AQV210HL 1 photomos relays gu (general use) type 1-channel (form a) current limit function 6-pin type mm inch
AQV210HL 2 2. electrical characteristics (ambient temperature: 25 c 77 f ) note: recommendable led forward current i f = 5 to 10 ma. for type of connection, see page 4. *turn on/turn off time item symbol AQV210HL(a) condition input led operate current typical i fon 1.6 ma i l = max. maximum 3.0 ma led turn off current minimum i foff 0.4 ma i l = max. typical 1.5 ma led dropout voltage minimum v f 1.14 (1.25 v at i f = 50ma) i f = 5 ma typical 1.5 v output on resistance typical r on 20 w i f = 5 ma i l = max. within 1 s on time maximum 25 w off state leakage current maximum i leak 1 m a i f = 0 v l = max. current limit typical � 180 ma i f = 5 ma transfer characteristics turn on time* typical t on 0.8 ms i f = 5 ma i l = max. maximum 2.0 ms turn off time* typical t off 0.05 ms i f = 5 ma i l = max. maximum 1.0 ms i/o capacitance typical c iso 0.8 pf f = 1 mhz v b = 0 maximum 1.5 pf initial i/o isolation resistance minimum r iso 1,000 m w 500 v dc ton input output 10% 90% toff reference data 1. load current vs. ambient temperature char- acteristics allowable ambient temperature: ?0 c to +85 c ?0 f to +185 f 2. on resistance vs. ambient temperature char- acteristics measured portion: between terminals 4 and 6; led current: 5 ma; load voltage: max. (dc) continuous load current: max.(dc) 3. turn on time vs. ambient temperature char- acteristics led current: 5 ma; load voltage: max.(dc); continuous load current: max.(dc) ambient temperature, c load current, ma 0 200 150 100 50 0204060 80 85 100 ?0 ?0 on resistance, w ambient temperature, c 0 10 20 30 40 ?0 ?0 50 0204060 80 85 ambient temperature, c turn on time, ms 0 0.5 1 1.5 2 ?0 ?0 2.5 0204060 80 85
AQV210HL 3 4. turn off time vs. ambient temperature char- acteristics led current: 5 ma; load voltage: max.(dc); continuous load current: max.(dc) 5. led operate current vs. ambient tempera- ture characteristics load voltage: max.(dc); continuous load current: max.(dc) 6. led turn off current vs. ambient temperature characteristics load voltage: max.(dc); continuous load current: max.(dc) ambient temperature, c turn off time, ms 0 0.05 0.1 0.15 0.2 ?0 ?0 0.25 0204060 80 85 ambient temperature, c led operate current, ma 0 1 2 3 4 ?0 ?0 5 0204060 80 85 ambient temperature, c led turn off current, ma 0 1 2 3 4 ?0 ?0 5 0204060 80 85 7. led dropout voltage vs. ambient tempera- ture characteristics led current: 5 to 50 ma 8. voltage vs. current characteristics of output at mos portion measured portion: between terminals 4 and 6; ambient temperature: 25 c 77 f 9. off state leakage current measured portion: between terminals 4 and 6; ambient temperature: 25 c 77 f 0 ?0 ?0 20 40 60 80 85 ambient temperature, c led dropout voltage, v 1.5 1.4 1.3 1.2 1.1 1.0 0 50ma 30ma 20ma 10ma 5ma 5 3 1 ? ? 140 120 60 40 20 ?0 ?0 ?0 ?0 ?00 ?20 ?40 100 80 ? ? 24 ? voltage, v current, ma load voltage, v off state leakage current, a 0 60 100 10 ? 10 ? 10 ? 10 ?2 20 40 80 10. led forward current vs. turn on time char- acteristics measured portion: between terminals 4 and 6; load voltage: max.(dc); continuous load current: max.(dc); ambient temperature: 25 c 77 f 11. led forward current vs. turn off time char- acteristics measured portion: between terminals 4 and 6; load voltage: max.(dc); continuous load current: max.(dc); ambient temperature: 25 c 77 f 12. applied voltage vs. output capacitance characteristics measured portion: between terminals 4 and 6; frequency: 1 mhz; ambient temperature: 25 c 77 f led forward current, ma turn on time, ms 0 0.5 1 1.5 2 3 2.5 10 0203040 50 60 led forward current, ma turn off time, ms 0 0.05 0.1 10 0203040 0.2 50 60 0.15 applied voltage, v output capacitance, pf 0 50 40 30 20 10 10 20 30 40 50 0 what is current limit when a load current reaches the speci- ?d 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 pho- tomos relay thus controls the instanta- neous load current to effectively ensure circuit safety. this safety feature protects circuits down- stream of the photomos relay against over-current. but, if the current-limiting feature is used longer than the speci?d time, the photo- mos relay can be destroyed. therefore, set the output loss to the max. rate or less. ?comparison of output voltage and output current characteristics v-i characteristics output current output voltage
AQV210HL 4 dimensions
AQV210HL 5 cautions for use safety warnings ?do not use the product under conditions that exceed the range of its speci?ations. it may cause overheating, smoke, or ?e. ?do not touch the recharging unit while the power is on. there is a danger of elec- trical shock. be sure to turn off the power when performing mounting, maintenance, or repair operations on the relay (includ- ing connecting parts such as the terminal board and socket). ?check the connection diagrams in the catalog and be sure to connect the termi- nals correctly. erroneous connections could lead to unexpected operating er- rors, overheating, or ?e. notes 1. unused terminals the no. 3 terminal is used with the circuit inside the relay. therefore, do not connect it to the external circuitry with either con- nection method a, b or c. 2. short across terminals do not short circuit between terminals when relay is energized, since there is possibility of breaking of the internal ic. 3. surge voltages at the input if reverse surge voltages are present at the input terminals, connect a diode in re- verse parallel across the input terminals and keep the reverse voltages be- low the reverse breakdown voltage. 4. recommended led forward current (i f ) it is recommended that the led forward current (i f ) should be kept at 5 to 10 ma. 5. ripple in the input power supply if ripple is present in the input power sup- ply, observe the following: 1) for led operate current at e min , main- tain the value mentioned in the table of ?ote 3. recommended led forward cur- rent (if).� 2) keep the led operate current at 50 vma or less at e max . 6. output spike voltages 1) if an inductive load generates spike voltages which exceed the absolute max- imum rating, the spike voltage must be limited. typical circuits are shown below. 2) 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. cleaning solvents compatibility dip cleaning with an organic solvent is recommended for removal of solder ?x, 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 condi- tions are correct before use. for details, please consult us. 1 2 3 6 5 4 e min. e max. 1 2 3 6 5 load add a clamp diode to the load 4 1 2 3 6 5 load add a cr snubber circuit to the load 4 cleaning solvent compati- bility m : yes 5 : no chlorine- base ?i.i.i. trichloroethlene (chloroethlene) ?trichloroethlene (trichlene) ?perchloroethlene ?methlene chloride m adueous ?indusco 624, 1000 ?hollis 310 ?lonco terg m alcohol- base ?ipa ?ethanol m others ?thinner ?gasoline 5
AQV210HL 6 8. soldering 1) when soldering pc board terminals, keep soldering time to within 10 s at 260? 500? . 2) when soldering surface-mount termi- nals, the following conditions are recom- mended. (1) ir (infrared re?w) soldering method (2) vapor phase soldering method (3) double wave soldering method t 1 t 2 t 3 t 1 = 155 to 165 c 311 to 329 f t 2 = 180 c 200 c 356 to 392 f t 3 = 245 c 473 f or less t 1 = 120 s or less t 2 = 30 s or less t 1 t 2 t 2 t 1 t 1 = 180 to 200 c 366 to 392 f t 2 = 215 c 419 f or less t 1 = 40 s t 2 = 90 s or less (40 s or less for sop type) t 1 t 2 t 2 t 1 t 1 = 155 to 165 c 311 to 329 f t 2 = 260 c 500 f or less t 1 = 60 s or less t 2 +t 3 = 5 s or less t 1 t 2 t 3 (4) soldering iron method tip temperature: 280 to 300? 536 to 572? wattage: 30 to 60 w soldering time: within 5 s (5) others check mounting conditions before using other soldering methods (hot-air, hot plate, pulse heater, etc.) ?the temperature pro?e 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. ?the conditions for the infrared re?w sol- dering apply when preheating using the vps method. 9. the following shows the packaging format 1) tape and reel type tape dimensions dimensions of paper tape reel 6-pin smd type (1) when picked from 1/2/3-pin side: part no. aqv mmm ax (shown above) (2) when picked from 4/5/6-pin side: part no. aqv mmm az 0.4 0.05 .016 .002 tractor feed holes device mounted on tape direction of picking 1.6 0.1 dia. .063 .004 dia. 4.5 0.3 .177 .012 4 0.1 .157 .004 2 0.1 .079 .004 10.1 0.1 .400 .004 1.75 0.1 .069 .004 9.2 0.1 .362 .004 12 0.1 .472 .004 7.5 0.1 .295 .004 16 0.3 .630 .012 1.5 dia. .059 dia. +0.1 ? +.004 ? 21 0.8 .827 .031 80 1 dia. 3.150 .039 dia. 13 0.5 dia. .512 .020 dia. 17.5 2.0 .689 .079 2 0.5 .079 .020 2 0.5 .079 .020 80 1 dia. 3.150 .039 dia. 300 2 dia. 11.811 .079 dia. 2) tube devices are packaged in a tube so pin no. 1 is on the stopper b side. observe cor- rect orientation when mounting them on pc boards. 10. transportation and storage 1) extreme vibration during transport will warp the lead or damage the relay. han- dle the outer and inner boxes with care. 2) storage under extreme conditions will cause soldering degradation, external ap- pearance defects, and deterioration of the characteristics. the following storage conditions are recommended: ?temperature: 0 to 45? 32 to 113? ?humidity: less than 70% r.h. ?atomosphere: no harmful gasses such as sulfurous acid gas, minimal dust. 11. current limit function (output cur- rent control) 1) 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 ?ure below. 2) the current limit function capability can be lost if used longer than the speci?d time. be sure to set the output loss to the max. rate. (dip, smd type) stopperb stoppera 1 2 3 6 varistor 5 surge: 10 160 s, 1.6 kv * set the varistor voltage to 150 v or less. 4
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