PC814 Series PC814 Series X Lead forming type (I type) and taping reel type (P type) are also available (PC8141/PC814P) (Page 656) ■ F-res 1. AC input 2. High isolation voltage between input and output (v :5 Ooovr,..) 3. Compact dual-in-line package PC814 (1-channel type) PC824 (2-channel type) PC844 (b-channel type) 4. Current transfer ratio C T R : MIN. 20% at I,= tlmA, VLE.=5V 5. Recognized by UL, file No. E64380 W 1. 2. 3. 4. AC Input Photocoupler W OuiSne Dimensions Internal connection diagram 7.62+03 —-- A~ Programmable controllers Telephone sets, telephone exchangers System appliances Signal transmission between circuits of different potentials and impedances PC844 Internal connection (Unit : mm) — D Anode, Cathade ~, A“Ode, cath~e diagram (s Emitter @ Co Ilector PC824 Internal connection d!agram @m@@ CTR rank mark CTR rank mark . 19.82* -2.54*025 J 05 _ fl=o to 13 ~,)~ Ande,cathde ~ 0.5*01 . . w’ Emitter An~e, Cathode @a Collacto, —- —-- ..- . — —— PC814 (Ta= 25”C) 9 Absolute Maximum Raiings output IF Rating ~ 5(I IFhl *1 P 70 Unit mA A mW VCE() VECO 35 6 v v Ic Pc P,”, v,,<, ToP, 50 150 200 mA mW mW 5000 –30 to +100 –55 to +125 260 v,”,, ‘c Symbol Parameter Forward current * 1 Peak forward current Power dissipation Collector -emitter voltage Emitter -collector voltage Collector current Collector power dissipation Total power dissipation * zIsolation voltage Operating temperature Storage temperature ‘Soldering temperature Input serle8 Ts,~ T.<)) “c “c *I Pulse width S 100 Ms, ~ty ratio =0.001 *2 40 to 60% RH, AC for 1 minute M For 10 seconds (Ta=25°C) ■ Electro-optical Char~lics [ Symbol I Parameter Forward voltage InDut I P e a k f o r w a r d v o l t a g e I Terminal capacitance OUtDUt Collector dark current I ‘Current transfer ratio Transfer charac I teristics I ~F I C, I t=lkHz 20V I C’~K I I,=tlm W!- Model No. PC814A PC824A PC844A PC814 PC824 PC844 I fc time I Rank mark CTR (%) A 50 to 150 A or no mark 20 to 300 -3dB I 15 I 80 r,, lc=~~, .” KL= i i 4 VCE=5V, lL=21fL4, I tf VCE = V =U, t=liVIHZ RL=1OOO, Cf I P all L1l LLC *4 Classification table of current transfer ratio I Conditions 20mA TYP, I M A X . I U n i t v 1,2 1.4 V=O, IcEO Floating capacitance Cut-off frequency I IF= + MIN. \ .. t~ -., - VCE=ZV, 100Q — 3 i 18 18 kHz ,uS /ls 425 PC814 Series Fig. 1 Forward Cuti va. Ambient Temperature 200 0 ‘ ~ 50 40 \ 30 20 - , Io 0 :20 11 0 25 50 75 100 ‘~ 30 125 0 Ambient temperature ‘r., (’[ ) Fig. 3 Peak Fonvard Cuti va. Duty Ratio 25 50 75 100 I 25 Ambient temperature Ta (“C) ~. 4 Forward Current va. Fcnward 10000 I 5000 1 1 1 1 . 1 .JJ , i 50 1 5 0 0.5 1.0 20 1.5 Forward 2.5 3.() voltage VF (V) Fi9.6~ ~ Va. ~~ voItaga 30 z g L4 20 z ~ 3 j 8 = 3 10 0 0 Forward current IF (mA) 426 2 4 COllmtor.emitter 6 8 ~,oltage VCE ! V I 10 Vottaga .Collector” Voltage gain A, (dB) dark current 1[:~.(j (.~) R?sp(,rlse time ( ps) J R e l a t i v e cllrrerlt tra[lsfer ratlc} (%) PC814 Series v~~ RD — & RL * “ 0 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 Forward ● 1415 current I ~ (mA) Please refer to the chapter “Precautions for Use” (Page 78 to 93) 428 output