aq8 ordering information sil type ssr with 9mm thickness controls up to 3a a q8 relays please contact us about t?v certified products. compliance with rohs directive features 1. slim with 9 mm .354 inch thickness the thin type (45 mm long 24 mm high 9 mm wide) (1.772 .945 .354 inch) permits high density mounting. 2. excellent in noise resistance since the input and output are insulated by the phototriac coupler, the noise on the output side is not fed back to the input side. 3. snubber circuit integrated the snubber circuit is integrated to prevent malfunction caused by the rapid rise of the voltage on the output side, such as inductive load and noise. 4. zero-cross and random types are av ailable. the zero-cross type generates minimal noise by suppressing occurrence of radio frequency interference (rfi) and electro- magnetic interference (emi). the random type features a short operation time which permits phase control. 5. high dielectric strength: 3,000 v ac (between input and output) 6. two kinds of terminals distance are av ailable. (5.08 mm and 7.62 mm) (.200 and .300 inch) 7. high reliability, long life and maintenance-free typical applications most suitable as drivers for small size ac motors, solenoids, solenoid valves and so on. 1. copying equipment 2. air conditioners 3. industrial equipment such as nc machines, sequencers, robots, etc. load current 2 a 3 a aq input terminal distance c1: 5.08 mm c2: 7.62 mm .200 inch .300 inch input voltage 5, 12, 24 v dc load voltage 1: 75 to 125 v ac 2: 75 to 250 v ac type zt: t: zero-cross type random type all rights rese r v ed ? c opyright panasonic elect r ic w o r k s co., ltd.
aq8 types standard packing: carton 20 pcs., case 200 pcs. ratings 1. rating (ambient temperature: 20 c, 68 f ; v oltage ripple on the input side: 1% or less) 1) zero-cross type ?2 a type types load current load voltage input voltage input terminals distance (5.08 mm .200 inch type) input terminals distance (7.62 mm .300 inch type) part no. part no. zero-cross type 2a 75 to 125v ac 5 v dc aq2a1-c1-zt5v dc aq2a1-c2-zt5v dc 12 v dc aq2a1-c1-zt12v dc aq2a1-c2-zt12v dc 24 v dc aq2a1-c1-zt24v dc aq2a1-c2-zt24v dc 75 to 250v ac 5 v dc aq2a2-c1-zt5v dc aq2a2-c2-zt5v dc 12 v dc aq2a2-c1-zt12v dc aq2a2-c2-zt12v dc 24 v dc aq2a2-c1-zt24v dc aq2a2-c2-zt24v dc 3a 75 to 125v ac 5 v dc aq3a1-c1-zt5v dc aq3a1-c2-zt5v dc 12 v dc aq3a1-c1-zt12v dc aq3a1-c2-zt12v dc 24 v dc aq3a1-c1-zt24v dc aq3a1-c2-zt24v dc 75 to 250v ac 5 v dc aq3a2-c1-zt5v dc aq3a2-c2-zt5v dc 12 v dc aq3a2-c1-zt12v dc aq3a2-c2-zt12v dc 24 v dc aq3a2-c1-zt24v dc aq3a2-c2-zt24v dc random type 2a 75 to 125v ac 5 v dc aq2a1-c1-t5v dc aq2a1-c2-t5v dc 12 v dc aq2a1-c1-t12v dc aq2a1-c2-t12v dc 24 v dc aq2a1-c1-t24v dc aq2a1-c2-t24v dc 75 to 250v ac 5 v dc aq2a2-c1-t5v dc aq2a2-c2-t5v dc 12 v dc aq2a2-c1-t12v dc aq2a2-c2-t12v dc 24 v dc aq2a2-c1-t24v dc aq2a2-c2-t24v dc 3a 75 to 125v ac 5 v dc aq3a1-c1-t5v dc aq3a1-c2-t5v dc 12 v dc aq3a1-c1-t12v dc aq3a1-c2-t12v dc 24 v dc aq3a1-c1-t24v dc aq3a1-c2-t24v dc 75 to 250v ac 5 v dc aq3a2-c1-t5v dc aq3a2-c2-t5v dc 12 v dc aq3a2-c1-t12v dc aq3a2-c2-t12v dc 24 v dc aq3a2-c1-t24v dc aq3a2-c2-t24v dc part no. item aq2a1-c1- zt5vdc aq2a1-c2- zt5vdc aq2a1-c1- zt12vdc aq2a1-c2- zt12vdc aq2a1-c1- zt24vdc aq2a1-c2- zt24vdc aq2a2-c1- zt5vdc aq2a2-c2- zt5vdc aq2a2-c1- zt12vdc aq2a2-c2- zt12vdc aq2a2-c1- zt24vdc aq2a2-c2- zt24vdc remarks input side control voltage 5 v dc (4 to 6v) 12 v dc (9.6 to 14.4v) 24 v dc (21.6 to 26.4v) 5 v dc (4 to 6v) 12 v dc (9.6 to 14.4v) 24 v dc (21.6 to 26.4v) the parenthesized values represent the allowable voltage ranges input impedance approx. 0.18 k ? approx. 0.55 k ? approx. 1.4 k ? approx. 0.18 k ? approx. 0.55 k ? approx. 1.4 k ? drop-out voltage min. 0.5 v min. 1.2 v min. 2.4 v min. 0.5 v min. 1.2 v min. 2.4 v load side max. load current 2 a* 1 at ambient temperature of 30 c or less load voltage 75 to 125 v ac 75 to 250 v ac frequency 45 to 65 hz repetitive peak off voltage 400 v 600 v non-repetitive surge current 30 a* 2 in one cycle at 60 hz max. ?ff-state� leakage current 2.5 ma/100 v applied 5 ma/200 v applied at 60 hz max. ?n-state� voltage drop 1.6 v at max. carrying current min. load current 25 ma* 3 50 ma* 3 off state dv/dt 50 v/ s at ambient temperature of 80 c all rights rese r v ed ? c opyright panasonic elect r ic w o r k s co., ltd.
aq8 ?3 a type notes: *1. refer reference data ?. characteristics of load current vs. ambient temperature? *2. refer to reference data ?. characteristics of non-repetitive surge current vs. carrying time? *3. when the load current is less than the rated minimum load current, please refer to ?autions for use of ssr? 2) random type ?2 a type part no. item aq3a1-c1- zt5vdc aq3a1-c2- zt5vdc aq3a1-c1- zt12vdc aq3a1-c2- zt12vdc aq3a1-c1- zt24vdc aq3a1-c2- zt24vdc aq3a2-c1- zt5vdc aq3a2-c2- zt5vdc aq3a2-c1- zt12vdc aq3a2-c2- zt12vdc aq3a2-c1- zt24vdc aq3a2-c2- zt24vdc remarks input side control voltage 5 v dc (4 to 6v) 12 v dc (9.6 to 14.4v) 24 v dc (21.6 to 26.4v) 5 v dc (4 to 6v) 12 v dc (9.6 to 14.4v) 24 v dc (21.6 to 26.4v) the parenthesized values represent the allowable voltage ranges input impedance approx. 0.18 k ? approx. 0.55 k ? approx. 1.4 k ? approx. 0.18 k ? approx. 0.55 k ? approx. 1.4 k ? drop-out voltage min. 0.5 v min. 1.2 v min. 2.4 v min. 0.5 v min. 1.2 v min. 2.4 v load side max. load current 3 a* 1 at ambient temperature of 30 c or less load voltage 75 to 125 v ac 75 to 250 v ac frequency 45 to 65 hz repetitive peak off voltage 400 v 600 v non-repetitive surge current 80 a* 2 in one cycle at 60 hz max. ?ff-state� leakage current 2.5 ma/100 v applied 5 ma/200 v applied at 60 hz max. ?n-state� voltage drop 1.6 v at max. carrying current min. load current 25 ma* 3 50 ma* 3 off state dv/dt 50 v/ s at ambient temperature of 80 c part no. item aq2a1-c1- t5vdc aq2a1-c2- t5vdc aq2a1-c1- t12vdc aq2a1-c2- t12vdc aq2a1-c1- t24vdc aq2a1-c2- t24vdc aq2a2-c1- t5vdc aq2a2-c2- t5vdc aq2a2-c1- t12vdc aq2a2-c2- t12vdc aq2a2-c1- t24vdc aq2a2-c2- t24vdc remarks input side control voltage 5 v dc (4 to 6v) 12 v dc (9.6 to 14.4v) 24 v dc (21.6 to 26.4v) 5 v dc (4 to 6v) 12 v dc (9.6 to 14.4v) 24 v dc (21.6 to 26.4v) the parenthesized values represent the allowable voltage ranges input impedance approx. 0.3 k ? approx. 0.8 k ? approx. 1.8 k ? approx. 0.3 k ? approx. 0.8 k ? approx. 1.8 k ? drop-out voltage min. 0.5 v min. 1.2 v min. 2.4 v min. 0.5 v min. 1.2 v min. 2.4 v load side max. load current 2 a* 1 at ambient temperature of 30 c or less load voltage 75 to 125 v ac 75 to 250 v ac frequency 45 to 65 hz repetitive peak off voltage 400 v 600 v non-repetitive surge current 30 a* 2 in one cycle at 60 hz max. ?ff-state� leakage current 2.5 ma/100 v applied 5 ma/200 v applied at 60 hz max. ?n-state� voltage drop 1.6 v at max. carrying current min. load current 25 ma* 3 50 ma* 3 off state dv/dt 50 v/ s at ambient temperature of 80 c all rights rese r v ed ? c opyright panasonic elect r ic w o r k s co., ltd.
aq8 ?3 a type notes: *1. refer reference data ?. characteristics of load current vs. ambient temperature? *2. refer to reference data ?. characteristics of non-repetitive surge current vs. carrying time? *3. when the load current is less than the rated minimum load current, please refer to ?autions for use of ssr? 2. characteristics (ambient temperature: 20 c 68 f ; input voltage ripple: 1% or less) reference data part no. item aq3a1-c1- t5vdc aq3a1-c2- t5vdc aq3a1-c1- t12vdc aq3a1-c2- t12vdc aq3a1-c1- t24vdc aq3a1-c2- t24vdc aq3a2-c1- t5vdc aq3a2-c2- t5vdc aq3a2-c1- t12vdc aq3a2-c2- t12vdc aq3a2-c1- t24vdc aq3a2-c2- t24vdc remarks input side control voltage 5 v dc (4 to 6v) 12 v dc (9.6 to 14.4v) 24 v dc (21.6 to 26.4v) 5 v dc (4 to 6v) 12 v dc (9.6 to 14.4v) 24 v dc (21.6 to 26.4v) the parenthesized values represent the allowable voltage ranges input impedance approx. 0.3 k ? approx. 0.8 k ? approx. 1.8 k ? approx. 0.3 k ? approx. 0.8 k ? approx. 1.8 k ? drop-out voltage min. 0.5 v min. 1.2 v min. 2.4 v min. 0.5 v min. 1.2 v min. 2.4 v load side max. load current 3 a* 1 at ambient temperature of 30 c or less load voltage 75 to 125 v ac 75 to 250 v ac frequency 45 to 65 hz repetitive peak off voltage 400 v 600 v non-repetitive surge current 80 a* 2 in one cycle at 60 hz max. ?ff-state� leakage current 2.5 ma/100 v applied 5 ma/200 v applied at 60 hz max. ?n-state� voltage drop 1.6 v at max. carrying current min. load current 25 ma* 3 50 ma* 3 off state dv/dt 50 v/ s at ambient temperature of 80 c type item zero-cross type random type remarks operate time, max. 1/2 cycle of voltage sine wave + 1 ms 1 ms release time, max. 1/2 cycle of voltage sine wave + 1 ms insulation resistance, min. 10 9 ? between input and output at 500 v dc breakdown voltage 3,000 v ac between input and output for 1 minute vibration resistance destructive 10 to 55 hz at double amplitude of 3 mm 1 hour for x, y, z axis functional 10 to 55 hz at double amplitude of 3 mm 10 min. for x, y, z axis shock resistance destructive min. 980 m/s 2 {100 g} 5 times each for x, y, z axis functional min. 980 m/s 2 {100 g} 4 times each for x, y, z axis ambient temperature ?0 c to +80 c ?2 f to +176 f storage temperature ?0 c to +100 c ?2 f to +212 f operational method zero-cross (turn on and turn off) random turn on, zero-cross turn off 1. characteristics of load current vs. ambient temperature conditions: natural cooling 2 a type 3 a type ?0 0 2 0 4 0 6 0 8 0 0 ambient temperature, c load current, a 0.5 1.0 1.5 2.0 2.5 3.0 2.-(1) characteristics of non-repetitive surge current vs. carrying time (2 a type) 2.-(2) characteristics of non-repetitive surge current vs. carrying time (3 a type) 510 50 100 no. of cycles at 60 hz non-repetitive surge current, a 0 20 40 60 80 100 510 50 100 no. of cycles at 60 hz non-repetitive surge current, a 0 20 40 60 80 100 all rights rese r v ed ? c opyright panasonic elect r ic w o r k s co., ltd.
aq8 dimensions (mm inch) 3. characteristics of input current vs. input voltage ?ero-cross type ---random type (5 v type) (12 v type) (24 v type) 30 25 20 15 10 5 0 input voltage, v input current, ma 0102030 4.-(1) characteristics of load current vs. ambient temperature for adjacent mounting conditions: natural cooling (2 a type) 4.-(2) characteristics of load current vs. ambient temperature for adjacent mounting conditions: natural cooling (3 a type) ?0 0 2 0 4 0 6 0 8 0 0 ambient temperature, c load current, a 0.5 1.0 1.5 2.0 2.5 =20.32 mm =9.0 mm =12.7 mm =adjacent mounting pitch .800 inch .354 inch .500 inch 2.0 ?0 0 2 0 4 0 6 0 8 0 0 ambient temperature, c load current, a =20.32 mm =9.0 mm =12.7 mm =adjacent mounting pitch 3.0 1.0 .800 inch .354 inch .500 inch the cad data of the products with a cad data mark can be downloaded from: http://panasonic-electric-works.net/ac (common for zero-cross and random types) 1. input terminals distance 5.08 mm .200 inch 1) 2 a type general tolerance: 0.5 .020 5.08 5.08 12.7 10.16 45 max. 24 max. 3 421 9 max. 8 min. 4-0.8 dia. 2.5 input load 3 421 +� .200 .200 .500 .400 1.772 .945 .315 .098 4-.031 .354 mounting hole location (bottom view) tolerance: 0.1 .004 schematic te rm inal copper foil 43 2 1 2.54 5 4-1.2 dia. 27.94 1.100 .100 5 2.54 2 .100 2 2.54 4 .100 4 4-.047 dia. input load 34 2 1 load power source +� load input power source cad data 2) 3 a type general tolerance: 0.5 .020 5.08 5.08 12.7 10.16 9 max. 43 max. 32 max. 8 min. 3 421 2.5 input load 3 421 +� 4-0.8 dia. .200 .200 .500 .400 1.693 1.259 .315 .098 4-.031 .354 mounting hole location (bottom view) tolerance: 0.1 .004 schematic te rm inal copper foil 43 2 1 2.54 5 4-1.2 dia. 27.94 1.100 .100 5 2.54 2 .100 2 2.54 4 .100 4 4-.047 dia. input load 34 2 1 load power source +� load input power source cad data all rights rese r v ed ? c opyright panasonic elect r ic w o r k s co., ltd.
aq8 2. input terminals distance 7.62 mm .300 inch 1) 2a type general tolerance: 0.5 .020 7.62 5.08 12.7 10.16 9 max. 45 max. 24 max. 8 min. 34 2 1 2.5 input load 3 421 +� 4-0.8 dia. .200 .500 .400 1.772 .945 .315 .098 .300 4-.031 .354 mounting hole location (bottom view) tolerance: 0.1 .004 schematic 43 2 1 te rm inal copper foil 2.54 5 4-1.2 dia. 30.48 1.200 .100 5 2.54 3 .100 3 2.54 4 .100 4 4-.047 dia. input load 34 2 1 load power source +� load input power source cad data 2) 3a type general tolerance: 0.5 .020 5.08 12.7 10.16 9 max. 43 max. 32 max. 8 min. 7.62 3 421 2.5 input load 3 421 +� 4-0.8 dia. .200 .500 .400 1.693 1.259 .315 .098 .300 4-.031 .354 mounting hole location (bottom view) tolerance: 0.1 .004 schematic 43 2 1 te rm inal copper foil 2.54 5 4-1.2 dia. 30.48 1.200 .100 5 2.54 3 .100 3 2.54 4 .100 4 4-.047 dia. input load 34 2 1 load power source +� load input power source cad data all rights rese r v ed ? c opyright panasonic elect r ic w o r k s co., ltd.
aq8 note for cautions f or us e . 1. when used for the load less than rated in case of the load current less than rated, malfunction may result from the residual voltage across the both ends of the load even if the solid state relay is turned off. use a dummy resistor as a countermeasure. the total of the current through the resistor and the load current must exceed the min. rated load current. in case the dummy resistor is not used, keep in mind that the residual voltage becomes as follows: example: for the inductive load by the 20 ma load current and the 200 v ac load voltage, the load impedance becomes 10 k ? and ve/v = 14% is estimated from the right above graph. accordingly, the 28 v voltage remains across the both ends of the load when the solid state relay is turned off. ?characteristics of residual voltage vs. load impedance 2. when the terminal is bent care shall be taken neither to apply mechanical stresses to the mold area of the solid state relay nor to bend the terminal 45 degrees or more. r 0 dummy resistor load power source ssr load 1 2 0 10 20 20 40 60 100 80 100 30 40 50 load impedance (k ? ) ve ve v (%) v ssr 1 2 load f= 60 hz ve: residual voltage v: power voltage power factor: 1 (resistor load) power factor: 0.4 (induction load) solder printed board solid state relay max. 45 all rights rese r v ed ? c opyright panasonic elect r ic w o r k s co., ltd.
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