SHARP ELEK/ MELEC DIV 2SE of a1ao798 0902832 4 | Photocouplers PC4N25V/PC4N26V/PC4N27V/PC4N28V 7-41-83 PC4N25V/PC4N26V General Purpose Type PC4N27V/PC4N28V Photocourler % Lead forming type (I type) is also available. (PC4N25VI/ PC4N26VI/PC4N27VI/PC4N28V1) (Page 482) @ Features M Outline Dimensions (Unit : mm) 1. Response time Model No, Internal connection! t,: TYP. 3us at Ver=10V, Ic =2mA, Ri= ett - diagram 1002 oth sh @ 2. UL recognized, file No. E64380 Anode mark PCANTE{V 4 TUV approoved (PC4N25V: No. R40182, ee ig oy PC4N26V/27V: No. R40183) i D Oo @ Applications 1. I/O interfaces for computers 762 2. System appliances, measuring instruments 3. Signal transmission between circuits of different potentials and impedances a1 9=0~13 @ Anode @ Emitter @ Cathode ) Collector @ NC Base EH Absolute Maximum Ratings (Ta=25C) Parameter Symbol Rating Unit Forward current I; 80 mA Input *1Peak forward current leu 3 A Reverse voltage Ve 6 Vv Power dissipation P 150 mW Collector-emitter voltage | Vceo 30 Vv Emitter-collector voltage | Veco 7 Vv Output Collector-base voltage Vso 70 Vv Collector current Tc 100 mA Collector power dissipation Py 150 mW Total power dissipation Prot 250 mW PC4N25V 2500 *2Isolation voltage PC4N26V,27V) Viso 1,500 Vrms PC4N28V 500 Operating temperature Topr | 55~ +100; C Storage temperature Tstg 55~+150}| C *3Soldering temperature Tso1 260 C *1 Pulse widthS1ys, Duty ratio=0.001 *3 For 10 seconds *2 RH=40~60%, AC for 1 minute SHARP 258 SHARP ELEK/ MELEC piv _}5 D ff 8280798 o002833 2] Photocouplers PC4N25V/PC4N26V/PC4N27V/PC4N28V HM Electro-optical Characteristics T-41-83 (Ta=25C) Parameter Symbol Conditions MIN. | TYP. | MAX. | Unit Forward voltage Ve I;=10mA _ 12 15 Vv Input | Reverse current Ix Va=4V _ 10 BA Terminal capacitance CQ V=0, f=1kHz = 50 _ pF PCAN25V~27V) Vce=10V _ _ 5xX10 Collector dark current PCAN28V Ice 1-=0 = = 10-7 A Output | Collector-emitter breakdown voltage BVezo | Je=0.1mA, I-=0 30 _ _ Vv Emitter-collector breakdown voltage BVeco | 1s=l0eA, I> =0 7 = _ Vv Collector-base breakdown voltage | BVcso | Ic=0.lmA, Ilr=0 70 _ _ Vv . |PC4N25V,26V Ip=10mA,Vce=10V 20 _ _ Current transfer ratio PCAN27V.28V CTR Puce test Input width=300ns, | 79 % Transfer | Collector-emitter saturation voltage Veesay | 1e=50mA, I-=2mA _ 0.1 0.5 Vv charac- Isolation resistance Riso | DC500V, RH=40~60% | 5X10 | 10% _ 0a teristics | Floating capacitance Cy V=0, f=1MHz _ 1.0 _ PF Response time (Rise) t Vee =10V, I, =2mA _ 3 - us Response time (Fal!) tr R,=1000, Raz= = 3 _ us Fig. 1 Forward Current vs. Fig. 2 Collector Power Dissipation vs. Ambient Temperatumre Ambient Temperature 100 200 = & - 80 ne a = (150 & 8 = 60 g + a z Z 100 N a 4 5 \ a 6 z P50 3 20 8 N fe oS x 0 2 oO -55 -25 0 25 50 75 100 125 -65 25 0 25 50 75 100 125 Ambient temperature Ta (C) Ambient temperature Ta (C) Fig. 3 Forward Current vs. Fig. 4 Current Transfer Ratio vs. Forward Voltage Forward Current 500 50 = Vee =10V] 200 s Ta=25C 4 aw 40 & 100 B 50 2 on oad w o 30 me yr Ty , 5 e Wiig 4 20 # Vay, 3 10 g 20 7 y 5 5 Ww VIVA = 5 e Rag=oo V So Oo 10 1 A & E y 2 o Let |500k2 100k : ott 1 tl HU 0.1 02 05 1 2 5 10 20 50 100 Forward voltage Vr (V) Forward current I, (mA) SHARP 259 SHARP ELEK/ MELEC Photocouplers CIV Fig. 5 Collecter Current vs. Collector current, I, (mA) Collecter-emitter Voltage 15 10 % Ta=25C 5 Te =40mA 10 c , X 15 Collectomr-emitter voltage Vce (V) L5E of 8140798 0002834 5S 1-41-83 PC4N25V/PC4N26V/PC4N27V/PC4N28V Fig. Relative current transfer ratio (%) Fig. 7 Collector-emitter Saturation Voltage Fig. vs. Ambient Temperature 6 Relative Current Transfer Ratio vs. so mmient Temperature r=l0mA Vor =10V 200 100 0 55 25 0 25 50 75 = 100 Ambient temperature Ta (C) 8 Collector Dark Current vs. Ambient Temperature -7 y, 0.3 Ip =50mA "0 3{Vce =10V s Ip=2mA a = C xs 10-8 > YY g 5 8 J 3 a 0.2 7 8 10-9 3 LL E i 3 10719 2 0.1 2 1071! om oO LS 2 8 3B ygcte 2 a 3 10 3,8 eo op 0 40713 55 25 0 25 50 75 100 ~55 -25 O 25 50 75 100 125 Ambient temperature Ta (*C) Ambient temperature Ta (C) Fig. 9 Response Time vs. Load Resistance Fig. 10 Frequency Response 100 Vee=10V 5 VoezaV 50) Ie= 2mA Ic= 2mA 20 Ta=25C 0 Tax 25C a A 3S 2 s uy -5 g > 5 a a Q 2 bo 8 x 10 / a 1 2 Oo 4 0.5 > 45 0.2 0.1 20 . 1 5 20 50 I 5 10 20 100 200 500 Load resistance R, (kQ) Frequency f (kHz) SHARP 260 s SHARP ELEK/ MELEC OIy 25E 0 ff 42a0798 oooza3s.? PC4N25V/PU4NZoV/PC4N27V/PC4N28V Photocouplers T-41-83 Fig. 11 Collector-emitter Saturation Voltage Test Circuit for Response Time vs. Forward Current "Ta [a]< Ta 25 Voc EE, LeLS 6|* a Input Ri? Output Input oc oh 4 ~~ IL Rp Output | = 5 G sh) WoO tA 10% q 90% 4 ta t. % yr te ty Test Circuit for Frequency Response Vec ~ . Be Ri , ~ Output % 5 10 15 20 25 30 ] Gs Collector-emitter saturation voltage Verisuy (V) Forward current I, (mA) SHARP 261