panasonic corporation automation controls business unit industrial.panasonic.com/ac/e/ aq 8 asctb213e 201201-t1 ordering information sil type ssr with 9mm thic kness controls up to 3a a q8 relays please contact us about t?v certified products. rohs compliant fea tures 1. slim with 9 mm .354 inc h thic kness the thin type (45 mm long 24 mm high 9 mm wide) (1.772 .945 .354 inch) per mits high density mounting. 2. excellent in noise resistance since the input and output are insulated by the phototr iac coupler , the noise on the output side is not f ed bac k to the input side . 3. sn ubber cir cuit integrated the sn ub ber circuit is integ r ated to pre v ent malfunction caused b y the r apid r ise of the v oltage on the output side , such as inductiv e load and noise . 4. zer o-cr oss and random types are av ailab le . the z ero-cross type gener ates minimal noise b y suppressing occurrence of r adio frequency interf erence (rfi) and electro- magnetic interf erence (emi). the r andom type f eatures a shor t oper ation time which per mits phase control. 5. high dielectric strength: 3,000 v a c (between input and output) 6. t w o kinds of terminals distance are av ailab le . (5.08 mm and 7.62 mm) (.200 and .300 inc h) 7. high reliability , long lif e and maintenance-free typical applica tions 1. most suitab le as driver s f or small siz e a c motor s, solenoids, solenoid v alves and so on. 2. cop ying equipment 3. air conditioner s 4. industrial equipment suc h as nc mac hines, sequencer s, r obots, 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 http://
panasonic corporation automation controls business unit industrial.panasonic.com/ac/e/ aq 8 asctb213e 201201-t1 types standard packing: carton 20 pcs., case 200 pcs. ra ting 1. rating (ambient temper ature: 20 c, 68 f ; v oltage r ipple on the input side: 1% or less) 1) zero-cross type ?2 a type t ypes load current load v oltage input v oltage input ter minals distance (5.08 mm .200 inch type) input ter minals distance (7.62 mm .300 inch type) pa r t no . p ar t no . zero-cross type 2a 75 to 125v a c 5 v dc a q2a1-c1-zt5v dc a q2a1-c2-zt5v dc 12 v dc a q2a1-c1-zt12v dc a q2a1-c2-zt12v dc 24 v dc a q2a1-c1-zt24v dc a q2a1-c2-zt24v dc 75 to 250v a c 5 v dc a q2a2-c1-zt5v dc a q2a2-c2-zt5v dc 12 v dc a q2a2-c1-zt12v dc a q2a2-c2-zt12v dc 24 v dc a q2a2-c1-zt24v dc a q2a2-c2-zt24v dc 3a 75 to 125v a c 5 v dc a q3a1-c1-zt5v dc a q3a1-c2-zt5v dc 12 v dc a q3a1-c1-zt12v dc a q3a1-c2-zt12v dc 24 v dc a q3a1-c1-zt24v dc a q3a1-c2-zt24v dc 75 to 250v a c 5 v dc a q3a2-c1-zt5v dc a q3a2-c2-zt5v dc 12 v dc a q3a2-c1-zt12v dc a q3a2-c2-zt12v dc 24 v dc a q3a2-c1-zt24v dc a q3a2-c2-zt24v dc random type 2a 75 to 125v a c 5 v dc a q2a1-c1-t5v dc a q2a1-c2-t5v dc 12 v dc a q2a1-c1-t12v dc a q2a1-c2-t12v dc 24 v dc a q2a1-c1-t24v dc a q2a1-c2-t24v dc 75 to 250v a c 5 v dc a q2a2-c1-t5v dc a q2a2-c2-t5v dc 12 v dc a q2a2-c1-t12v dc a q2a2-c2-t12v dc 24 v dc a q2a2-c1-t24v dc a q2a2-c2-t24v dc 3a 75 to 125v a c 5 v dc a q3a1-c1-t5v dc a q3a1-c2-t5v dc 12 v dc a q3a1-c1-t12v dc a q3a1-c2-t12v dc 24 v dc a q3a1-c1-t24v dc a q3a1-c2-t24v dc 75 to 250v a c 5 v dc a q3a2-c1-t5v dc a q3a2-c2-t5v dc 12 v dc a q3a2-c1-t12v dc a q3a2-c2-t12v dc 24 v dc a q3a2-c1-t24v dc a q3a2-c2-t24v dc pa r t no . item a q2a1-c1- zt5vdc a q2a1-c2- zt5vdc a q2a1-c1- zt12vdc a q2a1-c2- zt12vdc a q2a1-c1- zt24vdc a q2a1-c2- zt24vdc a q2a2-c1- zt5vdc a q2a2-c2- zt5vdc a q2a2-c1- zt12vdc a q2a2-c2- zt12vdc a q2a2-c1- zt24vdc a q2a2-c2- zt24vdc remar ks input side control v oltage 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) * 1 input impedance appro x. 0.18 k ? appro x. 0.55 k ? appro x. 1.4 k ? appro x. 0.18 k ? appro x. 0.55 k ? appro x. 1.4 k ? drop-out v oltage 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* 2 at ambient temper ature of 30 c or less load v oltage 75 to 125 v a c 75 to 250 v a c f requency 45 to 65 hz repetitiv e peak off v oltage 400 v 600 v non-repetitiv e surge current 30 a* 3 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� v oltage drop 1.6 v at max. carr ying current min. load current 25 ma* 4 50 ma* 4 off state dv/dt 50 v/ s at ambient temper ature of 80 c
panasonic corporation automation controls business unit industrial.panasonic.com/ac/e/ aq 8 asctb213e 201201-t1 ?3 a type notes: *1. ref er to reference d a t a ?. char acter istics of input current vs . input v oltage? *2. ref er to reference d a t a ?. char acter istics of load current vs . ambient temper ature? *3. ref er to reference d a t a ?. char acter istics of non-repetitiv e surge current vs . carr ying time? *4. when the load current is less than the r ated minim um load current, please ref er to ?autions f or use of ssr? 2) random type ?2 a type pa r t no . item a q3a1-c1- zt5vdc a q3a1-c2- zt5vdc a q3a1-c1- zt12vdc a q3a1-c2- zt12vdc a q3a1-c1- zt24vdc a q3a1-c2- zt24vdc a q3a2-c1- zt5vdc a q3a2-c2- zt5vdc a q3a2-c1- zt12vdc a q3a2-c2- zt12vdc a q3a2-c1- zt24vdc a q3a2-c2- zt24vdc remar ks input side control v oltage 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) * 1 input impedance appro x. 0.18 k ? appro x. 0.55 k ? appro x. 1.4 k ? appro x. 0.18 k ? appro x. 0.55 k ? appro x. 1.4 k ? drop-out v oltage 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* 2 at ambient temper ature of 30 c or less load v oltage 75 to 125 v a c 75 to 250 v a c f requency 45 to 65 hz repetitiv e peak off v oltage 400 v 600 v non-repetitiv e surge current 80 a* 3 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� v oltage drop 1.6 v at max. carr ying current min. load current 25 ma* 4 50 ma* 4 off state dv/dt 50 v/ s at ambient temper ature of 80 c pa r t no . item a q2a1-c1- t5vdc a q2a1-c2- t5vdc a q2a1-c1- t12vdc a q2a1-c2- t12vdc a q2a1-c1- t24vdc a q2a1-c2- t24vdc a q2a2-c1- t5vdc a q2a2-c2- t5vdc a q2a2-c1- t12vdc a q2a2-c2- t12vdc a q2a2-c1- t24vdc a q2a2-c2- t24vdc remar ks input side control v oltage 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) * 1 input impedance appro x. 0.3 k ? appro x. 0.8 k ? appro x. 1.8 k ? appro x. 0.3 k ? appro x. 0.8 k ? appro x. 1.8 k ? drop-out v oltage 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* 2 at ambient temper ature of 30 c or less load v oltage 75 to 125 v a c 75 to 250 v a c f requency 45 to 65 hz repetitiv e peak off v oltage 400 v 600 v non-repetitiv e surge current 30 a* 3 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� v oltage drop 1.6 v at max. carr ying current min. load current 25 ma* 4 50 ma* 4 off state dv/dt 50 v/ s at ambient temper ature of 80 c
panasonic corporation automation controls business unit industrial.panasonic.com/ac/e/ aq 8 asctb213e 201201-t1 ?3 a type notes: *1. ref er to reference d a t a ?. char acter istics of input current vs . input v oltage? *2. ref er to reference d a t a ?. char acter istics of load current vs . ambient temper ature? *3. ref er to reference d a t a ?. char acter istics of non-repetitiv e surge current vs . carr ying time? *4. when the load current is less than the r ated minim um load current, please ref er to ?autions f or use of ssr? 2. characteristics (ambient temperature: 20 c 68 f ; input voltage ripple: 1% or less) reference d a t a pa r t no . item a q3a1-c1- t5vdc a q3a1-c2- t5vdc a q3a1-c1- t12vdc a q3a1-c2- t12vdc a q3a1-c1- t24vdc a q3a1-c2- t24vdc a q3a2-c1- t5vdc a q3a2-c2- t5vdc a q3a2-c1- t12vdc a q3a2-c2- t12vdc a q3a2-c1- t24vdc a q3a2-c2- t24vdc remar ks input side control v oltage 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) * 1 input impedance appro x. 0.3 k ? appro x. 0.8 k ? appro x. 1.8 k ? appro x. 0.3 k ? appro x. 0.8 k ? appro x. 1.8 k ? drop-out v oltage 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* 2 at ambient temper ature of 30 c or less load v oltage 75 to 125 v a c 75 to 250 v a c f requency 45 to 65 hz repetitiv e peak off v oltage 400 v 600 v non-repetitiv e surge current 80 a* 3 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� v oltage drop 1.6 v at max. carr ying current min. load current 25 ma* 4 50 ma* 4 off state dv/dt 50 v/ s at ambient temper ature of 80 c t ype item zero-cross type random type remar ks oper ate time , max. 1/2 cycle of v oltage sine w a v e + 1 ms 1 ms release time , max. 1/2 cycle of v oltage sine w a v e + 1 ms insulation resistance , min. 10 9 ? betw een input and output at 500 v dc breakdo wn v oltage 3,000 v a c betw een input and output f or 1 min ute vibr ation resistance destr uctiv e 10 to 55 hz at doub le amplitude of 3 mm 1 hour f or x, y , z axis functional 10 to 55 hz at doub le amplitude of 3 mm 10 min. f or x, y , z axis shoc k resistance destr uctiv e min. 980 m/s 2 {100 g} 5 times each f or x, y , z axis functional min. 980 m/s 2 {100 g} 4 times each f or x, y , z axis ambient temper ature ?0 c to +80 c ?2 f to +176 f stor age temper ature ?0 c to +100 c ?2 f to +212 f oper ational method zero-cross (t ur n on and t ur n off) random tur n on, z ero-cross tur n off 1. characteristics of load current vs. ambient temperature use load current within range speci?d in the ?ure below. 2 a type 3 a type ?0 0 20 40 60 80 0 ambient temperature, c load current, a 0.5 1.0 1.5 2.0 2.5 3.0 2.-(1) char acter istics of non-repetitiv e surge current vs . carr ying time (2 a type) 2.-(2) char acter istics of non-repetitiv e surge current vs . carr ying time (3 a type) 51 0 5 0 100 no. of cycles at 60 hz non-repetitive surge current, a 0 20 40 60 80 100 51 0 5 0 100 no. of cycles at 60 hz non-repetitive surge current, a 0 20 40 60 80 100
panasonic corporation automation controls business unit industrial.panasonic.com/ac/e/ aq 8 asctb213e 201201-t1 dimensions (mm inch ) 3. char acter istics of input current vs . input v oltage ?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 01 0 2 0 3 0 4.-(1) char acter istics of load current vs . ambient temper ature f or adjacent mounting (2 a type) conditions: natur al cooling 4.-(2) char acter istics of load current vs . ambient temper ature f or adjacent mounting (3 a type) conditions: natur al cooling ?0 0 20 40 60 80 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 20 40 60 80 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://industrial.panasonic.com/ac/e/ (common f or z er o-cr oss and random types) 1. input terminals distance 5.08 mm .200 inc h 1) 2 a type exter nal dimensions general tolerance: 0.5 .020 5.08 5.08 12.7 10.16 45 max. 24 max. 3 42 1 9 max. 8 min. 4-0.8 dia. 2.5 input load 3 42 1 + � .200 .200 .500 .400 1.772 .945 .315 .098 4-.031 .354 mounting hole location (bottom vie w) t oler ance: 0.1 .004 schematic te r m inal copper f oil 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 3 4 2 1 load power source + � load input power source cad data 2) 3 a type exter nal dimensions general tolerance: 0.5 .020 5.08 5.08 12.7 10.16 9 max. 43 max. 32 max. 8 min. 3 42 1 2.5 input load 3 42 1 + � 4-0.8 dia. .200 .200 .500 .400 1.693 1.259 .315 .098 4-.031 .354 mounting hole location (bottom vie w) t oler ance: 0.1 .004 schematic te r m inal copper f oil 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 3 4 2 1 load power source + � load input power source cad data
panasonic corporation automation controls business unit industrial.panasonic.com/ac/e/ aq 8 asctb213e 201201-t1 2. input terminals distance 7.62 mm .300 inc h 1) 2a type exter nal dimensions general tolerance: 0.5 .020 7.62 5.08 12.7 10.16 9 max. 45 max. 24 max. 8 min. 3 4 2 1 2.5 input load 3 42 1 + � 4-0.8 dia. .200 .500 .400 1.772 .945 .315 .098 .300 4-.031 .354 mounting hole location (bottom vie w) t oler ance: 0.1 .004 schematic 43 2 1 te rm inal copper f oil 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 3 4 2 1 load power source + � load input power source cad data 2) 3a type exter nal dimensions general tolerance: 0.5 .020 5.08 12.7 10.16 9 max. 43 max. 32 max. 8 min. 7.62 3 42 1 2.5 input load 3 42 1 + � 4-0.8 dia. .200 .500 .400 1.693 1.259 .315 .098 .300 4-.031 .354 mounting hole location (bottom vie w) t oler ance: 0.1 .004 schematic 43 2 1 te rm inal copper f oil 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 3 4 2 1 load power source + � load input power source cad data
panasonic corporation automation controls business unit industrial.panasonic.com/ac/e/ aq 8 asctb213e 201201-t1 note recommended temperature controllers for cautions f or us e . 1. when used f or the load less than rated in case of the load current less than r ated, malfunction ma y result from the residual v oltage across the both ends of the load e v en if the solid state rela y is tur ned off . use a dumm y resistor as a counter measure . the total of the current through the resistor and the load current m ust e xceed the min. r ated load current. in case the dumm y resistor is not used, k eep in mind that the residual v oltage becomes as f ollo ws: example: f or the inductiv e load b y the 20 ma load current and the 200 v a c load v oltage , the load impedance becomes 10 k ? and v e/v = 14% is estimated from the r ight abo v e g r aph. accordingly , the 28 v v oltage remains across the both ends of the load when the solid state rela y is tur ned off . ?char acter istics of residual v oltage vs . load impedance 2. when the terminal is bent care shall be tak en neither to apply mechanical stresses to the mold area of the solid state rela y nor to bend the ter minal 45 deg rees 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= 6 0 hz ve: residual voltage v: power voltage power facto r: 1 (resistor load) power factor: 0.4 (induction load) solder printed circuit board solid state relay max. 45 48mm 56mm 1.890inch 2.205inch 48mm 1.890inch our temper ature controller is recommended f or use with our solid state rela ys . features ?space sa ving requir ing only a depth of 65 mm ?data collection possib le through a plc using rs485 comm unication ? t ool por t is standard f or easy data setting ?in v er ted lcd + bac klight f or good legibility with large char acters ?excellent oper ability and r ich optional control functions substitute par t n umber s *f or detailed product inf or mation about temper ature controllers , please ref er to our w ebsite: http://industr ial.panasonic.com/ac/e/ po w er supply control output p ar t no . 100 to 240 v a c non-contact v oltage output akt4h112100
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