applied voltage, V 8 ds_x_en_aqyeh: J

135 GU-E Form VDE TESTING VDE (AQVEH) B (Standard (AQVE, type) (AQVEH, AQV EH) EH) (AQVEH, EH) (Reinforced type) AQVE, 8.8. TYPES AC/DC dual use *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. RATING...9. I/O isolation voltage, V AC (Standard), V AC (Reinforced) CAD Data rating* voltage current V ma mm inch Package Normally closed DIP-pin economic type with reinforced insulation FEATURES. High cost-performance type of PhotoMOS Form B output. V type couples high capacity (.A) with low on-resistance (typ. ).. Low on-resistance This has been realized thanks to the built-in MOSFET processed by our proprietary method, DSD (Doublediffused and Selective Doping) method. Cross section of the normally-closed type of power MOS Passivation membrane Source electrode Gate electrode Intermediate insulating membrane N+ N+ P+. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion. Through hole terminal N- Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side GU-E Form B (AQVE, AQV EH) Picked from the //-pin side AQVE AQVEA AQVEAX AQVEAZ V ma DIP-pin AQVEH AQVEHA AQVEHAX AQVEHAZ V ma AQVEH AQVEHA AQVEHAX AQVEHAZ V ma AQVEH AQVEHA AQVEHAX AQVEHAZ N+ N+ N+ P+ Gate oxidation membrane Drain electrode. High sensitivity and low onresistance Can control max.. A load current with ma input current. Low on-resistance of typ. (AQVEH).. Low-level off-state leakage current of max. A (AQVE) 7. Reinforced insulation, V type also available More than. mm internal insulation distance between inputs and outputs. Conforms to EN, EN9 (reinforced insulation). TYPICAL APPLICATIONS Power supply Measuring equipment Security equipment Telephone equipment Sensing equipment Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs.. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQVE(A) AQVEH(A) AQVEH(A) AQVEH(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forwrd current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V V A. A. A. A. A Continuous load A connection: Peak AC, DC IL B. A. A. A. A current B,C connection: DC C. A.8 A.7 A. A Peak load current Ipeak. A. A. A. A A connection: ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC, V AC Temperatur Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures e limits Storage Tstg C to + C F to + F PhotoMOS ds_x_en_aqve_aqveh: J 9

136 GU-E Form B (AQVE, AQV EH). Electrical (Ambient temperature: C 77 F) Item Symbol Type of connection AQVE(A) AQVEH(A) AQVEH(A) AQVEH(A) Condition LED operate (OFF) current. ma.9 ma IFoff. ma IL= Max. LED reverse (ON) current Minimum. ma. ma IFon. ma.8 ma LED dropout voltage. V (. V at IF= ma) VF. V IF = ma 8. IF = ma Ron A. Within s on time. 9 IF = ma On resistance Ron B. 7. Within s on time.. IF = ma Ron C Within s on time Off state leakage current ILeak A A IF = ma VL = Max. Operate (OFF) time*.7 ms ms. ms. ms IF = ma ma Toff. ms 8 ms. ms. ms. ms IF = ma ma Transfer Reverse (ON) time* Ton. ms. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Operate/Reverse time % Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF Standard type: Reinforced type: to ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqve_aqveh: J

137 REFERENCE DATA -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A AQVEH current, ma AQVE(H) 88 GU-E Form B (AQVE, AQV EH) -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A 7 current, ma - - AQVEH 88.On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) On resistance, Ω - - AQVE(H) AQVEH AQVEH 88 PhotoMOS.Operate (OFF) time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Operate (OFF) time, ms.... AQVEH AQVEH AQVEH AQVE.Reverse (ON) time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).8 Reverse (ON) time, ms... AQVE AQVEH AQVEH AQVEH 7.LED operate (OFF) current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) LED operate (OFF) curremt, ma AQVEH AQVEH AQVEH AQVE LED reverse (ON) current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) LED reverse (ON) current, ma AQVEH AQVEH AQVEH - - AQVE LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma. LED dropout voltage, V ma ma ma ma ma -(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F AQVEH AQVEH 8 AQVE Voltage, V Current, ma ds_x_en_aqve_aqveh: J

138 GU-E Form B (AQVE, AQV EH) 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F - -. Current, A... AQVEH. Voltage, V Off state leakage current vs. load voltage Sample: All types; Measured portion: between terminals and ; LED current: ma; Ambient temperature: C 77 F Off state leakage current, A AQVEH AQVEH AQVEH AQVE 8 voltage, V.Operate (OFF) time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Operate (OFF) time, ms AQVEH AQVEH AQVEH AQVE LED forward current, ma.reverse (ON) time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Reverse (ON) time, ms... AQVEH,AQVEH AQVEH AQVE capacitance, pf AQVEH. AQVEH AQVEH AQVE LED forward current, ma Applied voltage, V ds_x_en_aqve_aqveh: J

139 GU-E Form B (AQWEH) TESTING AQWEH Normally closed DIP8-pin economic type with reinforced insulation GU-E Form B (AQWEH) CAD Data mm inch FEATURES. Reinforced insulation of, V More than. mm internal insulation distance between inputs and outputs. Con-forms to EN, EN9 (reinforced insulation).. Applicable for Form B use as well as two independent Form B use. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. High sensitivity and high speed response Can control max.. A load current with ma input current. Fast operation speed of typ..8 ms.. Low-level off state leakage current TYPICAL APPLICATIONS Modem Telephone equipment Security equipment Sensing equipment PhotoMOS TYPES AC/DC dual use I/O isolation voltage Reinforced, V rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the ///-pin side V ma DIP8-pin AQWEH AQWEHA AQWEHAX AQWEHAZ *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Packing quantity Picked from the Tube //7/8-pin side tube contains: pcs. batch contains: pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQWEH(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7mW voltage (peak AC) VL V Peak AC, DC Continuous load current IL. A (. A) ( ): in case of using only channel. Peak load current Ipeak. A ms ( shot), VL= DC Power dissipation Pout 8mW Total power dissipation PT 8mW I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F Tape and reel, pcs. ds_x_en_aqweh: J

140 GU-E Form B (AQWEH). Electrical (Ambient temperature: C 77 F) Item Symbol AQWEH(A) Condition LED operate (OFF) current.ma IFoff.mA IL=Max. LED reverse (ON) current Minimum.mA IFon.mA IL=Max. LED dropout voltage. (. V at IF=mA) VF.V IF=mA IF=mA On resistance Ron IL=Max. Within s on time Off state leakage current ILeak A IF=mA VL=Max. Operate (OFF) time*.8ms IF=mA ma Toff.ms IL=Max..ms IF=mA ma Transfer Reverse (ON) time* Ton.ms IL=Max. I/O capacitance.8pf f =MHz Ciso.pF VB =V Initial I/O isolation resistance Minimum Riso,M V DC *Operate/Reverse time % Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Operate (OFF) time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) current, ma Using only channel Using channels On resistance, Ω Operate (OFF) time, ms ds_x_en_aqweh: J

141 . Reverse (ON) time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).8. LED operate current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) GU-E Form B (AQWEH). LED turn off current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) Reverse (ON) time, ms... LED operate current, ma LED turn off current, ma PhotoMOS LED dropout voltage vs. ambient temperature ; LED current: to ma LED dropout voltage, V ma ma ma ma ma.operate (OFF) time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Current, ma Voltage, V.Reverse (ON) time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. 9. Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A voltage, V. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F Operate (OFF) time, ms.. Reverse (ON) time, ms... capacitance, pf 8.. LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqweh: J

142 GU-E Form A & B (AQW EH) AQW EH CAD Data N.C. N.O mm inch Both NO and NC contacts incorporated in a compact DIP8-pin Reinforced insulation FEATURES. V type couples high capacity (.A) with low on-resistance (typ. ).. Reinforced insulation, V More than. mm internal insulation distance between inputs and outputs. Conforms to EN, EN9 (reinforced insulation).. Aprrox. / the space compared with the mounting area of a set of Form A and Form B PhotoMOS relays. Applicable for Form A Form B use as well as two independent Form A and Form B use. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion. TESTING (AQWEH, EH) VDE (AQWEH) GU-E Form A & B (AQW EH). High sensitivity and high speed response Can control max.. A load current with ma input current. Fast operation speed of typ.. ms [N.O.] (AQWEH). 7. Low-level off-state leakage current TYPICAL APPLICATIONS Power supply Measuring instruments Security equipment Modem Telephone equipment Electricity, plant equipment Sensing equipment TYPES AC/DC dual use I/O isolation voltage Reinforced, V rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the ///-pin side Picked from the //7/8-pin side *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Packing quantity V ma AQWEH AQWEHA AQWEHAX AQWEHAZ tube contains: V ma DIP8-pin AQWEH AQWEHA AQWEHAX AQWEHAZ pcs. batch contains: V ma AQWEH AQWEHA AQWEHAX AQWEHAZ pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQWEH(A) AQWEH(A) AQWEH(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V Peak AC, DC Continuous load current IL. A (. A). A (. A). A (. A) ( ): in case of using only a or b, channel Peak load current Ipeak. A. A. A ms ( shot), VL= DC Power dissipation Pout 8 mw Total power dissipation PT 8 mw I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F Tube Tape and reel, pcs. ds_x_en_aqweh: J

143 GU-E Form A & B (AQW EH). Electrical (Ambient temperature: C 77 F) Item Symbol AQWEH(A) AQWEH(A) AQWEH(A) Condition LED operate current IFon(N.O.). ma IFoff(N.C.). ma IL=Max. LED reverse current Minimum IFoff(N.O.). ma IFon(N.C.). ma IL=Max. LED dropout voltage. (. V at IF = ma) VF. V IF= ma 8 IF=mA (N.O.) IF = ma (N.C.) On resistance Ron. Within s on time Off state leakage current ILeak A (N.O.), A (N.C.) IF= ma (N.O.) IF = ma (N.C.) VL = Max. Transfer *Operate/Reverse time Operate time* Ton(N.O.) Toff(N.C.). ms (N.O.). ms (N.C.). ms (N.O.). ms (N.C.).ms (N.O.),.ms (N.C.). ms (N.O.). ms (N.C.). ms. ms (N.O.).8 ms (N.C.) IF = ma ma Reverse time*.8ms (N.O.),.8ms (N.O.), Toff(N.O.).ms (N.C.).ms (N.C.) Ton(N.C.).ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso,M V DC ) N.O. ) N.C. IF = ma ma PhotoMOS 9% % % Ton Toff Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqweh: J 7

144 GU-E Form A & B (AQW EH) REFERENCE DATA -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F current, ma Using only channel Using channels AQWEH AQWEH -(). current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F current, ma 7 Using only channel Using channels AQWEH -(). On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage; Max. (DC) Continuous load current: Max. (DC) Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) AQWEH On resistance, Ω AQWEH (). On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage; Max. (DC) Continuous load current: Max. (DC) Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) On resistance, Ω.. AQWEH. Operate time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Operate time, ms Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) AQWEH AQWEH. Reverse time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Reverse time, ms.8... Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) AQWEH AQWEH AQWEH AQWEH AQWEH LED operate current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) LED operate current, ma. LED reverse current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC) Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) LED reverse current, ma 7. LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma LED dropout voltage, V ma ma ma ma ma ds_x_en_aqweh: J

145 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F AQWEH Between terminals and (N.O.) Between terminals 7 and 8(N.C.) Current, ma AQWEH Voltage, V 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F. Between terminals and (N.O.). Between terminals AQWEH 7 and 8(N.C.) Current, A. Voltage, V GU-E Form A & B (AQW EH) 9-(). Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) AQWEH AQWEH 8 voltage, V PhotoMOS 9-(). Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) AQWEH 8 voltage, V -(). Reverse time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Between terminal and (N.O.) Between terminal 7 and 8 (N.C.). AQWEH AQWEH Reverse time, ms.. -(). Operate time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F Operate time, ms Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) AQWEH AQWEH LED forward current, ma -(). Reverse time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Between terminal and (N.O.) Between terminal 7 and 8 (N.C.). AQWEH Reverse time, ms.. -(). Operate time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F Operate time, ms Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) AQWEH LED forward current, ma -(). capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) capacitance, pf.. AQWEH AQWEH LED forward current, ma LED forward current, ma Applied voltage, V -(). capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F Between terminal and (N.O.) Between terminal 7 and 8 (N.C.) capacitance, pf AQWEH Applied voltage, V ds_x_en_aqweh: J 9

146 RF Form A (AQV ) AQV 8.8. Height includes standoff CAD Data.... mm inch DIP-pin type suited for radio frequent switching FEATURES. High frequency with low capacitance between output terminals Low output capacitance: typ..8 pf Isolation loss: db or more (at MHz) (AQV). High speed switching Turn on time: typ.. ms Turn off time: typ.. ms. Low-level off state leakage current of typ.. na. Controls low-level analog signals PhotoMOS relay features extremely low closed-circuit offset voltages to enable control of small analog signals without distortion. RF Form A (AQV ) TYPICAL APPLICATIONS. Measuring instruments Scanner, IC checker, Board tester, etc.. Audio visual equipment CD, VCR. Security equipment TYPES AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side V 8 ma AQV AQVA AQVAX AQVAZ DIP-pin 8 V ma AQV AQVA AQVAX AQVAZ *Indicate the peak AC and DC values. Note: The surface mount terminal shape indicator A and the packing style indicator X or Z are not marked on the relay. Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQV(A) AQV(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V 8 V A.8 A. A A connection: Peak AC, DC Continuous load current IL B.9 A. A B, C connection: DC C. A.7 A Peak load current Ipeak.8 A. A A connection: ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT 8 mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Storage Tstg C to + C F to + F Non-condensing at low temperatures 7 ds_x_en_aqv: J

147 RF Form A (AQV ). Electrical (Ambient temperature: C 77 F) Item Symbol Type of connection AQV(A) AQV(A) Remarks LED operate current.9 ma IFon ma IL= Max. LED turn off current Minimum. ma IFoff.8 ma IL= Max. LED dropout voltage. V (. V at IF = ma) VF. V IF = ma IF = ma Ron A Within s on time IF = ma On resistance Ron B 8 Within s on time.. IF = ma Ron C 9. Within s on time. pf.8 pf IF = ma capacitance Cout VB = V 8 pf f = MHz Off state leakage current. na IF = ma ILeak na VL = Max. Turn on time*. ms IF = ma Ton. ms. ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqv: J 7

148 RF Form A (AQV ) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time vs. ambient temperature Sample: AQV, AQV; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) current, ma 8 AQV AQV On resistance, Ω AQV AQV Turn on time, ms Turn off time vs. ambient temperature Sample: AQV, AQV; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) LED operate current vs. ambient temperature Sample: AQV, AQV; voltage: Max. (DC); Continuous load current: Max. (DC) LED turn off current vs. ambient temperature Sample: AQV, AQV; voltage: Max. (DC); Continuous load current: Max. (DC) Turn off time, ms. LED operate current, ma LED turn off current, ma LED dropout voltage vs. ambient temperature Sample: AQV, AQV; LED current: to ma. LED dropout voltage, V..... ma ma ma ma ma Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F 8 AQV AQV Voltage, V Current, ma 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A AQV AQV 7 8 voltage, V 7 ds_x_en_aqv: J

149 .Turn on time vs. LED forward current Sample: AQV, AQV; Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F.Turn off time vs. LED forward current Sample: AQV, AQV; Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F RF Form A (AQV ). capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms... Turn off time, ms..... capacitance, pf AQV AQV PhotoMOS LED forward current, ma LED forward currnt, ma 7 8 Applied voltage, V.Isolation vs. frequency ( impedance) Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Isolation, db AQV AQV 7 Frequency, Hz.Insertion loss vs. frequency ( impedance) Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Isolation, db AQV AQV 7 Frequency, Hz ds_x_en_aqv: J 7

150 RF VSSOP Form A C R/C R (AQY) AQY. mm mounting area C R: V load voltage C R: V load voltage RF VSSOP Form A C R/C R (AQY) CAD Data mm inch FEATURES. VSSOP type with further reduction in mounting area. mm mounting area achieved. Approx 9% less than previous product (SON type). Contributes to the miniaturization of instruments and higher density mounting. % % % % SOP pin SSOP SON VSSOP. Low on resistance and low output capacitance available C R <R type> capacitance: pf (typical) On resistance:.8 (typical) <C type> capacitance:. pf (typical) On resistance: 9. (typical) C R capacitance:. pf (typical) On resistance:. (typical) TYPICAL APPLICATIONS. Measuring and testing equipment IC tester, Probe card, Board tester and other testing equipment. Telecommunication equipment TYPES AC/DC type C R Type Notes: * Indicate the peak AC and DC values. * Only tape and reel package is available. For space reasons, only R, N or N is marked on the product as the part number. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) side side rating* Part No. (Tape and reel packing style)* Packing quantity in Picked from Picked from voltage current the tape and reel the and -pin side the and -pin side Low on resistance (R type) V ma AQYRTY AQYRTW Low output capacitance (C type) V ma AQYNTY AQYNTW Item C R V ma AQYNTY AQYNTW Symbol C R R type C R C type C R type AQYRT AQYNT AQYNT LED forward current IF ma LED reverse voltage VR V Remarks, pcs. Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V Continuous load current IL. A. A. A Peak AC, DC Peak load current Ipeak.7 A ms (shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso V AC Operating temperature Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage temperature Tstg C to + C F to + F 7 ds_x_en_aqy: D

151 . Electrical (Ambient temperature: C 77 F) C R R type C R C type C R type Item Symbol AQYRT AQYNT AQYNT LED operate. ma.7 ma IFon current ma LED turn off Minimum. ma. ma IFoff current. ma. ma LED dropout. V VF voltage. V Transfer Note: Please refer to the Schematic and Wiring Diagrams for connection method. *Turn on/turn off time On resistance capacitance Off state leakage current Turn on time* Turn off time* I/O capacitance Ron RF VSSOP Form A C R/C R (AQY) pf. pf Cout 8 pf. pf. na. na ILeak na. ms. ms Ton. ms. ms. ms. ms Toff. ms. pf Ciso. pf Condition AQYRT: IL = ma AQYNT: IL = 8 ma AQYNT: IL = 8 ma IF = ma AQYRT: IF = ma, IL = ma AQYNT: IF = ma, IL = 8 ma AQYNT: IF = ma, IL = 8 ma Within s on time IF = ma, f = MHz, VB = V IF = ma, VL = Max. AQYRT: IF = ma, VL = V, RL = AQYNT: IF = ma, VL = V, RL = AQYNT: IF = ma, VL = V, RL = f = MHz, VB = V PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper this device operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. current vs. voltage Ambient temperature: C 77 F. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: V (DC); Continuous load current: ma (DC) [R type], 8 ma (DC) [C type] current, ma AQYRT AQYNT AQYNT current, ma AQYRT AQYNT AQYNT On resistance, AQYNT AQYNT voltage, V AQYRT Ambient temperature, C ds_x_en_aqy: D 7

152 RF VSSOP Form A C R/C R (AQY). Turn on time vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: V (DC); Continuous load current: ma (DC) [R type], 8 ma (DC) [C type].. Turn off time vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: V (DC); Continuous load current: ma (DC) [R type], 8 ma (DC) [C type].. LED operate current vs. ambient temperature Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC) [R type], 8 ma (DC) [C type] Turn on time, ms.... AQYRT Turn off time, ms.... LED operate current, ma.. AQYNT, AQYNT. AQYNT, AQYNT Ambient temperature, C. AQYRT AQYNT, AQYNT Ambient temperature, C. AQYRT Ambient temperature, C 7. LED turn off current vs. ambient temperature Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC) [R type], 8 ma (DC) [C type] LED turn off current, ma... AQYNT, AQYNT AQYRT Ambient temperature, C. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A AQYRT AQYNT AQYNT voltage, V. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz (m Vrms); Ambient temperature: C 77 F 8. LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V Ambient temperature, C ma ma ma ma ma. Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC) [R type], 8 ma (DC) [C type]; Ambient temperature: C 77 F. Turn on time, ms... AQYRT. AQYNT, AQYNT LED forward current, ma. Isolation vs. frequency ( impedance) Measured portion: between terminals and ; Ambient temperature: C 77 F 9. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, ma -. AQYRT - - AQYNT AQYNT.. Voltage, V -. Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC) [R type], 8 ma (DC) [C type]; Ambient temperature: C 77 F. Turn off time, ms.... AQYRT AQYNT, AQYNT LED forward current, ma. Insertion loss vs. frequency ( impedance) Measured portion: between terminals and ; Ambient temperature: C 77 F capacitance, pf Isolation, db 8 AQYNT AQYNT Insertion loss, db. AQYNT AQYRT AQYRT. AQYNT AQYNT AQYNT AQYRT Applied voltage, V Frequency, Hz Frequency, Hz 7 ds_x_en_aqy: D

153 .-() On resistance distribution Sample: AQYRT Measured portion: between terminals and Continuous load current: ma (DC), n: pcs. Ambient temperature: C 77 F RF VSSOP Form A C R/C R (AQY).-() On resistance distribution Sample: AQYNT Measured portion: between terminals and Continuous load current: 8 ma (DC), n: pcs. Ambient temperature: C 77 F.-() On resistance distribution Sample: AQYNT Measured portion: between terminals and Continuous load current: 8 ma (DC), n: pcs. Ambient temperature: C 77 F Quantity, n Quantity, n Quantity, n PhotoMOS On resistance, On resistance, 7 On resistance, 7.-() Turn on time distribution Sample: AQYRT voltage: V (DC) Continuous load current: ma (DC), n: pcs. Ambient temperature: C 77 F 7.-() Turn on time distribution Sample: AQYNT voltage: V (DC) Continuous load current: 8 ma (DC), n: pcs. Ambient temperature: C 77 F 7.-() Turn on time distribution Sample: AQYNT voltage: V (DC) Continuous load current: 8 ma (DC), n: pcs. Ambient temperature: C 77 F Quantity, n Quantity, n Quantity, n Turn on time, ms..... Turn on time, ms..... Turn on time, ms 8.-() Turn off time distribution Sample: AQYRT voltage: V (DC) Continuous load current: ma (DC), n: pcs. Ambient temperature: C 77 F 8.-() Turn off time distribution Sample: AQYNT voltage: V (DC) Continuous load current: 8 ma (DC), n: pcs. Ambient temperature: C 77 F 8.-() Turn off time distribution Sample: AQYNT voltage: V (DC) Continuous load current: 8 ma (DC), n: pcs. Ambient temperature: C 77 F Quantity, n Quantity, n Quantity, n Turn off time, ms..... Turn off time, ms..... Turn off time, ms 9.-() LED operate current distribution Sample: AQYRT voltage: V (DC) Continuous load current: ma (DC), n: pcs. Ambient temperature: C 77 F 9.-() LED operate current distribution Sample: AQYNT voltage: V (DC) Continuous load current: 8 ma (DC), n: pcs. Ambient temperature: C 77 F 9.-() LED operate current distribution Sample: AQYNT voltage: V (DC) Continuous load current: 8 ma (DC), n: pcs. Ambient temperature: C 77 F Quantity, n Quantity, n Quantity, n....8 LED operate current, ma ds_x_en_aqy: D LED operate current, ma LED operate current, ma 77

154 RF VSSOP Form A C R/C R (AQY) DIMENSIONS (mm inch) Download CAD Data from our Web site. CAD Data External dimensions Recommended mounting pad (Top view) : DC : DC : AC/DC : AC/DC Tolerance: (.) (.87)..8 General tolerance:.. SCHEMATIC AND WIRING DIAGRAMS E: Power source at input side, IF: LED forward current, VL: voltage, IL: current Schematic configuration Connection Wiring diagram Form A AC/DC E IF IL VL (AC,DC) IL VL (AC,DC) 78 ds_x_en_aqy: D

155 PhotoMOS CAUTIONS FOR USE SAFETY WARNINGS Do not use the product under conditions that exceed the range of its specifications. It may cause overheating, smoke, or fire.. Please refer to PhotoMOS catalog (latest version) for cautions for use and explanations of terminology.. Derated designs Consideration of reliability is absolutely imperative for derated designs because of its importance to the working lifetime of the product. Please be sure to derate sufficiently from the maximum rating of the device when designing a system. Be sure to conduct real-life testing of the product; and, if necessary, provide extra leeway against the maximum rating by taking sufficiently safety measures.. Applying stress that exceeds the absolute maximum rating If the voltage or current value for any of the terminals exceeds the absolute maximum rating, internal elements will deteriorate because of the excessive voltage or current. In extreme cases, wiring may melt, or silicon P/N junctions may be destroyed. Therefore, the circuit should be designed in such a way that the load never exceed the absolute maximum ratings, even momentarily.. Deterioration and destruction caused by discharge of static electricity This phenomenon is generally called static electricity destruction, and occurs when static electricity generated by various factors is discharged while the device terminals are in contact, producing internal destruction of the element. To prevent problems from static electricity, the following precautions and measures should be taken when using your device. ) Employees handling devices should wear anti-static clothing and should be grounded through protective resistance of k to M. RF VSSOP Form A C R/C R (AQY) Do not touch the recharging unit while the power is on. There is a danger of electrical shock. Be sure to turn off the power when performing mounting, maintenance, or repair operations on the device (including connecting parts such as the terminal board and socket). ) A conductive metal sheet should be placed over the work table. Measuring instruments and jigs should be grounded. ) When using soldering irons, either use irons with low leakage current, or ground the tip of the soldering iron. (Use of lowvoltage soldering irons is also recommended.) ) Devices and equipment used in assembly should also be grounded. ) When packing printed circuit boards and equipment, avoid using high-polymer materials such as foam styrene, plastic, and other materials which carry an electrostatic charge. ) When storing or transporting devices, the environment should not be conducive to generating static electricity (for instance, the humidity should be between and %), and devices should be protected using conductive packing materials.. Short across terminals Do not short circuit between terminals when device is energized, since there is possibility of breaking of the internal IC.. spike voltages ) If an inductive load generates spike voltages which exceed the absolute maximum rating, the spike voltage must be limited. circuits are shown below. Add a clamp diode to the load Add a CR snubber circuit to the load Check the connection diagrams in the catalog and be sure to connect the terminals correctly. Erroneous connections could lead to unexpected operating errors, overheating, or fire. ) Even if spike voltages generated at the load are limited with a clamp diode if the circuit wires are long, spike voltages will occur by inductance. Keep wires as short as possible to minimize inductance. 7. Ripple in the input power supply If ripple is present in the input power supply, observe the following: ) For LED operate current at Emin, maintain the value mentioned in the table of Recommended LED forward current (IF). ) Keep the LED operate current at ma or less at Emax. Emin. Emax. 8. Soldering Example of recommended soldering conditions () IR (Infrared reflow) soldering method T T T t T = to 8 C to F T = C F T = C 7 F or less t = to s or less t = s or less () Soldering iron method Tip temperature: to C to 7 F Wattage: to W Soldering time: within s () Others Check mounting conditions before using other soldering methods (VPS, hot-air, hot plate, laser, pulse heater, etc.) t PhotoMOS ds_x_en_aqy: D 79

156 RF VSSOP Form A C R/C R (AQY) 9. Notes for mounting ) If many different packages are combined on a single substrate, then lead temperature rise is highly dependent on package size. For this reason, please make sure that the temperature of the terminal solder area of the PhotoMOS falls within the temperature conditions of item 8. Soldering before mounting. ) If the mounting conditions exceed the recommended solder conditions in item 8, resin strength will fall and the nonconformity of the heat expansion coefficient of each constituent material will increase markedly, possibly causing cracks in the package, severed bonding wires, and the like. For this reason, please inquire with us about whether this use is possible.. Cleaning This product creates a light path by coupling with resin the LED of the emitting element and the solar cell of the receiving element. For this reason, ultrasonic cleaning should be avoided as much as possible, because the product differs from other molded resin products that contain discrete elements (MOS transistors and bipolar transistors, etc.). We recommend cleaning with an organic solvent. If you cannot avoid using ultrasonic cleansing, please ensure that the following conditions are met, and check beforehand for defects. Frequency: 7 to 9 khz Ultrasonic output: No greater than.w/cm Cleaning time: No longer than s Cleanser used: Asahiklin AK- Other: Submerge in solvent in order to prevent the PCB and elements from being contacted directly by the ultrasonic vibrations. Note: Applies to unit area ultrasonic output for ultrasonic baths.. Device packaging format Tape and reel (Unit: mm inch) Tape dimensions Dimensions of paper tape reel Tractor feed holes.. dia...9 dia Direction of picking...7. Device mounted.. on tape. dia dia dia dia. 8 dia...9 dia. () When picked from and -pin side: Part No. AQY TY (Shown above) () When picked from and -pin side: Part No. AQY TW. Transportation and storage ) Extreme vibration during transport will damage the device. Handle the outer and inner boxes with care. ) Storage under extreme conditions will cause soldering degradation, external appearance defects, and deterioration of the. The following storage conditions are recommended: Temperature: to C to F Humidity: Less than 7% R.H. Atmosphere: No harmful gasses such as sulfurous acid gas, minimal dust. ) PhotoMOS implemented in VSSOP type are sensitive to moisture and come in sealed moisture-proof packages. Observe the following cautions on storage. After the moisture-proof package is unsealed, take the devices out of storage as soon as possible (within month, less than C F/7% R.H.). If the devices are to be left in storage for a considerable period after the moistureproof package has been unsealed, it is recommended to keep them in another moisture-proof bag containing silica gel (within months at the most). *When thermal stress is applied when mounting with solder after the product has absorbed moisture, the water will evaporate, swelling will occur, and the inside of the package will become stressed. Since this can lead to bulging and cracking of the package surface, please be sure to be careful and follow the correct soldering conditions.. About the exposed terminals on the sides of the package As shown in the following figure, part of the input and output frames are exposed on the sides of the package. Due to this, please be keep in mind the cautions listed below. ) Shorting the exposed terminals may cause deterioration of the insulation between the inputs and outputs, and may damage the internal IC. ) Since the exposed terminals are connected electrically to the internal element, please refer to the section. Deterioration and destruction caused by. dia... dia discharge of static electricity, and implement sufficient measures to control static electricity. ) When installing the devices in the vicinity, please keep in mind that if the exposed frames of adjacent devices get too close, a short between devices may occur. Part of frame on output side Part of frame on input side. Regarding close installations When this product is installed close to other parts, the ambient temperature may rise due to heating of the internal element when power is applied. Be sure to use with a reduced load current after testing under actual conditions, because the degree of temperature rise depends on the placement of the devices and conditions of use. 8 ds_x_en_aqy: D

157 RF SON Form A C R (AQYNM) AQYNM Micro-miniature SON package Lower output capacitance and on resistance (C R) V load voltage RF SON Form A C R (AQYNM) CAD Data mm inch FEATURES. Super miniature SON* package contributes to space savings and high density mounting. The SON type is a new PhotoMOS relay with approximately % the volume ratio of existing SSOP type. The super miniature leadless construction reduces the mounting area and enables high density mounting.. Lower output capacitance and onresistance capacitance (Cout):.pF (typ.) On resistance (Ron):. (typ.). High speed switching Turn on time:.ms (typ.) Turn off time:.ms (typ.) PhotoMOS *Small Outline No-lead package Reduced to approximately % volume ratio Previous SSOP package (L:. W:. H:.8) (L:. W:.7 H:.7) H:.. TYPICAL APPLICATIONS Measuring and testing equipment. Testing equipment IC tester, Semiconductor performance tester, Probe cards, etc.. Board tester Bare board tester, In-circuit tester, Function tester, etc. L:..87 W:.9. New SON package Area comparison (including leads) Previous SOPpin Previous SSOP SON % % % Flat lead Leadless TYPES rating* Tape and reel packing style* Package voltage current Picked from the and -pin side Picked from the and -pin side Notes: * Indicate the peak AC and DC values. * Only tape and reel package is available. For space reasons, only N is marked on the product as the part number. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Packing quantity in tape and reel AC/DC dual use V ma SON AQYNMY AQYNMW, pcs. Item Symbol AQYNM Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f= Hz, Duty factor=.% Power dissipation Pin 7mW voltage (peak AC) VL V Continuous load current IL.A Peak AC, DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso V AC Operating temperature Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage temperature Tstg C to + C F to + F ds_x_en_aqynm: J 8

158 RF SON Form A C R (AQYNM). Electrical (Ambient temperature: C 77 F) Item Symbol AQYNM Condition LED operate current. ma IFon. ma IL = 8 ma LED turn off current Minimum. ma IFoff.9 ma IL = 8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma. IF = ma On resistance Ron IL = 8 ma 7. Within s on time. pf IF = ma capacitance Cout VB = V. pf f = MHz Off state leakage current. na IF = ma ILeak na VL = Max.. ms IF = ma Turn on time* Ton VL = V. ms RL = Transfer. ms IF = ma Turn off time* Toff VL = V. ms RL = I/O capacitance.8 pf f = MHz Ciso. pf VB = V Note: Variation possible through combinations of output capacitance and on resistance. For more information, please contact our sales office in your area. *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page ds_x_en_aqynm: J

159 REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. current vs. voltage Ambient temperature: C 77 F RF SON Form A C R (AQYNM). On resistance vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC); current: 8mA (DC) current, ma current, ma On resistance, Ω 8 PhotoMOS voltage, V Turn on time vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC); Continuous load current: 8mA (DC).. Turn off time vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC); Continuous load current: 8mA (DC).. LED operate current vs. ambient temperature Measured portion: between terminals and voltage: V (DC); Continuous load current: 8mA (DC) Turn on time, ms.8.. Turn off time, ms.8.. LED operate current, ma LED turn off current vs. ambient temperature Measured portion: between terminals and voltage: V (DC); Continuous load current: 8mA (DC) LED operate current, ma 8. LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V..... ma ma ma ma ma 9. Current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F current, ma Current, ma Voltage, V Voltage, V ds_x_en_aqynm: J 8

160 RF SON Form A C R (AQYNM).Off state leakage current vs. load voltage Measured portion: between terminals and Ambient temperature: C 77 F -.Turn on time vs. LED forward current Measured portion: between terminals and voltage: V (DC); Continuous load current: 8mA (DC); Ambient temperature: C 77 F..Turn off time vs. LED forward current Measured portion: between terminals and voltage: V (DC); Continuous load current: 8mA (DC); Ambient temperature: C 77 F. Leakage current, A Turn on time, ms.8.. Turn off time, ms voltage, V LED forward current, ma LED forward current, ma. capacitance vs. applied voltage Measured portion: between terminals and Frequency: MHz, m Vrms; Ambient temperature: C 77 F..Isolation vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F.Insertion loss vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F capacitance, pf. Isolation, db 8 Insertion loss, db... Applied voltage, V 7 Frequency, Hz 8 Frequency, Hz 7.On resistance distribution Measured portion: between terminals and Continuous load current: 8mA (DC), n: pcs. Ambient temperature: C 77 F 7.Turn on time distribution voltage: V (DC) Continuous load current: 8mA (DC), n: pcs. Ambient temperature: C 77 F 8.Turn off time distribution voltage: V (DC) Continuous load current: 8mA (DC), n: pcs. Ambient temperature: C 77 F Quantity, n Quantity, n Quantity, n 7 On resistance, Ω Turn on time, ms Turn on time, ms. 9.LED operate current distribution voltage: V (DC) Continuous load current: 8mA (DC), n: pcs. Ambient temperature: C 77 F Quantity, n LED operate current, ma.8 8 ds_x_en_aqynm: J

161 RF SSOP Form A C R (AQYNV) AQYNV Super miniature SSOP Lower output capacitance and on resistance (C R) voltage V RF SSOP Form A C R (AQYNV) CAD Data mm inch FEATURES. Reduced package size Lower surface has been reduced % and mounting space % compared to conventional SOP-pin type.. Lower output capacitance and onresistance capacitance (Cout):.pF (typ.) ON resistance (Ron):. (typ.). Mounting space has been reduced and output signals have been improved by using new flat lead terminals. TYPICAL APPLICATIONS. Measuring and testing equipment IC tester, Liquid crystal driver tester, Semiconductor performance tester, Board tester, etc.. Medical equipment Ultrasonic wave diagnostic machine. Multi-point recorder Warping, Thermo couple, etc.. Telecommunication and broadcasting equipment PhotoMOS Conventional SOP SSOP. High speed switching Turn on time:.ms (typ.) Turn off time:.ms (typ.) Flat lead TYPES rating* Tape and reel packing style Packing quantity Package voltage current Picked from the /-pin side Picked from the /-pin side in tape and reel* AC/DC dual use V ma SSOP AQYNVY AQYNVW, pcs. Notes: * Indicate the peak AC and DC values. * Tape and reel is the standard packing style for SSOP. For space reasons, only NV is marked on the product as the part number. The three initial letters of the part number AQY, and the package (SSOP) indicator V and the packing style indicator Y or W are not marked on the relay. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYNV Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f= Hz, Duty factor=.% Power dissipation Pin 7mW voltage (peak AC) VL V Continuous load current IL.A Peak AC, DC Peak load current Ipeak.A ms ( shot), VL= DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso,V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F ds_x_en_aqynv: J 8

162 RF SSOP Form A C R (AQYNV). Electrical (Ambient temperature: C 77 F) Item Symbol AQYNV Condition LED operate current. ma IFon. ma IL = 8 ma LED turn off current Minimum. ma IFoff.9 ma IL = 8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma On resistance. IF = ma, IL = 8 ma Ron 7. Within s on time capacitance. pf IF = ma, VB = V Cout. pf f = MHz Off state leakage current. na IF = ma ILeak na VL = Max. Turn on time*. ms IF = ma, VL = V Ton. ms RL =. ms IF = ma, VL = V Transfer Turn off time* Toff. ms RL = I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso,M V DC Note: Variation possible through combinations of output capacitance and on resistance. For more information, please contact our sales office in your area. *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page ds_x_en_aqynv: J

163 REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F RF SSOP Form A C R (AQYNV). current vs. voltage Ambient temperature: C 77 F. On resistance vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC); current: 8mA (DC) current, ma current, ma On resistance, Ω PhotoMOS voltage, V Turn on time vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC); Continuous load current: 8mA (DC).. Turn off time vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC); Continuous load current: 8mA (DC).. LED operate current vs. ambient temperature Measured portion: between terminals and voltage: V (DC); Continuous load current: 8mA (DC) Turn on time, ms.8.. Turn off time, ms.8.. LED operate current, ma LED turn off current vs. ambient temperature Measured portion: between terminals and voltage: V (DC); Continuous load current: 8mA (DC) LED operate current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V..... ma ma ma ma ma Current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F Current, ma Voltage, V ds_x_en_aqynv: J 87

164 RF SSOP Form A C R (AQYNV).Off state leakage current vs. load voltage Measured portion: between terminals and Ambient temperature: C 77 F Off state leakage current, A Turn on time vs. LED forward current Measured portion: between terminals and voltage: V (DC); Continuous load current: 8mA (DC); Ambient temperature: C 77 F. Turn on time, ms.9...turn off time vs. LED forward current Measured portion: between terminals and voltage: V (DC); Continuous load current: 8mA (DC); Ambient temperature: C 77 F. Turn off time, ms voltage, V LED forward current, ma LED forward current, ma. capacitance vs. applied voltage Measured portion: between terminals and Frequency: MHz, m Vrms; Ambient temperature: C 77 F..Isolation vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F.Insertion loss vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F capacitance, pf. Isolation, db 8 Insertion loss, db... Applied voltage, V 7 8 Frequency, Hz 7 Frequency, Hz.On resistance distribution Measured portion: between terminals and Continuous load current: 8mA (DC) Ambient temperature: C 77 F 7.Turn on time distribution voltage: V (DC) Continuous load current: 8mA (DC) Ambient temperature: C 77 F 8.Turn off time distribution voltage: V (DC) Continuous load current: 8mA (DC) Ambient temperature: C 77 F Quantity, n Quantity, n Quantity, n 7 On resistance, Ω Turn on time, ms Turn on time, ms. 9.LED operate current distribution voltage: V (DC) Continuous load current: 8mA (DC) Ambient temperature: C 77 F Quantity, n LED operate current, ma.8 88 ds_x_en_aqynv: J

165 AQY M.9. mm inch CAD Data RF SON Form A C R (AQY M) Micro-miniature SON package Lower output capacitance and on resistance (C R) V load voltage FEATURES. Super miniature SON* package contributes to space savings and high density mounting. The SON type is a new PhotoMOS relay with approximately % the volume ratio of existing SSOP type. The super miniature leadless construction reduces the mounting area and enables high density mounting. *Small Outline No-lead package Reduced to approximately % volume ratio L:..87 Area comparison (including leads) Previous SOPpin W:.9. Previous SSOP package (L:. W:. H:.8) (L:. W:.7 H:.7) H:.. New SON package Previous SSOP SON RF SON Form A C R (AQY M). Both low on-resistance (R type) and low capacitance (C type) available at C R R type: On resistance.8 (typ.) capacitance pf (typ.) C type: On resistance 9. (typ.) capacitance.pf (typ.) TYPICAL APPLICATIONS. Measuring equipment IC tester, Probe cards, board tester and other testing equipment. Telecommunication or broadcasting equipment. Medical equipment PhotoMOS % % % Flat lead Leadless TYPES AC/DC dual use Type rating* Tape and reel packing style* Package voltage current Picked from the and -pin side Picked from the and -pin side Low on-resistance (R type) V ma AQYRMY AQYRMW SON Low capacitance (C type) V ma AQYNMY AQYNMW Notes: * Indicate the peak AC and DC values. * Only tape and reel package is available. For space reasons, only R or N is marked on the product as the part number. Packing quantity in tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYRM AQYNM Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f= Hz, Duty factor=.% Power dissipation Pin 7mW voltage (peak AC) VL V V Continuous load current IL.A.A Peak AC, DC Peak load current Ipeak.7A ms (shot), VL=DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso V AC Operating temperature Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage temperature Tstg C to + C F to + F ds_x_en_aqy_m: J 89

166 RF SON Form A C R (AQY M). Electrical (Ambient temperature: C 77 F) Item Symbol R type C type AQYRM AQYNM Condition LED operate current.8 ma. ma IFon. ma R type: IL = ma LED turn off current Minimum. ma C type: IL = 8 ma IFoff.7 ma.9 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma.8 9. R type: IF = ma, IL = ma On resistance Ron C type: IF = ma, IL = 8 ma.. Within s on time pf. pf IF = ma capacitance Cout VB = V 8 pf. pf f = MHz Off state leakage current. na IF = ma ILeak na VL = Max. Turn on time*. ms. ms Ton R type:. ms. ms IF = ma, VL = V, RL = Transfer. ms. ms C type: Turn off time* Toff IF = ma, VL = V, RL =. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Note: Variation possible through combinations of output capacitance and on resistance. For more information, please contact our sales office in your area. *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page ds_x_en_aqy_m: J

167 REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F current, ma - - AQYRM AQYNM 8 8 RF SON Form A C R (AQY M). current vs. voltage Ambient temperature: C 77 F current, ma 8 8 AQYRM AQYNM voltage, V. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: V (DC); current: ma (DC) R type, 8mA (DC) C type On resistance, Ω - - AQYNM AQYRM 8 8 PhotoMOS. Turn on time vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type.. Turn off time vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type.. LED operate current vs. ambient temperature Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type Turn on time, ms... AQYRM Turn off time, ms.... LED operate current, ma AQYNM. - - AQYNM AQYRM AQYNM AQYRM LED turn off current vs. ambient temperature Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type LED turn off current, ma - - AQYNM AQYRM LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma 9. Current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F Current, ma -. AQYRM - - AQYNM.. Voltage, V - ds_x_en_aqy_m: J 9

168 RF SON Form A C R (AQY M).Off state leakage current vs. load voltage Measured portion: between terminals and Ambient temperature: C 77 F Off state leakage current, A AQYRM AQYNM voltage, V.Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type; Ambient temperature: C 77 F Turn on time, ms.8... AQYRM AQYNM LED forward current, ma.turn off time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type; Ambient temperature: C 77 F. Turn off time, ms.... AQYRM AQYNM LED forward current, ma. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz, m Vrms; Ambient temperature: C 77 F.Isolation vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F.Insertion loss vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F capacitance, pf Isolation, db 8 AQYNM Insertion loss, db. AQYNM AQYRM AQYRM. AQYNM Applied voltage, V 8 7 Frequency, Hz AQYRM 7 Frequency, Hz -() On resistance distribution Sample: AQYRM; Measured portion: between terminals and ; Continuous load current: ma (DC) R type, 8mA (DC) C type, n: pcs. Ambient temperature: C 77 F.-() On resistance distribution Sample: AQYNM; Measured portion: between terminals and ; Continuous load current: ma (DC) R type, 8mA (DC) C type, n: pcs. Ambient temperature: C 77 F Quantity, n Quantity, n On resistance, Ω On resistance, Ω 9 ds_x_en_aqy_m: J

169 7-() Turn on time distribution Sample: AQYRM; voltage: V (DC) Continuous load current: ma (DC) R type, 8mA (DC) C type, n: pcs. Ambient temperature: C 77 F RF SON Form A C R (AQY M) 7.-() Turn on time distribution Sample: AQYNM; voltage: V (DC) Continuous load current: ma (DC) R type, 8mA (DC) C type, n: pcs. Ambient temperature: C 77 F Quantity, n Quantity, n PhotoMOS.... Turn on time, ms Turn on time, ms. 8-() Turn off time distribution Sample: AQYRM; voltage: V (DC) Continuous load current: ma (DC) R type, 8mA (DC) C type, n: pcs. Ambient temperature: C 77 F 8.-() Turn off time distribution Sample: AQYNM; voltage: V (DC) Continuous load current: ma (DC) R type, 8mA (DC) C type, n: pcs. Ambient temperature: C 77 F Quantity, n Quantity, n....8 Turn off time, ms Turn off time, ms. 9-() LED operate current distribution Sample: AQYRM; voltage: V (DC) Continuous load current: ma (DC) R type, 8mA (DC) C type, n: pcs. Ambient temperature: C 77 F 9.-() LED operate current distribution Sample: AQYNM; voltage: V (DC) Continuous load current: ma (DC) R type, 8mA (DC) C type, n: pcs. Ambient temperature: C 77 F Quantity, n Quantity, n LED operate current, ma LED operate current, ma.8 ds_x_en_aqy_m: J 9

170 RF SSOP Form A CxR (AQY V) AQY V CAD Data mm inch Micro-miniature SSOP Lower output capacitance and on resistance (C R) V load voltage FEATURES. Micro-miniature package (SSOP) using a new flat lead terminal shape Compared to previous models (SOP - pin), mounting area can be reduced by approximately %*. This contributes to improved output signal transit. Previous SOP SSOP Flat lead *Comparison of area of SSOP and SOP -pin (including leads).. Full lineup with C R Lineup includes three types with superior electrical performance of C R. R type and C type, respectively, feature greatly reduced on resistance and output capacitance. RF SSOP Form A C R (AQY V) R type On resistance () capacitance () AQYRV. pf AQYRV.7.pF C type AQYNV 9..pF TYPICAL APPLICATIONS. Measuring and testing equipment Semiconductor testing equipment, Probe cards, Datalogger, Board tester and other testing equipment. Telecommunication and broadcasting equipment. Medical equipment TYPES AC/DC dual use Type rating* Tape and reel packing style* Package voltage current Picked from the and -pin side Picked from the and -pin side V ma AQYRVY AQYRVW Low on-resistance (R type) V ma SSOP AQYRVY AQYRVW Low capacitance (C type) V ma AQYNVY AQYNVW Packing quantity in tape and reel, pcs. Notes: * Indicate the peak AC and DC values. * Tape and reel is the standard packing style for SSOP. For space reasons, the three initial letters of the part number AQY, the package (SSOP) indication V, and the packaging style Y or W are not marked on the relay. (Ex. the label for product number AQYRVY is R) * For types with a built-in resistor, see page 98. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol R type C type AQYRV AQYRV AQYNV LED forward current IF ma LED reverse voltage VR V Remarks Peak forward current IFP A f= Hz, Duty factor=.% Power dissipation Pin 7mW voltage (peak AC) VL V Continuous load current IL.A.A.A Peak AC, DC Peak load current Ipeak A.7A.A ms (shot), VL=DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso,V AC Operating temperature Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage temperature Tstg C to + C F to + F 9 ds_x_en_aqy v: J

171 RF SSOP Form A CxR (AQY V). Electrical (Ambient temperature: C 77 F) Item Symbol R type C type AQYRV AQYRV AQYNV Condition.9 ma. ma LED operate current IFon AQYRV: IL. ma = ma AQYRV: IL = ma Minimum. ma. ma AQYNV: IL LED turn off current = 8 ma IFoff.8 ma.9 ma LED dropout. V (. V at IF = ma) voltage* VF. V IF = ma On resistance AQYRV: IF = ma, IL = ma AQYRV: IF = ma, IL = ma Ron AQYNV: IF = ma, IL = 8 ma.. Within s on time pf. pf. pf capacitance Cout pf 8 pf. pf IF = ma, VB = V, f = MHz Off state leakage. na. na ILeak current na IF = ma, VL = Max. Turn on time*. ms. ms. ms AQYRV: Ton IF = ma, VL = V, RL =.7 ms. ms AQYRV: IF = ma, VL = V, RL.8 ms. ms = AQYNV: Transfer Turn off time* Toff. ms IF = ma, VL = V, RL = I/O capacitance.8 pf Ciso. pf f = MHz, VB = V Initial I/O isolation resistance Minimum Riso, M V DC Note: Variation possible through combinations of output capacitance and on resistance. For more information, please contact our sales office in your area. *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see Page. For Schematic and Wiring Diagrams, see Page. For Cautions for Use, see Page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqy v: J 9

172 RF SSOP Form A CxR (AQY V) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. current vs. voltage Ambient temperature: C 77 F 8.On resistance vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC) Continuous load current: AQYRV ma (DC), AQYRV ma (DC), AQYNV 8mA (DC) current, ma AQYRV AQYRV AQYNV current, ma 8 AQYNV On resistance, Ω AQYRV AQYNV AQYRV voltage, V Turn on time vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC) Continuous load current: AQYRV ma (DC), AQYRV ma (DC), AQYNV 8mA (DC)..Turn off time vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC) Continuous load current: AQYRV ma (DC), AQYRV ma (DC), AQYNV 8mA (DC)..LED operate current vs. ambient temperature Measured portion: between terminals and voltage: V (DC) Continuous load current: AQYRV ma (DC), AQYRV ma (DC), AQYNV 8mA (DC) Turn on time, ms... AQYRV AQYRV Turn off time, ms.... AQYRV, AQYRV LED operate current, ma AQYNV. - - AQYNV AQYNV AQYRV, AQYRV 8 8.LED turn off current vs. ambient temperature Measured portion: between terminals and voltage: V (DC) Continuous load current: AQYRV ma (DC), AQYRV ma (DC), AQYNV 8mA (DC) LED turn off current, ma - - AQYNV AQYRV, AQYRV LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V..... ma ma ma ma ma Current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F Current, A AQYRV AQYRV AQYNV Voltage, V ds_x_en_aqy v: J

173 9.Off state leakage current vs. load voltage Measured portion: between terminals and Ambient temperature: C 77 F - RF SSOP Form A CxR (AQY V).Turn on time vs. LED forward current Measured portion: between terminals and voltage: V (DC) Continuous load current: AQYRV ma (DC), AQYRV ma (DC), AQYNV 8mA (DC) Ambient temperature: C 77 F.Turn off time vs. LED forward current Measured portion: between terminals and voltage: V (DC) Continuous load current: AQYRV ma (DC), AQYRV ma (DC), AQYNV 8mA (DC) Ambient temperature: C 77 F. Off state leakage current, A AQYRV, AQYRV AQYNV Turn on time, ms.8... AQYRV AQYRV AQYNV Turn off time, ms.... AQYRV, AQYRV AQYNV PhotoMOS voltage, V LED forward current, ma LED forward current, ma. capacitance vs. applied voltage Measured portion: between terminals and Frequency: MHz, m Vrms Ambient temperature: C 77 F.Isolation vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F.Insertion loss vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F capacitance, pf AQYRV AQYRV AQYNV Isolation, db 8 AQYNV AQYRV AQYRV 7 8 Insertion loss, db.. AQYNV AQYRV AQYRV 7 Applied voltage, V Frequency, Hz Frequency, Hz ds_x_en_aqy v: J 97

174 RF SSOP CxR Voltage-sensitive (AQYF V) AQYF V CAD Data mm inch Space-saving SSOP Form A type with built-in registor V load voltage FEATURES. Built-in input resistor means less man-hours when mounting The voltage-sensitive type, which eliminates the need to mount an external input resistor, is now available in a small package. Man-hours spent mounting external input resistors are cut and board designing is simplified.. Save space on PC board Since the small package size remains the same while including a built-in input resistor, space on the PC board is saved. This makes it easier to incorporate space savings when designing miniature devices. Existing way of mounting external resistors RF SSOP C R Voltage-sensitive (AQYF V). Both low on-resistance (R type) and low capacitance (C type) available at excellent electrical of C R R type: On resistance.7 (typ.) resistance.pf (typ.) C type: On resistance 9. (typ.) capacitance pf (typ.) TYPICAL APPLICATIONS. Measuring and testing equipment Semiconductor testing equipment, Probe cards, Datalogger, Board tester and other testing equipment.. Telecommunication and broadcasting equipment. Medical equipment With resistors built in Space saved <Artistic impression of PC board space savings due to built-in resistor> TYPES AC/DC dual use Type rating* voltage current Package Tape and reel packing style (Picked from the and -pin side) AQYFRVY Part No.* Tape and reel packing style (Picked from the and -pin side) Low on-resistance (R type) V.A AQYFRVW SSOP Low capacitance (C type) V.A AQYFNVY AQYFNVW Packing quantity in tape and reel, pcs. Notes: * Indicate the peak AC and DC values. * Tape and reel is the standard packing style for SSOP. For space reasons, the three initial letters of the part number AQY, and the package (SSOP) indicator V and the packing style indicator Y or W are not marked on the relay. (Ex. the label for product number AQYFRVY is FR) RATING. Absolute maximum ratings (Condition: ambient temperature C 77 F) Item Symbol AQYFRV AQYFNV Remarks voltage VIN V reverse voltage VRIN V Power dissipation Pin mw voltage (peak AC) VL V current IL.A.A Peak AC, DC Peak load current Ipeak.7A.A ms (shot), VL=DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso V AC Operating temperature Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage temperature Tstg C to + C F to + F 98 ds_x_en_aqyf_v: J

175 RF SSOP CxR Voltage-sensitive (AQYF V). Electrical (Condition: ambient temperature C 77 F) Item Symbol AQYFRV AQYFNV Condition Typ..V Operate voltage VFon Max. V AQYFRV: Min..8V AQYFNV: IL = 8mA Turn off voltage VFoff Typ..V current Typ. IIN 8.mA VIN = V Typ AQYFRV: VIN = V, On resistance Ron AQYFNV: VIN = V, IL = 8mA Max... Within s on time Typ..pF pf capacitance Cout VIN = V, VB = V, f = MHz Max. 8pF.pF Typ..nA.nA Off state leakage current ILeak VIN = V, VL = Max. Max. na Typ..ms.ms Turn on time* Ton AQYFRV: Max..ms VIN = V, VL = V, RL = ¾ Typ..ms.ms AQYFNV: Transfer Turn off time* Toff VIN = V, VL = V, RL = ¾ Max..ms Typ..8pF f = MHz, VB = V I/O capacitance Ciso Max..pF f = MHz, VB = V Initial I/O isolation resistance Min. Riso,M V DC Note: If you wish to change the input voltage, rating or performance, please inquire with our sales. *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Minimum Unit voltage VIN.. V For Dimensions, see Page. For Schematic and Wiring Diagrams, see Page. For Cautions for Use, see Page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqyf_v: J 99

176 RF SSOP CxR Voltage-sensitive (AQYF V) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F current, ma - - AQYFRV AQYFNV. current vs. voltage Ambient temperature: C 77 F current, ma 8 8 AQYFRV AQYFNV 7.On resistance vs. ambient temperature Measured portion: between terminals and voltage: V; voltage: V (DC); Continuous load current: 8mA (DC) voltage, V On resistance, Ω AQYFNV AQYFRV 8.Turn on time vs. ambient temperature voltage: V; voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type. 9.Turn off time vs. ambient temperature voltage: V; voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type..turn on voltage vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type Turn on time, ms... AQYFRV Turn off time, ms.. AQYFRV. AQYFRV, AQYFNV AQYFNV AQYFNV Turn on voltage, V 8.Turn off voltage vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type. current vs. ambient temperature voltage: V.Current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F Turn off voltage, V AQYFRV, AQYFNV current, ma AQYFRV, AQYFNV Current, ma AQYFRV - AQYFNV Voltage, V ds_x_en_aqyf_v: J

177 . current vs. input voltage Ambient temperature: C 77 F (Recommended input voltage:.v) RF SSOP CxR Voltage-sensitive (AQYF V).Off state leakage current vs. load voltage Measured portion: between terminals and Ambient temperature: C 77 F.Turn on time vs. input voltage Measured portion: between terminals and voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type; Ambient temperature: C 77 F -. current, ma AQYFRV, AQYFNV 7 voltage, V Off state leakage current, A - -9 AQYFRV - AQYFNV voltage, V Turn on time, ms.... AQYFRV. AQYFNV 7 voltage, V PhotoMOS 7.Turn off time vs. input voltage Measured portion: between terminals and voltage: V (DC); Continuous load current: ma (DC) R type, 8mA (DC) C type; Ambient temperature: C 77 F. 8. capacitance vs. applied voltage Measured portion: between terminals and Frequency: MHz, m Vrms; Ambient temperature: C 77 F 9.Isolation vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F Turn off time, ms... AQYFRV AQYFNV 7 voltage, V capacitance, pf AQYFRV AQYFNV Applied voltage, V Isolation, db 8 AQYFNV AQYFRV 7 8 Frequency, Hz.Insertion loss vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F Insertion loss, db.. AQYFNV AQYFRV 7 Frequency, Hz ds_x_en_aqyf_v: J

178 RF SOP Form A CxR (AQY S) AQY S <R type> <C type> CAD Data mm inch Miniature SOP-pin with C R V load voltage FEATURES. Both low on-resistance (R type) and low capacitance (C type) available at excellent of C R Low on resistance: R Low output capacitance: C AQYRS (R type).8 pf AQYNS (C type) 9. pf. High speed switching Turn on time:.ms (typ.) Turn off time:.ms (typ.) (AQYNS). Small profile of miniature SOP-pin. Low-level off state leakage current of typ..na (AQYNS) RF SOP Form A C R (AQY S) TYPICAL APPLICATIONS. Measuring and testing equipment IC tester, Liquid crystal driver tester, Semiconductor performance tester, Bare board tester, In-circuit tester, Function tester, etc.. Telecommunication and broadcasting equipment. Medical equipment Ultrasonic wave diagnostic machine. Multi-point recorder Warping, Thermo couple, etc. TYPES AC/DC dual use Type rating* voltage current Package Tube packing style * Indicate the peak AC and DC values. Note: For space reasons, the initial letters of the part number AQY, the package (SOP) indicator S and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number AQYRSX is R) RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYRS (R type) LED forward current IF ma LED reverse voltage VR V Part No. Tape and reel packing style Picked from the /-pin side Picked from the /-pin side Low on resistance (R type) V ma AQYRS AQYRSX AQYRSZ SOP-pin Low capacitance (C type) V ma AQYNS AQYNSX AQYNSZ AQYNS (C type) Tube tube contains: pcs. batch contains:, pcs. Packing quantity Remarks Tape and reel, pcs. Peak forward current IFP A f= Hz, Duty factor=.% Power dissipation Pin 7mW voltage (peak AC) VL V Continuous load current IL.A.A Peak AC, DC Peak load current Ipeak.7A.A ms ( shot), VL= DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso V AC,V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqy_s: J

179 RF SOP Form A CxR (AQY S). Electrical (Ambient temperature: C 77 F) Item Symbol AQYRS (R type) AQYNS (C type) Condition LED operate current. ma.9 ma IL = ma (R type) IFon. ma IL = 8 ma (C type) LED turn off current Minimum. ma. ma IL = ma (R type) IFoff. ma.8 ma IL = 8 ma (C type) LED dropout voltage. V (. V at IF = ma) VF. V IF = ma On resistance IF.8 9. = ma IL = ma (R type), Ron IL = 8 ma (C type).. Within s on time pf. pf IF = ma capacitance Cout VB = V 8 pf. pf f = MHz Off state leakage current. na. na IF = ma ILeak na VL = Max. Turn on time* IF. ms. ms = ma VL = V Ton RL = (R type),.ms (C type) Transfer *Turn on/turn off time Turn off time* IF. ms. ms = ma VL = V Toff RL = (R type),. ms (C type) I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso,M V DC PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqy_s: J

180 RF SOP Form A CxR (AQY S) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F current, ma - - AQYRS AQYNS 88. current vs. voltage Ambient temperature: C 77 F current, ma 8 8 AQYRS AQYNS voltage, V. On resistance vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: Max. (DC); current: ma (DC) [R type], 8mA (DC) [C type] On resistance, Ω AQYNS AQYRS Turn on time vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC); Continuous load current: ma (DC) [R type], 8mA (DC) [C type]. Turn on time, ms..... AQYRS AQYNS. Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) [R type], 8mA (DC) [C type] Turn off time, ms AQYRS AQYNS. LED operate current vs. ambient temperature voltage: Max. (DC); Continuous load current: ma (DC) [R type], 8mA (DC) [C type] LED operate current, ma.. AQYNS AQYRS LED turn off current vs. ambient temperature voltage: Max. (DC); Continuous load current: ma (DC) [R type], 8mA (DC) [C type]; LED turn off current, ma.. AQYNS AQYRS 8. LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma 9. Current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F AQYRS Current, ma ,.... Voltage, V - - AQYNS ds_x_en_aqy_s: J

181 .Off state leakage current vs. load voltage Measured portion: between terminals and Ambient temperature: C 77 F - RF SOP Form A CxR (AQY S).Turn on time vs. LED forward current Measured portion: between terminals and voltage: V (DC); Continuous load current: ma (DC) [R type], 8mA (DC) [C type]; Ambient temperature: C 77 F..Turn off time vs. LED forward current Measured portion: between terminals and voltage: V (DC); Continuous load current: ma (DC) [R type], 8mA (DC) [C type]; Ambient temperature: C 77 F. Off state leakage current, A AQYRS AQYNS Turn on time, ms..... AQYRS AQYNS Turn off time, ms.8... AQYRS AQYNS PhotoMOS voltage, V LED forward current, ma LED forward current, ma. capacitance vs. applied voltage Measured portion: between terminals and Frequency: MHz, m Vrms; Ambient temperature: C 77 F.Isolation vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F.Insertion loss vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F capacitance, pf AQYRS AQYNS Applied voltage, V Isolation, db 8 AQYNS AQYRS 7 8 Frequency, Hz Insertion loss, db. AQYNS. AQYRS 7 Frequency, Hz -(). On resistance distribution (R type) Measured portion: between terminals and Continuous load current: ma (DC) Ambient temperature: C 77 F -(). On resistance distribution (C type) Measured portion: between terminals and Continuous load current: 8mA (DC) Ambient temperature: C 77 F 7-(). Turn on time distribution (R type) voltage: V (DC) Continuous load current: ma (DC) Ambient temperature: C 77 F Quantity, n Quantity, n Quantity, n On resistance, Ω On resistance, Ω Turn on time, ms ds_x_en_aqy_s: J

182 RF SOP Form A CxR (AQY S) 7-(). Turn on time distribution (C type) voltage: V (DC) Continuous load current: 8mA (DC) Ambient temperature: C 77 F 8-(). Turn off time distribution (R type) voltage: V (DC) Continuous load current: ma (DC) Ambient temperature: C 77 F 8-(). Turn off time distribution (C type) voltage: V (DC) Continuous load current: 8mA (DC) Ambient temperature: C 77 F Quantity, n Quantity, n Quantity, n Turn on time, ms Turn off time, ms Turn off time, ms 9-(). LED operate current distribution (R type) voltage: V (DC) Continuous load current: ma (DC) Ambient temperature: C 77 F 9-(). LED operate current distribution (C type) voltage: V (DC) Continuous load current: 8mA (DC) Ambient temperature: C 77 F Quantity, n Quantity, n LED operate current, ma LED operate current, ma ds_x_en_aqy_s: J

183 AQS S CAD Data mm inch RF SOP Form A C R (AQS S) Space-saving low C R type with channels in a SOP-pin package FEATURES. -channel ( Form A) in a small SOP-pin package The device comes in a miniature SOP measuring (W).7 (L). (H).mm (W).8 (L).7 (H).8inch This contributes to space-saving of PC board.. Both low on-resistance (R type) and low capacitance (C type) available at excellent of C R R type: On resistance.8 (typ.) capacitance pf (typ.) C type: On resistance 9.7 (typ.) capacitance.pf (typ.). High-speed switching of.ms (C type, typical turn on time). Applicable for Form A use, as well as independent Form A RF SOP Form A C R (AQS S) TYPICAL APPLICATIONS. Measuring and testing equipment IC tester, Liquid crystal driver tester, Semiconductor performance tester, Bare board tester, In-circuit tester, Function tester, etc.. Telecommunication and broadcasting equipment. Medical equipment Ultrasonic wave diagnostic machine. Multi-point recorder Warping, Thermo couple, etc. PhotoMOS TYPES AC/DC dual use Type Low on-resistance (R type) Low capacitance (C type) rating* voltage current Package Notes: * Indicate the peak AC and DC values. * The packing style indicator X or Z is not marked on the relay. Tube packing style Part No.* Tape and reel packing style Picked from the //////7/8-pin side Picked from the 9////// /-pin side V.A SOP-pin V.A AQSNS AQSNSX AQSNSZ Packing quantity RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQSRS (R type) AQSNS (C type) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Continuous load current IL. A. A Peak AC, DC Peak load current Ipeak. A. A ms ( shot), VL= DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F Tube AQSRS AQSRSX AQSRSZ tube contains: pcs. batch contains:, pcs. Tape and reel, pcs. ds_x_en_aqs_s: D 7

184 RF SOP Form A C R (AQS S). Electrical (Ambient temperature: C 77 F) Item Symbol AQSRS (R type) AQSNS (C type) Condition LED operate current. ma.9 ma IFon. ma LED turn off current Minimum. ma IFoff. ma.8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma.8 9. IF = ma On resistance Ron.. Within s on time. pf. pf IF = ma capacitance Cout VB = V 8. pf. pf f = MHz Off state leakage current. na. na IF = ma ILeak na VL = Max. Turn on time* IF. ms. ms = ma VL = V Ton RL =. (R type),. ms. ms RL = (C type) Transfer *Turn on/turn off time Turn off time* IF. ms. ms = ma VL = V Toff RL =. (R type),. ms RL = (C type) I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page ds_x_en_aqs_s: D

185 REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F RF SOP Form A C R (AQS S). current vs. load voltage Ambient temperature: C 7 F. On resistance vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) R type/ ma (DC) C type current, ma AQSRS AQSNS current, ma AQSRS AQSNS On resistance, Ω AQSNS PhotoMOS voltage, V - - AQSRS 88. Turn on time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) R type/ ma (DC) C type. Turn on time, ms..... AQSRS AQSNS. Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) R type/ ma (DC) C type. Turn off time, ms..... AQSRS. LED operate current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) R type/ ma (DC) C type LED operate current, ma.. AQSNS AQSRS AQSNS LED turn off current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) R type/ ma (DC) C type LED turn off current, ma.. AQSNS AQSRS 8. LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma 9. Current vs. voltage of output at MOS portion Ambient temperature: C 77 F Current, A.... AQSRS AQSNS Voltage, V ds_x_en_aqs_s: D 9

186 RF SOP Form A C R (AQS S).Off state leakage current vs. load voltage Ambient temperature: C 77 F Off state leakage current, A AQSRS.Turn on time vs. LED forward current voltage: V (DC); Continuous load current: ma (DC) R type/ ma (DC) C type Ambient temperature: C 77 F. Turn on time, ms.... AQSRS AQSNS.Turn off time vs. LED forward current voltage: V (DC); Continuous load current: ma (DC) R type/ ma (DC) C type Ambient temperature: C 77 F. Turn off time, ms.8.. AQSRS - AQSNS.. AQSNS voltage, V LED forward current, ma LED forward current, ma. capacitance vs. applied voltage Frequency: MHz, mvrms; Ambient temperature: C 77 F.Isolation vs. frequency ( impedance) Ambient temperature: C 77 F.Insertion loss vs. frequency ( impedance) Ambient temperature: C 77 F capacitance, pf AQSRS Isolation, db 8 AQSNS AQSRS Insertion loss, db.. AQSNS AQSNS 7 8 AQSRS 7 Applied voltage, V Frequency, Hz Frequency, Hz ds_x_en_aqs_s: D

187 RF SOP Form A CxR Voltage-sensitive (AQSF S) AQSF S Space-saving -channel type with built-in input resistor RF SOP Form A C R Voltage-sensitive CAD Data mm inch FEATURES. Built-in input resistor means less man-hours when mounting The voltage-sensitive type, which eliminates the need to mount an external input resistor, is now available in a small package. Man-hours spent mounting external input resistors are cut and board designing is simplified.. Saves space on PC board Since the small package size remains the same while including a built-in input resistor, space on the PC board is saved. This makes it easier to incorporate space savings when designing miniature devices. Existing way of mounting external resistors. Both low on-resistance (R type) and low capacitance (C type) available at excellent electrical of C R R type: On resistance.8 (typ.) capacitance pf (typ.) C type: On resistance 9. (typ.) capacitance.pf (typ.) TYPICAL APPLICATIONS For multi-circuit switching;. Measuring and testing equipment Semiconductor testing equipment, Probe cards, Datalogger, Board tester and other testing equipment. Telecommunication and broadcasting equipment. Medical equipment PhotoMOS With resistors built in Space saved TYPES AC/DC dual use Type Low on resistance (R type) Low capacitance (C type) rating* voltage current Package Notes: * Indicate the peak AC and DC values. * The packing style indicator X or Z is not marked on the relay. <Artistic impression of PC board space savings due to built-in resistor> In case of SSOP. Tube packing style Part No.* Tape and reel packing style Picked from the //////7/8-pin side Picked from the 9////// /-pin side V.A SOP-pin V.A AQSFNS AQSFNSX AQSFNSZ Packing quantity RATING. Absolute maximum ratings (Condition: ambient temperature C 77 F) Item Symbol AQSFRS AQSFNS Remarks voltage VIN V reverse voltage VRIN V Power dissipation Pin mw* *mw for a voltage (peak AC) VL V V current IL.A.A Peak AC, DC Peak load current Ipeak.A.A ms (shot), VL=DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso V AC Operating temperature Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage temperature Tstg C to + C F to + F Tube AQSFRS AQSFRSX AQSFRSZ tube contains: pcs. batch contains:, pcs. Tape and reel, pcs. ds_x_en_aqsf_s: J

188 RF SOP Form A CxR Voltage-sensitive (AQSF S). Electrical (Condition: ambient temperature C 77 F) Item Symbol AQSFRS AQSFNS Condition Typ..V Operate voltage VFon Max. V Min..8V Turn off voltage VFoff Typ..V current Typ. IIN 8.mA VIN = V Typ VIN = V On resistance Ron Max... Within s on time Typ..pF pf VIN = V capacitance Cout VB = V Max. 8pF.pF f = MHz Off state leakage current Typ..nA.nA VIN = V ILeak Max. na VL = Max. Turn on time* Typ..7ms.ms Ton AQSFRS: Max..ms VIN = V, Typ..7ms.ms AQSFNS: Transfer Turn off time* Toff VIN = V, VL = V, RL = ¾ Max..ms I/O capacitance Typ..8pF f = MHz, VB = V Ciso Max..pF f = MHz, VB = V Initial I/O isolation resistance Min. Riso,M V DC Note: If you wish to change the input voltage, rating or performance, please inquire with our sales. *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Minimum Unit voltage VIN.. V For Dimensions, see Page. For Schematic and Wiring Diagrams, see Page. For Cautions for Use, see Page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqsf_s: J

189 REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F RF SOP Form A CxR Voltage-sensitive (AQSF S). current vs. voltage Ambient temperature: C 77 F. On resistance vs. ambient temperature voltage: V; voltage: V (DC); Continuous load current: ma (DC) R type, ma (DC) C type current, ma AQSFRS AQSFNS current, ma AQSFRS AQSFNS On resistance, Ω AQSFNS PhotoMOS AQSFRS voltage, V. Turn on time vs. ambient temperature voltage: V; voltage: V (DC); Continuous load current: ma (DC) R type, ma (DC) C type.. Turn off time vs. ambient temperature voltage: V; voltage: V (DC); Continuous load current: ma (DC) R type, ma (DC) C type.. Turn on voltage vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) R type, ma (DC) C type Turn on time, ms..... Turn off time, ms... AQSFRS AQSFRS AQSFNS, AQSFRS. AQSFNS AQSFNS Turn on voltage, V 7. Turn off voltage vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) R type, ma (DC) C type 8. current vs. ambient temperature voltage: V 9. Current vs. voltage of output at MOS portion Ambient temperature: C 77 F Turn off voltage, V AQSFNS, AQSFRS current, ma AQSFNS, AQSFRS Current, A. AQSFRS.. AQSFNS Voltage, V ds_x_en_aqsf_s: J

190 RF SOP Form A CxR Voltage-sensitive (AQSF S). current vs. input voltage Ambient temperature: C 77 F (Recommended input voltage:.v). Off state leakage current vs. load voltage Measured portion: between terminals and Ambient temperature: C 77 F. Turn on time vs. input voltage voltage: V (DC); Continuous load current: ma (DC) R type, ma (DC) C type; Ambient temperature: C 77 F -. current, ma AQSFNS, AQSFRS Off state leakage current, A - -9 AQSFRS Turn on time, ms... AQSFRS 7 voltage, V - AQSFNS voltage, V AQSFNS 7 voltage, V. Turn off time vs. input voltage voltage: V (DC); Continuous load current: ma (DC) R type, ma (DC) C type; Ambient temperature: C 77 F. capacitance vs. applied voltage Measured portion: between terminals and Frequency: MHz, m Vrms; Ambient temperature: C 77 F. Isolation vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F. Turn off time, ms... AQSFRS AQSFNS 7 voltage, V capacitance, pf AQSFRS AQSFNS Applied voltage, V Isolation, db 8 AQSFNS AQSFRS 7 8 Frequency, Hz. Insertion loss vs. frequency ( impedance) Measured portion: between terminals and Ambient temperature: C 77 F Insertion loss, db.. AQSFNS AQSFRS 7 Frequency, Hz ds_x_en_aqsf_s: J

191 RF SSOP Form A C R (AQYRV) AQYRV Super miniature SSOP type featuring low C R 8V load voltage RF SSOP Form A C R (AQYRV) CAD Data mm inch FEATURES. Low capacitance and on-resistance with 8V load voltage capacitance (Cout):.pF (typ.) ON resistance (Ron):. (typ.). Reduced package size The bottom dimension has been reduced by % and mounting space by % compared to conventional SOP-pin type.. Mounting space has been reduced and output signals have been improved by using new flat lead terminals. TYPICAL APPLICATIONS. Measuring and testing equipment IC tester, Liquid crystal driver tester, Semiconductor performance tester, Bare board tester, In-circuit tester, function tester, etc.. Telecommunication and broadcasting equipment. Medical equipment. Multi-point recorder Warping, Thermo couple, etc. PhotoMOS Conventional SOP type SSOP Flat lead TYPES. High speed switching Turn on time:.ms (typ.) Turn off time:.ms (typ.) rating* Tape and reel packing style* Packing quantity Package voltage current Picked from the /-pin side Picked from the /-pin side in tape and reel AC/DC dual use 8 V. A SSOP AQYRVY AQYRVW, pcs. Notes: * Indicate the peak AC and DC values. * Tape and reel is the standard packing style for SSOP. For space reasons, the three initial letters of the part number AQY the package (SSOP) indicator V and the packing style indicator Y or W are not marked on the relay. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYRV Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f= Hz, Duty factor=.% Power dissipation Pin 7mW voltage (peak AC) VL 8V Continuous load current IL.A Peak AC, DC Peak load current Ipeak.A A connection: ms ( shot), VL= DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso,V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F ds_x_en_aqyrv: J

192 RF SSOP Form A C R (AQYRV). Electrical (Ambient temperature: C 77 F) Item Symbol AQYRV Condition LED operate current. ma IFon. ma IL = 8 ma LED turn off current Minimum. ma IFoff. ma IL = 8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma On resistance. IF = ma Ron IL = 8 ma. pf IF = ma capacitance Cout VB = V pf f = MHz Off state leakage current. na IF = ma ILeak na VL = Max.. ms IF = ma Turn on time* Ton VL = V. ms RL = Transfer. ms IF = ma Turn off time* Toff VL = V. ms RL = I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso,M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F 7.On resistance vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: V (DC); current: 8mA (DC) 8.Turn on time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: 8mA (DC). current, ma 8 On resistance, Ω Turn on time, ms ds_x_en_aqyrv: J

193 9.Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: 8mA (DC). RF SSOP Form A C R (AQYRV).LED operate current vs. ambient temperature voltage: V (DC); Continuous load current: 8mA (DC).LED turn off current vs. ambient temperature voltage: V (DC); Continuous load current: 8mA (DC) Turn off time, ms...8. LED operate current, ma LED turn off current, ma PhotoMOS LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V..... ma ma ma ma ma.current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F Current, ma Voltage, V Off state leakage current vs. load voltage Measured portion: between terminals and Ambient temperature: C 77 F Off state leakage current, A voltage, V.Turn on time vs. LED forward current Measured portion: between terminals and voltage: V (DC); Continuous load current: 8mA (DC); Ambient temperature: C 77 F..Turn off time vs. LED forward current Measured portion: between terminals and voltage: V (DC); Continuous load current: 8mA (DC); Ambient temperature: C 77 F. 7. capacitance vs. applied voltage Measured portion: between terminals and Frequency: MHz, m Vrms; Ambient temperature: C 77 F Turn on time, ms.. Turn off time, ms.. capacitance, pf 8.. LED forward current, ma LED forward current, ma 8 Applied voltage, V ds_x_en_aqyrv: J 7

194 RF SOP Form A C R (AQY R S) AQY R S CAD Data mm inch Miniature SOP-pin type featuring low C R V/8V load voltage FEATURES. Low capacitance and low on resistance ( voltage: to 8V) capacitance (Cout) On resistance (Ron) AQYRS AQYRS AQYRS.pF (typ.).8 (typ.) 7.pF (typ.).8 (typ.).pf (typ.). (typ.). Miniature SOP-pin package (W). (L). (H). mm (W).9 (L).7 (H).8 inch. Low-level off-state leakage current of typ.. na (AQYRS). Controls low-level analog signals RF SOP Form A C R (AQY R S) TYPICAL APPLICATIONS. Measuring and testing equipment IC tester, Liquid crystal driver tester, Semiconductor performance tester, Bare board tester, In-circuit tester, Function tester, etc.. Telecommunication and broadcasting equipment. Medical equipment. Multi-point recorder Warping, Thermo couple TYPES AC/DC dual use rating* voltage current Package Tube packing style Part No. Tape and reel packing style Picked from the /-pin side Picked from the /-pin side V.A AQYRS AQYRSX AQYRSZ tube contains: 8V.A pcs. SOP-pin AQYRS AQYRSX AQYRSZ batch contains: 8V.A AQYRS AQYRSX AQYRSZ, pcs. Packing quantity * Indicate the peak AC and DC values. Note: For space reasons, the three initial letters of the part number AQY, the package (SOP) indicator S and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number AQYRSX is R) RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYRS AQYRS AQYRS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f= Hz, Duty factor=.% Power dissipation Pin 7mW voltage (peak AC) VL V 8V Continuous load current IL.A.A.A Peak AC, DC Peak load current Ipeak A.7A.A ms ( shot), VL= DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso,V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F Tube Tape and reel, pcs. 8 ds_x_en_aqy_r_s: J

195 RF SOP Form A C R (AQY R S). Electrical (Ambient temperature: C 77 F) Item Symbol AQYRS AQYRS AQYRS Condition LED operate current. ma IFon. ma LED turn off current Minimum. ma IFoff. ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma On resistance.8. IF = ma Ron.. pf 7. pf. pf IF = ma, f = MHz, VB = V capacitance Cout (amplitude of mv) pf pf. pf Measured from s onward after application Off state leakage current. na. na. na IF = ma ILeak na VL = Max.. ms. ms. ms IF = ma Turn on time* Ton VL = V.ms.7ms.ms RL = Transfer. ms.8 ms. ms IF = ma Turn off time* Toff VL = V. ms RL = I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso,M V DC *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see Page. For Schematic and Wiring Diagrams, see Page. For Cautions for Use, see Page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqy_r_s: J 9

196 RF SOP Form A C R (AQY R S) REFERENCE DATA 8. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F 9-() On resistance vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: Max. (DC) Continuous load current: Max. (DC).-() On resistance vs. ambient temperature Measured portion: between terminals and LED current: ma; voltage: Max. (DC) Continuous load current: Max. (DC) current, ma AQYRS AQYRS AQYRS On resistance, Ω.. AQYRS AQYRS On resistance, Ω AQYRS Turn on time vs. ambient temperature LED current: ma; voltage: V (DC) Continuous load current: ma (DC)..Turn off time vs. ambient temperature LED current: ma; voltage: V (DC) Continuous load current: ma (DC)..LED operate current vs. ambient temperature voltage: Max. (DC) Continuous load current: Max. (DC) Turn on time, ms.... AQYRS AQYRS AQYRS Turn off time, ms.... AQYRS AQYRS AQYRS LED operate current, ma LED turn off current vs. ambient temperature voltage: Max. (DC) Continuous load current: Max. (DC) LED turn off current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma -() Current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F..8 AQYRS Voltage, V Current, A ds_x_en_aqy_r_s: J

197 8.-() Current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F.... AQYRS Voltage, V Current, A RF SOP Form A C R (AQY R S) 8.-() Current vs. voltage of output at MOS portion Measured portion: between terminals and Ambient temperature: C 77 F AQYRS Voltage, V Current, ma.off state leakage current vs. load voltage Measured portion: between terminals and Ambient temperature: C 77 F Off state leakage current, A AQYRS AQYRS AQYRS 8 voltage, V PhotoMOS 7.Turn on time vs. LED forward current Measured portion: between terminals and voltage: V (DC) Continuous load current: ma (DC) Ambient temperature: C 77 F. 8.Turn off time vs. LED forward current Measured portion: between terminals and voltage: V (DC) Continuous load current: ma (DC) Ambient temperature: C 77 F. 9-() capacitance vs. applied voltage Measured portion: between terminals and Frequency: MHz, m Vrms Ambient temperature: C 77 F Turn on time, ms.... AQYRS AQYRS AQYRS LED forward current, ma Turn off time, ms.... AQYRS AQYRS AQYRS LED forward current, ma capacitance, pf AQYRS AQYRS 8 Applied voltage, V.-() capacitance vs. applied voltage Measured portion: between terminals and Frequency: MHz, m Vrms Ambient temperature: C 77 F capacitance, pf 8 AQYRS 8 Applied voltage, V ds_x_en_aqy_r_s: J

198 RF SOP Form A C R (AQWRS) AQWRS CAD Data N.O mm inch Miniature SOP8-pin type featuring low C R with high load voltage of V FEATURES. With high load voltage of V, low output capacitance and low onresistance. capacitance (Cout): pf (typ.) On-resistance (Ron): (typ.). -channel (Form A) in miniature SOP8-pin package (W). (L) 9.7 (H). mm (W).7 (L).9 (H).8 inch. Low-level off-state leakage current of typ.. na. Controls low-level analog signals RF SOP Form A C R (AQWRS) TYPICAL APPLICATIONS. Measuring and testing equipment IC tester, Liquid crystal driver tester, Semiconductor performance tester, Bare board tester, In-circuit tester, Function tester, etc.. Telecommunication and broadcasting equipment. Medical equipment. Multi-point recorder Warping, Thermo couple N.O. TYPES AC/DC dual use rating* voltage current Package Tube packing style * Indicate the peak AC and DC values. Note: The packing style indicator X or Z is not marked on the relay. Part No. Tape and reel packing style Picked from the ///-pin side Picked from the //7/8-pin side V.A SOP8-pin AQWRS AQWRSX AQWRSZ Tube tube contains: pcs. batch contains:, pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQWRS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Peak AC, DC Continuous load current IL. A (.7 A) ( ): in case of using only a ( channel) Peak load current Ipeak. A ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqwrs: D

199 RF SOP Form A C R (AQWRS). Electrical (Ambient temperature: C 77 F) Item Symbol AQWRS Condition LED operate current.ma IFon.mA IL=Max. LED turn off current Minimum.mA IFoff.mA IL=Max. LED dropout voltage.v (.V at IF=mA) VF.V IF=mA On resistance IF=mA Ron IL=Max. pf IF=mA capacitance Cout f= MHz pf VB=V Off state leakage current.na IF=mA ILeak na VL=Max. Turn on time*.ms IF=mA Ton.ms IL=Max..ms IF=mA or ma Transfer Turn off time* Toff.ms IL=Max. I/O capacitance.8pf f=mhz Ciso.pF VB=V Initial I/O isolation resistance Minimum Riso,M V DC *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see Page. For Schematic and Wiring Diagrams, see Page. For Cautions for Use, see Page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8: LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). (Using only channel) current, ma (Using channels) On resistance, Ω Turn on time, ms ds_x_en_aqwrs: D

200 RF SOP Form A C R (AQWRS). Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. LED operate current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC). LED turn off current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) Turn off time, ms.... LED operate current, ma.. LED turn off current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma.turn on time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Current, ma Voltage, V Turn off time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. 9. Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A voltage, V. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz, mvrms; Ambient temperature: C 77 F Turn on time, ms... Turn off time, ms...8 capacitance, pf.. LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqwrs: D

201 AQV NS.±..8±.8 CAD Data.±..7±.8.±..8±.8 mm inch RF SOP Form A Low on-resistance (AQV NS) Miniature SOP-pin type featuring low on-resistance with V/V load voltage FEATURES. Miniature SOP-pin package (W). (L). (H). mm (W).7 (L).8 (H).8 inch approx. % of the volume and % of the footprint size of DIP type PhotoMOS Relays. Volume Footprint (DIP) (SOP) Approx. % Approx. % RF SOP Form A Low on-resistance (AQV NS). Low-level off state leakage current. Controls low-level analog signals TYPICAL APPLICATIONS Telephones Measuring instruments Computers Industrial robots High-speed inspection machines PhotoMOS TYPES AC/DC dual use *Indicate the peak AC and DC values. Note: For space reasons, the two initial letters of the part number AQ and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number AQV7NS is V7NS) RATING rating* voltage current Package. Low output capacitance and high response speed The capacitance between output terminals is small; typ. pf. This enables a fast operation speed of typ..ms (AQYNS). Tube packing style Part No. Tape and reel packing style Picked from the //-pin side Picked from the //-pin side V ma AQV7NS AQV7NSX AQV7NSZ SOP-pin V ma AQVNS AQVNSX AQVNSZ Tube tube contains: 7 pcs. batch contains:, pcs. Packing quantity Tape and reel, pcs.. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQV7NS AQVNS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V A. A. A A connection: Peak AC, DC Continuous load current IL B. A. A B, C connection: DC C.8 A. A Peak load current Ipeak. A. A A connection: ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Storage Tstg C to + C F to + F Non-condensing at low temperatures ds_x_en_aqvns: J

202 RF SOP Form A Low on-resistance (AQV NS). Electrical (Ambient temperature: C 77 F) Item Symbol Type of connection AQV7NS AQVNS Remarks LED operate current.7 ma IFon ma LED turn off current Minimum. ma IFoff. ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma 7 IF = ma Ron A Within s on time IF = ma On resistance Ron B 7 Within s on time 8 8 IF = ma Ron C. Within s on time pf IF = capacitance Cout VB = pf f = MHz Off state leakage current Ileak na IF = VL = Max. Turn on time*. ms. ms IF = ma Ton. ms. ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see Page. For Schematic and Wiring Diagrams, see Page. For Cautions for Use, see Page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqvns: J

203 REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A RF SOP Form A Low on-resistance (AQV NS). On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). current, ma AQV7NS AQVNS On resistance, Ω 8 AQVNS AQV7NS Turn on time, ms.8... AQV7NS AQVNS PhotoMOS Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. LED operate current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC). LED turn off current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) Turn off time, ms AQVNS, AQV7NS LED operate current, ma - - AQV7NS AQVNS 8 8 LED turn off current, ma - AQVNS AQV7NS LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma. 8. Voltage vs. current of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F 9. Off state leakage current Measured portion: between terminals and ; Ambient temperature: C 77 F - LED dropout voltage, V..... ma ma ma ma ma Current, ma Voltage, V - - AQV7NS AQVNS Off state leakage current, A -9 - AQV7NS AQVNS voltage, V ds_x_en_aqvns: J 7

204 RF SOP Form A Low on-resistance (AQV NS).LED forward current vs. turn on time Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time, ms AQVNS,AQV7NS.LED forward current vs. turn off time Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn off time, ms.8... AQVNS AQV7NS.Applied voltage vs. output capacitance Measured portion: between terminals and ; Frequency: MHz, mvrms; Ambient temperature: C 77 F capacitance, pf 8 AQV7NS AQVNS LED forward current, ma LED forward current, ma 8 Applied voltage, V.Isolation ( impedance) Measured portion: between terminals and ; Ambient temperature: C 77 F.Insertion loss ( impedance) Measured portion: between terminals and ; Ambient temperature: C 77 F Isolation, db 8 AQV7NS AQVNS Insertion loss, db AQVNS AQV7NS 7 Frequency, Hz 7 Frequency, Hz 8 ds_x_en_aqvns: J

205 RF Form A Low on-resistance (AQV N) AQV N DIP-pin type featuring low on-resistance with V/V load voltage RF Form A Low on-resistance (AQV N) Height includes standoff 8.8. CAD Data.... mm inch FEATURES. Low output capacitance and high response speed The capacitance between output terminals is small; typ. pf. This enables a fast operation speed of typ..ms.. High sensitivity and low onresistance Max.. A of load current can be controlled with input current of ma. The on resistance is less than our conventional models.. Low-level off state leakage current of typ..na (AQV7N). Controls low-level analog signals TYPICAL APPLICATIONS Measuring instruments Communication equipment Computers Robots PhotoMOS TYPES AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side *Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. Picked from the //-pin side V 7 ma AQV7N AQV7NA AQV7NAX AQV7NAZ DIP-pin V ma AQVN AQVNA AQVNAX AQVNAZ Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQV7N(A) AQVN(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V A.7 A. A A connection: Peak AC, DC Continuous load current IL B.8 A. A B, C connection: DC C. A.8 A Peak load current Ipeak. A. A A connection: ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Storage Tstg C to + C F to + F Non-condensing at low temperatures ds_x_en_aqvn: J 9

206 RF Form A Low on-resistance (AQV N). Electrical (Ambient temperature: C 77 F) Item Symbol Type of connection AQV7N(A) AQVN(A) Remarks LED operate current.9 ma IFon. ma LED turn off current Minimum. ma IFoff.8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma 7 IF = ma Ron A Within s on time IF = ma On resistance Ron B 7 Within s on time 8 8 IF = ma Ron C. Within s on time pf IF = capacitance Cout VB = pf f = MHz Off state leakage current. na.9 na IF = ILeak na VL = Max. Turn on time*. ms IF = ma Ton. ms.8 ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqvn: J

207 REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A current, ma AQV7N AQVN RF Form A Low on-resistance (AQV N). On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) On resistance, Ω 8 AQVN AQV7N. Turn on time vs. ambient temperature Sample: AQV7N, AQVN; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time, ms.8... AQV7N AQVN PhotoMOS Turn off time vs. ambient temperature Sample: AQV7N, AQVN; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. LED operate current vs. ambient temperature Sample: AQV7N, AQVN; voltage: Max. (DC); Continuous load current: Max. (DC). LED turn off current vs. ambient temperature Sample: AQV7N, AQVN; voltage: Max. (DC); Continuous load current: Max. (DC) Turn off time, ms... LED operate current, ma AQV7N LED turn off current, ma. AQVN AQV7N AQVN AQVN AQV7N LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma. LED dropout voltage, V..... ma ma ma ma ma 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, ma AQV7N AQVN Voltage, V - 9. Off state leakage current Sample: AQV7N, AQVN; Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A AQV7N AQVN voltage, V ds_x_en_aqvn: J

208 RF Form A Low on-resistance (AQV N).Turn on time vs. LED forward current Sample: AQV7N, AQVN; Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time, ms AQVN-AQV7N.Turn off time vs. LED forward current Sample: AQV7N, AQVN; Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time, ms.8... AQVN AQV7N. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz, mvrms; Ambient temperature: C 77 F capacitance, pf 8 AQV7N AQVN LED forward current, ma LED forward current, ma 8 Applied voltage, V.Isolation ( impedance) Measured portion: between terminals and ; Ambient temperature: C 77 F.Insertion loss ( impedance) Measured portion: between terminals and ; Ambient temperature: C 77 F Isolation, db 8 AQV7N AQVN Insertion loss, db AQVN AQV7N 7 Frequency, HZ 7 Frequency, HZ ds_x_en_aqvn: J

209 RF SOP Form A Low on-resistance (AQW7NS) AQW7NS Miniature SOP8-pin type featuring low on-resistance with V load voltage RF SOP Form A Low on-resistance (AQW7NS) CAD Data mm inch 8 N.O. 7 FEATURES. -channel (Form A) in SOP8-pin package miniature (W). (L) 9.7 (H). mm (W).7 (L).9 (H).8 inch approx. 8% of the volume and % of the footprint size of DIP8-pin. Volume (DIP) (SOP) Approx. 8% TYPICAL APPLICATIONS Telephones Measuring instruments Computer input machines Industrial robots PhotoMOS N.O. Footprint Approx. %. Low output capacitance and high response speed The capacitance between output terminals is small; typ. pf. This enables a fast operation speed of typ..ms.. Low-level off state leakage current. Controls low-level analog signals TYPES AC/DC dual use rating* voltage current Package Tube packing style * Indicate the peak AC and DC values. Note: The packing style indicator X or Z is not marked on the relay. Part No. Tape and reel packing style Picked from the ///-pin side Picked from the //7/8-pin side V ma SOP8-pin AQW7NS AQW7NSX AQW7NSZ Tube tube contains: pcs. batch contains:, pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQW7NS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Peak AC, DC Continuous load current IL. A (. A) ( ): in case of using only channel Peak load current Ipeak. A ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqw7ns: J

210 RF SOP Form A Low on-resistance (AQW7NS). Electrical (Ambient temperature: C 77 F) Item Symbol AQW7NS Condition LED operate current.7ma IFon.mA IL=Max. LED turn off current Minimum.mA IFoff.mA IL=Max. LED dropout voltage.v (.V at IF=mA) VF.V IF=mA IF=mA On resistance Ron IL=Max. Within s on time pf IF=mA capacitance Cout VB=V pf f= MHz Off state leakage current ILeak na IF=mA VL=Max. Turn on time*.ms IF=mA Ton.ms IL=Max..8ms IF=mA Transfer Turn off time* Toff.ms IL=Max. I/O capacitance.8pf f=mhz Ciso.pF VB=V Initial I/O isolation resistance Minimum Riso,M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F current, ma.7. (Using only channel). (Using only channels)..... On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8: LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) On resistance, Ω 8. Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Turn on time, ms ds_x_en_aqw7ns: J

211 capacitance, pf. Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). RF SOP Form A Low on-resistance (AQW7NS). LED operate current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC). LED turn off current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) Turn off time, ms.... LED operate current, ma LED turn off current, ma PhotoMOS LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma.turn on time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time, ms Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Current, ma Voltage, V Turn off time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn off time, ms Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A voltage, V. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz, mvrms; Ambient temperature: C 77 F 8 LED forward current, ma LED forward current, ma 8 Applied voltage, V.Isolation vs. frequency ( impedance) Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F.Insertion loss vs. frequency ( impedance) Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Isolation, db 8 Insertion loss, db 7 Frequency, Hz ds_x_en_aqw7ns: J 7 Frequency, Hz

212 RF Form A Low on-resistance (AQW N) AQW N DIP8-pin type featuring low on-resistance with V/V load voltage RF Form A Low on-resistance (AQW N) Height includes standoff...9±..± CAD Data...±..±.8 mm inch 8 7 FEATURES. -channels (Form A) type with high response speed, low leakage current and low on-resistance.. Applicable for Form A use as well as two independent Form A use. Low capacitance between output terminals ensures high response speed: The capacitance between output terminals is small; typ. pf. This enables for a fast operation speed of typ.. ms.. High sensitivity and low onresistance: Max..7 A of load current can be controlled with input current of ma. The on-resistance is less than our conventional models.. Low-level off state leakage current. Controls low-level analog signals: PhotoMOS relay features extremely low closed-circuit offset voltages to enable control of small analog signals without distortion. TYPICAL APPLICATIONS Measuring instruments Scanner, IC checker, Board tester, etc. TYPES AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side *Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. Picked from the //-pin side V ma AQW7N AQW7NA AQW7NAX AQW7NAZ DIP8-pin V ma AQWN AQWNA AQWNAX AQWNAZ Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQW7N(A) AQWN(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V Continuous load current IL. A (.7 A). A (. A) Peak load current Ipeak. A. A Power dissipation Pout 8 mw Total power dissipation PT 8 mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Storage Tstg C to + C F to + F Peak AC, DC ( ): in case of using only channel A connection: ms ( shot), VL = DC Non-condensing at low temperatures ds_x_en_aqwn: J

213 RF Form A Low on-resistance (AQW N). Electrical (Ambient temperature: C 77 F) Item Symbol AQW7N(A) AQWN(A) Remarks LED operate current.9 ma IFon. ma LED turn off current Minimum. ma IFoff.8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma 7 IF = ma On resistance Ron Within s on time pf IF = capacitance Cout VB = pf f = MHz Off state leakage current ILeak na IF = VL = Max. Turn on time*. ms IF = ma Ton. ms.8 ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F When using channels. On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). current, ma 8 AQW7N AQWN On resistance, Ω 8 AQWN AQW7N Turn on time, ms.8... AQW7N AQWN ds_x_en_aqwn: J 7

214 RF Form A Low on-resistance (AQW N). Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. LED operate current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC). LED turn off current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) Turn off time, ms AQWN AQW7N - 88 LED operate current, ma - - AQW7N AQWN 8 8 LED turn current, ma - AQWN AQW7N LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma. LED dropout voltage, V..... ma ma ma ma ma 8. Voltage vs. current of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Current, ma Voltage, V - - AQW7N AQWN 9. Off state leakage current Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A AQW7N AQWN voltage, V.LED forward current vs. turn on time Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn on time ms AQWN-AQW7N.LED forward current vs. turn off time Measured portion: between terminals and, 7 and 8; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. Turn off time, ms.8... AQWN AQW7N.Applied voltage vs. output capacitance Measured portion: between terminals and, 7 and 8; Frequency: MHz, mvrms; Ambient temperature: C 77 F capacitance, pf 8 AQW7N AQWN LED forward current, ma LED forward current, ma 8 Applied voltage, V.Isolation ( impedance) Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F.Insertion loss ( impedance) Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Isolation, db 8 AQW7N AQWN Insertion loss, db AQWN AQW7N 7 Frequency, HZ 7 Frequency, HZ 8 ds_x_en_aqwn: J

215 AQSRS CAD Data mm inch RF SOP Form A Low on-resistance (AQSRS) Space-saving SOP-pin type featuring low on-resistance with 8V load voltage FEATURES. -channel ( Form A) in a small SOP-pin package The device comes in a miniature SOP measuring (W).7 (L). (H).mm (W).8 (L).7 (H).8inch approx. % of the footprint size of 8-pin (-channel) type. SOP -channel type Footprint Approx. % AQSRS. Low C R and high response speed capacitance:.pf (typ.) On resistance:. (typ.) Turn on time:.ms (typ.). Applicable for Form A use, as well as independent Form A. Low-level off state leakage current of typ..na. Controls low-level analog signals RF SOP Form A Low on-resistance (AQSRS) TYPICAL APPLICATIONS For multi-circuit switching;. Measuring and testing equipment IC tester, Liquid crystal driver tester, Probe card, Bare board tester, In-circuit tester, Function tester, etc.. Communication and broadcasting equipment. Medical equipment Ultrasonic wave diagnostic machine. Multi-point recorder Warping, Thermo couple PhotoMOS TYPES AC/DC dual use rating* voltage current Package Tube packing style * Indicate the peak AC and DC values. Notes:. The packing style indicator X or Z is not marked on the relay.. For types with a built-in resistor, see page. Part No. Tape and reel packing style Picked from the ///// /7/8-pin side Picked from the 9/// ////-pin side 8V 7mA SOP-pin AQSRS AQSRSX AQSRSZ Tube tube contains: pcs. batch contains:, pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQSRS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL 8 V Continuous load current IL.7 A Peak AC, DC Peak load current Ipeak. A ms ( shot), VL= DC Power dissipation Pout mw Total power dissipation PT mw I/O isolatiom voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F ds_x_en_aqsrs: D 9

216 RF SOP Form A Low on-resistance (AQSRS). Electrical (Ambient temperature: C 77 F) Item Symbol AQSRS Condition LED operate current.9 ma IFon ma LED turn off current Minimum. ma IFoff.8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma. IF = ma On resistance Ron Within s on time. pf IF = capacitance Cout VB = V pf f = MHz Off state leakage current. na IF = ILeak na VL = Max. Turn on time*. ms IF = ma Ton. ms.7 ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. On resistance vs. ambient temperature LED current: ma; Continuous load current: 7 ma (DC). Turn on time vs. ambient temperature LED current: ma; voltage: 8 V (DC); Continuous load current: 7 ma (DC). current, ma 8 On resistance, Ω Turn on time, ms ds_x_en_aqsrs: D

217 . Turn off time vs. ambient temperature LED current: ma; voltage: 8 V (DC); Continuous load current: 7 ma (DC). RF SOP Form A Low on-resistance (AQSRS). LED operate current vs. ambient temperature Continuous load current: 7 ma (DC).. LED turn off current vs. ambient temperature Continuous load current: 7 ma (DC). Turn off time, ms.... LED operate current, ma.. LED turn off current, ma.. PhotoMOS LED dropout voltage vs. ambient temperature LED current: to ma 8. Current vs. voltage of output at MOS portion Ambient temperature: C 77 F 9. Off state leakage current vs. load voltage Ambient temperature: C 77 F LED dropout voltage, V..... ma ma ma ma ma - Current, ma Voltage, V - - Off state leakage current, A voltage, V.Turn on time vs. LED forward current voltage: 8 V (DC); Continuous load current: 7 ma (DC); Ambient temperature: C 77 F..Turn off time vs. LED forward current voltage: 8 V (DC); Continuous load current: 7 ma (DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Frequency: MHz, m Vrms; Ambient temperature: C 77 F Turn on time, ms... Turn off time, ms... capacitance, pf 8.. LED forward current, ma LED forward current, ma 8 Applied voltage, V.Isolation vs. frequency ( impedance) Ambient temperature: C 77 F.Insertion loss vs. frequency ( impedance) Ambient temperature: C 77 F Isolation, db 8 Insertion loss, db.. 7 Frequency, Hz 7 Frequency, Hz ds_x_en_aqsrs: D

218 HE Form A (AQV ) (Standard type) TESTING (Reinforced type) 8.8. Height includes standoff AQV CAD Data mm inch DIP-pin type with low on-resistance and high cost-performance FEATURES. Low on-resistance of typ.. (AQV). Reinforced insulation type of,v I/O isolation available. Wide variation of V to,v load voltage HE Form A (AQV ) TYPICAL APPLICATIONS High-speed inspection machines Telephone equipment Data communication equipment TYPES AC/DC dual use *Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. RATING I/O isolation,v Reinforced,V rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side V ma AQV AQVA AQVAX AQVAZ V ma AQV AQVA AQVAX AQVAZ V ma AQV AQVA AQVAX AQVAZ V ma AQV7 AQV7A AQV7AX AQV7AZ V ma AQV AQVA AQVAX AQVAZ DIP-pin V ma AQV AQVA AQVAX AQVAZ, V ma AQV9 AQV9A AQV9AX AQV9AZ, V ma AQV8 AQV8A AQV8AX AQV8AZ V ma AQVH AQVHA AQVHAX AQVHAZ V ma AQVH AQVHA AQVHAX AQVHAZ. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Tube tube contains: pcs. batch contains: pcs. Type of connection AQV(A) AQV(A) AQV(A) AQV7(A) AQV(A) AQV(A) AQV9(A) AQV8(A) AQVH(A) AQVH(A) Packing quantity Tape and reel, pcs. Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor +.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V V V V, V, V V V A. A. A. A. A. A. A. A. A. A. A A connection: Continuous load IL B.7 A. A. A. A. A.8 A. A. A. A.8 A Peak AC, DC current C. A.8 A.7 A. A. A. A. A. A. A. A B, C connection: DC Peak load current Ipeak.8 A. A. A.7 A. A. A.9 A. A. A. A A connection: ms ( shot) VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC, V AC Temperature limits Operating Topr C to +8 C F to +8 F Storage Tstg C to + C F to + F Non-condensing at low temperatures ds_x_en_aqv: J

219 . Electrical (Ambient temperature: C 77 F) Transfer Item LED operate current LED turn off current LED dropout voltage On resistance Off state leakage current Turn on time* Turn off time* I/O capacitance Initial I/O isolation resistance *Turn on/turn off time Symbol HE Form A (AQV ) Type of connection AQV(A) AQV(A) AQV(A) AQV7(A) AQV(A) AQV(A) AQV9(A) AQV8(A) AQVH(A) AQVH(A).9 ma. ma ma. ma IFon Minimum IFoff.8 ma. ma. V (. V at IF = ma) VF. V Ron A Ron B Ron C... ILeak A A A Condition IF = ma IF = ma Within s on time IF = ma Within s on time IF = ma Within s on time IF = ma VL = Max..7 ms. ms.9 ms. ms.8ms.8ms.ms. ms.ms.8ms IF = ma Ton ms ms ms ms ms ms ms.7 ms.9 ms. ms. ms. ms. ms. ms. ms IF = ma Toff. ms. pf f = MHz Ciso pf VB = V Minimum Riso, M V DC PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF Standard type: Reinforced insulation type: to ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqv: J

220 HE Form A (AQV ) REFERENCE DATA -() current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F ; Type of connection: A current,a AQV AQV AQV AQV7 AQV(H) AQV(H) () current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F ; Type of connection: A current, ma - AQV9 AQV8-88 -() On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; Continuous load current: Max. (DC). On resistance, Ω AQV AQV AQV - 8.-() On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; Continuous load current: Max. (DC) On resistance, Ω AQV(H) AQV(H) AQV7-88.-() Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).-() On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; Continuous load current: ma (DC) On resistance, Ω - AQV8 AQV9-88 -() Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). -() Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Turn on time, ms - - AQV 88 AQV AQV7 AQV AQV AQV9 AQV8.-() Turn off time vs. ambient temperature Sample: AQVH, AQVH LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time, ms AQVH AQVH Turn off time, ms... AQV,AQV,AQV AQV AQV,AQV7 Turn off time, ms AQV9,AQV () LED operate current vs. ambient temperature Sample: AQV, AQV, AQV, AQV, AQV9; voltage: Max. (DC); Continuous load current: Max. (DC).-() LED operate current vs. ambient temperature Sample: AQVH,AQVH; voltage: Max. (DC); Continuous load current: Max. (DC) -() LED turn off current vs. ambient temperature Sample: AQV, AQV, AQV, AQV, AQV9; voltage: Max. (DC); Continuous load current: Max. (DC) LED operate current, ma LED operate current, ma LED turn off current, ma ds_x_en_aqv: J

221 .-() LED turn off current vs. ambient temperature Sample: AQV, AQV, AQV, AQV, AQV9; voltage: Max. (DC); Continuous load current: Max. (DC) LED turn off current, ma () Current vs. voltage of output at MOS portion Sample: AQV9 Measured portion: between terminals and ; Ambient temperature: C 77 F AQV9 Current, ma Voltage, V AQV8 7. LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma 9-(). Off state leakage current vs. load voltage Sample: AQV9; Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A voltage, V HE Form A (AQV ) 8-() Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F. AQV. AQV. AQV. AQV7 AQV(H). AQV(H) Voltage, V Current, A 9-(). Off state leakage current vs. load voltage Sample: AQVH; Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A voltage, V PhotoMOS -(). Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. -(). Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F -(). Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F... Turn on time, ms.... AQV AQV AQV, AQV, AQV7, AQV AQV9 AQV8 LED current, ma Turn on time, ms 8 AQVH AQVH LED current, ma Turn off time, ms.8... LED Current, ma AQV,, AQV,7 AQV AQV9,8 -(). Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. -() capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F.-() capacitance vs. applied voltage Sample: AQV9; Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms..8.. AQVH,H capacitance, pf capacitance, pf 8. LED current, ma ds_x_en_aqv: J AQV, AQV AQV(H), AQV(H),7 Applied voltage, V Applied voltage, V

222 HE SOP Form A High Capacity (AQVGS) VDE AQVGS Miniature SOP-pin type with high capacity of.a load current HE SOP Form A High Capacity (AQVGS) CAD Data mm inch FEATURES. High capacity in a miniature SOP package Continuous load current:.a voltage: 8V. Greatly improved specifications allow you to use this in place of mercury and mechanical relays. TYPICAL APPLICATIONS Security equipment Fire-preventing system Measuring instruments TYPES AC/DC dual use *Indicate the peak AC and DC values. Note: For space reasons, the two initial letters of the part number AQ and the packing style indicator X or Z are not marked on the relay. RATING rating* voltage current Package Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side 8 V. A SOP-pin AQVGS AQVGSX AQVGSZ Tube tube contains: 7 pcs. batch contains:, pcs. Packing quantity Tape and reel, pcs.. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQVGS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL 8 V A. A Continuous load current IL B.7 A A connection: Peak AC, DC B, C connection: DC C. A Peak load current Ipeak A ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqvgs: J

223 HE SOP Form A High Capacity (AQVGS). Electrical (Ambient temperature: C 77 F) Item Symbol Type of connection AQVGS Condition LED operate current. ma IFon ma IL = ma LED turn off current Minimum. ma IFoff. ma IL = ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma.9 Ron A. IF. = ma On resistance Ron B. Within s on time. Ron C. Off state leakage current ILeak A IF = ma, VL = Max. Turn on time*. ms IF = ma, IL = ma Ton ms VL = V. ms IF = ma, IL = ma Turn off time* Toff. ms VL = V Transfer.8 pf f = MHz I/O capacitance Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC Max. switching frequency times/s IF = ma, duty = % VL IL = V A *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F.On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC) Continuous load current: Max.(DC).Turn on time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) current, A C connection B connection A connection On resistance, Ω.8.. Turn on time, ms ds_x_en_aqvgs: J

224 HE SOP Form A High Capacity (AQVGS).Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). 7.LED operate current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) 8.LED turn off current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) Turn off time, ms... LED operate current, ma LED turn off current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V..... ma ma ma ma ma.current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, A -.. Voltage, V..Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F.Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F voltage, V. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms Turn off time, ms... capacitance, pf. LED forward current, ma LED forward current, ma Applied voltage, V.Max. switching frequency vs. load voltage and load current LED current: ma Ambient temperature: C 77 F duty=% Max. switching frequency, time/s 7 voltage, V current, A 8 ds_x_en_aqvgs: J

225 AQVG Height includes standoff CAD Data mm inch DIP-pin type with newgeneration MOS capable of A to A high-frequency switching FEATURES. Greatly increased load current in a compact DIP package Continuous load current:.a (AQVG). Greatly improved specifications allow you to use this in place of mercury and mechanical relays.. Low on-resistance (typ. m, AQVG) HE Form A High Capacity VDE HE Form A High Capacity TYPICAL APPLICATIONS Measuring instrument market (Testers etc.) Industrial machinery and equipment Power supply controls Security/Disaster prevention market I/O sections of warning devices, security systems PhotoMOS TYPES rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side Tube Packing quantity Tape and reel AC/DC dual use V V. A. A DIP-pin DIP-pin AQVG AQVG AQVGA AQVGA AQVGAX AQVGAX AQVGAZ AQVGAZ tube contains: pcs. batch contains: pcs., pcs. *Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the device. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQVG(A) AQVG(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V A. A. A Continuous load current IL B. A. A A connection: Peak AC, DC B, C connection: DC C. A. A Peak load current Ipeak. A ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqv_g: 7J 9

226 HE Form A High Capacity. Electrical (Ambient temperature: C 77 F) Item Symbol Type of connection AQVG(A) AQVG(A) Condition LED operate current. ma. ma IFon ma ma IL = ma LED turn off current Minimum. ma. ma IFoff. ma. ma IL = ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma..8 Ron A.8. IF.8. = ma On resistance Ron B.. Within s on time.. Ron C.. Off state leakage current ILeak A IF = ma, VL = Max. Turn on time*. ms IF = ma, IL = ma Ton. ms VL = V. ms. ms IF = ma, IL = ma Transfer Turn off time* Toff VL = V. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA -() current vs. ambient temperature Tested sample: AQVG: Allowable ambient temperature: C to +8 C F to +8 F 8 -() current vs. ambient temperature Tested sample: AQVG: Allowable ambient temperature: C to +8 C F to +8 F 8. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC) Continuous load current: Max.(DC). current, A C connection B connection A connection current, A C connection B connection A connection On resistance, Ω.. AQVG. AQVG ds_x_en_aqv_g: 7J

227 . Turn on time vs. ambient temperature Tested sample: All; LED current: ma; voltage: V (DC); Continuous load current: ma (DC). Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) HE Form A High Capacity. LED operate current vs. ambient temperature Tested sample: All; voltage: V (DC); Continuous load current: ma (DC) Turn on time, ms Turn off time, ms.8... AQVG AQVG LED operate current, ma PhotoMOS LED turn off current vs. ambient temperature Tested sample: All; voltage: V (DC); Continuous load current: ma (DC) LED turn off current, ma Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A AQVG AQVG 7. LED dropout voltage vs. ambient temperature Tested sample: All; LED current: to ma. LED dropout voltage, V ma ma ma.turn on time vs. LED forward current Measured portion: between terminals and ; Tested sample: All; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F Turn on time, ms ma ma 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, A Voltage, V AQVG AQVG.Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC) Continuous load current: ma (DC) Ambient temperature: C 77 F. Turn off time, ms.... AQVG AQVG - voltage, V LED forward current, ma LED forward current, ma. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F capacitance, pf AQVG AQVG Applied voltage, V.Max. switching frequency Tested sample: AQVG; LED current: ma, Ambient temperature: C 77 F Max. switching frequency, time/s duty=% 8 voltage, V current, A ds_x_en_aqv_g: 7J

228 HE Form A (AQW) Height includes standoff AQW...9. CAD Data mm inch DIP8-pin type featuring low on-resistance with V load voltage FEATURES. High sensitivity and low onresistance Can control max.. A load current with ma input current. Low on-resistance of typ.... Applicable for Form A use as well as two independent Form A use. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. Low-level off state leakage current of max. A HE Form A (AQW) TYPICAL APPLICATIONS High-speed inspection machines Data communication equipment Telephone equipment TYPES AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the ///-pin side *Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. Picked from the //7/8-pin side V ma DIP8-pin AQW AQWA AQWAX AQWAZ Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQW(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V A connection: Peak AC, DC Continuous load current IL. A (. A) ( ): in case of using only channel Peak load current Ipeak. A A connection: ms ( shot), VL = DC Power dissipation Pout 8 mw Total power dissipation PT 8 mw I/O isolation voltage Viso, V AC Between input and output/between contact sets Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqw: J

229 HE Form A (AQW). Electrical (Ambient temperature: C 77 F) Item Symbol AQW(A) Condition LED operate current.9 ma IFon ma IL= Max. LED turn off current Minimum. ma IFoff.8 ma IL= Max. LED dropout voltage. V (. V at IF = ma) VF. V IF = ma. IF = ma On resistance Ron Within s on time Off state leakage current ILeak A IF = ma VL = Max. Turn on time*.8 ms IF = ma Ton ms. ms IF = ma Transfer Turn off time* Toff. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F When using channels current, A On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: V (DC); Continuous load current: ma (DC) On resistance, Ω Turn on time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) Turn on time, ms ds_x_en_aqw: J

230 HE Form A (AQW). Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC).. LED operate current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC). LED turn off current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) Turn off time, ms... LED operate current, ma LED turn off current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V..... ma ma ma ma ma Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Current, A Voltage, V Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A voltage, V.Turn on time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F..Turn off time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F Turn on time, ms.... Turn off time, ms..8.. capacitance, pf.. LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqw: J

231 AQV, AQVH HE Form B (AQV, AQVH) TESTING (Standard type) (Standard type) Normally closed DIP-pin type Low on-resistance with V/V load voltage HE Form B (AQV, AQVH) Height includes standoff 8.8. CAD Data.... mm inch FEATURES. Form B (Normally-closed) type with low on-resistance This has been achieved thanks to the built-in MOSFET processed by our proprietary method, DSD (Doublediffused and Selective Doping) method. Cross section of the normally-closed type of power MOS Passivation membrane Source electrode Gate electrode Intermediate insulating membrane. High sensitivity and low onresistance Can control max.. A load current with ma input current. Low on-resistance of typ.. (AQV).. Reinforced insulation, V type also available. More than. mm. inch internal insulation distance between inputs and outputs. Conforms to IEC9 (reinforced insulation). PhotoMOS N+ N+ P+ N- N+ N+ N+ P+ Gate oxidation membrane Drain electrode. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion. TYPICAL APPLICATIONS Security equipment High-speed inspection machines Measuring instruments Telephone equipment Sensing equipment TYPES I/O isolation rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side Tube Packing quantity Tape and reel AC/DC dual use, V AC Reinforced, V AC V ma V ma DIP-pin AQV AQVA AQVAX AQVAZ AQV AQVA AQVAX AQVAZ AQVH AQVHA AQVHAX AQVHAZ * Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. tube contains: pcs. batch contains: pcs., pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQV(A) AQV(A) AQVH(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V A. A. A Continuous load current IL B. A.8 A A connection: Peak AC, DC B, C connection: DC C. A. A Peak load current IPEAK. A. A A connection: ms ( shot), VL = DC Power dissipation POUT mw Total power dissipation PT mw I/O isolation voltage Viso, V AC, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F ds_x_en_aqv: J

232 HE Form B (AQV, AQVH). Electrical (Ambient temperature: C 77 F) Item Symbol Type of connection AQV(A) AQV(A) AQVH(A) Remarks LED operate (OFF) current ma.9 ma. ma IFoff ma LED reverse (ON) current Minimum. ma IFon.9 ma.8 ma. ma LED dropout voltage. V (. V at IF= ma) VF. V IF = ma. IF = ma Ron A IL= Max. 8 Within s on time.7. IF = ma On resistance Ron B IL= Max. 8 Within s on time.. IF = ma Ron C Within s on time Off state leakage current ILeak A A A IF= ma VL= Max. Operate (OFF) time*. ms. ms.8 ms IF = ma ma Toff ms. ms. ms. ms. ms. ms IF = ma ma Transfer Reverse (ON) time* Ton ms I/O capacitance. pf f = MHz Ciso pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Operate/Reverse time % Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF Standard type: Reinforced insulation type: to ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A AQV current, ma AQV(H) Ton 9%. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) On resistance, Ω 8 AQV(H) AQV. Operate (OFF) time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Operate (OFF) time, ms AQVH AQV AQV ds_x_en_aqv: J

233 . Reverse (ON) time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Reverse (ON) time, ms.... AQV, AQV AQVH LED operate (OFF) current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) LED operate (OFF) current, ma - HE Form B (AQV, AQVH) AQVH - 88 AQV AQV. LED reverse (ON) current vs. ambient temperature voltage: Max. (DC); Continuous load current: Max. (DC) LED reverse (ON) current, ma - AQVH AQV AQV - 8 PhotoMOS 7. LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma.operate (OFF) time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F AQV(H) Current, ma AQV Voltage, V.Reverse (ON) time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. 9. Off state leakage current vs. load voltage Sample: AQV; Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A voltage, V. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F Opperate (OFF) time, ms 8 AQVH AQV, AQV LED forward current, ma Reverse (ON) time, ms.8... AQVH AQV, AQV LED forward current, ma capacitance, pf AQV AQV(H) Applied voltage, V ds_x_en_aqv: J 7

234 HE Form B (AQW) Height includes standoff AQW 8.8. CAD Data mm inch Normally closed ( Form A) DIP-pin type Low on-resistance with V load voltage FEATURES. Form B (Normally-closed) type Has been realized thanks to the built-in MOSFET processed by our proprietary method, DSD (Double-diffused and Selective Doping) method.. Applicable for Form B use as well as two independent Form B use.. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. High sensitivity and low onresistance Can control max.. A load current with ma input current. Low on-resistance of typ... Low-level off state leakage current of max. A HE Form B (AQW) TYPICAL APPLICATIONS Security equipment High-speed inspection machine Measuring instruments Telecommunication equipment Sensing equipment TYPES AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the ///-pin side *Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. Picked from the //7/8-pin side V ma DIP8-pin AQW AQWA AQWAX AQWAZ Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQW(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V A connection: Peak AC, DC Continuous load current IL. A (. A) ( ): for one b-circuit Peak load current Ipeak. A A connection: ms ( shot), VL = DC Power dissipation Pout 8 mw Total power dissipation PT 8 mw I/O isolation voltage Viso, V AC Between input and output/between contact sets Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F 8 ds_x_en_aqw: J

235 HE Form B (AQW). Electrical (Ambient temperature: C 77 F) Item Symbol AQW(A) Condition LED operate (OFF) current.9 ma IFoff ma LED reverse (ON) current Minimum. ma IFon.8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma IF = ma On resistance Ron Within s on time Off state leakage current ILeak A IF = ma VL = Max. Operate (OFF) time*. ms IF = ma ma Toff ms. ms IF = ma ma Transfer Reverse (ON) time* Ton ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Operate/Reverse time PhotoMOS % Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F When using channels. On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: V (DC); Continuous load current: ma (DC). Operate (OFF) time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) current, ma On resistance, Ω Operate (OFF) time, ms ds_x_en_aqw: J 9

236 HE Form B (AQW). Reverse (ON) time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). Reverse (ON) time, ms..... LED operate (OFF) current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED operate (OFF) current, ma. LED reverse (ON) current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED reverse (ON) current, ma LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V..... ma ma ma ma ma 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Current, ma Voltage, V Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A voltage, V.Operate (OFF) time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F.Reverse (ON) time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F.. capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F Operate (OFF) time, ms Reverse (ON) time, ms.8... capacitance, pf LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqw: J

237 HE Form A & B (AQW) AQW Both Form A and Form B contacts incorporated in a compact DIP8-pin with low on-resistance HE Form A & B (AQW) Height includes standoff CAD Data N.C. N.O mm inch FEATURES. Applicable for Form A Form B use as well as two independent Form A and Form B use. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. High sensitivity and low onresistance Can control max.. A load current with ma input current. Low on-resistance of max... Low-level off state leakage current of max. A TYPICAL APPLICATIONS High-speed inspection machines Data communication equipment Telephone equipment Sensing equipment PhotoMOS TYPES AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the ///-pin side *Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. Picked from the //7/8-pin side V ma DIP8-pin AQW AQWA AQWAX AQWAZ Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQW(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Peak AC, DC Continuous load current IL.A (. A) ( ): in case of using only channel) Peak load current Ipeak. A A connection: ms ( shot), VL = DC Power dissipation Pout 8 mw Total power dissipation PT 8 mw I/O isolation voltage Viso, V AC Between input and output/between contact sets Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqw: J

238 HE Form A & B (AQW). Electrical (Ambient temperature: C 77 F) Item Symbol AQW(A) Remarks LED operate current IFon (N.O.).9 ma IFoff (N.C.) ma LED reverse current Minimum IFoff (N.O.). ma IFon (N.C.).8 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma IF = ma (N.O.) IF = ma (N.C.) On resistance Ron Within s on time IF = ma (N.O.) Off state leakage current ILeak A IF = ma (N.C.) VL = Max. Operate time* Ton (N.O.).8 ms (N.O.). ms (N.C.) IF = ma ma Toff (N.C.) ms Toff (N.O.). ms (N.O.). ms (N.C.) IF = ma ma Transfer Reverse time* Ton (N.C.) ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Operate/Reverse time ) N.O. ) N.C. 9% % % Ton Toff Toff Ton 9% RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 9. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F When using channels current, ma On resistance vs. ambient temperature Measured portion: between terminals and, 7 and 8; LED current: ma; voltage: V (DC); Continuous load current: ma (DC) On resistance, Ω Across terminals and (N.O.) Across terminals 7 and 8 (N.C.) Operate time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) Operate (OFF) time, ms - Across terminals and (N.O.) Across terminals 7 and 8 (N.C.) - 88 ds_x_en_aqw: J

239 . Reverse time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) Reverse (ON) time, ms.... Across terminals and (N.O.) Across terminals 7 and 8 (N.C.).. LED operate current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED operate (OFF) current, ma Across terminals and (N.O.) Across terminals 7 and 8 (N.C.) HE Form A & B (AQW). LED reverse current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED reverse (ON) current, ma Across terminals and (N.O.) Across terminals 7 and 8 (N.C.) PhotoMOS LED dropout voltage vs. ambient temperature LED current: to ma LED dropout voltage, V ma ma ma ma ma 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Current, ma - Voltage, V - Across terminals and (N.O.) Across terminals 7 and 8 (N.C.) - 9. Off state leakage current vs. load voltage Measured portion: between terminals and, 7 and 8; Ambient temperature: C 77 F Off state leakage current, A Across terminals and (N.O.) Across terminals 7 and 8 (N.C.) 8 voltage, V.Operate time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F Operate (OFF) time, ms Across terminals and (N.O.) Across terminals 7 and 8 (N.C.).Reverse time vs. LED forward current Measured portion: between terminals and, 7 and 8; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F Reverse (ON) time, ms Across terminals and (N.O.) Across terminals 7 and 8 (N.C.). capacitance vs. applied voltage Measured portion: between terminals and, 7 and 8; Frequency: MHz; Ambient temperature: C 77 F capacitance, pf Across terminals and (N.O.) Across terminals 7 and 8 (N.C.) LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqw: J

240 HF Form A (AQV, ) Height includes standoff AQV, 8.8. CAD Data.... mm inch DIP-pin type with wide variation Low on-resistance FEATURES. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. Controlled with low-level input signals. AC/DC dual use type and DC only type available. HF Form A (AQV, ) TYPICAL APPLICATIONS High-speed inspection machines Telephone equipment Data communication equipment Computers (AQV series) (AQV series) TYPES. DC type (AQV series) DC only rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side *Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. Picked from the //-pin side V 7 ma AQV AQVA AQVAX AQVAZ V ma AQV AQVA AQVAX AQVAZ DIP-pin V ma AQV AQVA AQVAX AQVAZ V 8 ma AQV AQVA AQVAX AQVAZ Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs. AC/DC type (AQV series) rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side Picked from the //-pin side V ma AQV AQVA AQVAX AQVAZ AC/DC V ma AQV AQVA AQVAX AQVAZ DIP-pin dual use V ma AQV AQVA AQVAX AQVAZ V ma AQV AQVA AQVAX AQVAZ *Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs ds_x_en_aqv_: J

241 RATING. DC type ) Absolute maximum ratings (Ambient temperature: C 77 F) HF Form A (AQV, ) Item Symbol AQV(A) AQV(A) AQV(A) AQV(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin mw voltage (DC) VL V V V V Continuous load current (DC) IL.7 A. A. A.8 A Peak load current Ipeak.8 A. A. A. A ms ( shot) Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V (AC) Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F ) Electrical (Ambient temperature: C 77 F) Item Symbol AQV(A) AQV(A) AQV(A) AQV(A) Condition LED operate current. ma IFon ma LED turn off current Minimum.8 ma IFoff. ma LED dropout voltage. V VF V IF = ma IF = ma On resistance Ron..7 8 Within s on time Off state leakage current ILeak A IF = ma, VL = Max. Turn on time*. ms. ms. ms.9 ms IF = ma Ton ms.7 ms.8 ms IF = ma Transfer Turn off time* Toff ms I/O capacitance. pf f = MHz Ciso pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC. AC/DC type ) Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQV(A) AQV(A) AQV(A) AQV(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin mw voltage (peak AC) VL V V V V A. A. A. A. A A connection: Peak AC, DC Continuous load current IL B.7 A. A. A.8 A B, C connection: DC C. A.8 A. A. A Peak load current Ipeak.8 A. A. A. A A connection ms ( shot) VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperature limits Storage Tstg C to + C F to + F PhotoMOS ds_x_en_aqv_: J

242 HF Form A (AQV, ) ) Electrical (Ambient temperature: C 77 F) Item Symbol Type of connection AQV(A) AQV(A) AQV(A) AQV(A) Remarks LED operate current. ma IFon ma LED turn off current Minimum.8 ma IFoff. ma LED dropout voltage. V VF V IF = ma..7.. IF = ma Ron A. 8 Within s on time IF = ma On resistance Ron B..7 8 Within s on time..8.. IF = ma Ron C.. Within s on time Off state leakage current ILeak A IF = ma, VL = Max. Turn on time*.8 ms. ms. ms.8 ms IF = ma Ton ms.8 ms.7 ms IF = ma Transfer Turn off time* Toff ms I/O capacitance. pf f = MHz Ciso pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqv_: J

243 REFERENCE DATA -() current vs. ambient temperature (DC type) Allowable ambient temperature: C to +8 C F to +8 F current, A AQV(A) AQV(A) AQV(A) AQV(A).-() current vs. ambient temperature (AC/DC type) Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A.8 current, A AQV(A) AQV(A) AQV(A) AQV(A) HF Form A (AQV, ) -() On resistance vs. ambient temperature (DC type: AQV, AQV) LED current: ma; Continuous load current: Max. (DC). On resistance, Ω.8... AQV AQV PhotoMOS () On resistance vs. ambient temperature (DC type: AQV, AQV) LED current: ma; Continuous load current: Max. (DC) On resistance, Ω 8 AQV AQV () Turn on time vs. ambient temperature (DC type) LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).-() On resistance vs. ambient temperature (AC/DC type: AQV, AQV) Measured portion: between terminals and ; LED current: ma; Continuous load current: Max. (DC). On resistance, Ω AQV AQV () Turn on time vs. ambient temperature (AC/DC type) LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).-() On resistance vs. ambient temperature (AC/DC type: AQV, AQV) Measured portion: between terminals and ; LED current: ma; Continuous load current: Max. (DC) On resistance, Ω 8 8 AQV AQV () Turn off time vs. ambient temperature (DC type) LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Turn on time, ms AQV AQV AQV AQV Turn on time, ms AQV AQV AQV AQV Turn off time, ms.... AQV,AQV AQV AQV () Turn off time vs. ambient temperature (AC/DC type) LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) Turn off time, ms ds_x_en_aqv_: J AQV AQV, AQV AQV 7-() LED operate/turn off current vs. ambient temperature (DC type) voltage: Max. (DC); Continuous load current: Max. (DC) LED operate/turn off current, ma AQV AQV AQV AQV () LED operate/turn off current vs. ambient temperature (AC/DC type) voltage: Max. (DC); Continuous load current: Max. (DC) LED operate/turn off current, ma AQV AQV AQV AQV

244 HF Form A (AQV, ) 8.LED dropout voltage vs. ambient temperature Sample: AQV LED current: to ma. LED dropout voltage, V ma ma ma ma. ma () Current vs. voltage of output at MOS portion (DC type) Ambient temperature: C 77 F Current, A AQV AQV AQV AQV Voltage, V () Current vs. voltage of output at MOS portion (AC/DC type) Measured portion: between terminals and ; Ambient temperature: C 77 F. AQV.. AQV.. AQV. AQV Voltage, V Current, ma.off state leakage current vs. load voltage Sample: AQV; Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A () Turn on time vs. LED forward current (DC type) voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F Turn on time, ms () Turn on time vs. LED forward current (AC/DC type) Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F Turn on time, ms voltage, V. AQV AQV AQV AQV LED forward current, ma. AQV AQV AQV AQV LED forward current, ma -() Turn off time vs. LED forward current (DC type) voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F..-() Turn off time vs. LED forward current (AC/DC type) Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F. -() capacitance vs. applied voltage (DC type) Frequency: MHz; Ambient temperature: C 77 F 7 Turn on time, ms..8. AQV AQV AQV AQV Turn on time, ms..8. AQV AQV AQV AQV capacitance, pf LED forward current, ma LED forward current, ma AQV, AQV, Applied voltage, V.-() capacitance vs. applied voltage (AC/DC type) Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F 7 capacitance, pf AQV, AQV, Applied voltage, V 8 ds_x_en_aqv_: J

245 HS Form A (AQV) AQV DIP-pin type featuring high sensitivity HS Form A (AQV) CAD Data.... mm inch FEATURES. High sensitivity LED operate current:.ma (typ.) Recommended LED input current: ma. Low-level off state leakage current of max. A. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion. TYPICAL APPLICATIONS. High-speed inspection machines Scanner, IC checker, Board tester, etc.. Telephone and data communication equipment PhotoMOS TYPES AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the //-pin side *Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. Picked from the //-pin side V ma DIP-pin AQV AQVA AQVAX AQVAZ Tube tube contains: pcs. batch contains: pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol Type of connection AQV(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (Peak AC) VL V A. A A connection: Peak AC, DC Continuous load current IL B. A B, C connection: DC C. A Peak load current Ipeak. A A connection: ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperature limits Storage Tstg C to + C F to + F ds_x_en_aqv: J 9

246 HS Form A (AQV). Electrical (Ambient temperature: C 77 F) Item Symbol Type of connection AQV(A) Remarks LED operate current. ma IF/ t Q Min. A/s IFon. ma LED turn off current Minimum. ma IF/ t Q Min. A/s IFoff.9 ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma IF = ma, Ron A Within s on time. IF = ma, On resistance Ron B Within s on time. IF = ma, Ron C. Within s on time Off state leakage current ILeak A IF = ma, VL = Max. Turn on time*.89 ms IF = ma Ton ms. ms IF = ma Transistor Turn off time* Toff ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC *Turn on/turn off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F Type of connection: A. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: V (DC); Continuous load current: ma (DC). Turn on time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) current, ma 8 On resistance, Ω Turn on time, ms Ambient temperature C 7 ds_x_en_aqv: J

247 . Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). LED operate current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) HS Form A (AQV). LED turn off current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) Turn off time, ms Ambient temperature C LED operate current, ma Ambient temperature C LED turn off current, ma Ambient temperature C PhotoMOS 7. LED dropout voltage vs. ambient temperature LED current: to ma LED dropout, voltage, V. ma ma. ma ma ma. ma Ambient temperature C 8. Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Voltage, V Current, ma 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A voltage, V.Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. Turn on time, ms......turn off time vs. LED forward current Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F Turn off time, ms capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz; Ambient temperature: C 77 F off time, ms LED forward current, ma LED forward current, ma Applied voltage, V ds_x_en_aqv: J 7

248 HS SOP Form A AQY CAD Data mm inch Recommended LED forward current ma, High Sensitivity (Low current-consumption), Miniature SOP-pin Type FEATURES. High sensitivity (Low currentconsumption) HS type PhotoMOS relays need less than half LED forward current of other types. This contributes to energy-saving working of equipment and longer operating life for battery. Sensitivity comparison between HS type and GU type In case of load voltage V type, SOP-pin LED operate current HS type (AQYS) GU type (AQYS). ma.9 ma. ma ma HS SOP Form A TYPICAL APPLICATIONS Ideal for battery-powered devices that need to lengthen operating life. Also recommended for powereconomizing of testing equipment that uses many relays.. Security equipment Crime-preventing system: Surveillance camera, burglar alarm Disaster-preventing system: Fire alarm, heat/smoke sensor. Measuring instruments. Meters (watt-hour, gas, etc.). Telecommunication equipment. Industrial equipment Recommended LED forward current ma ma TYPES AC/DC dual use rating* voltage current Package. Small package (SOP-pin). V, V and V load voltage types available Tube packing style Part No. Tape and reel packing style Picked from the /-pin side Picked from the /-pin side V ma AQYS AQYSX AQYSZ tube contains: V ma SOP-pin AQYS AQYSX AQYSZ pcs. batch contains: V ma AQYS AQYSX AQYSZ, pcs. Packing quantity Note: For space reasons, the three initial letters of the part number AQY, the surface mount terminal indicator S and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number AQYSX is.) * Indicate the peak AC and DC values. Ratings and packages other than those given above are available by special order. Please contact our sales office in your area. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQYS AQYS AQYS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V Continuous load current IL. A. A. A Peak AC, DC Peak load current Ipeak. A. A. A ms ( shot), VL = DC Power dissipation Pout mw Total power dissipation PT mw I/O isolation voltage Viso, V AC Operating temperature Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage temperature Tstg C to + C F to + F Tube Tape and reel, pcs. 7 ds_x_en_aqy: J

249 HS SOP Form A. Electrical (Ambient temperature: C 77 F) Item Symbol AQYS AQYS AQYS Remarks LED operate current. ma IF/ t Min. A/s IFon. ma LED turn off current Minimum. ma IF/ t Min. A/s IFoff. ma LED dropout voltage. V (. V at IF = ma) VF. V IF = ma IF = ma On resistance Ron. Within s on time Off state leakage current ILeak A IF = ma VL = Max. Turn on time*. ms. ms.8 ms IF = ma Ton ms. ms. ms. ms IF = ma Transfer Turn off time* Toff ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC Note: Please refer to the schematic and wiring diagram for connection method. *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation (turn on) and resetting (turn off). Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F 7. On resistance vs. ambient temperature Measured portion: between terminals and ; LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC). Turn on time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC) current, ma AQYS On resistance, Ω AQYS AQYS Turn on time, ms AQYS AQYS AQYS AQYS AQYS AQYS 8 8 ds_x_en_aqy: J 7

250 HS SOP Form A. Turn off time vs. ambient temperature LED current: ma; voltage: Max. (DC); Continuous load current: Max. (DC).. LED operate current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC).. LED turn off current vs. ambient temperature Sample: All types; voltage: Max. (DC); Continuous load current: Max. (DC). Turn off time, ms... AQYS LED operate current, ma.8.. LED turn off current, ma.8... AQYS, AQYS LED dropout voltage vs. ambient temperature Sample: All types; LED current: to ma LED dropout voltage, V ma ma ma ma ma ma 9. Off state leakage current vs. load voltage Measured portion: between terminals and ; Ambient temperature: C 77 F Off state leakage current, A AQYS, AQYS AQYS 8 voltage, V 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F Current, A.. AQYS. Voltage, V Turn on time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F Turn on time, ms AQYS AQYS, AQYS 8 LED forward current, ma 8-(). Current vs. voltage of output at MOS portion Measured portion: between terminals and ; Ambient temperature: C 77 F AQYS Current, A AQYS Voltage, V -.Turn off time vs. LED forward current Measured portion: between terminals and ; voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: C 77 F Turn off time, ms.8... AQYS AQYS, AQYS 8 LED forward current, ma. capacitance vs. applied voltage Measured portion: between terminals and ; Frequency: MHz ( mvrms); Ambient temperature: C 77 F capacitance, pf 8 AQYS AQYS, AQYS Applied voltage, V 7 ds_x_en_aqy: J

251 DIMENSIONS (Unit: mm inch) External dimensions HS SOP Form A Recommended mounting pad (Top view)... ±..7 ±.8.8 ±..8 ± ±..9 ±.8. ±..79 ± Tolerance:.. PhotoMOS Terminal thickness t =.. General tolerance:.. SCHEMATIC AND WIRING DIAGRAMS E: Power source at input side; IF: LED forward current; VL: voltage; IL: current Schematic configuration Wiring diagram PhotoMOS RELAYS CAUTIONS FOR USE SAFETY WARNINGS Do not use the product under conditions that exceed the range of its specifications. It may cause overheating, smoke, or fire. a AC/DC E IF IL Do not touch the recharging unit while the power is on. There is a danger of electrical shock. Be sure to turn off the power when performing mounting, maintenance, or repair operations on the relay (including connecting parts such as the terminal board and socket). VL (AC,DC) IL VL (AC,DC) Check the connection diagrams in the catalog and be sure to connect the terminals correctly. Erroneous connections could lead to unexpected operating errors, overheating, or fire.. Applying stress that exceeds the absolute maximum rating If the voltage or current value for any of the terminals exceeds the absolute maximum rating, internal elements will deteriorate because of the overvoltage or overcurrent. In extreme cases, wiring may melt, or silicon P/N junctions may be destroyed. Therefore, the circuit should be designed in such a way that the load never exceed the absolute maximum ratings, even momentarily.. Derating design Derating is essential in any reliable design and a significant factor in consideration of product life. Sufficient derating is needed against maximum rating when designing a system. And also, relays should be examined using a measurement equipment. Derated voltages must be considered according to operating and environmental conditions the relay will be subjected to. ds_x_en_aqy: J. Short across terminals Do not short circuit between terminals when relay is energized, since there is possibility of breaking of the internal IC.. LED forward input current Use with an LED forward input current increase and decrease rate, IF/ t, of at least A/s.. Ripple in the input power supply If ripple is present in the input power supply, observe the following: ) For LED operate current at Emin, please maintain ma. ) Please make sure for Emax. is no higher the LED operate current at than ma. Emin. Emax.. spike voltages ) If an inductive load generates spike voltages which exceed the absolute maximum rating, the spike voltage must be limited. circuits are shown below. ) Even if spike voltages generated at the load are limited with a clamp diode or snubber circuit if the circuit wires are long, spike voltages will occur by inductance. Keep wires as short as possible to minimize inductance. Add a clamp diode to the load Add a CR snubber circuit to the load 7

252 HS SOP Form A 7. Cleaning We recommend cleaning with an organic solvent. If you cannot avoid using ultrasonic cleansing, please ensure that the following conditions are met, and check beforehand for defects. Frequency: 7 to 9 khz Ultrasonic output: No greater than.w/cm Cleaning time: No longer than s Cleanser used: Asahiklin AK- Other: Submerge in solvent in order to prevent the PC board and elements from being contacted directly by the ultrasonic vibrations. Note: Applies to unit area ultrasonic output for ultrasonic baths. 8. Notes for mounting ) If many different packages are combined on a single substrate, then lead temperature rise is highly dependent on package size. For this reason, please make sure that the temperature of the terminal solder area of the PhotoMOS relay falls within the temperature conditions of item before mounting. ) If the mounting conditions exceed the recommended solder conditions in item, resin strength will fall and the nonconformity of the heat expansion coefficient of each constituent material will increase markedly, possibly causing cracks in the package, severed bonding wires, and the like. For this reason, please inquire with us about whether this use is possible. ) We recommend cleaning with an organic solvent. If you cannot avoid using ultrasonic cleaning, check beforehand for defects. 9. wiring pattern With AQY series avoid installing the input (LED side) wiring pattern to the bottom side of the package if you require the specified I/O isolation voltage (Viso) after mounting the PC board. Since part of the frame on the output side is exposed, it may cause fluctuations in the I/O isolation voltage. Portion of output side frame ( terminal side) wiring pattern ( terminal side) May not allow the prescribed I/O withstand voltage (Viso) to be achieved. Soldering Example of recommended soldering conditions () IR (Infrared reflow) soldering method T T T t T = to 8 C to F T = C F T = C 7 F or less t = to s or less t = s or less () Soldering iron method Tip temperature: to C to 7 F Wattage: to W Soldering time: within s () Others Check mounting conditions before using other soldering methods (DWS, VPS, hot-air, hot plate, laser, pulse heater, etc.) When using lead-free solder, we recommend a type with an alloy composition of Sn. Ag. Cu. Please inquire about soldering conditions and other details. The temperature profile indicates the temperature of the soldered terminal on the surface of the PC board. The ambient temperature may increase excessively. Check the temperature under mounting conditions. t. Packing format ) Tape and reel mm inch Tape dimensions Dimensions of paper tape reel Tractor feed holes.±. dia..±..±. dia..±. Device mounted on tape.8±..±. ±..7±. Direction of picking 7.±..7±..8±..9±. ±..7±. ±..79±..±..7±..7±. ±..8±..7±..±. dia..±. dia. ±..79 ±. ±.8.87 ±. 8 ± dia.. ±.9 dia. ± dia. 9.8 ±.79 dia. 8 ± dia.. ±.9 dia. () When picked from /-pin side: Part No. AQY SX (Shown above) () When picked from /-pin side: Part No. AQY SZ ±. dia.. ±. dia. ±. ±.. ±.9.79 ±. ) Tube Devices are packaged in a tube so that pin No. is on the stopper B side. Observe correct orientation when mounting them on PC boards. Stopper B (green) Stopper A (gray) 7 ds_x_en_aqy: J

253 . Transportation and storage ) Extreme vibration during transport will warp the lead or damage the relay. Handle the outer and inner boxes with care. ) Storage under extreme conditions will cause soldering degradation, external appearance defects, and deterioration of the. The following storage conditions are recommended: Temperature: to C to F Humidity: Less than 7% R.H. Atmosphere: No harmful gasses such as sulfurous acid gas, minimal dust. ) Storage method for SOP type PhotoMOS relays implemented in SOP type are sensitive to moisture and come in sealed moisture-proof packages. Observe the following cautions on storage. After the moisture-proof package is unsealed, take the devices out of storage as soon as possible (within month, less than C F/7% R.H.). If the devices are to be left in storage for a considerable period after the moistureproof package has been unsealed, it is recommended to keep them in another moisture-proof bag containing silica gel (within months at the most). HS SOP Form A PhotoMOS ds_x_en_aqy: J 77

254 PD Form A (AQY7 ) VDE AQY7 Flat Power-DIP-pin type with high capacity up to A load current PD Form A (AQY7 ) CAD Data mm inch FEATURES. Flat-Packaged type (W) 8.8 (D) 9. (H).9 mm (W). (D). (H). inch. High capacity of continuous load current A (AQY7). High sensitivity and low onresistance Max. A load can be controlled with ma input current. The on-resistance is low at typ.. (AQY7). TYPICAL APPLICATIONS Measuring and Testing equipment IC Testers and Board Testers High speed inspection machines TYPES Type AC/DC dual use rating* voltage current Package Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the /-pin side * Indicate the peak AC and DC values. Note: The surface mount terminal indicator A and the packing style indicator X or Z are not marked on the relay. Picked from the /-pin side V.A AQY7 AQY7A AQY7AX AQY7AZ V.A AQY7 AQY7A AQY7AX AQY7AZ Power-DIP-pin V.A AQY77 AQY77A AQY77AX AQY77AZ V.A AQY7 AQY7A AQY7AX AQY7AZ Tube tube contains: pcs. batch contains:, pcs. Packing quantity Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQY7(A) AQY7(A) AQY77(A) AQY7(A) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V V V V Continuous load current IL. A. A. A. A Peak AC, DC Peak load current Ipeak. A. A. A. A ms ( shot), VL = DC Power dissipation Pout 7 mw Total power dissipation PT 7 mw I/O isolation voltage Viso, V AC Temperture limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F 78 ds_x_en_aqy7: J

255 PD Form A (AQY7 ). Electrical (Ambient temperature: C 77 F) Item Symbol AQY7(A) AQY7(A) AQY77(A) AQY7(A) Condition LED operate current. ma IL = ma IFon. ma VL = V LED turn off current Minimum. ma IL = ma IFoff.9 ma VL = V LED dropout voltage. V (. V at IF = ma) VF. V IF = ma...7. IF = ma, On resistance Ron.8... Within s on time Off state leakage current ILeak A IF = ma, VL = Max.. ms. ms. ms. ms IF = ma, IL = ma Turn on time*. ms VL = V Ton. ms. ms.7 ms.88 ms IF = ma, IL = ma. ms VL = V. ms. ms. ms.8 ms IF = ma or ma, IL = ma Transfer Turn off time* Toff VL = V. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC operating speed. cps IF = ma, Duty factor = %, VL = Max. *Turn on/turn off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F. -() On resistance vs. ambient temperature LED current: ma; Continuous load current:. A (DC) (AQY7),. A (DC) (AQY7)..-() On resistance vs. ambient temperature LED current: ma; Continuous load current:. A (DC) (AQY77),. A (DC) (AQY7). current, A AQY7 AQY7 AQY77 AQY7 On resistance, Ω.... AQY7 AQY7 On resistance, Ω.... AQY7 AQY ds_x_en_aqy7: J 79

256 PD Form A (AQY7 ). Turn on time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC).. LED operate vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) Turn on time, ms 8 AQY7 AQY7 AQY7 AQY Turn off time, ms.8... AQY77 AQY7 AQY7 AQY LED operate current, ma AQY7 AQY7 AQY77 AQY LED turn off current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) 7. LED dropout voltage vs. ambient temperature Sample: all types; LED current: to ma. 8. Current vs. voltage of output at MOS portion Ambient temperature: C 77 F. LED turn off current, ma AQY7 AQY77 AQY7 AQY7 LED dropout voltage, V..... ma ma ma ma ma Current, A.. AQY7 AQY7. AQY AQY Voltage, V () Off state leakage current vs. load voltage Ambient temperature: C 77 F Off state leakage current, A AQY7 AQY7 voltage, V 9.-() Off state leakage current vs. load voltage Ambient temperature: C 77 F Off state leakage current, A AQY7 AQY77 voltage, V.Turn on time vs. LED forward current voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F 8 AQY7 AQY7 8 Turn on time, ms AQY7 AQY77 LED forward current, ma.turn off time vs. LED forward current voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. -() Turn on time vs. load voltage LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F.-() Turn on time vs. load voltage LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F Turn off time, ms... AQY7 AQY7 AQY77 AQY7 Turn on time, ms AQY7 AQY7 Turn on time, ms AQY7. AQY77 LED forward current, ma voltage, V voltage, V 8 ds_x_en_aqy7: J

257 -() Turn on time vs. load current LED current: ma; voltage: V (DC); Ambient temperature: C 77 F.-() Turn on time vs. load current LED current: ma; voltage: V (DC); Ambient temperature: C 77 F PD Form A (AQY7 ) -() Turn off time vs. load voltage LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F. Turn on time, ms AQY7 AQY7 Turn off time, ms AQY7 AQY77 Turn off time, ms.... AQY7 AQY7 PhotoMOS... current, A current, A voltage, V.-() Turn off time vs. load voltage LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F. -() Turn off time vs. load current LED current: ma; voltage V (DC); Ambient temperature: C 77 F..-() Turn off time vs. load current LED current: ma; voltage V (DC); Ambient temperature: C 77 F. Turn off time, ms.... AQY77 AQY7 Turn off time, ms.... AQY7 AQY7 Turn off time, ms.... AQY7 AQY77 voltage, V current, A current, A. operating frequency vs. load voltage/current LED current: ma; Ambient temperature: C 77 F Duty factor=% voltage, V load current, A operating frequency, time/s 7. capacitance vs. applied voltage Frequency: MHz; Ambient temperature: C 77 F 8 8 AQY7 AQY7 AQY77 AQY7 8 Applied voltage, V capacitance, pf ds_x_en_aqy7: J 8

258 Power Form A (AQZ, ) VDE AQZ, Slim type with high capacity up to A DC load type also available Power Form A (AQZ, ) DC type - + AC/DC type Height includes standoff CAD Data mm inch FEATURES. Slim SIL-pin package (W). (D). (H). mm (W).8 (D).87 (H).9 inch The compact size of the -pin SIL package allows high density mounting.. Extremely low on-resistance. Control low-level signal Power Photo MOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion.. Low-level off state leakage current of max. A. High I/O isolation voltage of, V. Eliminates the need for a counter electromotive protection diode in the drive circuit on the input side 7. Eliminates the need for a power supply to drive the power MOSFET 8. No restriction on mounting direction 9. Low thermoelectromotive force. Neither noise nor arc at contact. Sockets are also available (PAa-PS, PAa-PS-H). Can be installed on the RT- relay terminal (Power PhotoMOS relay type) TYPICAL APPLICATIONS Traffic signals Measuring instruments Industrial machines TYPES. DC type DC only rating* Packing quantity Package Part No. voltage current Inner carton Outer carton V. A V. A AQZ SIL-pin V. A AQZ7 V.7 A AQZ * voltage and current of DC type: DC AQZ pcs. pcs.. AC/DC type rating* Packing quantity Package Part No. voltage current Inner carton Outer carton V. A AQZ AC/DC V. A AQZ SIL-pin pcs. pcs. dual use V. A AQZ7 V. A AQZ * voltage and current of AC/DC type: Peak AC/DC. 8 ds_x_en_aqz_: J

259 Power Form A (AQZ, ) RATING. DC type ) Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQZ AQZ AQZ7 AQZ Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (DC) VL V V V V Continuous load current (DC) IL. A. A. A.7 A Peak load current Ipeak 9. A. A. A. A ms ( shot), VL = DC Power dissipation Pout. W Total power dissipation PT. W I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F ) Electrical (Ambient temperature: C 77 F) Item Symbol AQZ AQZ AQZ7 AQZ Condition LED operate current. ma IL= ma IFon. ma VL= V LED turn off current Minimum. ma IL= ma IFoff.9 ma VL= V LED dropout voltage. V (. V at IF = ma) VF. V IF = ma..8.. IF = ma On resistance Ron IL =Max Within s on time Off state leakage current ILeak A IF = ma VL = Max.. ms.89 ms.8 ms. ms IF = ma IL = ma Turn on time*. ms VL = V Ton.79 ms. ms.7 ms. ms IF = ma IL = ma. ms VL = V Transfer. ms.9 ms.8 ms.8 ms IF = ma or ma Turn off time* Toff IL = ma. ms VL = V I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC IF = ma operating speed. cps Duty factor = % IL VL= (VA) Vibration resistance Minimum to Hz at double amplitude of mm hours for axes Shock resistance Minimum,9 m/s { G} ms times for axes PhotoMOS ds_x_en_aqz_: J 8

260 Power Form A (AQZ, ). AC/DC type ) Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQZ AQZ AQZ7 AQZ Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (Peak AC) VL V V V V Continuous load current IL. A. A. A. A Peak AC, DC Peak load current Ipeak 9. A. A. A. A ms ( shot), VL = DC Power dissipation Pout. W Total power dissipation PT. W I/O isolation voltage Viso, V AC Temperature Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures limits Storage Tstg C to + C F to + F ) Electrical (Ambient temperature: C 77 F) Item Symbol AQZ AQZ AQZ7 AQZ Condition LED operate current. ma IL= ma IFon. ma VL= V LED turn off current Minimum. ma IL= ma IFoff.9 ma VL= V LED dropout voltage. V (. V at IF = ma) VF. V IF = ma...7. IF = ma On resistance Ron IL =Max Within s on time Off state leakage current ILeak A IF = ma VL = Max.. ms. ms. ms. ms IF = ma IL = ma Turn on time*. ms VL = V Ton. ms. ms.7 ms.88 ms IF = ma IL = ma. ms VL = V Transfer. ms. ms. ms.8 ms IF = ma or ma Turn off time* Toff IL = ma. ms VL = V I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC IF = ma operating speed. cps Duty factor = %, VL = Max. Vibration resistance Minimum to Hz at double amplitude of mm hours for axes Shock resistance Minimum,9 m/s { G} ms times for axes *Turn on/off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page ds_x_en_aqz_: J

261 REFERENCE DATA 8-() current vs. ambient temperature (DC type) Allowable ambient temperature: C to +8 C current, A F to +8 F AQZ AQZ7 AQZ. AQZ () current vs. ambient temperature (AC/DC type) Allowable ambient temperature: C to +8 C F to +8 F. current, A AQZ AQZ Power Form A (AQZ, ) AQZ AQZ 9. current vs. ambient temperature in adjacent mounting IL : current; IL (max.): continuous load current IL/IL (max.),% 8 = mm = mm = mm =Adjacent mounting pitch PhotoMOS -() On resistance vs. ambient temperature (DC type) LED current: ma; Continuous load current:. A (DC) (AQZ),. A (DC) (AQZ)..-() On resistance vs. ambient temperature (DC type) LED current: ma; Continuous load current:. A (DC) (AQZ7),.8 A (DC) (AQZ).-() On resistance vs. ambient temperature (AC/DC type) LED current: ma; Continuous load current:. A (DC) (AQZ),.8 A (DC) (AQZ). On resistance, Ω...8 AQZ AQZ On resistance, Ω AQZ On resistance, Ω... AQZ AQZ. AQZ () On resistance vs. ambient temperature (AC/DC type) LED current: ma; Continuous load current:. A (DC) (AQZ7),. A (DC) (AQZ)... AQZ..... AQZ On resistance, Ω -() Turn off time vs. ambient temperature (DC type) LED current: ma; voltage: V (DC); Continuous load current: ma (DC). -() Turn on time vs. ambient temperature (DC type) LED current: ma; voltage: V (DC); Continuous load current: ma (DC) Turn on time, ms 8 AQZ7 AQZ AQZ AQZ () Turn off time vs. ambient temperature (AC/DC type) LED current: ma; voltage: V (DC); Continuous load current: ma (DC)..-() Turn on time vs. ambient temperature (AC/DC type) LED current: ma; voltage: V (DC); Continuous load current: ma (DC) Turn on time, ms 8 AQZ AQZ AQZ AQZ () LED operate vs. ambient temperature (DC type) voltage: V (DC); Continuous load current: ma (DC) Turn off time, ms.8... AQZ7 AQZAQZ Turn off time, ms.8... AQZ7 AQZ AQZ LED operate current, ma AQZ AQZ AQZ7 AQZ AQZ AQZ ds_x_en_aqz_: J 8

262 Power Form A (AQZ, ).-() LED operate vs. ambient temperature (AC/DC type) voltage: V (DC); Continuous load current: ma (DC) -() LED turn off current vs. ambient temperature (DC type) voltage: V (DC); Continuous load current: ma (DC) 7.-() LED turn off current vs. ambient temperature (AC/DC type) voltage: V (DC); Continuous load current: ma (DC) LED operate current, ma AQZ AQZ AQZ AQZ7 LED turn off current, ma AQZ AQZ7 AQZ AQZ LED turn off current, ma AQZ AQZ7 AQZ AQZ LED dropout voltage vs. ambient temperature Sample: all types; LED current: to ma -() Current vs. voltage of output at MOS portion (DC type) Ambient temperature: C 77 F 9.-() Current vs. voltage of output at MOS portion (AC/DC type) Ambient temperature: C 77 F LED dropout voltage, V ma ma ma ma ma Current, A Voltage, V - - AQZ AQZ AQZ7 AQZ... AQZ AQZ AQZ7. AQZ Voltage, V Current, A () Off state leakage current vs. load voltage Ambient temperature: C 77 F Off state leakage current, A AQZ, AQZ, voltage, V.-() Off state leakage current vs. load voltage Ambient temperature: C 77 F Off state leakage current, A AQZ, AQZ7, 7 voltage, V 8-() Turn on time vs. LED forward current (DC type) voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F 8 Turn on time, ms 8 AQZ AQZ7 AQZ AQZ LED forward current, ma.-() Turn on time vs. LED forward current (AC/DC type) voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F Turn on time, ms 8 8 AQZ AQZ AQZ AQZ7 LED forward current, ma 9-() Turn off time vs. LED forward current (DC type) Measured portion: between terminals and ; voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. Turn off time, ms.... LED forward current, ma AQZ AQZ AQZ AQZ7.-() Turn off time vs. LED forward current (AC/DC type) voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F Turn off time, ms..... AQZ AQZ AQZ7 AQZ LED forward current, ma 8 ds_x_en_aqz_: J

263 -() Turn on time vs. load voltage (DC type) LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F.-() Turn on time vs. load voltage (DC type) LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F Power Form A (AQZ, ).-() Turn on time vs. load voltage (AC/DC type) LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F Turn on time, ms AQZ AQZ voltage, V Turn on time, ms AQZ7 AQZ voltage, V Turn on time, ms AQZ AQZ voltage, V PhotoMOS.-() Turn on time vs. load voltage (AC/DC type) LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F -() Turn on time vs. load current (DC type) LED current: ma; voltage: V (DC); Ambient temperature: C 77 F.-() Turn on time vs. load current (DC type) LED current: ma; voltage: V (DC); Ambient temperature: C 77 F Turn on time, ms AQZ7 AQZ Turn on time, ms AQZ AQZ Turn on time, ms AQZ AQZ7 voltage, V current, A current, A.-() Turn on time vs. load current (AC/DC type) LED current: ma; voltage: V (DC); Ambient temperature: C 77 F.-() Turn on time vs. load current (AC/DC type) LED current: ma; voltage: V (DC); Ambient temperature: C 77 F -() Turn off time vs. load voltage (DC type) LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F.. Turn on time, ms AQZ AQZ Turn on time, ms AQZ AQZ7 Turn off time, ms... AQZ AQZ... current, A current, A voltage, V.-() Turn off time vs. load voltage (DC type) LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F..-() Turn off time vs. load voltage (AC/DC type) LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F..-() Turn off time vs. load voltage (AC/DC type) LED current: ma; Continuous load current: ma; Ambient temperature: C 77 F. Turn off time, ms.... AQZ7 AQZ Turn off time, ms.... AQZ AQZ Turn off time, ms.... AQZ7 AQZ voltage, V voltage, V voltage, V ds_x_en_aqz_: J 87

264 Power Form A (AQZ, ) -() Turn off time vs. load current (DC type) LED current: ma; voltage: V (DC); Ambient temperature: C 77 F..-() Turn off time vs. load current (DC type) LED current: ma; voltage: V (DC); Ambient temperature: C 77 F..-() Turn off time vs. load current (AC/DC type) LED current: ma; voltage: V (DC); Ambient temperature: C 77 F. Turn off time, ms.... AQZ AQZ current, A Turn off time, ms.... AQZ AQZ current, A Turn off time, ms.. AQZ. AQZ current, A.-() Turn off time vs. load current (AC/DC type) LED current: ma; voltage: V (DC); Ambient temperature: C 77 F. Turn off time, ms.... AQZ AQZ current, A. operating frequency vs. load voltage/current LED current: ma; Ambient temperature: C 77 F operating frequency, time/s Duty factor = % voltage, V load current, A -() capacitance vs. applied voltage (DC type) Frequency: MHz; Ambient temperature: C 77 F capacitance, pf 8 AQZ AQZ 8 AQZ7 AQZ 8 Applied voltage, V 8.-() capacitance vs. applied voltage (AC/DC type) Frequency: MHz; Ambient temperature: C 77 F capacitance, pf 8 8 AQZ AQZ AQZ7AQZ 8 Applied voltage, V ACCESSORY (mm inch) Socket (.). (.) PAa-PS Ð Ð (.) (.) PAa-PS-H PC board pattern (BOTTOM VIEW) Standard type dia. -. dia. -.9 dia. -.7 dia. Self clinching type dia.. dia dia. dia. -.7 Tolerance:.. 88 ds_x_en_aqz_: J

265 Power Form B (AQZ) VDE AQZ.87 CAD Data mm inch Normally closed type in a slim SIL package voltage V FEATURES. High sensitivity and low onresistance Max..A load can be controlled with ma input current. The on-resistance is low at typ..8.. Normally closed ( Form B) contact This has been realized thanks to the built-in MOSFET processed by our proprietary method, DSD (Doublediffused and Selective Doping) method. Cross section of the normally-closed type of power MOS Passivation membrane Source electrode Gate electrode Intermediate insulating membrane N+ N+ P+ N+ N+ P+ Gate oxidation membrane Power Form B (AQZ). Slim SIL-pin package (W). (D). (H). mm (W).8 (D).87 (H).9 inch The compact size of the -pin SIL package allows high density mounting.. Sockets are also available (PAa-PS, PAa-PS-H). Can be installed on the RT- relay terminal (Power PhotoMOS relay type) TYPICAL APPLICATIONS Railroad system, traffic signals Measuring instruments Industrial machines PhotoMOS N- N+ Drain electrode TYPES AC/DC dual use rating* Packing quantity Package Part No. voltage current Inner carton Outer carton V. A SIL-pin AQZ pcs pcs *Indicate the peak AC and DC values. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQZ Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 mw voltage (peak AC) VL V Continuous load current IL. A Peak AC, DC Peak load current Ipeak. A ms ( shot), VL = DC Power dissipation Pout. W Total power dissipation PT. W I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F Non-condensing at low temperatures Storage Tstg C to + C F to + F ds_x_en_aqz: J 89

266 Power Form B (AQZ). Electrical (Ambient temperature: C 77 F) Item Symbol AQZ Condition LED operate (OFF) current. ma IL= ma IFoff. ma VL= V LED reverse (ON) current Minimum. ma IL= ma IFon.9 ma VL= V LED dropout voltage. V (. V at IF = ma) VF. V IF = ma.8 IF = ma, On resistance Ron. Within s on time Off state leakage current ILeak A IF = ma, VL = Max..9 ms IF = ma Operating (OFF) time* 7. ms IL = ma, VL = V Toff 9. ms IF = ma ms IL = ma, VL = V.8 ms IF = ma or ma Transfer Reverse (ON) time* Ton IL = ma, VL = V. ms I/O capacitance.8 pf f = MHz Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC operating frequency. cps IF = ma, Duty factor = % IL=Max., VL=Max. *Operate/Reverse time % Toff Ton RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma 9% For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F.7. current vs. ambient temperature in adjacent mounting IL: current; IL (max.): continuous load current. On resistance vs. ambient temperature LED current: ma; voltage: Max. (DC) Continuous load current: Max. (DC) current, A IL/IL(max.), % 8 =mm.787 inch =mm.9 inch =mm.97 inch =Adjacent mounting pitch On resistance, Ω ds_x_en_aqz: J

267 . Operate (OFF) time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) Operate (OFF) time, ms. Reverse (ON) time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) Reverse (ON) time, ms Power Form B (AQZ). LED operate (OFF) current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED operate (OFF) current, ma... PhotoMOS LED reverse (ON) current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) LED reverse (ON) current, ma LED dropout voltage vs. ambient temperature Sample: all types; LED current: to ma LED dropout voltage, V ma ma ma ma ma 9. Current vs. voltage of output at MOS portion Ambient temperature: C 77 F Current, A Voltage, V Off state leakage current vs. load voltage Ambient temperature: C 77 F Off state leakage current, A voltage, V.Operate (OFF) time vs. LED forward current voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F Operate (OFF) time, ms LED forward current, ma.reverse (ON) time vs. LED forward current voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. Reverse (ON) time, ms...8. LED forward current, ma. operating frequency vs. load voltage/current LED current: ma; Ambient temperature: C 77 F operating frequency, time/s 9 duty = % voltage, V load current, A ds_x_en_aqz: J. capacitance vs. applied voltage Frequency: MHz; Ambient temperature: C 77 F capacitance, pf 8 Applied voltage, V 9

268 Power Form B (AQZ) ACCESSORY (mm inch) Socket Standard type Self clinching type Standard type (.). (.) PAa-PS (.) (.) PAa-PS-H dia. -. dia. -.9 dia. -.7 dia. Self clinching type ±. dia. ±. dia ±. dia. ±. dia. -.7 General Tolerance:.. General Tolerance:.. PC board pattern (BOTTOM VIEW) Tolerance:.. 9 ds_x_en_aqz: J

269 Form A Voltage-sensitive (AQZ D, D) VDE AQZ D, D DC type Height includes standoff CAD Data mm inch - + AC/DC type Slim and high capacity up to.a Voltage-driven type FEATURES. A voltage-sensitive power PhotoMOS relay Conventional power PhotoMOS relays are connected externally to an input limiting resistor in order to obtain the appropriate LED current. Adding an internal constantcurrent element renders the input limiting resistor unnecessary, making it possible for the PhotoMOS relay to be voltagedriven.. Wide range of input voltages Allows a wide range of input voltages from to V DC. The relay can be used in V, V or V DC systems.. Both AC/DC dual types and DC-only types available The AC/DC dual type is capable of bidirectional control, and unlike conventional SSRs, does not have to be used differently depending on the load. The DConly type is well suited for control of DC solenoids and DC motors. Form A Voltage-sensitive (AQZ D, D). High capacity Supports the various types of load control, from very small loads to a max..7 A for the AC/DC dual type, max.. A for the DC-only type.. High sensitivity and low onresistance Max.. A load can be controlled with the min. input voltage of V DC. The onresistance is also low at typ.. (AQZD).. Slim SIL-pin package (W). (D). (H). mm (W).8 (D).87 (H).9 inch The compact size of the -pin SIL package allows high density mounting. PhotoMOS TYPES. DC type DC only rating* Packing quantity Package Part No. voltage current Inner carton Outer carton V. A V. A AQZD SIL-pin V. A AQZ7D V. A AQZD * voltage and current of DC type: DC AQZD pcs. pcs.. AC/DC type rating* Packing quantity Package Part No. voltage current Inner carton Outer carton V.7 A AQZD AC/DC V.8 A AQZD SIL-pin pcs. pcs. dual use V.9 A AQZ7D V. A AQZD * voltage and current of AC/DC type: Peak AC/DC ds_x_en_aqzd_d: J 9

270 Form A Voltage-sensitive (AQZ D, D) RATING. DC type ) Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQZD AQZD AQZ7D AQZD Remarks voltage VIN V reverse voltage VRIN V Power dissipation Pin mw voltage (DC) VL V V V V Continuous load current (DC) IL. A. A. A. A Peak load current Ipeak 9. A. A. A. A ms ( shot), VL = DC Power dissipation Pout. W Total power dissipation PT. W I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F ( V q VIN q V) C to +7 C F to +7 F ( V < VIN q V) C to + C F to + F ( V < VIN q V) Storage Tstg C to + C F to + F Non-condensing at low temperatures ) Electrical (Ambient temperature: C 77 F) Item Symbol AQZD AQZD AQZ7D AQZD Remarks Operate voltage. V IL = ma VFon V VL = V Minimum.8 V IL = ma Turn off voltage VFoff. V VL = V current IIN. ma VIN = V..9.. VIN = V On resistance Ron Within s on time Off state leakage current ILeak A VIN = V VL = Max.. ms. ms. ms. ms VIN = V Turn on time* Ton IL = ma. ms VL = V. ms. ms VIN = V Turn off time* Toff IL = ma Transfer. ms VL= V.8 pf f = MHz I/O capacitance Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC VIN= V operating speed. cps Duty factor = % IL VL = (VA) Vibration resistance Minimum to Hz at double amplitude of mm hours for axes Shock resistance Minimum,9 m/s { G} ms times for axes. AC/DC type ) Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQZD AQZD AQZ7D AQZD Remarks voltage VIN V reverse voltage VRIN V Power dissipation Pin mw voltage (peak AC) VL V V V V Continuous load current IL.7 A.8 A.9 A. A Peak AC, DC Peak load current Ipeak 9. A. A. A. A ms ( shot), VL = DC Power dissipation Pout. W Total power dissipation PT. W I/O isolation voltage Viso, V AC Temperature limits Operating Topr C to +8 C F to +8 F ( V q VIN q V) C to +7 C F to +7 F ( V < VIN q V) C to + C F to + F ( V < VIN q V) Storage Tstg C to + C F to + F Non-condensing at low temperatures 9 ds_x_en_aqzd_d: J

271 Form A Voltage-sensitive (AQZ D, D) ) Electrical (Ambient temperature: C 77 F) Item Symbol AQZD AQZD AQZ7D AQZD Remarks Operate voltage. V IL = ma VFon V VL = V Minimum.8 V IL = ma Turn off voltage VFoff. V VL = V current IIN. ma VIN = V..8.. VIN = V On resistance Ron.8... Within s on time Off state leakage current ILeak A VIN = V VL = Max..8 ms. ms.7 ms. ms VIN = V Turn on time* Ton IL = ma. ms VL = V. ms. ms VIN = V Turn off time* Toff IL = ma Transfer. ms VL= V.8 pf f = MHz I/O capacitance Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC VIN= V operating speed. cps Duty factor = % IL VL = (VA) Vibration resistance Minimum to Hz at double amplitude of mm hours for axes Shock resistance Minimum,9 m/s { G} ms times for axes *Turn on/off time PhotoMOS 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit voltage VIN V For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_aqzd_d: J 9

272 Form A Voltage-sensitive (AQZ D, D) REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F; VIN: voltage; IL (derate): current (derate); IL: Absolute maximum ratings of continuous load current -() current vs. ambient temperature in adjacent mounting voltage: V q VIN q V; IL (derate): current (derate); IL: Absolute maximum ratings of continuous load current; : Adjacent mounting pitch.-() current vs. ambient temperature in adjacent mounting voltage: V < VIN q V; IL (derate): current (derate); IL: Absolute maximum ratings of continuous load current; : Adjacent mounting pitch I L (derate), % I L 8 V VIN V V<VIN V V<VIN V IL (derate), % I L 8 =mm =mm = mm I L (derate), % I L 8 =mm =mm = mm () current vs. ambient temperature in adjacent mounting voltage: V<VIN q V; IL (derate): current (derate); IL: Absolute maximum ratings of continuous load current; : Adjacent mounting pitch -() On resistance vs. ambient temperature (DC type) voltage: V; Continuous load current:. A (DC) (AQZD). A (DC) (AQZD)..-() On resistance vs. ambient temperature (DC type) voltage: V; Continuous load current:. A (DC) (AQZ7D). A (DC) (AQZD). I L (derate), % IL 8 =mm =mm = mm On resistance, Ω... AQZD On resistance, Ω... AQZD. AQZD. AQZ7D () On resistance vs. ambient temperature (AC/DC type) voltage: V; Continuous load current:.7 A (DC) (AQZD).8 A (DC) (AQZD)..-() On resistance vs. ambient temperature (AC/DC type) voltage: V; Continuous load current:.9 A (DC) (AQZ7D). A (DC) (AQZD). -() Turn on time vs. ambient temperature (DC type) voltage: V; voltage: V (DC); Continuous load current: ma (DC) On resistance, Ω.... AQZD AQZD On resistance, Ω.... AQZD AQZ7D Turn on time, ms 8 AQZD AQZD AQZ7D AQZD ds_x_en_aqzd_d: J

273 .-() Turn on time vs. ambient temperature (AC/DC type) voltage: V; voltage: V (DC); Continuous load current: ma (DC) Form A Voltage-sensitive (AQZ D, D) -() Turn off time vs. ambient temperature (DC type) voltage: V; voltage: V (DC); Continuous load current: ma (DC)..-() Turn off time vs. ambient temperature (AC/DC type) voltage: V; voltage: V (DC); Continuous load current: ma (DC). Turn on time, ms 8 AQZD AQZD AQZ7D AQZD Turn off time, ms.... AQZ7D AQZD AQZD AQZD Turn off time, ms.... AQZD AQZ7D AQZD AQZD PhotoMOS Operate voltage vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC). 7. Turn off voltage vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC). 8. current vs. ambient temperature voltage: V.. 8 Operate voltage, V.. Turn off voltage, ms.. current, ma () Current vs. voltage of output at MOS portion (DC type) Ambient temperature: C 77 F. AQZD. AQZD. Current, A Voltage, V AQZ7D AQZD 9.-() Current vs. voltage of output at MOS portion (AC/DC type) Ambient temperature: C 77 F. Current, A AQZD Voltage, V AQZD AQZ7D AQZD. current vs. input voltage Ambient temperature: C 77 F current, ma 8 voltage, V -() Off state leakage current vs. load voltage Ambient temperature: C 77 F Off state leakage current, A AQZD,D - AQZD,D voltage, V.-() Off state leakage current vs. load voltage Ambient temperature: C 77 F Off state leakage current, A AQZD,D AQZ7D,7D voltage, V. operating speed vs. load voltage load current voltage: V; Ambient temperature: C 77 F duty=% 9 operating speed, cps voltage, V current, A ds_x_en_aqzd_d: J 97

274 Form A Voltage-sensitive (AQZ D, D) -() capacitance vs. applied voltage (DC type) Frequency: MHz; Ambient temperature: C 77 F capacitance, pf 8 8 AQZD AQZD AQZ7D AQZD 8 Applied voltage, V.-() capacitance vs. applied voltage (AC/DC type) Frequency: MHz; Ambient temperature: C 77 F capacitance, pf 8 8 AQZD AQZD AQZ7D AQZD 8 Applied voltage, V ACCESSORY (mm inch) Socket Standard type (.).. (.) PAa-PS (.) (.) PAa-PS-H dia. -. dia. -.9 dia. -.7 dia. Self clinching type dia.. dia dia. dia. -.7 Tolerance:.. 98 ds_x_en_aqzd_d: J

275 Power Form A High Capacity (AQZ ) AQZ Max...9 CAD Data - + Max. 9.. Max... Height includes standoff mm inch High capacity up to A in a slim SIL package FEATURES. High capacity type power PhotoMOS relay. Can switch a wide range of currents and voltages. Can control various types of loads, from very small loads to a max. A AC/DC current for sequencers, motors, and lamps.. Low on-resistance and high sensitivity. Low on-resistance of less than typ.. (AQZ). High sensitivity LED operate current of typ. ma.. AC/DC dual use Bi-directional control is possible. There is no need to differentiate depending on the load as was necessary with the conventional SSR.. -pin SIL type (L). mm (W) 9. mm (H). mm (L).9 inch (W). inch (H). inch. Power Form A High Capacity (AQZ ). Low-level off state leakage current of max. A. Controls low-level analog signals The triac, photocoupler, or SSR cannot be used to control signals of less than several hundred mv. The high capacity type power PhotoMOS relay feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion. TYPICAL APPLICATIONS Mercury relay replacement Compact motors, lamps, heaters OA equipment PhotoMOS TYPES AC/DC dual use rating* Packing quantity Package Part No. voltage current Inner carton Outer carton V. A AQZ SIL-pin V. A AQZ * Indicate the peak AC and DC values. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) pcs pcs Item Symbol AQZ AQZ Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty factor =.% Power dissipation Pin 7 ma voltage (peak AC) VL V V Continuous load current IL. A. A Peak AC, DC Peak load current Ipeak. A. A ms (shot), VL = DC Power dissipation Pout. W Total power dissipation PT. W I/O isolation voltage Viso, V AC Operating Topr C to +8 C F to 8 F Non-condensing at low temperatures Temperature limits Storage Tstg C to + C F to F ds_x_en_aqz_: J 99

276 Power Form A High Capacity (AQZ ). Electrical (Ambient temperature: C 77 F) Item Symbol AQZ AQZ Remarks LED operate current. ma IL = ma IFon. ma VL = V LED turn off current Minimum. ma IL = ma IFoff.9 ma VL = V LED dropout voltage. V (. V at IF = ma) VF. V IF = ma.. IF = ma On resistance Ron IL = max... Within s on time Off state leakage current ILeak A IF = ma VL = max. ms ms IF = ma Turn on time* Ton IL = ma ms VL = V. ms. ms IF = ma Turn off time* Toff IL = ma Transfer. ms VL = V. pf f = MHz I/O capacitance Ciso. pf VB = V Initial I/O isolation resistance Minimum Riso, M V DC IF = ma operating frequency. cps Duty factor = %, VL = Max. *Turn on/off time 9% % Ton Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF to ma For Dimensions, see page. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. REFERENCE DATA. current vs. ambient temperature Allowable ambient temperature: C to +8 C F to +8 F current, A 7 AQZ AQZ current vs. ambient temperature in adjacent mounting IL: current; IL (max.): continuous load current I L/IL(max.), % 8 =Adjacent mounting pitch =mm.787 inch =mm.9 inch On resistance vs. ambient temperature LED current: ma; Continuous load current: A (DC)(AQZ) A (DC)(AQZ) On resistance, Ω.. AQZ AQZ ds_x_en_aqz_: J

277 . Turn on time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC) Power Form A High Capacity (AQZ ). Turn off time vs. ambient temperature LED current: ma; voltage: V (DC); Continuous load current: ma (DC). LED operate vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) Turn on time, ms 8 AQZ AQZ Turn off time, ms.8... AQZ AQZ LED operate current, ma AQZ AQZ PhotoMOS LED turn off current vs. ambient temperature voltage: V (DC); Continuous load current: ma (DC) 8. LED dropout voltage vs. ambient temperature Sample: all types; LED current: to ma. 9. Current vs. voltage of output at MOS portion Ambient temperature: C 77 F 8. LED turn off current, ma AQZ AQZ LED dropout voltage, V..... ma ma ma ma ma Current, A AQZ AQZ... Voltage, V Off state leakage current vs. load voltage Ambient temperature: C 77 F Off state leakage current, A AQZ AQZ.Turn on time vs. LED forward current voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F Turn on time, ms AQZ AQZ.Turn off time vs. LED forward current voltage: V (DC); Continuous load current: ma (DC); Ambient temperature: C 77 F. Turn off time, ms..... AQZ AQZ voltage, V LED forward current, ma LED forward current, ma. operating frequency vs. load voltage/current LED current: ma; Ambient temperature: C 77 F operating frequency, time/s 9 duty = % 8 7 voltage, V load current, A ds_x_en_aqz_: J. capacitance vs. applied voltage Frequency: KHz; Ambient temperature: C 77 F capacitance, pf AQZ AQZ 8 Applied voltage, V -() On resistance distribution Sample: AQZ LED current: ma; Continuous load current: A (DC): Quantity. n=; Ambient temperature: C 77 F 8 Quantity On resistance, mω

278 Power Form A High Capacity (AQZ ).-() On resistance distribution Sample: AQZ LED current: ma; Continuous load current: A (DC); Quantity, n=; Ambient temperature: C 77 F 8 -() Turn on time distribution Sample: AQZ voltage: V (DC); Continuous load current: ma (DC); Quantity, n=; Ambient temperature: C 77 F 8.-() Turn on time distribution Sample: AQZ voltage: V (DC); Continuous load current: ma (DC); Quantity, n=; Ambient temperature: C 77 F Quantity Quantity Quantity.9... On resistance, Ω 7 Turn on time, ms Turn on time, ms 7-() Turn off time distribution Sample: AQZ voltage: V (DC); Continuous load current: ma (DC); Quantity, n=; Ambient temperature: C 77 F 8 Quantity 7 7.-() Turn off time distribution Sample: AQZ voltage: V (DC); Continuous load current: ma (DC); Quantity, n=; Ambient temperature: C 77 F 8 Quantity 7 8-() LED operate current distribution Sample: AQZ voltage: V (DC); Continuous load current: ma (DC); Quantity, n=; Ambient temperature: C 77 F 8 Quantity Turn off time, ms 8.-() LED operate current distribution Sample: AQZ voltage: V (DC); Continuous load current: ma (DC); Quantity, n=; Ambient temperature: C 77 F Turn off time, ms 9-() LED turn off current distribution Sample: AQZ voltage: V (DC); Continuous load current: ma (DC); Quantity, n=; Ambient temperature: C 77 F LED operate current, ma 9.-() LED turn off current distribution Sample: AQZ voltage: V (DC); Continuous load current: ma (DC); Quantity, n=; Ambient temperature: C 77 F 8 7 Quantity Quantity Quantity LED operate current, ma LED turn off current, ma LED turn off current, ma -() LED dropout voltage distribution Sample: AQZ LED current: ma; Quantity, n=; Ambient temperature: C 77 F.-() LED dropout voltage distribution Sample: AQZ LED current: ma; Quantity, n=; Ambient temperature: C 77 F -() Bias test at high temperature and high humidity (change of turn on time) Quantity, n=; Ambient temperature: 8 C 8 F Humidity: 8%, VL=Max..8 Quantity 8 Quantity 8 Turn on time, ms 8 AQZ AQZ LED dropout voltage, V LED dropout voltage, V Test time, h ds_x_en_aqz_: J

279 Power Form A High Capacity (AQZ ).-() Bias test at high temperature and high humidity (change of on resistance) Quantity, n=; Ambient temperature: 8 C 8 F Humidity: 8%, VL=Max..8 -() Low temperature storage test (change of turn on time) Quantity, n=; Ambient temperature: C F.-() Low temperature storage test (change of on resistance) Quantity, n=; Ambient temperature: C F On resistance, Ω...8. AQZ AQZ Turn on time, ms 8 AQZ AQZ On resistance, Ω...8. AQZ AQZ PhotoMOS Test time, h Test time, h Test time, h -() High temperature storage test (change of turn on time) Quantity, n=; Ambient temperature: C F.-() High temperature storage test (change of on resistance) Quantity, n=; Ambient temperature: C F Turn on time, ms 8 AQZ AQZ On resistance, Ω.. AQZ AQZ.8. Test time, h Test time, h ds_x_en_aqz_: J

280 Photovoltaic MOSFET Driver CAD Data Control circuit Control circuit APV, Photovoltaic MOSFET drivers of wide variation FEATURES. High-speed switching Since release time is typ.. ms, the MOSFET can be turned off quickly in urgent situations.. Space saving With a built-in control circuit, an external resistor is not needed. This contributes to making substrates more compact.. High insulation DIP type:, V SOP type:, V SSOP type:, V. Extensive product lineup Products include SSOP, SOP-pin and DIP-pin. Photovoltaic MOSFET Driver (APV, ) TYPICAL APPLICATIONS Power supply (Vcc) for electronic circuits Driving MOSFET TYPES Drop-out voltage (Typ.) rating Notes: * SOP type is picked from /-pin side, SSOP type is picked from /-pin side. * SOP type is picked from /-pin side, SSOP type is picked from /-pin side. * For space reasons, the two initial letters of the part number AP, package (SOP) indicator S and the packing style indicator X or Z are not marked on the relay. (Ex. the label for product number APVSX is V). * Tape and reel package is the standard packing style. For space reasons, the two initial letters of the part number AP, package (SSOP) indicator V and the packing style are not marked on the relay. (Ex. the label for product number APVVY is V). RATING Short circuit current (Typ.) Package Through hole terminal Tube packing style Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from //-pin side* Picked from //-pin side* Packing quantity. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol APV(A) APVS APVS APVV Remarks LED forward current IF ma LED reverse voltage VR V f = Hz, Peak forward current IFP A Duty Ratio =.% Power dissipation Pin 7mW I/O isolation voltage Viso,V AC,V AC,V AC,V AC Tube Tape and reel tube contains pcs. 8.7V A DIP-pin APV APVA APVAX APVAZ batch contains pcs., pcs. 8.7V A APVS APVSX APVSZ tube contains pcs. SOP-pin* 8.V 8 A APVS APVSX APVSZ batch contains, pcs. 8.V 8 A SSOP* APVVY APVVW, pcs. Temperature limits Operating Topr C to +8 C F to +8 F Storage Tstg C to + C F to + F Non-condensing at low temperatures ds_x_en_apv_: J

281 Transfer Note: Recommended LED forward current IFT: ma. *Drop-out voltage measurement circuit APV(A) IF=mA (APV, ). Electrical (Ambient temperature: C 77 F) Item Symbol APV(A) APVS APVS APVV Condition LED operate current.ma.8ma IFon ma VOC = V LED turn off current Minimum.mA IFoff.mA.7mA VOC = V LED dropout voltage.v VF.V IF = ma Drop-out voltage* Minimum V V VOC 8.7V 8.V IF = ma Short circuit current** Minimum A A ISC A 8 A IF = ma Turn on time*** Ton.ms.8ms IF = ma, CL =,pf IF = ma, Turn off time*** Toff.ms CL =,pf.8pf VB = V, I/O capacitance Ciso.pF f = MHz Initial I/O isolation resistance Minimum Riso,M V DC APVS, APVS, APVV IF=mA PhotoMOS V RV=MΩ V R V=MΩ **Short circuit current measurement circuit APV(A) IF=mA APVS, APVS, APVV IF=mA I RI=Ω I RI=Ω ***Turn on/turn off time measurement circuit APV(A) IF=mA VOUT CL CL=pF ***Turn on time APVS, APVS, APVV IF=mA CL CL=pF VOUT V Ton V Toff RECOMMENDED OPERATING CONDITIONS Please obey the following conditions to ensure proper relay operation and resetting. Item Symbol Recommended value Unit LED current IF ma For Dimensions, see page 8. For Schematic and Wiring Diagrams, see page. For Cautions for Use, see page 9. These products are not designed for automotive use. If you are considering to use these products for automotive applications, please contact your local Panasonic technical representative. For more information, see page 78. ds_x_en_apv_: J

282 (APV, ) REFERENCE DATA. Drop-out voltage vs. ambient temperature current: ma. Short circuit current vs. ambient temperature current: ma. LED operate current vs. ambient temperature Drop-out voltage: V Drop-out voltage, V 8 APV APVS Short circuit current, A APV APVS LED operate current, ma.. APVS APVV APVS APVV APVS APVV. APV APVS LED turn off current vs. ambient temperature Drop-out voltage: V. LED dropout voltage vs. ambient temperature LED forward current: to ma.. Turn on time vs. ambient temperature LED forward current: ma capacity:,pf; output voltage: V LED turn off current, ma.. APVS APVV APV APVS LED dropout voltage, V.... ma ma ma ma Turn on time, ms.. APVS APVV APV APVS Turn off time vs. ambient temperature LED forward current: ma capacity:,pf; output voltage: V. 8. Turn on time vs. LED forward current capacity:,pf; output voltage: V 9. Turn off time vs. LED forward current capacity:,pf; output voltage: V. Turn off time, ms APVS APVV APV APVS 8 8 Turn on time, ms.. APV APVS APVS APVV LED forward current, ma Turn off time, ms..... APVS APVV APV APVS LED forward current, ma.drop-out voltage vs. LED forward current Drop-out voltage, V 8 APV APVS APVS APVV.Short circuit current vs. LED forward current Short circuit current, μa APV APVS APVS APVV LED forward current, ma LED forward current, ma ds_x_en_apv_: J

283 Solid State Relays

284 SSRs Technical Information SSR Description and Circuit Configurations Phototriac coupler Isolation type Zerocrossing function Model Circuit configuration I/O wave form (for resistive load) AC Phototriac Yes APT terminal Phototriac coupler Zero-crossing detector circuit Trigger circuit terminal voltage ON signal OFF current No APT terminal Phototriac coupler Trigger circuit terminal voltage ON signal OFF current SSR Isolation type Zerocrossing function Model Circuit configuration I/O wave form (for resistive load) Phototransistor Yes AQ (A, A) AQ-F terminal Phototransistor coupler circuit Zero-crossing detector circuit Trigger circuit Triac Snubber circuit terminal voltage ON signal OFF current AQ-G AQ (A, A) AQ-8 AQ-C terminal circuit Phototriac coupler Zero-crossing detector circuit Trigger circuit Triac Snubber circuit terminal voltage ON signal OFF current Phototriac coupler AC Phototriac Yes AQ-J AQ-A AQ-K AQ-H terminal terminal circuit Zero-crossing detector circuit Phototriac coupler Trigger circuit Trigger circuit Triac Triac Snubber circuit Z N R terminal terminal voltage ON signal OFF current voltage ON signal OFF current Zero-crossing detector circuit No AQ-G (AQ)* AQ8 (AQ-J)* AQ-A AQ-C AQ-H terminal terminal circuit Phototriac coupler Phototriac coupler Trigger circuit Trigger circuit Triac Triac Snubber circuit terminal terminal voltage ON signal OFF current voltage ON signal OFF current * AQ, AQ-J and AQ-A random types are available by special order. 8 ds_x_en_ssr_technical_information: J

285 SSR (continued) Isolation type Zerocrossing function Model Circuit configuration I/O wave form (for resistive load) DC Phototransistor AQ AQ-F AQ-C terminal Phototransistor coupler circuit Driver circuit transistor A reverse connection protection diode terminal ON signal OFF current DC logic output Phototransistor AQ-C (IAC) AQ-C (IDC) terminal terminal Rectifier Phototransistor coupler circuit Phototransistor coupler circuit transistor transistor Zener diode Zener diode terminal ON signal OFF ON condition OFF signal condition ON OFF ON OFF Solid State I/O relays Isolation type AC Zerocrossing function Yes Model Circuit configuration I/O wave form (for resistive load) OAC LED Phototransistor ON indicator coupler terminal circuit Zero-crossing detector circuit Trigger circuit Triac Snubber circuit terminal voltage ON signal OFF current DC ODC Phototransistor LED Phototransistor ON indicator coupler terminal circuit Driver circuit transistor A reverse connection protection diode terminal ON signal OFF current DC logic output IAC IDC terminal terminal Rectifier Phototransistor coupler circuit Phototransistor coupler circuit LED ON indicator LED ON indicator Vcc terminal Ground Vcc terminal ON signal OFF signal H L ON signal OFF signal H L Ground ds_x_en_ssr_technical_information: J 9

286 Principle of Operation SSR Switching Characteristics.SSR for AC s () Zero-crossing SSR The zero-crossing SSR uses a phototransistor or phototriac coupler to isolate the input from the output (see the circuit configuration on the previous page). When the input signal is activated, the internal zero-crossing detector circuit triggers the triac to turn on as the AC load voltage crosses zero. The load current is maintained by the triac s latching effect after the input signal is deactivated, until the triac is turned off when the load voltage crosses zero. The following describes voltage and current wave forms for different types of loads: Resistive loads Since resistive loads cause no phase shift between the voltage and current, the triac turns on when the AC load voltage crosses zero after the input signal is activated. The SSR turns off when the AC load voltage crosses zero and the load current is turned off after the input signal is subsequently deactivated. voltage voltage SSR output voltage current Inductive loads The SSR turns on when the load voltage crosses zero after the input signal is activated. It turns off when the load current subsequently crosses zero after the input signal is deactivated. A phase difference between the voltage and current may supply a transient spike to the SSR when it is turned off. While the snubber circuit absorbs this spike, an excessively large spike may result in a dv/dt error in the SSR s internal triac. voltage voltage SSR output voltage current () Random type SSR Random type SSR uses a phototriac coupler to isolate the input from the output. When the input signal is activated, the output immediately turns on, since there is no zero-crossing detector circuit. The load current is maintained by the triac s latching effect after the input signal is deactivated, until the AC load voltage crosses zero. Resistive loads AC load voltage voltage SSR output voltage current. SSR for DC s The SSR for DC loads uses a phototransistor coupler to isolate the input from the output. The output immediately responds to the input, since the phototransistor coupler directly turns the output transistor ON or OFF.. I/O Relays () modules (Types IAC and IDC) Interface SSRs have an input which is completely isolated from the output with a phototransistor coupler. This type of SSR outputs a logic signal that corresponds to the input signal. Two basic types are available: an IAC with an AC input, and an IDC with a DC input. () modules (Types OAC and ODC) The OAC type output module employs a circuit configuration identical to that of the zero-crossing SSR for AC loads; the ODC type output module employs a circuit configuration identical to that of the SSR for DC loads. ds_x_en_ssr_technical_information: J

287 Terminology of Phototriac Coupler/AQ-H side side Electrical Characteristics Term Symbol Description LED forward current IF Current that flows between the input terminals when the input diode is forward biased. LED reverse voltage VR Reverse breakdown voltage between the input terminals. Peak forward current IFP instantaneous value of the forward current. LED dropout voltage VF Dropout voltage between the input terminals due to forward current. Repetitive peak OFF-state voltage VDRM voltage with repeatability that can be applied continuously between the output terminals. ON-state RMS current IT(RSM) Effective current value, based on designated conditions, that can flow continuously between output terminals. current, without repeatability, that is based on designated conditions. Non-repetitive surge current ITSM Normally this is expressed as the wave height value of one power frequency current sinusoidal cycle. Peak ON-state voltage VTM Effective value of the voltage drop when a regulated load current flows between the output terminals when device is on. Peak OFF-state current IDRM Current that flows to output when a regulated load voltage is applied between the output terminals when device is off. Current flow when LED current is augmented and output is on, when regulated Trigger LED current IFT power supply voltage and load has been connected between the output terminals. Holding current IH current to maintain on state after output terminals have been turned on based on designated conditions. Critical rate of rise of OFF-state voltage dv/dt terminals do not go to the on state from the off state based on designated conditions. Zero-cross voltage VZC In the zero-cross method, when input is turned on, the maximum voltage value when the output terminals turn on. Turn on time Ton Delay time until the output switches on after a designated LED current is made to flow through the input terminals. I/O capacitance Ciso Capacitance between the input and output terminals. I/O isolation resistance Riso Resistance between terminals (input and output) when a specified voltage is applied between the input and output terminals. Solid State ds_x_en_ssr_technical_information: J

288 Terminology of SSR side side Electrical Characteristics Term Control voltage Activation voltage Recovery voltage impedance line voltage current Max. load current voltage Logic supply voltage/current Non-repetitive surge current OFF-state leakage current ON-state voltage drop Min. load current stage breakdown voltage Max. load current Repetitive peak voltage, max. Critical turn-off voltage rise ratio Operate time, max. Release time, max. Insulation resistance Breakdown voltage Vibration resistance Shock resistance Ambient temperature Storage temperature Description voltage necessary for normal SSR operation under the specified temperature conditions. Threshold at which the output turns on as the control voltage is gradually increased with the specified voltage applied to the loaded output. Threshold at which the output turns off as the control voltage is gradually decreased with the specified voltage applied to the loaded output. Resistance of the current limiting resistor used in the SSR input side. voltage at which an input module SSR operates normally. current at which an input module SSR operates normally. continuous current allowable across the SSR output terminals under the specified heat dissipation and ambient temperature conditions. AC current is specified in RMS units. supply voltage range in which the SSR operates normally. AC voltage is specified in RMS units. Supply voltage/current range in which an input module SSR operates normally. non-repetitive load current allowable under the specified heat dissipation and ambient temperature conditions. In general, it is given by the peak value of a single cycle of sinusoidal commercial AC current. Current that flows in the SSR output circuit when the specified supply voltage is applied to the output with no control voltage applied to the input. voltage drop caused by a specified load current supplied to the SSR output which is turned on by a specified input control voltage. AC voltage is specified in RMS units. Minimum load current at and above which the SSR operates normally under the specified temperature conditions. AC load current is specified in RMS units. voltage that can be applied across the output and ground of an input module SSR. current allowable for the output circuit of an input module SSR. repetitive voltage which can be continuously applied across the SSR output terminals. In general, a voltage of more than V AC is used for V AC applications, and more than V AC for - V AC applications, to absorb supply voltage variations or on/ off surges. SSRs may turn on if a turn-off voltage with a steep rising edge is applied. This phenomenon is called dv/dt turn on. Critical turn-off voltage rise ratio refers to the maximum turn-off voltage rise ratio at and below which the SSR remains turned off. Time until the SSR output turns on after the specified control voltage is applied to the input. Time until the SSR output turns off after the specified control voltage is removed from the input. Resistance measured with a specified voltage applied across the input and output, or across the input or output and frame ground. voltage below which no dielectric breakdown occurs when applied for minute across the same test points as those used for insulation resistance testing. Functional: The device sustains no damage and meets the specifications if it is exposed to vibration with its magnitude not exceeding this threshold during transit or installation. Destructive: Closed contacts of a relay remain closed for the specified time period if it is exposed to vibration with its magnitude not exceeding this threshold during operation. Functional: The device sustains no damage and meets the specifications if it is exposed to physical impact with its magnitude not exceeding this threshold during transit or installation. Destructive: Closed contacts of a relay remain closed for the specified time period if it is exposed to physical impact with its magnitude not exceeding this threshold during operation. Ambient temperature range over which the SSR operates normally under the specified heat dissipation and load current conditions. Ambient temperature range over which an SSR can be safely stored for extended periods without sustaining damage or performance degradation. ds_x_en_ssr_technical_information: J

289 Cautions For Use of Phototriac Coupler/AQ-H SAFETY WARNINGS Do not use the product under conditions that exceed the range of its specifications. It may cause overheating, smoke, or fire. Do not touch the recharging unit while the power is on. There is a danger of Cautions for Use. Applying stress that exceeds the absolute maximum rating If the voltage and current value for any of the terminals exceeds the absolute maximum rating, internal elements will deteriorate because of the excessive voltage and current. In extreme cases, wiring may melt, or silicon P/N junctions may be destroyed. As a result, the design should ensure that the absolute maximum ratings will never be exceeded, even momentarily.. Derating Derating is absolutely imperative for reliable design and is an essential factor in determining product life. Therefore, be sure to amply derate the maximum rated values when designing a system. Since it is important to derate in accordance with the type of relay, conditions for use, and environment, please be sure to conduct tests using actual equipment. Also, if there is a possibility that, due to a quality problem, this product might have a great effect on human life or property, do take product liability into consideration by being sure to take even extra leeway against the maximum rated value and implement safety measures such as the construction of redundant circuits.. The phototriac coupler is designed solely to drive a triac. As a condition, the triac must be powered beforehand.. The internal IC could be damaged if a short forms between the I/O terminals while the phototriac coupler and AQ-H SSR are powered.. spike voltages ) The figure below shows an ordinary triac drive circuit. Please add a snubber circuit or varistor, as noise/surge on the load side could damage the unit or cause malfunctions. <Phototriac coupler SOP, DIP> <Phototriac coupler DIP> electrical shock. Be sure to turn off the power when performing mounting, maintenance, or repair operations on the relay (including connecting parts such as the terminal board and socket). <AQ-H> 8 Note: Connection of an external resister, etc., to terminal No. (gate) is not necessary. VL(AC) ) Clamp diode can limit spike voltages at the load side. However, long wires may cause spike voltages due to inductance. It is recommended to keep wires as short as possible to minimize inductance. ) terminals may become conductive when a sudden voltage rise is applied, although the input power is not applied. This may occur even if voltage rise between terminals is less than the repetitive peak OFF-state voltage. Therefore, please perform sufficient tests with actual conditions. ) When controlling loads using zerocross voltage types in which the voltage and current phases differ, since the triac sometimes does not turn on regardless of the input state, please conduct sufficient tests using actual equipment.. Recommended input current value IF = ma 7. Important Notes for Mounting ) Temperature rise in the lead portion is highly dependent on package size. If multiple different packages are mounted on the same board, please check your board beforehand in an actual product, ensuring that the temperature conditions of the phototriac coupler fall within the parameters listed. ) If the mounting conditions exceed the conditions recommended above, strength of the resin used will decrease and inconsistencies of the thermal expansion coefficients in the component materials will increase greatly. This can cause package cracking and breakage of the bonding wires. Please contact us for consultation. 8. Cleaning The phototriac coupler and AQ-H SSR are forms an optical path by coupling a light-emitting diode (LED) and photodiode via transparent silicon resin. For this reason, unlike other directory element molded resin products (e.g., Check the connection diagrams in the catalog and be sure to connect the terminals correctly. Erroneous connections could lead to unexpected operating errors, overheating, or fire. MOS transistors and bipolar transistors), avoid ultrasonic cleaning if at all possible. We recommend cleaning with an organic solvent. If you cannot avoid using ultrasonic cleaning, please ensure that the following conditions are met, and check beforehand for defects. Frequency: 7 to 9 khz Ultrasonic output: No greater than. W/cm Cleaning time: No longer than s Cleanser used: Asahiklin AK- Other: Submerge in solvent in order to prevent the PCB and elements from being contacted directly by the ultrasonic vibrations. Note: Applies to unit area ultrasonic output for ultrasonic baths. 9. Transportation and storage ) Extreme vibration during transport will warp the lead or damage the relay. Handle the outer and inner boxes with care. ) Storage under extreme conditions will cause soldering degradation, external appearance defects, and deterioration of the performance. The following storage conditions are recommended: Temperature: to C to F Humidity: Less than 7% R.H. Atmosphere: No harmful gases such as sulfurous acid gas, minimal dust. ) Storage of SOP type Phototriac couplers implemented in SO packages (SOP -pin type) are sensitive to moisture and come in sealed moistureproof packages. Observe the following cautions on storage. After the moisture-proof package is unsealed, use the devices as soon as possible (use within month C F/7% R.H.). If the devices are to be left in storage after the moisture-proof package has been unsealed, keep them in another moisture-proof bag containing silica gel and use within months. Solid State ds_x_en_ssr_technical_information: J

290 . Soldering ) When soldering PC board terminals, keep soldering time to within s at C F. ) When soldering surface-mount terminals or SO package, the following conditions are recommended. () IR (Infrared reflow) soldering method T T T t t T = to 8 C to F T = C F T = C 8 F or less t = to s or less t = s or less () Soldering iron method Tip temperature: to C to 7 F Wattage: to W Soldering time: within s () Others Check mounting conditions before using other soldering methods (DWS, VPS, hot-air, hot plate, laser, pulse heater, etc.) The temperature profile indicates the temperature of the soldered terminal on the surface of the PC board. The ambient temperature may increase excessively. Check the temperature under mounting conditions. When using lead-free solder we recommend one with an alloy composition of Sn.Ag.Cu. Please consult us regarding details such as soldering conditions.. The following shows the packaging format ) Tape and reel (Phototriac coupler) mm inch Type Tape dimensions Dimensions of paper tape reel SO package -pin type Tractor feed holes.±. dia..±..±. dia..±. Device mounted on tape.8±..±. ±..7±. Direction of picking 7.±..7±..8±..9±. ±..7±. ±..79±..±..7±..7±. ±..8±..7±..±. dia..±. dia. ±..79±. ±.8.87±. 8± dia..±.9 dia. ± dia. 9.8±.79 dia. 8± dia..±.9 dia. () When picked from /-pin side: Part No. APT SX (Shown above) () When picked from /-pin side: Part No. APT SZ ±. dia..±. dia. ±. ±..±.9.79±..±..±. Tractor feed holes ±.. dia..9 ±. dia. Direction of picking.7±. ±..±..9±..7±..±..±..7±. DIP -pin type.±..±. Device mounted on tape ±..7±. ±..79±..±..7±. ±..7±..±. dia..±. dia. ±.8.87±. 8± dia..±.9 dia. () When picked from /-pin side: Part No. APT AX () When picked from /-pin side: Part No. APT AZ ±..79±. ± dia..8±.79 dia. 8± dia..±.9 dia. Tractor feed holes.±.. +. dia..± dia. Direction of picking.±..±..7±..9±. DIP -pin type.±..77±. Device mounted on tape ±. ±..7±. ±..7±..79±. 7.±..9±. ±. 9.±..±..±..±. dia..±. dia. ±. dia..±. dia. 7.±. ±..89±.79.79±. () When picked from //-pin side: Part No. APT AX () When picked from //-pin side: Part No. APT AZ ds_x_en_ssr_technical_information: J

291 Type Tape dimensions Dimensions of paper tape reel.. Tractor feed holes. dia. Direction of picking ±. ± dia.. ±..± ±. ±. ±..7±. mm inch DIP -pin wide terminal type DIP -pin wide terminal type Device mounted on tape.7 ±.. ±..7 ±.. ±.. ±.. ±.. ±..±. dia.. ±..7 ±..79 ±..±. dia. () When picked from /-pin side: Part No. APT WAY () When picked from /-pin side: Part No. APT WAW.. Tractor feed holes dia dia. Direction of picking.7. ±. ±. ±. 9.± ±. ±. ±..±. Device mounted on tape. ±..7 ±.. ±.. ±.. ±..9 ±.. ±..9 ±.. ±..79 ±.. ±.8.87 ±. ± dia..97 ±.9 dia. ±. dia.. ±. dia.. ±.. ±.79 ± dia..97 ±.9 dia. ±.99 ±.79.7 ±.8.7 ±. Solid State. ±.. ±.. ±..±. dia..9 ±..7 ±..79 ±..±. dia. () When picked from /-pin side: Part No. APT WAY () When picked from /-pin side: Part No. APT WAW ) Tape and reel (AQ-H) mm inch Type Tape dimensions Dimensions of paper tape reel.±..±. Tractor feed holes. +. dia dia. Direction of picking ±..±..7±..±..7±..9±. ±.8.87±. 8± dia..±.9 dia. 8-pin SMD type.±..77±. Device mounted on tape ±..7±. ±..79±. 7.±..9±. ±..±..±..±..±. dia..±. dia. ±..79±. ± dia..8±.79 dia. 8± dia..±.9 dia. () When picked from ///-pin side: Part No. AQH AX (Shown above) () When picked from //8-pin side: Part No. AQH AZ ±. dia..±. dia. 7.±. ±..89±.79.79±. ds_x_en_ssr_technical_information: J

292 ) Tube () Devices are packaged in a tube as pin No. is on the stopper B side. Observe correct orientation when mounting them on PC boards. (SOP type) (DIP type) StopperB (green) Stopper B StopperA (gray) Stopper A. Applying stress that exceeds the absolute maximum rating If the voltage and current value for any of the terminals exceeds the absolute maximum rating, internal elements will deteriorate because of the excessive voltage and current. In extreme cases, wiring may melt, or silicon P/N junctions may be destroyed. As a result, the design should ensure that the absolute maximum ratings will never be exceeded, even momentarily. ds_x_en_ssr_technical_information: J

293 Cautions for Use of SSR SAFETY WARNINGS Do not use the product under conditions that exceed the range of its specifications. It may cause overheating, smoke, or fire. Do not touch the recharging unit while the power is on. There is a danger of electrical shock. Be sure to turn off the power when performing mounting, maintenance, or repair operations on the relay (including connecting parts such as the terminal board and socket). Cautions for Use of SSR Check the connection diagrams in the catalog and be sure to connect the terminals correctly. Erroneous connections could lead to unexpected operating errors, overheating, or fire. Cautions for Use. Regarding output noise surge protection () AC Type A high noise surge voltage applied to the SSR load circuit can cause malfunction or permanent damage to the device. If such a high surge is anticipated, use a varistor across the SSR output. ➀ SSR power supply ➁ Varistor Note: AQ-F solid-state relay output terminals are numbered (8) and (). () DC Type When the SSR is loaded with an inductive load, such as a solenoid contactor, motor, or solenoid valve, use a counter-emf suppression diode across the load.. When used for the load less than rated An SSR may malfunction if it is used below the specified load. In such an event, use a dummy resistor in parallel with the load. Specifications Type current AQ-G All models ma AQ- AQ-8 AQ-F SSR SSR ➀ ➁ ➀ ➁ AC output type DC output type V type V type AC output type DC output type R (dummy resistor) power supply power supply ma ma ma ma ma ma AQ-J All models ma AQ-A All models ma AQ-K All models ma AQ-C I/O relays. Noise and surge protection at the input side A high noise surge voltage applied to the SSR input circuit can cause malfunction or permanent damage to the device. If such a high surge is anticipated, use C or R noise absorber in the input circuit. Control voltage source V type with AC output V type with AC output DC output type AC output module DC output module. When the input terminals are connected with reverse polarity If the polarity of the input control Type voltage is reversed AQ, AQ-F, AQ-J, AQ-A, AQ-K AQ-J I/O relay AQ-H, AQ-G, AQ8, AQ-C R Type ma ma ma ma ma Reversing the polarity will not cause damage to the device, due to the presence of a protection diode, but the device will not operate.. In the case of operating voltage containing ripple If the SSR control voltage contains ripple, the peak of the ripple should not exceed the maximum rated control voltage, and the bottom of the ripple should exceed the minimum rated control voltage. C Reversing the polarity may cause permanent damage to the device. Take special care to avoid polarity reversal or use a protection diode in the input circuit. ➂ ➃ current SSR Peak ripple voltage Valley ripple voltage V. Cleaning solvents compatibility Dip cleaning with an organic solvent is recommended for removal of solder flux, dust, etc. If ultrasonic cleaning must be used, the severity of factors such as frequency, out power and cleaning solvent selected may cause loose wires and other troubles. Please make sure these conditions before use. 7. Transportation and storage ) Extreme vibration during transport will warp the lead or damage the relay. Handle the outer and inner boxes with care. ) Storage under extreme conditions will cause soldering degradation, external appearance defects, and deterioration of the. The following storage conditions are recommended: Temperature: to C to F Humidity: Less than 7% R.H. Atmosphere: No harmful gasses such as sulfurous acid gas, minimal dust. 8. Others () If an SSR is used in close proximity to another SSR or heat-generating device, its ambient temperature may exceed the allowable level. Carefully plan SSR layout and ventilation. () Soldering to SSR terminals should be completed within seconds at C. () Terminal connections should be made by referring to the associated wiring diagram. () For higher reliability, check device quality under actual operating conditions. Solid State ds_x_en_ssr_technical_information: 9J 7

294 Cautions for Use of SSR Snubber Circuit. Reduce dv/dt An SSR used with an inductive load can accidentally fire due to a high load voltage rise rate (dv/dt), even though the load voltage is below the allowable level (inductive load firing). Our SSRs contain a snubber circuit designed to reduce dv/dt (except AQ-H). ) R selection SSR ➀ ➁ R C Inductive load Snubber circuit power supply If there is no resistance R (the resistance R controls the discharge current from condenser C), at turn-on of the SSR, there will be a sharp rise in dv/dt and the high peak value discharge current will begin to flow. This may cause damage to the internal elements of the SSR. RL VA. Selecting the snubber constants ) C selection The charging coefficient tau for C of the SSR circuit is shown in formula =(RL+R) C By setting formula so that it is below dv/dt value you have: C=.VA/((dv/dt) (RL+R)) Therefore, it is always necessary to insert a resistance R. In normal applications, for the V line, have R = to and for the V line, have R = to. (The allowable discharge current at turnon will differ depending on the internal elements of the SSR.) The power loss from R, written as P, caused by the discharge current and charging current from C, is shown in formula below. For the V line, use a power of / W, and for the V line, use a power above W. P= C V f A f = Power supply frequency By setting C =. to. F, dv/dt can be controlled to between nv/ s and n+v/ s or lower. For the condenser, use either an MP condenser metallized polyester film. For the V line, use a voltage between and V, and for the V line, use a voltage between and V. Also, at turn-off of the SSR, a ringing circuit is formed with the capacitor C and the circuit inductance L, and a spike voltage is generated at both terminals of the SSR. The resistance R serves as a control resistance to prevent this ringing. Moreover, a good non-inductive resistance for R is required. Carbon film resistors or metal film resistors are often used. For general applications, the recommended values are C =. F and R = to. There are cases of resonance in the inductive load, so the appropriate care must be taken when making your selections. Thermal Design SSRs used in high-reliability equipment require careful thermal design. In particular, junction temperature control has a significant effect on device function and life time. The rated load current for board-mounting SSRs is defined as the maximum current allowable at an ambient temperature of C ( C) and under natural cooling. If the ambient temperature exceeds the SSRs derating temperature point ( C to C, depending on SSR), load current derating in accordance with the load current vs temperature diagram becomes nesessary. If adjacent devices act as heat sources, the SSR should be located more than mm away from those devices. SSRs with a A rating or more must be used with the dedicated heat sinks listed in Table or equivalents. To ensure Protection Circuit High-reliability SSR circuits require an adequate protection circuit, as well as careful study of the and maximum ratings of the device.. Over-Voltage Protection The SSR load power supply requires adequate protection against over-voltage errors from various causes. The methods of over-voltage protection include the following: () Use devices with a guaranteed reverse surge withstand voltage (controlled avalanche devices, etc.) adequate thermal conduction, apply thermal conductive compound (Toshiba silicone YG, TSK or alternate) to the SSR s mounting surface. For Table. Dedicated on-board heat sinks information on external heat sinks for our SSRs and their mounting method, refer to Data and Cautions for Use for respective relay. current Type Heat sink to A AQA-ZT/V DC AQ-HS-A A AQ-J (A) AQP-HS-JA AQP-HS-JA (for AQ-J) AQP-HS-SJA (for AQ-J)* AQP-HS-SJA* A AQ-A (A), AQ-J (A) AQP-HS-JA AQP-HS-JA (for AQ-J) AQP-HS-SJA (for AQ-J)* AQP-HS-SJA* A AQ-J (A) AQP-HS-JA AQP-HS-SJA (for AQ-J)* AQP-HS-SJA* to A AQ-A (A) AQP-HS-/A A AQ-J (A) AQP-HS-JA A AQ-A (A) AQP-HS-JA *It is possible to mounting on the DIN rail. () Suppress transient spikes Use a switching device in the secondary circuit of a transformer or use a switch with a slow opening speed. () Use a surge absorption circuit Use a CR surge absorber or varistor across the load power supply or SSR. Special care must be taken so power on/ off surges or external surges do not exceed the device s rated load voltage. If a surge voltage exceeding the device s rated voltage is anticipated, use a surge absorption device and circuit (e.g. a ZNR from Panasonic Electronic Devices Co., Ltd.). 8 ds_x_en_ssr_technical_information: 9J

295 Choosing the Rated Voltage of the ZNR () Peak supply voltage () Supply voltage variation () Degradation of ZNR characteristic ( ma %) () Tolerance of rated voltage (%) For application to V AC lines, choose a ZNR with the following rated voltage: () () () () = ( )... = 88 (V) Cautions for Use of SSR.8 dia.. dia. D W H. max..8 max. L T. min..787 min. D: 7. dia. max..89 dia. max. T:. max.. max. H:. max..87 max. W: 7.±.98±.9 (mm inch) Example of ZNR (Panasonic Electronic Components) Types Varistor voltage Max. allowable circuit voltage Max. control voltage Max. average pulse electric power Withstanding energy Withstanding surge current Electrostatic (8/ s) capacitance (/ s) (ms) time time (Reference) VmA (V) ACrms (V) DC (V) VA (V) (W) (J) (J) (A) (pf) ERZVD (8 to ) 7. 7,, 77 ERZVD (98 to ) 8. 78,, 7 ERZVD ( to ) 9. 8,, 7 ERZVD7 7 (7 to ) ,, ERZVD ( to 9) 9. 9,, ERZVD9 9 ( to 9).,, ERZVD (87 to 7) 7 7.,, ERZVD7 7 ( to 7) ,, ERZVD (8 to 8) 8,. 9,, ERZVD8 8 ( to 78),. 9,,. Over-Current Protection An SSR circuit operated without overcurrent protection may result in damage to the device. Design the circuit so the device s rated junction temperature is not exceeded for a continuous overload current. (e.g. Surge current into a motor or light bulb) The surge-on current rating applies to over-current errors which occur less than several tens of times during the service life of a semiconductor device. A protection coordination device is required for this rating. Methods of over-current protection include the following: () Suppressing over-currents Use a current limiting reactor in series with the load power supply. () Use a current shut-off device Use a current limiting fuse or circuit breaker in series with the load power supply. Example of executing fuse selection of over-current protection cooperation Fuse cut-off current Surge ON current, (A peak) AQR (A type) NHR (fuse A) NHR (fuse A), No. of cycles at Hz Solid State Type Description. Heaters (Resistive ) The SSR is best suited to resistive loads. Noise levels can be drastically lowered with zero-crossing switching.. Lamps Tungsten or halogen lamps draw a high inrush current when turned on (approximately 7 to 8 times the steadystate current for zero-crossing SSRs; approximately 9 to times, in the worst case, for random type SSRs). Choose an SSR so the peak of the inrush current does not exceed % of the SSR surgeon current.. Solenoids AC-driven solenoid contactors or solenoid valves also draw inrush current when they are activated. Choose an SSR such that the peak of the inrush current does not exceed % of the SSR surgeon current. For small solenoid valves and AC relays in particular, a leakage current may cause the load to malfunction after the SSR turns off. In such an event, use a dummy resistor in parallel with the load. Using an SSR below the Specified SSR Dummy resistor power supply ds_x_en_ssr_technical_information: 9J 9

296 Cautions for Use of SSR. Motors When starting, an electric motor draws a symmetrical AC starting current some to times the steady-state load current, superimposed on a DC current. The starting time during which this high starting current is sustained depends on the capacities of the load and load power supply. Measure the starting current and time under the motor s actual operating conditions and choose an SSR so the peak of the starting current does not exceed % of the SSR surge-on current. When the motor load is deactivated, a voltage exceeding the load supply voltage is applied to the SSR due to counter-emf. This voltage is approximately. times the load supply voltage for induction motors, and approximately times that for synchronous motors. Reversible Motor Control When the direction of motor rotation is reversed, the transient current and time required for the reversal far exceed those required for simple starting. The reversing current and time should also be measured under actual operating conditions. Inrush Current Wave and Time () Incandescent Lamp () Mercury Lamp i/io] times For a capacitor-starting, single-phase induction motor, a capacitive discharge current appears during the reversal process. Be sure to use a current limiting resistor or reactor in series with the SSR. Also, the SSR should have a high marginal voltage rating, since a voltage twice as high as the load supply voltage develops across the SSR in the reversal process. (For reversible control on a V AC line, use SSRs with a V rating; for use on a V AC line, contact your nearest our representative for further information.) For reversible motor control, carefully design the driver circuit so the forward and reverse SSRs do not turn on at the same time. Transistor-driven reversible motor control circuit Flip-flop or manual switch R R R R R TR TR R C C ➂ ➁ SSR (for forward rotation) ➃ ➀ ➃ ➀ SSR (for reverse rotation) ➂ ➁ power supply L R C ZNR Single-phase induction motor. Capacitive A capacitive load (switching regulator, etc.) draws an inrush current to charge the load capacitor when the SSR turns on. Choose an SSR so the peak of the inrush current does not exceed % of the SSR surge-on current. A timing error of up to one cycle can occur when a switch used in series with the SSR is opened or closed. If this is a problem, use an inductor ( to H) in series to the SSR to suppress dv/dt error. L ➀ SSR ➁. Other Electronic Equipment In general, electronic equipment uses line filters in the primary supply circuit. The capacitors used in the line filters may cause the SSR to malfunction due to dv/ dt turn on when the equipment is turned on or off. In such an event, use an inductor ( to H) in series with the SSR to suppress dv/dt turn on. () Fluorescent Lamp i/io] to times C i io i io Contacts C L i io Incandescent lamp Approx. / second Inrush current/rated current: i/io] to times to minutes The discharge tube, transformer, choke coil, capacitor, etc., are combined in common discharge lamp circuits. Note that the inrush current may be to times, especially if the power supply impedance is low in the high power factor type. () Motor i/io] to times () Solenoid i/io] to times (for high power factor type) () Electromagnetic Contact i/io] to times seconds or less (7) Capacitive i/io] to times i io. to. second Starting Steady state Braking Free Lock i io i io i io Conditions become more harsh if plugging or inching is performed since state transitions are repeated. When using a relay to control a DC motor and brake, the on time inrush current, steady-state current and off time brake current differ depending on whether the load to the motor is free or locked. In particular, with non-polarized relays, when using from B contact of from contact for the DC motor brake, mechanical life might be affected by the brake current. Therefore, please verify current at the actual load..7 to. second Note that since inductance is great, the arc lasts longer when power is cut. The contact may become easily worn. to cycles (/ to / seconds) / to cycles (/ to / seconds) ds_x_en_ssr_technical_information: 9J

297 SSR Driving Circuits Cautions for Use of SSR. Relay Driver. NPN Transistor Driver. PNP Transistor Driver power supply Vcc Relay contacts ➀ ➁ ➂ ➃ SSR power supply Vcc ➀ ➁ ➂ ➃ SSR power supply Vcc ➀ ➁ ➂ ➃ SSR NPN Transistor PNP Transistor. TTL/DTL/IC Driver. C-MOS/IC Driver () SSR fires when IC output is HIGH: () SSR fires when IC output is LOW: power supply Vcc TTL, DTL, IC ➀ ➁ ➂ ➃ SSR power supply Vcc C-MOS, IC ➀ ➁ ➂ ➃ SSR power supply Vcc C-MOS, IC ➀ ➁ ➂ ➃ SSR Solid State. Self Sustaining Circuit Using SSR 7. Driving with a Shared Supply 8. SSRs Used in Series Vcc R ➂ ➃ SSR ➀ ➁ ZNR power supply C SW ➂ ➃ SSR ➀ ➁ ZNR power supply Vcc ➂ ➃ ➂ ➀ SSR ➁ ➀ ZNR power supply B A Terminal A: ON input pulse Terminal B: OFF input pulse SSR ZNR ➃ ➁ Phototriac Coupler, AQ-H Solid State Relay Driving Circuits. NPN Transistor Driver ) Phototriac Coupler ) AQ-H Solid State Relay Vcc Vcc 8 power supply power supply NPN Transistor NPN Transistor * Phototriac coupler and AQ-H is current driving type. ds_x_en_ssr_technical_information: 9J

298 Phototriac Coupler/AQ-H Application Examples Phototriac Coupler/AQ-H Application Examples Applications. Temperature control for heater control R Triac Heater load power supply Phototriac coupler C R Varistor power supply. Airflow control for fan motors power supply R AQ-H 8 C R Varistor M power supply ds_x_en_ssr_technical_information: 9J

299 SSR Application Examples Applications SSR Application Examples. Light Bulb. Electric Furnace Temperature Control Control voltage source Control switch ➂ ➃ SSR ➁ ➀ Light bulb power supply signal source and temperature sensor ➂ ➃ SSR ➀ ➁ Heater load power supply * KT Temperature Controller is available.. Single-Phase Induction Motor Control. Reversible Control for a Single-Phase Induction Motor power supply Control voltage source ➃ ➀ SSR Control switch ➂ ➁ Single-phase Induction motor Flip-flop or manual switch R R C R TR TR R C R R ➂ ➁ SSR (for forward rotation) ➃ ➀ ➃ ➀ SSR (for reverse rotation) ➂ ➁ power supply L R C ZNR Single-phase induction motor Solid State. Three-Phase Induction Motor Control. Reversible Control for a -Phase Induction Motor (R) L R ➀ ➁ (R) ➃ ➀ SSR ➂ ➁ SSR (for forward rotation) ➃ ➂ (S) (T) ➀ ➃ SSR ➁ ➂ M (S) L ZNR ZNR ➀ SSR (for reverse rotation) ➃ ➁ ➂ M Control voltage source ZNR ➀ ➁ SSR (for reverse rotation) ➃ ➂ L R (T) ➀ ➁ SSR (for forward rotation) ➃ ➂ Note: Take special care in the design to ensure that both the forward and reverse SSRs do not turn on at the same time. Recommended Temperature Controllers 8mm.89inch 8mm.89inch mm.inch ds_x_en_ssr_technical_information: 9J <KTH Temperature Controller> Our temperature controller is recommended for use with our Solid State Relays. Features Data can be collected using the RS8 communications interface via a PLC. Improved visibility using a negative type LCD and backlight. Depth-wise length (chassis dimension) is mm. inch. Substitute part numbers Power supply Control output Part No. to V AC Relay contact AKTH *For detailed product information about temperature controllers, please refer to our website:

300 SSR Recommendation Chart Please use this chart when selecting the SSR load. The values presented are for ambient temperatures of C F ( C 8 F) and lower. When selected, please measure the load current waveform and use within the range of each surge current characteristic. voltage V AC V AC 8 V DC V DC Product Max. load current Heater Solenoid bulb Singlephase motor Type of load Triplephase motor Lamp Transformer AQC ( module) AQG (A type) A.8A.A 7W.A W AQ8 (A type) I/O ( module) A.A A W A W AQG (A type) AQF (A type) A.A A W A W AQF (A type) AQ8 (A type) AQ (A type) A.A.A W.A W AQ (A type) AQJ (A type) AQA (A type) AQK (A type) AQJ (A type) AQK (A type) AQA (A type) AQJ (A type) A 8A A W A W A A 7.A W 7.A 7W A A.A W.A.kW Remarks Heat sink AQP-HS-SJA (AQJ type) Heat sink AQP-HS-JA, AQP-HS-SJA Heat sink AQ-HS-A (AQ type) Heat sink AQP-HS-JA, AQP-HS-SJA Heat sink AQP-HS-JA (AQ-J type) (except AQ-K type) Heat sink AQP-HS-/A (AQ-A type) Heat sink AQP-HS-JA (AQ-J type) AQA (A type) A A A 7W A kw Heat sink AQP-HS-JA (AQ-A type) AQC ( module) AQG (A type) A.8A.A W W.A W AQ8 (A type) I/O ( module) A.A A W W A W AQG (A type) AQF (A type) A.A A 7W W A W AQF (A type) AQ8 (A type) A.A.A W W.A W AQ (A type) AQ (A type) AQJ (A type) AQK (A type) AQA (A type) AQJ (A type) AQK (A type) AQA (A type) AQJ (A type) A 8A A W kw A kw A A 7.A W.kW 7.A.kW A A.A kw.kw.a.kw Heat sink AQP-HS-SJA (AQJ type) Heat sink AQP-HS-JA, AQP-HS-SJA Heat sink AQ-HS-A (AQ type) Heat sink AQP-HS-JA, AQP-HS-SJA Heat sink AQP-HS-JA (AQ-J type) (except AQ-K type) Heat sink AQP-HS-/A (AQ-A type) Heat sink AQP-HS-JA (AQ-J type) AQA (A type) A A A.kW.7kW A kw Heat sink AQP-HS-JA (AQ-A type) AQC ( module) A.8A.A.A AQ (A type) I/O ( module) A.A.A.A AQF (A type) AQF (A type) A.A.A.A AQ (A type) I/O ( module) A.8A.A.A ds_x_en_ssr_technical_information: 9J

301 APT Phototriac Coupler with various options for external Triac control FEATURES. Low zero-cross voltage (max. V) type added to lineup. Approximately / of previous product Helps reduce device noises even further. voltage Previous product: max. V New product: max. V Phototriac Coupler (APT) VDE Phototriac Coupler (APT) TYPICAL APPLICATIONS. For triac driver in heater controls of products such as office equipment, home appliances, and industrial machines. (For V/V, / Hz lines). Triac driver for SSRs ZC Zero-cross circuit ZC Zero-cross circuit High noise Large interfering wave Low noise Small interfering wave Solid State. Two types available: Random type and zero-cross type. Many package sizes available. (Wide terminal type with. mm pitch between I/O terminals available.). High dielectric strength. (Between input and output: SOP, 7 V; DIP, V). Handles both and V AC loads This relay handles both voltages in a single product it is not necessary for users that use both types to manage separate part numbers.. Terminal of the DIP -pin type is completely molded. TYPES. SOP Type Type AC type Repetitive peak OFF-state voltage rating ON-state RMS current V ma Type Zero-cross (max. V) Zero-cross (max. V) Random Package size SOPpin Tube packing style APTS APTS APTS Part No. Note: For space reasons, the initial letters of the product number APT and S are omitted on the product seal. The package type indicator X and Z are omitted from the seal. (Ex. the label for product number APTSZ is ). Packing quantity Tape and reel packing style Tube Tape and reel APTSX (Picked from the /-pin side) APTSX (Picked from the /-pin side) APTSX (Picked from the /-pin side) APTSZ (Picked from the /-pin side) APTSZ (Picked from the /-pin side) APTSZ (Picked from the /-pin side) tube contains: pcs. batch contains:, pcs., pcs. ds_9_en_apt: D

302 Phototriac Coupler (APT). DIP/ Type Type AC type rating Repetitive peak OFF-state voltage ON-state RMS current V ma Type Zero-cross (max. V) Zero-cross (max. V) Package size DIPpin Through hole terminal Note: For space reasons the initial letters APT of the product number for the DIP -pin type, the letter A, which indicates the SMD terminal shape for the DIP -pin and -pin types, and the package type indications X and Z have been omitted from the product label. (Example: The label for product number APTAZ is.) Part No. Surface-mount terminal Packing quantity Tube packing style Tape and reel packing style Tube Tape and reel APT APT APTA APTA Random APT APTA Zero-cross (max. V) Zero-cross (max. V) DIPpin APT APT APTA APTA Random APT APTA APTAX (Picked from the /-pin side) APTAX (Picked from the /-pin side) APTAX (Picked from the /-pin side) APTAX (Picked from the //-pin side) APTAX (Picked from the //-pin side) APTAX (Picked from the //-pin side) APTAZ (Picked from the /-pin side) APTAZ (Picked from the /-pin side) APTAZ (Picked from the /-pin side) APTAZ (Picked from the /-pin side) APTAZ (Picked from the /-pin side) APTAZ (Picked from the /-pin side) [DIPpin] tube contains: pcs. batch contains:, pcs. [DIPpin] tube contains: pcs. batch contains: pcs. [DIPpin] [DIPpin], pcs.. DIP/ Wide Terminal Type rating* Type AC type Repetitive peak OFF-state voltage ON-state RMS current V ma Type Zero-cross (max. V) Zero-cross (max. V) Package size DIPpin Through hole terminal Note: For space reasons the initial letters APT of the product number for the DIP -pin type, the letter WA, which indicates the SMD terminal shape for the DIP -pin and -pin types, and the package type indications Y and W have been omitted from the product label. (Example: The label for product number APTWAY is.) RATING. Absolute maximum ratings (Ambient temperature: C 77 F) ) SOP types Item Symbol APTS, APTS, APTS Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty Ratio =.% Repetitive peak OFF-state voltage VDRM V ON-state RMS current* IT(RMS). A AC Non-repetitive surge current ITSM. A In one cycle at Hz Total power dissipation PT mw I/O isolation voltage Viso,7 V AC Non-condensing at Operating Topr C to + C F to + F Temperature limits low temperatures Storage Tstg C to + C F to +7 F Note: X and Z at the end of the part numbers have been omitted. Part No. Surface-mount terminal Packing quantity Tube packing style Tape and reel packing style Tube Tape and reel APTW APTW APTWA APTWA Random APTW APTWA Zero-cross (max. V) Zero-cross (max. V) DIPpin APTW APTW APTWA APTWA Random APTW APTWA APTWAY (Picked from the /-pin side) APTWAY (Picked from the /-pin side) APTWAY (Picked from the /-pin side) APTWAY (Picked from the /-pin side) APTWAY (Picked from the /-pin side) APTWAY (Picked from the /-pin side) APTWAW (Picked from the /-pin side) APTWAW (Picked from the /-pin side) APTWAW (Picked from the /-pin side) APTWAW (Picked from the /-pin side) APTWAW (Picked from the /-pin side) APTWAW (Picked from the /-pin side) [DIPpin] tube contains: pcs. batch contains:, pcs. [DIPpin] tube contains: pcs. batch contains: pcs. [DIPpin] [DIPpin], pcs. ds_9_en_apt: D

303 Phototriac Coupler (APT) ) DIP/ type and DIP/ Wide terminal type Item Symbol APT(W) APT(W) APT(W) APT(W) APT(W) APT(W) Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty Ratio =.% Repetitive peak OFF-state voltage VDRM V ON-state RMS current* IT(RMS). A AC Non-repetitive surge current ITSM. A In one cycle at Hz Total power dissipation PT mw I/O isolation voltage Viso, V AC Non-condensing at Operating Topr C to + C F to + F Temperature limits low temperatures Storage Tstg C to + C F to +7 F Note: A, AX, AZ AY and AW at the end of the part numbers have been omitted. * Do not exceed. A of ON state RMS current in case of following load voltage condition. DIPpin (APT, APT, APT) and DIPpin wide terminal type (APTW, APTW, APTW): more than V AC; DIPpin (APT, APT, APT) and DIPpin wide terminal type (APTW, APTW, APTW): more than V AC.. Electrical (Ambient temperature: C 77 F) ) Zero-cross voltage type (max. V) and random type Item Symbol APTS, APT(W), APT(W) APTS, APT(W), APT(W) Condition LED dropout voltage. V VF. V IF = ma LED reverse current IR A VR = V Repetitive peak IF = ma IDRM OFF-state current A VDRM = V Repetitive peak. V IF = ma VTM On-state voltage. V ITM =. A Holding current. ma IH. ma Critical rate of rise of OFF-state voltage Minimum dv/dt V/ s VDRM = V / Trigger LED current IFT ma VD = V RL = Zero-cross voltage VZC V IF = ma IF = ma Transfer Turn on time* Ton s VD = V RL = I/O capacitance Ciso. pf f = MHz VB = V I/O resistance Minimum Riso G V DC Notes:. For type of connection, see page.. Terminals are either solder plated or solder dipped. *Turn on time Solid State Ton 9% ds_9_en_apt: D 7

304 Phototriac Coupler (APT) ) Zero-cross voltage type (max. V) Item Symbol APTS, APT(W), APT(W) Condition LED dropout voltage. V VF. V IF = ma LED reverse current IR A VR = V Repetitive peak IF = ma IDRM OFF-state current A VDRM = V Repetitive peak. V IF = ma VTM On-state voltage V ITM =. A Holding current. ma IH. ma Critical rate of rise of OFF-state voltage Minimum dv/dt V/ s VDRM = V / Trigger LED current IFT ma IDRM = ma Zero-cross voltage VZC V IF = ma Transfer Turn on time* Ton s I/O capacitance Ciso. pf IF = ma IDRM = ma f = MHz VB = V I/O resistance Minimum Riso G V DC Notes:. For type of connection, see page. *Turn on time. Terminals are either solder plated or solder dipped. Ton 9% RECOMMENDED OPERATING CONDITIONS Please follow the conditions below in order to ensure accurate operation and release of the phototriac coupler. Item Symbol Value Unit LED current IF ma REFERENCE DATA -(). ON-state RMS current vs. ambient temperature Allowable ambient temperature: C to + C F to + F Tested sample: APTS, APTS 7 -(). ON-state RMS current vs. ambient temperature Allowable ambient temperature: C to + C F to + F Tested sample: APTS 7 -(). ON-state RMS current vs. ambient temperature Allowable ambient temperature: C to + C F to + F Tested sample: APT(A), APT(A), APTW(A), APTW(A) ON-state RMS current, ma ON-state RMS current, ma ON-state RMS current, ma 8 VL V AC VL > V AC ds_9_en_apt: D

305 -(). ON-state RMS current vs. ambient temperature Allowable ambient temperature: C to + C F to + F Tested sample: APT(A), APTW(A) -(). ON-state RMS current vs. ambient temperature Allowable ambient temperature: C to + C F to + F Tested sample: APT(A), APT(A), APTW(A), APTW(A) Phototriac Coupler (APT) -(). ON-state RMS current vs. ambient temperature Allowable ambient temperature: C to + C F to + F Tested sample: APT(A), APTW(A) ON-state RMS current, ma 8 VL V AC VL > V AC ON-state RMS current, ma 8 VL V AC VL > V AC ON-state RMS current, ma 8 VL V AC VL > V AC On voltage vs. ambient temperature Trigger LED current vs. ambient temperature LED dropout voltage vs. ambient temperature Solid State.8. On voltage, V... Trigger LED current, ma 8 LED dropout voltage, V.... ma ma ma ma Turn on time vs. LED current. Repetitive peak OFF-state current vs. voltage 7. Hold current vs. ambient temperature Repetitive peak OFF-state current, A. Ð Ð7 Ð9 Ð Hold current, ma.. LED current, ma Ð 8 voltage, V Zero-cross voltage vs. ambient temperature Zero-cross voltage, V ds_9_en_apt: D 9

306 Phototriac Coupler (APT) DIMENSIONS (mm inch) Download from our Web site. CAD Data. SOP Type APTS, APTS, APTS CAD Data Recommended mounting pad (TOP VIEW)...±..7±9.8±..8±....7.±..9±.9.±..79± Tolerance: Terminal thickness =.. General tolerance:... DIP Type APT(A), APT(A), APT(A) CAD Data Through hole terminal type Surface mount terminal type Max. Max... 7.±..±. Max... 7.±..±..±..± ±..±.. ±. ± ±..±. Terminal thickness =..8 General tolerance:.. PC board pattern (BOTTOM VIEW) Recommended mounting pad (TOP VIEW) -.8 dia. -. dia Tolerance:.. Tolerance:.. ds_9_en_apt: D

307 . DIP Wide Terminal Type APTW(A), APTW(A), APTW(A) CAD Data Through hole terminal type Phototriac Coupler (APT) Surface mount terminal type Max. Max.. ±.. ±.. ±.. ±. Max.. ±. ±.. Max.. Max..7. ±.. ± ±..88 ± ±.. ±. PC board pattern (BOTTOM VIEW). ±..8 ±.8.78 ±..88 ±....7 ±.. ±..7. Terminal thickness =..8 General tolerance:.. Recommended mounting pad (TOP VIEW) Solid State -.8 dia. -. dia Tolerance:.. Tolerance:... DIP Type APT(A), APT(A), APT(A) CAD Data Through hole terminal type Max. Surface mount terminal type Max..±. 7.±..±..±..9±..± ±..± Max..±..± ±..± Terminal thickness =.. General tolerance:.. PC board pattern (BOTTOM VIEW) Recommended mounting pad (TOP VIEW) -.8 dia. -. dia Tolerance: Tolerance:.. ds_9_en_apt: D

308 Phototriac Coupler (APT). DIP Wide Terminal Type APTW(A), APTW(A), APTW(A) CAD Data Through hole terminal type Surface mount terminal type Max. MAX.. ±.. ±.. ±.. ±. 8.8 ±.. ±... MAX.. ±.. ±. 8.8 ±.. ±. Max... ±. Max..7.± ±. ± Terminal thickness =.. General tolerance:.. PC board pattern (BOTTOM VIEW) -.8 dia. -. dia Recommended mounting pad (TOP VIEW) SCHEMATIC AND WIRING DIAGRAMS Notes: E: Power source at input side; IF: LED forward current; VL: voltage; IL: current; Schematic configuration Tolerance:.. Wiring diagram Tolerance:.. ZC Zero-cross circuit E IF VL (AC) VL (AC) Form A AC ZC Zero-cross circuit E IF VL (AC) VL (AC) For Cautions for Use, see Page. ds_9_en_apt: D

309 AQ-H VDE.A to.a compact DIP type AQ-H RELAYS AQ-H 8 + ZC Zero-cross circuit 8 + FEATURES. Compact DIP type SSR that s ideal for AC load control. Supports. A,. A,.9 A and. A ON-state RMS currents.. The. A type saves space with a DIP 8-pin package DIP8 DIP (mm inch). Handles both and V AC loads This relay handles both voltages in a single product. It is not necessary for users that use both types to manage separate part numbers.. High dielectric strength:, V AC (between input and output). Two types available: Zero-cross type and Random type TYPICAL APPLICATIONS. Home appliances (air conditioner, microwave oven, washing machine, personal hygiene system, refrigerator, fan heater, inductive heating cooker, rice cooker and humidifier, etc.). Industrial equipment Solid State TYPES Type AC type Repetitive peak OFFstate voltage V rating* ON-state RMS current Type Through hole terminal Tube packing style Part No. Surface-mount terminal Tape and reel packing style Picked from the ///-pin side Picked from the //8-pin side. A AQH AQHA AQHAX AQHAZ. A AQH AQHA AQHAX AQHAZ Zero-cross.9 A AQH AQHA AQHAX AQHAZ. A AQH AQHA AQHAX AQHAZ. A AQH AQHA AQHAX AQHAZ. A AQH AQHA AQHAX AQHAZ Random.9 A AQH AQHA AQHAX AQHAZ. A AQH AQHA AQHAX AQHAZ *Indicate the repetitive peak OFF-state voltage and ON-state RMS current: peak AC. Note: For space reasons, the SMD terminal shape indicator A and the package type indicator X and Z are omitted from the seal. Packing quantity Tube tube contains pcs. batch contains pcs. Tape and reel, pcs. RATING. Absolute maximum ratings (Ambient temperature: C 77 F) Item Symbol AQH, AQH AQH, AQH AQH, AQH AQH, AQH Remarks LED forward current IF ma LED reverse voltage VR V Peak forward current IFP A f = Hz, Duty Ratio =.% Repetitive peak OFF-state voltage VDRM V ON-state RMS current IT(RMS). A. A.9 A. A Non-repetitive surge current ITSM A A 9 A A Hz, cycle I/O isolation voltage Viso, V AC Non-condensing at low Operating Topr C to +8 C F to +8 F Temperature limits temperatures Storage Tstg C to + C F to +7 F Note: A, AX and AZ at the end of the part numbers have been omitted. ds en_aqh: D

310 AQ-H. Electrical (Ambient temperature: C 77 F) Item Symbol AQH, AQH, AQH, AQH, AQH, AQH, AQH AQH Condition LED dropout voltage. V VF. V IF = ma LED reverse current IR A VR = V Peak OFF-state IF = ma IDRM current A VDRM = V Peak ON-state IF = ma VTM voltage. V ITM = Max. Holding current IH ma Critical rate of rise of OFF-state voltage Minimum dv/dt V/ s VDRM = V /M Trigger LED current IFT ma VD = V RL = Zero-cross voltage VZC V IF = ma Transfer IF Turn on time* TON s VD = V = ma RL = I/O isolation resistance Minimum Riso G V DC Notes:. For type of connection, see page.. A, AX and AZ at the end of the part numbers have been omitted. *Turn on time RECOMMENDED OPERATING CONDITIONS Please follow the conditions below in order to ensure accurate operation and release of the phototriac coupler. Item Symbol Value Unit LED current IF ma Ton 9% REFERENCE DATA. ON-state RMS current vs. Ambient temperature Allowable ambient temperature: C to +8 C F to +8 F.. On voltage vs. Ambient temperature LED current: ma; ON current: Max. Measured portion: between terminals and 8.. Trigger LED current vs. Ambient temperature voltage: V DC; resistance: ON-state RMS current, ma AQH, AQH. AQH, AQH.9 AQH, AQH. AQH, AQH. On voltage, V...8 AQH, AQH AQH, AQH AQH, AQH AQH, AQH Trigger LED current, ma LED dropout voltage vs. Ambient temperature LED current: to ma LED dropout voltage, V..... ma ma ma ma. Turn on time vs. LED current voltage: V DC; resistance: Measured portion: between terminals and 8 Turn on time, s 8. Repetitive peak OFF-state current vs. voltage LED current: ma; Measured portion: between terminals and 8; Ambient temperature: C 77 F Repetitive peak OFF-state current, A Ð Ð Ð Ð Ð7 Ð8 Ð LED current, ma Ð 8 voltage, V ds en_aqh: D

311 7. Hold current vs. Ambient temperature 8. Zero-cross voltage vs. Ambient temperature LED current: ma AQ-H Hold current, ma AQH, AQH AQH, AQH Zero-cross voltage, V AQH, AQH, AQH, AQH AQH, AQH AQH, AQH DIMENSIONS (mm inch) Through hole terminal type CAD Data...9±..± MAX. MAX Terminal thickness:.. General tolerance:.. Surface mount terminal type CAD Data Download MAX... Terminal thickness:.. General tolerance:.. PC board pattern CAD Data 8-.8 dia. hole 8-. dia. hole from our Web site. (BOTTOM VIEW) Tolerance:.. Recommended mounting pad (TOP VIEW) Tolerance:.. Solid State SCHEMATIC AND WIRING DIAGRAMS Notes: E: Power source at input side; IF: Trigger LED forward current; VL: voltage; IL: current; Schematic configuration Wiring diagram 8 + ZC Zero-cross circuit 8 + a AC E IL VL (AC) IL IF 8 8 E IL VL (AC) IL IF VL (AC) VL (AC) For Cautions for Use, see Page. ds en_aqh: D

312 AQ-G VDE A and A space saving PC board terminal type AQ-G RELAYS AQ-G. max..9 max.. max..77 max.. max.. max.. max..9 max.. max..77 max.. max..87 max. FEATURES. Space saving, Vertical size with a maximum thickness of. mm. Mounting space has been reduced to % (compared to conventional SSR s) while meeting high density PC board mounting requirements.. A and A load types available. Zero-cross type and Non zero-cross type available. High dielectric strength of,v AC (between input and output). Snubber circuit integrated The snubber circuit is integrated to prevent malfunction caused by the rapid rise of voltage on the output side, such as inductive load and current. mm inch TYPES Type Zero-cross Non zerocross current A A A A voltage voltage Part No. V DC AQG 7 to V AC V DC AQG V DC AQG V DC AQG 7 to V AC V DC AQG V DC AQG V DC AQG 7 to V AC V DC AQG V DC AQG V DC AQG 7 to V AC V DC AQG V DC AQG TYPICAL APPLICATIONS Manufacturing equipment NC machines Injection molders Robots Air conditioners Computers ORDERING INFORMATION Ex. AQG current : A : A voltage : 7 to V AC (Note) Standard packing: Carton pcs., Case pcs. Type : Zero-cross (, V) : Non zero-cross (, V) voltage : V DC : V DC : V DC ds en_aqg: D

313 SPECIFICATIONS. Ratings (at C 8 F, voltage ripple: % or less) ) Zero-cross type Item side side Type Part No. AQG AQG AQG AQG AQG AQG voltage to V DC 9. to. V DC 9. to 8.8 V DC to V DC 9. to. V DC 9. to 8.8 V DC impedance Approx..k Approx..8k Approx..k Approx..k Approx..8k Approx..k Drop-out voltage, min. V Reverse voltage V Max. load current A AC A AC voltage 7 to V AC Frequency to Hz Non-repetitive surge current 8 A A Max. OFF-state leakage current. ma (applied V) Max. ON-state voltage drop. V Min. load current ma ) Non zero-cross type Item Type Part No. AQG AQG AQG AQG AQG AQG voltage to V DC 9. to. V DC 9. to 8.8 V DC to V DC 9. to. V DC 9. to 8.8 V DC impedance Approx..k Approx..8k Approx..k Approx..k Approx..8k Approx..k side Drop-out V voltage, min. Reverse voltage V Max. load current A AC A AC voltage 7 to V AC Frequency to Hz side Non-repetitive surge current Max. OFF-state leakage current Max. ON-state voltage drop Min. load current 8 A A. ma (applied V) AQ-G Remarks In one cycle at Hz at Max. carrying current Remarks In one cycle at Hz. Characteristics (at C 8 F, voltage ripple: % or less) Item Zero-cross type Non zero-cross type Remarks Operate time max. (/ cycle of voltage sine wave) + ms ms Release time, max. (/ cycle of voltage sine wave) + ms Insulation resistance, min. 9 between input and output Using V DC megger Breakdown voltage, Vrms between input and output Initial for min. Vibration resistance to Hz double amplitude of.7 mm X, Y, Z axes Shock resistance, m/s X, Y, Z axes Ambient temperature C to +8 C F to +7 F Non-condensing at low temperatures Storage temperature C to + C F to + F Operational method Zero-cross (Turn-ON and Turn-OFF) Non zero-cross turn ON, Zero-cross turn OFF. V ma at Max. carrying current Solid State ds en_aqg: D 7

314 AQ-G DIMENSIONS (mm inch) Download CAD Data from our Web site.. A type CAD Data. max..9 max..8. max... max.. max..77 max. PC board pattern (Bottom view) dia. -.9 dia. Schematic AC type Tolerance:.. General tolerance: A type CAD Data. max..9 max.. max..77 max. PC board pattern (Bottom view) max..87 max dia. -.9 dia. Tolerance: Schematic AC type REFERENCE DATA General tolerance:..8. current vs. ambient temperature -() Non-repetitive surge current vs. carrying time (A type)..-() Non-repetitive surge current vs. carrying time (A type) current, A.... A type A type Non-repetitive surge current, A 8 Non-repetitive surge current, A - 8. current vs. input voltage current, ma ( V type) ( V type) ( V type) No. of cycles at Hz -() current vs. ambient temperature for adjacent mounting (A type). current, A = mm.9 inch = mm.9 inch = mm.97 inch No. of cycles at Hz.-() current vs. ambient temperature for adjacent mounting (A type). current, A.... = mm.9 inch =mm.9 inch =mm.97 inch = Adjacent mounting pitch - 8 voltage, V For Cautions for Use, see Page 7. = Adjacent mounting pitch ds en_aqg: D

315 Certified AQA-ZP/8VDC, AQAD-/8VDC and AQAD-/8VDC Certified AQAD-/8VDC and AQAD-/8VDC Please contact us about TÜV certified products. Certified AQAD-/8VDC and AQAD-/8VDC VDE AQ Certified AQA-ZT/VDC, AQA-J-ZT/VDC and AQA-ZT/VDC High capacity up to A PC board terminal type AQ RELAYS AQ mm inch.98.7 FEATURES. A high-capacity realized for PC board terminal (with heat sink) SSR for compact PC boards with A capacity that is two times greater than our previous model. It is suitable for longlife, highly frequent control.. VDE (EN9-) reinforced insulation compliant Fully satisfies demand for safety by guaranteeing compliance with EN9- safety standard and featuring, V reinforced insulation (AQA- ZT/VDC, AQA-J-ZT/VDC and AQA-ZT/VDC).. Superior anti-vibration and antishock The body is molded as a single unit with flame resistant resin which makes it highly resistant against vibration and shock, and gives it superior protection from environment. The body can also be washed.. Vertical types with SIL terminal arrangement and flat types are available. ) The vertical type is available in thicknesses of mm ( A and A types) and mm ( A and A types). Terminal arrangement is SIL in integral multiples of. mm (. inch). ) The height of the flat type is mm. The terminal arrangement is DIL in integral multiples of. mm.. Reduced noise generation The load will operate at close to zero voltage even when the input signal is applied during a cycle. Also, even if an input signal is cancelled during a cycle, the load is cut off at close to zero current. For this reason, hardly any noise is produced and radio frequency interference (RFI) and electromagnetic interference (EMI) are kept to a minimum.. Built-in Snubber circuit prevents malfunction. TYPICAL APPLICATIONS Printing machines Packing machines Traffic signal control Automatic ticket punchers Terminal equipment of data processing Computer peripherals NC machines Solid State ORDERING INFORMATION current A, A, A, A, A voltage : 7 to V AC D: to V DC D: to V DC Shape Nil: Vertical type J: Flat type voltage /8 V DC: to 8 V DC / V DC: to V DC AQ Nil: DC output ZT: Zero-cross AC output (Phototriac coupler) * Random types are available upon request. ds en_aq: 8D 9

316 AQ TYPES. AQ Solid State Relays Isolation Zero-cross function AC Phototriac coupler Zero-cross* DC Optically coupled isolation Standard packing: Carton pcs., Case pcs. Note: * Non zero-cross type also available. Please inquire. Type voltage current voltage Part No. A (Vertical) to V DC A, 7 to V AC AQA-ZT/VDC A (flat) to V DC A, 7 to V AC AQA-J-ZT/VDC A to V DC A, 7 to V AC ( A without heat sink) AQA-ZT/VDC A to 8 V DC A, to V DC AQAD-/8VDC A to 8 V DC A, to V DC AQAD-/8VDC. Heat sink for AQ solid state relay Product name Heat sink for AQA-ZT/VDC Standard packing: Carton pcs., Case pcs. Part No. AQ-HS-A SPECIFICATIONS. Rating (at C 8 F, Ripple factor: less than %) Type AC output type DC output type Zero-cross Item A type A type A type A type voltage to V DC to 8 V DC side side Remarks impedance Approx.. k ( to 8 V DC) current, max. ma Drop-out voltage, min.. V.8 V Max. load current A A* A A Refer to REFERENCE DATA. voltage 7 to V AC to V DC to V DC current vs. ambient temperature. Non-repetitive surge current A A ( s) AC: In one cycle at Hz, DC: s AC: at V, Hz Max. OFF-state leakage current ma ma DC: When maximum load voltage is applied. Max. ON-state voltage drop. V. V. V At Max. carrying current Min. load current ma* ma* Notes: * When heat sink (AQ-HS-A) is installed. The max. load current is A when heat sink is not installed. * When heat sink (AQ-HS-A) is installed. The max. load current is A when heat sink is not installed. * When load current is below the rating, refer to Cautions for Use on page.. Characteristics (at C 8 F, Ripple factor: less than %) Type AC output Zero-cross DC output Remarks Item A type A type Operate time, Max. (/ cycle of voltage sine wave) + ms. ms Release time, Max. (/ cycle of voltage sine wave) + ms ms Insulation resistance, Min. M for input, output and case M for input, output at V DC Breakdown voltage Vibration resistance Destructive Functional, Vrms between input and output, Vrms among input, output and case 7. m/s {G}, to Hz at double amplitude of mm 7. m/s {G}, to Hz at double amplitude of mm, Vrms between input-output 7. m/s {G}, to Hz at double amplitude of mm 7. m/s {G}, to Hz at double amplitude of mm For minute hour for X, Y, Z axis minutes for X, Y, Z axis Shock resistance Destructive Min. 98 m/s { G} Min. 98 m/s { G} times each for X, Y, Z axis Functional Min. 98 m/s { G} Min. 98 m/s { G} times each for X, Y, Z axis Ambient temperature C to +8 C F to +7 F Storage temperature C to + C F to + F Operational method Zero-cross (Turn-ON and Turn-OFF) ds en_aq: 8D

317 REFERENCE DATA -() current vs. ambient temperature (AC output, A type) Part No.: AQA-ZT/VDC and AQA-J-ZT/VDC Allowable ambient temperature: C to +8 C F to +7 F.-() current vs. ambient temperature (AC output, A type) Part No.: AQA-ZT/VDC (A) When not using a heat sink (B) When using a standard heat sink AQ-HS-A (When attached to a heat sink, use a heat conductive compound (Ex. Toshiba silicone YG or TSK) of similar coating to improve cooling.) AQ.-() current vs. ambient temperature (DC output, A and A types) Part No.: AQAD-/ 8VDC and AQAD-/8VDC Allowable ambient temperature: C to +8 C F to +7 F. 8 (B). A type current, A current, A (A) current, A.. A type Solid State -() Non-repetitive surge current vs. carrying time (AC output, A and A types) Part No.: AQA-ZT/VDC, AQA-J-ZT/VDC and AQA-ZT/VDC.-() Non-repetitive surge current vs. carrying time (DC output) Part No.: AQAD-/8VDC and AQAD-/8VDC -() current vs. input voltage (AC output, A and A types) Part No.: AQA-ZT/VDC, AQA-J-ZT/VDC and AQA-ZT/VDC Non-repetitive surge current, A 7 No. of cycles at Hz Non-repetitive surge current, A 8 8, Carrying time, ms current, ma voltage, V ds en_aq: 8D

318 AQ DIMENSIONS (mm inch) Download from our Web site. CAD Data. AC output, A types (Vertical) CAD Data.99 Mounting hole location (Copper-side view). OUTPUT INPUT Schematic Copper foil -. dia. -.7 dia. -.8 dia. -. dia (.) (.)..9 SSR LOAD INPUT power source + - power source General tolerance:.. Tolerance:... AC output, A types (Flat) CAD Data Mounting hole location (Copper-side view).99 Copper foil. -. dia dia dia. -. dia power source Schematic power source INPUT OUTPUT -.7. SSR LOAD INPUT General tolerance:.. Tolerance:... AC output, A types CAD Data Mounting hole location (Copper-side view).7.98 max..9 max LOAD INPUT dia dia. Copper foil dia.* -.8 dia * There holes are not necessary when not using heat sink (AQ-HS-A) Schematic SSR LOAD INPUT power source + - power source General tolerance:.. Tolerance:.. ds en_aq: 8D

319 AQ. Heat sink (for AQA-ZT/VDC) CAD Data -M Screw 8±.8±.79 CAD Data mm inch.8. 7±.± ±.8±.79 -M Screw depth: min. mm Heat sink attached to AQ relay. DC output, A and A types CAD Data Knurl surface... General tolerance: OUTPUT INPUT (.) (.). -.8 dia. -. dia..9 General tolerance:.. Mounting hole location (Copper-side view) Schematic SSR LOAD INPUT power source power source Copper foil -. dia. -.7 dia. Tolerance:.. Solid State ds en_aq: 8D

320 AQ CAUTIONS FOR USE. side ) Noise and surge protection at the input side A high noise surge voltage applied to the SSR input circuit can cause malfunction or permanent damage to the device. If such a high surge is anticipated, use C or R noise absorber in the input circuit. Control voltage source ) When the input terminals are connected with reverse polarity Reversing the polarity will not cause damage to the device, due to the presence of a protection diode, but the device will not operate. ) In the case of operating voltage containing ripple If the SSR control voltage contains ripple, the peak of the ripple should not exceed the maximum rated control voltage V, and the bottom of the ripple should exceed the minimum rated control voltage V.. side ) Regarding output noise surge protection A high noise surge voltage applied to the SSR load circuit can cause malfunction or permanent damage to the device. If such a high surge is anticipated, use a varistor across the SSR output. SSR R SSR Keep the varistor voltage to no more than V. C Peak ripple voltage Valley ripple voltage V Varistor power supply ) When used for the load less than rated An SSR may malfunction if it is used below the specified load. In such an event, use a dummy resistor in parallel with the load. SSR power supply Set a value of dummy resistor so that the load current becomes ma or greater due to the dummy resister and load.. When using bent output terminals To avoid applying mechanical stress on the main unit and molded section of the solid state relay, radio pliers should be used to grasp the terminals between the point of bending and the molded case when making the bends. Solid state relay R (dummy resistor) Terminal bend section Printed circuit board Solder. When a heat sink is mounted on the A or A type The heat sink (AQ-HS-A) or a radiator which can make good contact should be used. If a heat sink is used in which the contact condition is bad, a heat conducting compound should be used to improve the heat radiation. (Ex. Silicon compound Toshiba silicon YG or TSK) The compound should be applied between the heat sink and the AQ. AQ-HS-A heat sink A type AQ SSR Printed circuit board -M screws (provided with AQ-HS-A) Approx..N m of torque should be used for tightening the M screws.. Others ) If an SSR is used in close proximity to another SSR or heat-generating device, its ambient temperature may exceed the allowable level. Carefully plan SSR layout and ventilation. ) Soldering to SSR terminals should be completed within seconds at C F. ) Terminal connections should be made by referring to the associated wiring diagram. ) For higher reliability, check device quality under actual operating conditions.. Transportation and storage ) Extreme vibration during transport will warp the lead or damage the relay. Handle the outer and inner boxes with care. ) Storage under extreme conditions will cause soldering degradation, external appearance defects, and deterioration of the. The following storage conditions are recommended: Temperature: to C to 8 F Humidity: Less than % R.H. Atmosphere: No harmful gasses such as sulfurous acid gas, minimal dust. For Cautions for Use, see Page 7. ds en_aq: 8D

321 AQ-J Slim heat sink combined type Compact high capacity (A max) Slim heat sink combined type joining the lineup FEATURES. Compact Size Approx % reduction in required space achieved in the footprint area compared with the previous model (AQ-R relay). Built-in varistor. Reverse input connection prevention function. Labor Saving (tab terminal). arrangement a and a available in the heat sink combined type Note: * International standards are acquired for AQ-J SSR stand-alone, not applied to heat sink combined type. UL (9-) reinforced insulation compliant AQ-J AQ-J RELAYS TYPICAL APPLICATIONS. Kitchen appliances. Vending machine. Injection molding machine. Packing machine. Amusement machine Solid State ORDERING INFORMATION AQ-J Solid State Relays type : A, 7V to V AC : A, 7V to V AC : A, 7V to V AC AQJ Terminal : Plug-in terminal, Zero-cross : Plug-in terminal, Random* voltage : to V DC : 8 to 8 V DC 9: to 8 V DC Functions V: Built-in varistor Slim heat sink combined type None: Y: W: Without a heat sink a type a type Note: * Random type is available by custom order. TYPES. AQ-J Solid State Relays Type current voltage voltage Part No. to V DC AQJV A to 8V DC AQJ9V 8 to 8V DC AQJV to V DC AQJV Zero-cross* A 7V to V AC to 8V DC AQJ9V 8 to 8V DC AQJV to V DC AQJV A to 8V DC AQJ9V 8 to 8V DC AQJV Standard Packing; carton: pcs., case: pcs. Note: * Random type also available. Please inquire. ds en_aqj: D

322 AQ-J. AQ-J SSR Slim Heat Sink Combined Type configuration Type current voltage voltage Part No. to V DC AQJVY A to 8V DC AQJ9VY a 8 to 8V DC AQJVY to V DC AQJVY A to 8V DC AQJ9VY 8 to 8V DC AQJVY Zero-cross* 7V to V AC to V DC AQJVW A to 8V DC AQJ9VW (per a) 8 to 8V DC AQJVW a Standard Packing; no carton, case: pcs. Note: * Random type also available. Please inquire.. Accessories Type Part No. Packaged quantity DIN rail mounting plate AQP-DPJ in a carton, in a case Slim heat sink (8mm wide) (Mountable on a DIN rail) AQP-HS-SJA No carton, in a case Slim heat sink (mm wide) (Mountable on a DIN rail) AQP-HS-SJA No carton, 8 in a case Standard heat sink (A and A) AQP-HS-JA in a carton, in a case Standard heat sink (A only) AQP-HS-JA No carton, in a case SPECIFICATIONS A (per a) to V DC AQJVW to 8V DC AQJ9VW 8 to 8V DC AQJVW. Ratings (Test sample: AQ-J stand-alone, Measurement condition: at C 8 F, input ripple: % or less) ) side Item ) side Part No. AQJV AQJV AQJV AQJ9V AQJ9V AQJ9V Note: * When the load current is less than the rated minimum load current, please refer to Cautions for Use, page 7. AQJV AQJV AQJV Rated voltage V DC V DC V DC voltage to V DC to 8V DC 8 to 8V DC impedance Approx. Approx. 8 Approx..k Drop-out voltage Min. V DC Item Part No. AQJV AQJ9V AQJV AQJV AQJ9V AQJV AQJV AQJ9V AQJV Max. load current A A A voltage 7 to V AC Frequency Hz to Hz Non-repetitive surge current A A A Max. OFF-state leakage current Max. ma Max. ON-state voltage drop Max..V Min. load current* ma. Ratings (Test sample: AQ-J slim heat sink combined type, Measurement condition: at C 8 F, input ripple: % or less) ) side Item ) side Part No. AQJV(Y W) AQJV(Y W) AQJ9V(Y W) AQJ9V(Y W) Notes: * Please refer to REFERENCE DATA,. current vs. ambient temperature below. * When the load current is less than the rated minimum load current, please refer to Cautions for Use, page 7. AQJV(Y W) AQJV(Y W) Rated voltage V DC V DC V DC voltage to V DC to 8V DC 8 to 8V DC impedance Approx. Approx. 8 Approx..k Drop-out voltage Min. V DC Item Part No. AQJVY AQJ9VY AQJVY AQJVY AQJ9VY AQJVY AQJVW AQJ9VW AQJVW AQJVW AQJ9VW AQJVW arrangement a a Max. load current* A A A A voltage 7 to V AC Frequency Hz to Hz Non-repetitive surge current A A A A Max. OFF-state leakage current Max. ma Max. ON-state voltage drop Max..V Min. load current* ma ds en_aqj: D

323 . Characteristics (Measurement condition: at C 8 F, input ripple: % or less) Item Characteristics Remarks Operate time, max. (/ cycle of voltage sine wave) + ms Release time, max. (/ cycle of voltage sine wave) + ms Insulation resistance, min. M between input to output to case Using V DC megger Breakdown voltage, Vrms between input and output, Vrms between input, output and case for min. Vibration resistance SSR stand-alone: to Hz, double amplitude of.mm Slim heat sink combined type: to Hz, double amplitude of.7mm X, Y, Z axes Shock resistance SSR stand-alone: Min. 98m/s Slim heat sink combined type: Min. 97m/s X, Y, Z axes Ambient temperature to +8 C to +7 F Non-condensing at low temperatures Storage temperature to + C to + F Operational method Zero-cross (Turn ON and Turn OFF) REFERENCE DATA () AQ-J Solid State Relays. current vs. ambient temperature Use load current within range specified in the figure below Tested condition: () A type (when using heat sink or iron ()-. A type (when using iron plate) ) If attached to a heat sink, use a heat plate) conductive compound (Ex. Toshiba sillicone 8 YG or TSK) of similar coating to When a single unit is mounted on an (A) slim heat sink When a single unit is mounted improve cooling on an (B) slim heat sink When using t mm iron plate ) Without external heat sink When two units are mounted on an (A) slim heat sink If the mounting surface is not metallic and a 8 When a single unit is mounted heat sink is not used, expose the bottom on an (C) standard heat sink When using When two units are mounted surface and plate surface to improve heat on an (B) slim heat sink 9 t. mm When using t. mm iron plate iron plate dissipation. ) The current value is per a. current, A When using as stand-alone When using an (D) DIN rail mounting plate current, A When using t. mm iron plate AQ-J Solid State 8-8 ()-. A type (when using a heat sink) ()-. A type (when using iron plate) ()-. A type (when using a heat sink) current, A When a single unit is mounted on an (C) standard heat sink When a single unit is mounted on an (B) slim heat sink When two units are mounted on an (A) slim heat sink When two units are mounted on an (B) slim heat sink When using as stand-alone When using an (D) DIN rail mounting plate When a single unit is mounted on an (A) slim heat sink 8 current, A When using t mm iron plate When using t mm iron plate When using t mm iron plate When using t. mm iron plate When using t. mm iron plate - 8 current, A When a single unit is mounted on an (E) standard heat sink When a single unit is mounted on an (B) slim heat sink When two units are mounted on an (A) slim heat sink When a single unit is mounted on an (C) standard heat sink When a single unit is mounted on an (A) slim heat sink When two units are mounted on an (B) slim heat sink When using as stand-alone When using an (D) DIN rail mounting plate 8. Non-repetitive surge current vs. carrying time Non-repetitive surge current, A A type A type A type. current vs. input voltage (A, A and A common) current, ma ( to V DC) ( to 8V DC) (8 to 8V DC) (A) slim heat sink (B) slim heat sink (C) standard heat sink (D) DIN rail mounting plate (E) standard heat sink AQP-HS-SJA AQP-HS-SJA AQP-HS-JA AQP-DPJ AQP-HS-JA No. of cycles at Hz voltage, V ds en_aqj: D 7

324 AQ-J () AQ-J SSR Slim Heat Sink Combined Type. current vs. ambient temperature Use load current within range specified in the figure below () arrangement: a () arrangement: a (Per a) current, A AQJ VY AQJ VY current, A AQJ VW AQJ VW 8 8 Note: When two contacts are operated simultaneously. In the case of a single-contact operation, the rating of () AQJ VY, AQJ VY applies.. Surge current vs. carrying time. current vs. input voltage Surge current, A current, ma 8 AQJ V AQJ 9V AQJ V AQJ V AQJ V No. of cycles at Hz voltage, V 8 ds en_aqj: D

325 AQ-J DIMENSIONS (mm inch) Download from our Web site. CAD Data. AQ-J Stand Alone CAD Data..9 External dimensions max max Schematic power + power source 8.9. dia..9 dia. LOAD A VAC AQJV MADE IN JAPAN - VDC + INPUT Ð dia. -.7 dia dia. -. dia side and terminals: # type, t =.8. side and terminals: # type, t =.. Mounting dimensions dia. or M -.9 dia. or M Solid State () Slim Heat Sink Combined Type Arrangement: a CAD Data. dia..8 dia. External dimensions elliptical hole Schematic power source + power source Mounting dimensions (Top view) Note: When using on a DIN rail, please install so that the A part is on top... AQP8 A part 777 Max dia. or M -.8 dia. or M 9±..±.8..-() Slim Heat Sink Combined Type Arrangement: a CAD Data. dia..8 dia. External dimensions elliptical hole Schematic power source + Note: Use caution for AQ-J terminal numbers. power source.. AQP8 777 Max Mounting dimensions (Top view) -. dia. or M -.8 dia. or M. Note: When using on a DIN rail, please install so that the A part is on top. A part 9±..±.8 ds en_aqj: D 9

326 AQ-J ACCESSORIES AQP-HS-SJA Slim Heat Sink CAD Data. dia..8 dia External dimensions M (Effective screw depth: mm.inch)... elliptical hole Mounting dimensions (Top view) -. dia. or M -.8 dia. or M 9±..±.8. Note: When using on a DIN rail, please install so that the A part is on top... AQP8 A part AQP-HS-SJA Slim Heat Sink CAD Data External dimensions -M (Effective screw depth: mm.inch) Mounting dimensions (Top view) -. dia. or M -.8 dia. or M...8 9±..±.8. dia..8 dia elliptical hole Note: When using on a DIN rail, please install so that the A part is on top... AQP8 777 A part AQP-HS-JA Standard Heat Sink (for A and A types) CAD Data External dimensions R. R Mounting dimensions -M or. dia. -M or.7 dia. -M ±..± ±..99±.8 ds en_aqj: D

327 AQP-HS-JA Standard Heat Sink (for A type) CAD Data External dimensions -R..98 Mounting dimensions -M. or dia. -M. or.97 dia. AQ-J.8 -M ±..8±. ±..97± Solid State AQP-DPJ DIN Rail Mounting Plate CAD Data.. External dimensions. dia..8 dia. -M elliptical hole For Cautions for Use, see page 7. ds en_aqj: D

328 AQ-A current to A Small Screw Terminal SSR AQ-A RELAYS AQ-A FEATURES. Compact Size W L 8 H. mm W.7 L.8 H. inch. With terminal cover for safety (output side only). * Cover on input side available as option.. Mounting pitch 7. mm.87 inch. Built in varistor for excellent surge absorption. With LED indication for operation status verification TYPICAL APPLICATIONS Heater control Business use: Cooking machine Vending machine Freezer Refrigerator Industrial use: Molding machine Temperature controlled bath Printing machine Packing machine ORDERING INFORMATION type : A, 7V to V AC : A, 7V to V AC : A, 7V to V AC AQA Terminal, Type : Screw terminal, Zero-cross : Screw terminal, Random* voltage : to V DC Functions VL: Built-in varistor and LED indication * Random type is available by custom order. TYPES. AQ-A Solid State Relays Type current voltage voltage Part No. A AQAVL Zero-cross A 7V to V AC to V DC AQAVL A AQAVL Standard Packing; carton: pcs., case: pcs. Note: Random type also available. Please inquire.. Accessories Type Part No. Packaged quantity Standard heat sink (A) AQP-HS-JA in a carton, in a case Standard heat sink (A) AQP-HS-/A in a carton, in a case Standard heat sink (A) AQP-HS-JA No carton, in a case Slim heat sink (mm wide) (Mountable on a DIN rail) AQP-HS-SJA No carton, 8 in a case DIN rail mounting plate AQP-DPJ in a bag, in a case Terminal cover AQA8 ds en_aqa: 8J

329 RATING. Ratings (Measurement condition: at C 8 F, ripple: % or less) Item Part No. AQAVL AQAVL AQAVL Remarks voltage to V DC side current Max. ma Drop-out voltage Min. V Max. load current A A A voltage 7 to V AC Frequency to Hz side Non-repetitive surge current A A A In one cycle at Hz OFF-state leakage current Max. ma at Hz ON-state voltage drop Max..V at Max. carrying current Min. load current* ma Note: * When the load current is less than the rated minimum load current, please refer to Cautions for Use, page 7. AQ-A. Characteristics (Measurement condition: at C 8 F, ripple: % or less) Item AQAVL AQAVL AQAVL Remarks Operate time Max. / cycle of voltage sine wave + ms Release time Max. / cycle of voltage sine wave + ms Insulation resistance Min. M between input and output at V DC Breakdown voltage, Vrms between input and output, Vrms between input, output and case for min. Vibration resistance (Functional) to Hz double amplitude of.mm X, Y, Z axes Shock resistance (Functional) Min. 98 m/s X, Y, Z axes Ambient temperature C to +8 C F to +7 F Non-condensing at low temperatures Storage temperature C to +8 C F to +8 F Non-condensing at low temperatures Operational method Zero-cross (Turn ON and Turn OFF) Solid State REFERENCE DATA. current vs. ambient temperature Use load current within range specified in the figure below. Tested condition With external heat sink ) () When using standard heat sink (AQP-HS-JA) () When using standard heat sink (AQP-HS-/A) () When using standard heat sink (AQP-HS-JA) () When using standard heat sink (AQP-HS-SJA) ) If attached to a heat sink, use a heat conductive compound (Ex. Momentive Performance Materials Inc. YG or TSK) of similar coating to improve cooling. Without external heat sink If the mounting surface is not metallic and a heat sink is not used, expose the bottom surface and plate surface to improve heat dissipation. () A type (AQAVL) () A type (AQAVL) current, A When using AQP-HS-JA or AQP-HS-SJA When using as stand-alone - 8 current, A When using as stand-alone When using AQP-HS-/A When using AQP-HS-JA When using AQP-HS-SJA - 8 () A type (AQAVL). Non-repetitive surge current vs. carrying time When using AQP-HS-JA When using AQP-HS-/A When using AQAVL AQAVL AQAVL AQP-HS-JA When using AQP-HS-SJA current, A When using as stand-alone Non-repetitive surge current, A. current vs. input voltage current, ma 8-8 No. of cycles at Hz voltage, V ds en_aqa: 8J

330 AQ-A DIMENSIONS (mm inch) Download CAD Data from our Web site. CAD Data External dimensions Schematic -M.7. dia..9 dia. power source power source LOAD A VAC AQAVL E MADE IN JAPAN INPUT -VDC Mounting dimensions dia. or M -.9 dia. or M -M..9.. (.) (.) () (.8).. (.) (.) ACCESSORIES (mm inch) AQP-HS-SJA Slim Heat Sink CAD Data External dimensions Mounting dimensions. dia..8 dia M (Effective screw depth: mm.inch)..8.. elliptical hole dia. or M -.8 dia. or M 9±..± Note: When using on a DIN rail, please install so that the A part is on top. A part General tolerance:..9 ds en_aqa: 8J

331 AQP-HS-JA Standard Heat Sink CAD Data External dimensions AQ-A Mounting dimensions R M or. dia. -M or.7 dia. -M ±..±...7 AQP-HS-/A Standard Heat Sink CAD Data External dimensions ±..99±.8 Mounting dimensions -M or. dia. -M or.7 dia. Solid State 9. -M R ±..± General tolerance:.. ±..99±.8 AQP-HS-JA Standard Heat Sink CAD Data External dimensions -R..98 Mounting dimensions -M. or dia. -M. or.97 dia. -M ±..8± ±..97± ds en_aqa: 8J

332 AQ-A AQP-DPJ DIN Rail Mounting Plate CAD Data AT8-DLA Mounting Rail CAD Data... dia..8 dia. -M elliptical hole ,±. 9.7± R.8R slot slot 7..9 ATA8 Fastening plate CAD Data.7 M For Cautions for Use, see page 7. ds en_aqa: 8J

333 Global Network North America Europe Asia Pacific China Japan Panasonic Electric Works Please contact our Global Sales Companies in: Europe Headquarters Panasonic Electric Works Europe AG Rudolf-Diesel-Ring, 87 Holzkirchen, Tel. +9 () 8 8-, Fax +9 () 8 8-, Austria Panasonic Electric Works Austria GmbH Josef Madersperger Str., Biedermannsdorf, Tel. + () -8, Fax + () - Panasonic Industrial Devices Materials Ennshafenstraße, 7 Enns, Tel. + () 7 88, Fax + () 7 88, Europe GmbH Benelux Panasonic Electric Works Sales Western Europe B.V. De Rijn, (Postbus ), 8 PJ Best, (8 AE Best), Netherlands, Tel. + () , Fax + () 99 78, Czech Republic Panasonic Electric Works Czech s.r.o. Sales Office Brno, Administrative centre PLATINIUM, Veveri, Brno, Tel. + 7, Fax + 7, France Panasonic Electric Works Sales Western Europe B.V. Succursale française,, rue des petits ruisseaux, 97 Verrières Le Buisson, Tél. + () 77, Fax + () 78, Germany Panasonic Electric Works Europe AG Rudolf-Diesel-Ring, 87 Holzkirchen, Tel. +9 () 8 8-, Fax +9 () 8 8-, Hungary Panasonic Electric Works Europe AG Magyarországi Közvetlen Kereskedelmi Képviselet, 7 Budapest, Neumann János u.., Tel Ireland Panasonic Electric Works UK Ltd. Irish Branch Office, Dublin, Tel. + () 99, Fax + (), Italy Panasonic Electric Works Italia srl Via del Commercio - (Z.I. Ferlina), 7 Bussolengo (VR), Tel , Fax +9 7, Nordic Countries Panasonic Electric Works Nordic AB Knarrarnäsgatan, Kista, Sweden, Tel , Fax , Jungmansgatan, 9 Malmö, Tel , Fax , Poland Panasonic Electric Works Polska sp. z o.o ul. Wołoska 9A, -8 Warszawa, Tel. +8 () 8--, Fax +8 () 8--, Portugal Panasonic Electric Works España S.A. Portuguese Branch Office, Avda Adelino Amaro da Costa 78 R/C J, 7-77 Cascais, Tel. + 8, Fax + 89 Spain Panasonic Electric Works España S.A. Barajas Park, San Severo, 8 Madrid, Tel , Fax , Switzerland Panasonic Electric Works Schweiz AG Grundstrasse 8, Rotkreuz, Tel. + () 7997, Fax + () 7997, United Kingdom Panasonic Electric Works UK Ltd. Sunrise Parkway, Linford Wood, Milton Keynes, MK LF, Tel. + () 98, Fax + () 98 99, North & South America USA PEW Corporation of America 9 Central Avenue, New Providence, N.J. 797, Tel , Fax , Asia Pacific / China / Japan China Panasonic Electric Works (China) Co., Ltd. Level, Tower W, The Towers Oriental Plaza, No., East Chang An Ave., Dong Cheng District, Beijing 78, Tel. () 9-988, Fax () 9-97 Hong Kong Panasonic Electric Works RM-9, /F, Tower, The Gateway, Canton Road, Tsimshatsui, Kowloon, Hong Kong, Tel. (8) 9-8, Fax (8) 9-98 (Hong Kong) Co., Ltd. Japan Panasonic Corporation 8 Kadoma, Kadoma-shi, Osaka 7-88, Japan, Tel. () 98-, Fax () 98-78, Singapore Panasonic Electric Works Asia Pacific Pte. Ltd. Thomson Road, #-/, United Square, Singapore 79, Tel. () 7, Fax () 89 Copyright Printed in Germany euen 8/