SHARP ELEK/ MELEC DIV. SE of 8180798 o002840 of PC4N35V/PC4N36V/PC4N37V Photocouplers T-41-83 PC4N35V/ PC4NS6V General Purpose Type PCANS7V Lead forming type (I type) is also available. (PC4N35VI/PC4N36VI/PC4N37V1) (Page 482) Photocoupler 5 Features M Outline Dimensions (Unit : mm) 1. High current transfer ratio Internal connection (CTR: MIN. 100% at Ip=10mA, Vcz=10V) 12 Model No. giagram 2. Response time wk @ tr, tr: TYP. 84s at Vec=10V, Ic=2mA, Anode mark [PCANLEIV| Le R,=1000 SHARP a 3. Isolation voltage between Input and Output * PC4N35V_ (Viso: 3,550Vrms), PC4N36V OMOTE) (Viso: 2,500Vrms), PC4N37V (Visa! 1,500Vrms) 4. UL recognized, file No. 64380 TUV approved, PC4N35V/36V: No. R40182, PC4N37V: No. R40183 M@ Applications 1. I/O interfaces for computers 2, System appliances, measuring instruments 3. Signal transmission between circuits of different potentials and impedances @ Anode @ Emitter @ Cathode ) Collector @ NC Base HM Absolute Maximum Ratings (Ta=25C) Parameter Symbol Rating Unit Forward current. Ie 60 mA Input *'Peak forward current Tex 3 A Reverse voltage Vr 6 Vv Power dissipation P 100 mW Collector-emitter voltage Veezo 30 Vv Emitter-collector voltage Veco 7 Vv Output Collector-base voltage Veso 70 Vv Collector current I, 100 mA Collector power dissipation Pe 300 mW Total power dissipation Prot 350 mW PC4N35V 3,550 Isolation voltage | PC4N36V Viso 2,500 Vrms PC4N37V 1,500 Operating temperature Toor 55~ +100 C Storage temperature T stg 55~ +150 C *5Soldering temperature Teor 260 C *1 = Pulse widthSlys, Duty ratio= 0.001 *2 RH=40~60%, AC for 1 minute *3 For 10 seconds SHARP 266 SHARP ELEK/ MELEC DIV J5S of 8160798 goo0e841 2 Photocouplers PC4N35V/PC4N36V/PC4N37V ; eee MH 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 Ip Vep=4V _ _ 10 BA Terminal capacitance C V=0, f=1MHz _ 50 _ pF = _ -8 Collector darkcurrent Iceo Te One Vee=30V = : ~ i. 5 Output | Collector-emitter breakdown voltage| BVceo | Ic=0,lmA, Ir=0 30 _ _ Vv Emitter-collector breakdown voltage} BVeco | Ie=l0uA, Ir=0 7 _ _ Vv Collector-base breakdown voltage BVecro | [c-=0.lmA, lr=0 70 _ _ Vv [p=1l0mA, Vce=10V 100 = _ Current transfer ratio CTR Ta=59C, Ir-=l0mA, Vee =10V 40 _ _ % Ta=100C, [-=10mA, Vee=l0V 40 _ = Transfer | Collector-emitter saturation voltage | Veesay | Ip=50mA, Ie=2mA _ _ 0.3 Vv charac | Isolation resistance Riso __| DC500V, HR=40~ 60% 5x07} 1" | | a Floating capacitance Cr V=0, f=1MHz _ 1.0 25 pF Response time (Rise) ty Vec=l0V, 1L=2mA _ 3 10 Ss Response time (Fall) t; R,=1000, Rag= = 3 10 us #4 Pulse test : input pulse width=300us, duty ratio<0.02 Fig. 1 Forward Current vs. Ambient Fig. 2 Collector Power Dissipation vs. Temperature Ambient Temperature 80 400 - 60 300 N 200 , \ 100 \ \ \ 20 \ \ Forward current I; (mA) 3s y Collector power dissipation P, (mW) 0 0 55 -25 0 25 50 75 100 125 55 -25 0 25 50 75 100 125 Ambient temperature Ta (C) Ambient temperature Ta (C) SHARP 267 + SHARP ELEK/ MELEC DIV Photocouplers Fig. 3 Forward Current vs. Forward Voltage 500 200 100 50 20 10 5 Forward current I, (mA) 2 1 05 #410 #15 #20 25 Forward voltage Vr (V) 3.0 Fig. 5 Collector Current vs. Collector-emitter Voltage (Ta =25C) P A %. 30 20 10 Collector current I, (mA) 0 5 Collector-emitter voltage Vce (V) 10 15 Fig. 7 Collector-emitter Saturation Voltage vs. Ambient Temperature 0.14 , Ir-=50mA o12 Ic=2mA 3 > 0.10 3s 5 0.08 3 5 0.06 _ 0.04 Ze % 20.02 SP 9 25 50 Ambient temperature Ta (C) 268 1S5E D 5 8180798 oog@aya: 4 SHARP T-41-83 72082 Dy PC4N37V Fig. 4 Current Transfer Ratio vs. Forward Current 180 160 140 120 100 80 60 40 20 0 0.1 Vce=10V Ta=25C Current transfer ratio CTR (%) Forward current I; (mA) 6 Relative Current Transfer Ratio vs. Ambient Temperature Fig. =1 100 50 Relative current transfer ratio (9%) 0 55. 15 Ambient temperature Ta (C)} 1 8 Collector Dark Current vs. Ambient Temperature Fig. 10-6 10-7 Collector dark current Icro (A) 10-131 i i i i { 1 -55 25 0 25 50 15 Ambient temperature Ta (C) 100 SHARP ELEK/ MELEC DIV Photocouplers 1SE of 8180798 0002843 Lb Fig. 9 Response Time vs. Load Resistance 200 = 10V 100] lc=2mA Ta=25C ~~ 30 & 20 2 a 10 yu 2 5 oS B 2 2 1 0.5 0.2 005 0.102 05 1 2 5 10 20 50 Load resistance R, (kQ) Fig. 11 Collector-emitter Saturation Voltage vs. Forward Current 2 7 Ta=25C & 6 ImA a~ $ amA gS 3 5 # Zz 4 5B 3 LS ? 22 231 3S 0 0 5 10 15 Forward current I, (mA) Voltage gain Ay (dB) SHARP Frequency f (kHz) Test Circuit for Response Time Voc 2 Output +4 Input Output ta ~> 0283 eM evecunary Fig. 10 Frequency Response . . . T-41-83 Voce=5V Ic= 0 Ta=25C NOTTS NIN TN 5 N . N \ \ 7 EFA | " -15 \ \ La \ 05 I1- 10 20 50 100200 500 | (10% 90% oti} 269