(A 5A A type) SOLID STATE RELAY FEATURES. Two types of terminal shape: Plug-in terminal and Screw terminal ( A A is screw terminal types only). Flat type of SSR possible by aluminium printed circuit board. High dielectric strength of V between input and output. V available for A 5A A devices.. Heat sink and DIN mounting rail and terminal cover are available as accessories (A A type) UL Pending RELAYS APPLICATIONS C-UL VDE Pending Pending. Molding machine (heater control). Temperature controlled bath (heater control). Printing machine (heater control). Machine tool (motor control) TYPES. Plug-in terminal type Type Input Standard (V AC) Reinforced (V AC) to 6V DC AQRA-Z/ 75 to 5V AC to 8V DC AQRA-Z/8VDC Zero-cross A 8 to 8V DC AQRA-Z8/ to 6V DC AQRA-Z/ AQRA-ZV/ 75 to V AC to 8V DC AQRA-Z/8VDC AQRA-ZV/8VDC 8 to 8V DC AQRA-Z8/ AQRA-ZV8/ to 6V DC AQR5A-Z/ to 8V DC AQR5A-Z/8VDC Zero-cross 5 A 8 to 8V DC AQR5A-Z8/ to 6V DC AQR5A-Z/ AQR5A-ZV/ to 8V DC AQR5A-Z/8VDC AQR5A-ZV/8VDC 8 to 8V DC AQR5A-Z8/ AQR5A-ZV8/ to 6V DC AQRA-Z/ to 8V DC AQRA-Z/8VDC Zero-cross A 8 to 8V DC AQRA-Z8/ to 6V DC AQRA-Z/ AQRA-ZV/ to 8V DC AQRA-Z/8VDC AQRA-ZV/8VDC 8 to 8V DC AQRA-Z8/ AQRA-ZV8/. Screw-terminal type Type Input Standard (V AC) Reinforced (V AC) to 6V DC AQRA-S-Z/ to 8V DC AQRA-S-Z/8VDC Zero-cross A 8 to 8V DC AQRA-S-Z8/ to 6V DC AQRA-S-Z/ AQRA-S-ZV/ to 8V DC AQRA-S-Z/8VDC AQRA-S-ZV/8VDC 8 to 8V DC AQRA-S-Z8/ AQRA-S-ZV8/ to 6V DC AQR5A-S-Z/ to 8V DC AQR5A-S-Z/8VDC Zero-cross 5 A 8 to 8V DC AQR5A-S-Z8/ to 6V DC AQR5A-S-Z/ AQR5A-S-ZV/ to 8V DC AQR5A-S-Z/8VDC AQR5A-S-ZV/8VDC 8 to 8V DC AQR5A-S-Z8/ AQR5A-S-ZV8/ to 6V DC AQRA-S-Z/ to 8V DC AQRA-S-Z/8VDC Zero-cross A 8 to 8V DC AQRA-S-Z8/ to 6V DC AQRA-S-Z/ AQRA-S-ZV/ to 8V DC AQRA-S-Z/8VDC AQRA-S-ZV/8VDC 8 to 8V DC AQRA-S-Z8/ AQRA-S-ZV8/ to 6V DC AQRA-S-Z/ Zero-cross A to 8V DC AQRA-S-Z/8VDC 8 to 8V DC AQRA-S-Z8/ to 6V DC AQRA-S-Z/ Zero-cross A to 8V DC AQRA-S-Z/8VDC 8 to 8V DC AQRA-S-Z8/ SOLID STATE RELAY ASCTB5E. New
ORDERING INFORMATION Ex. AQR A S Z / Terminal shape Type Input A 5 A A A A : : Nil: Plug-in terminal S: Screw terminal Z: Zero-cross type ( V) ZV: Zero-cross type ( V) /6 /8 8/8 V DC Note: Standard packing: Carton pcs. Case: pcs. SPECIFICATIONS. Ratings (at C 68 F Input ripple: % or less) ) A type Input ) 5 A type Input AQRA-Z/ AQRA-S-Z/ AQRA-Z/ 8VDC AQRA-S-Z/ 8VDC AQRA-Z8/ AQRA-S-Z8/ AQRA-Z/ AQRA-ZV/ AQRA-S-Z/ AQRA-S-ZV/ AQRA-Z/ 8VDC AQRA-ZV/ 8VDC AQRA-S-Z/ 8VDC AQRA-S- ZV/8VDC AQRA-Z8/ AQRA-ZV8/ AQRA-S-Z8/ AQRA-S- ZV8/ Input to 6V DC to 8V DC 8 to 8V DC to 6V DC to 8V DC 8 to 8V DC Input impedance Approx..6 k Ω Approx..86 k Ω Approx..6 k Ω Approx..6 k Ω Approx..86 k Ω Approx..6 k Ω Drop-out Max. load Repetitive peak V 6 V leakage drop Min. load OFF-state dv/dt AQR5A-Z/ AQR5A-S-Z/ V A A DATA.5 ma (when V AC applied) 5 ma (when V AC applied) at AQR5A-Z/ 8VDC AQR5A-S-Z/ 8VDC AQR5A-Z8/ AQR5A-S-Z8/.6 V ma V/µs AQR5A-Z/ AQR5A-ZV/ AQR5A-S-Z/ AQR5A-S-ZV/ AQR5A-Z/ 8VDC AQR5A-ZV/ 8VDC AQR5A-S-Z/ 8VDC AQR5A-S- ZV/8VDC AQR5A-Z8/ AQR5A-ZV8/ AQR5A-S-Z8/ AQR5A-S- ZV8/ Input to 6V DC to 8V DC 8 to 8V DC to 6V DC to 8V DC 8 to 8V DC Input impedance Approx..6 k Ω Approx..86 k Ω Approx..6 k Ω Approx..6 k Ω Approx..86 k Ω Approx..6 k Ω Drop-out Max. load Repetitive peak V 6 V leakage drop Min. load OFF-state dv/dt V 5 A A carrying DATA.5 ma (when V AC applied) 5 ma (when V AC applied) at.6 V ma V/µs carrying
) A type Input AQRA-Z/ AQRA-S-Z/ AQRA-Z/ 8VDC AQRA-S-Z/ 8VDC. Characteristics (at C 68 F Input ripple: % or less) Type Zero-cross type Item Standard type Reinforced type Operate time max. (/ cycle of sine wave) + ms Release time max. (/ cycle of sine wave) + ms Insulation resistance Initial M Ω between input output and case by V DC megger Note: * A and A type is to 55 Hz at double amplitude of.5 mm. AQRA-Z8/ AQRA-S-Z8/ AQRA-Z/ AQRA-ZV/ AQRA-S-Z/ AQRA-S-ZV/ AQRA-Z/ 8VDC AQRA-ZV/ 8VDC AQRA-S-Z/ 8VDC AQRA-S- ZV/8VDC AQRA-Z8/ AQRA-ZV8/ AQRA-S-Z8/ AQRA-S- ZV8/ Input to 6V DC to 8V DC 8 to 8V DC to 6V DC to 8V DC 8 to 8V DC Input impedance Approx..6 k Ω Approx..86 k Ω Approx..6 k Ω Approx..6 k Ω Approx..86 k Ω Approx..6 k Ω Drop-out Max. load Repetitive peak V 6 V leakage drop Min. load OFF-state dv/dt V A A DATA.5 ma (when V AC applied) 5 ma (when V AC applied) at.6 V ma V/µs ) A type and A type AQRA-S-Z/ AQRA-S-Z/ AQRA-S-Z8/ AQRA-S-Z/ AQRA-S-Z/ AQRA-S-Z8/ 8VDC 8VDC Input to 6V DC to 8V DC 8 to 8V DC to 6V DC to 8V DC 8 to 8V DC Input Input impedance Approx..6 k Ω Approx..86 k Ω Approx..6 k Ω Approx..6 k Ω Approx..86 k Ω Approx..6 k Ω Drop-out V Max. load A A leakage drop Min. load A A carrying DATA 5 ma (when V AC applied) at.6 V ma carrying Breakdown V AC between input output and case V AC between input output and case For Vibration Functional to 55 Hz at double amplitude of mm* hour for X Y Z axes resistance Destructive to 55 Hz at double amplitude of mm* minutes for X Y Z axes Shock Functional Min. 9 m/s { G} 5 time each for X Y Z axes resistance Destructive Min. 9 m/s { G} time each for X Y Z axes Ambient temperature Storage temperature Operational method C to + C F to +76 F 5 C to +85 C F to +85 F Zero-cross (Turn-ON and Turn-OFF)
DIMENSIONS. Plug-in terminal mm inch Schematic 9.5.8 6.76. Input power _ + power Mounting hole 7.6.87 59. -. dia. -.7 dia. Conform to AMP plug-in terminal # series receptacle Conform to AMP plug-in terminal # series receptacle 7.6 ±..87 ±. -. dia. or M -.69 dia. Max. 7.5 Max..95 Max..5 Max..9 Max. 5 Max..59. Screw terminal -M screw terminal 9.5.8 6.76. Input power _ + Schematic power Mounting hole 5..77 7.6.87 59. -. dia. -.7 dia. 7.6 ±..87 ±. -. dia. or M -.69 dia. Max. 7.5 Max..95 max..5 Max..9 Max. 7 Max..669 ACCESSORIES Heat sink (For A 5A and A)..7.969..7 R..87 -M.5 -M or. dia 9.5 5.6 +9.5..5..97 +.99...7 9±..5±. AQP-HS-A 7.6.87.97.5.965 9 8.5.5. 5.77.5 ±..969±.8 General tolerance: ±.5 ±.
Heat sink (For A A) mm inch..7.969..7 -M or. dia 9.5 -M 7.6.87 R..87 5.6.5..7... +.5.5.97 +. 9±..5±. AQP-HS-/A 56.5 5.96 9.5.5.965 8.5. 5.77.5 ±..969±.8 General tolerance: ±.5 ±. With terminal cover.5 59..5.5 7.8 5.5.7.5 AQP-PC.5.965 General tolerance: ±.5 ±. DIN rail mounting plate Mounting rail.6.55 M M 56.5 7.6.87 M AQP-DP 7.765 86.86.7 8..7 5.5.7 5.97 5.59.9 5.59 9.7-5.5 5 slot -.7.59 slot.75r.8r AT8-DLA 5.59.9.59 5 5.78 5.95.97.5 7.5.95 7.6 General tolerance: ±.5 ±. 5
Fastening plate mm inch.7.969 M.9 ATA6 ATA6 UP.9 REFERENCE DATA. vs. ambient temperature Use load within range specified in the figure below. Tested condition: () With external heat sink ) A 5A A type A heat sink; optional heat sink (AQP) or a. mm aluminum sheet (painted black) A A type Shown with standard heat sink (AQP) ) If attached to a heat sink use a heatconductive compound or 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. The graphs show the characteristics when the relay is mounted as shown in the right figure. Hole for radiation ( 5 mm) mm or greater Washers are added to lift the relay. () A type A 8 6 6 Ambient temperature C () 5 A type () A type () A type A 6 5 8 7 6 6 Ambient temperature C A 6 8 6 Ambient temperature C A 6 Ambient temperature C (5) A type -. Non-repetitive surge vs. carrying time ( A type) A 6 Ambient temperature C Non-repetitive surge A 6 6 5 7 7 No. of cycles at -. Non-repetitive surge vs. carrying time (5 A type) Non-repetitive surge A 6 6 5 7 7 No. of cycles at 6
-. Non-repetitive surge vs. carrying time ( A type) -. Non-repetitive surge vs. carrying time ( A A type). Input vs. input ( A 5 A A A A common) Non-repetitive surge A 6 6 Non-repetitive surge A A type A type Input ma 5 5 5 ( to 6 V) ( to 8 V) (8 to 8 V) 5 7 7 No. of cycles at 5 7 7 No. of cycles at 5 5 5 Input V CAUTIONS FOR USE. Input ) If the SSR control contains ripple the peak of the ripple should not exceed the maximum rated control and the bottom of the ripple should exceed the minimum rated control. ) A high noise surge 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.. Output ) A high noise surge 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. Input Valley ripple Peak ripple to 6V DC Min. V Max. 6 V to 8V DC Min. V Max. 8 V 8 to 8V DC Min. 8 V Max. 8 V Control R C Peak ripple Valley ripple V Resistor Varistor power supply ) 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. specification: ma. When the input terminals are connected with reverse polarity 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.. Cleaning solvents compatibility Dip cleaning with an organic solvent is recommended for removal of solder flux dust etc. Select a cleaning solvent from the following table. If ultrasonic cleaning must be used the severity of factors such as frequency output power and cleaning solvent selected may cause loose wires and other defects. Make sure these conditions are correct before use. For details please consult us. Chlorine-base Adueous Alcohol-base Others Ro (dummy resistor) Cleaning solvent Trichlene Chloroethlene Indusco Hollis Lonco Terg IPA Ethanol Thinner Gasoline power supply Compatibility ( : Yes : No) 5. Others ) We recommend using a standard heat sink (AQP/AQP). ) Make sure that the terminals are wired properly. ) Be sure to take SSR layout and ventilation into account. Installing a heat near another solid-state relay could raise the ambient temperature. ) If attached to a heat sink use a heatconductive compound or similar coating to improve cooling. 5) Handle the exterior and interior boxes with care. Excessive vibration during transport could warp the terminals or damage the unit. 6) Storing the unit under extremely adverse conditions could damage the product s appearance or impact performance. We recommend that the unit be stored in a location meeting the following requirements: Temperature: 5 to C to 86 F Humidity: Max. 6% RH Atmosphere: Should be free of sulfurous acid and other toxic gasses and relatively free from dust. 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 for board-mounting SSRs is defined as the maximum allowable at an ambient temperature of C F ( C 86 F) and under natural cooling. 7