snore rransstor _4N29, 29A, 30, 31, 4N32, 32A, 33(Short) (4N29(Short)} AC UNE/ DIGITAL LOGIC ISOLATOR. DIGITAL LOGIC/DIGITAL LOGIC ISOLATOR. TELEPHONE LINE RECEIVER. TWISTED PAIR LINE RECEIVER. RELAY CONTACT MONITOR. Unit in mm The TOSHIBA 4N29 (Short) through 4N33 (Short) consists arsenide infrared emitting diode coupled with a silicon photo darlington in a dula in-line package. Switching Time : 1004s Max. . DC Current Transfer Ratio : 500% Isolation Resistance :10!O Typ. Isolation Voltage : 2500Vrms Min. . UL Recognized : ULI577, File No. E67349 JEDEC _ EIAJ TOSHIBA 11-7A1 Weight : 0.4g PIN CONFIGURATIONS (TOP VIEW) PEA [FT % Ke 5 3Q 4 : ANODE : CATHODE : NC : EMITTER : COLLECTOR : BASE arn kr WN & 4N29,29A,30,31,32,32A,33(Short) (4N29(Short)) MAXIMUM RATINGS (Ta = 25C) CHARACTERISTIC SYMBOL RATING UNIT Forward Current (Continuous) Ip 80 mA Forward Current Derating Alp/C 1.07* mA/C a Peak Forward Current (Note) IpF 3 A | Power Dissipation Pp 150 mW Power Dissipation Derating 4Pp/C 2.0% mW /C Reverse Voltage VR 3 Vv w |Collector-Emitter Voltage BVCEO 30 v e Collector-Base Voltage BVcBO 30 Vv | Emitter-Collector Voltage BVECO 5 v an Collector Current (Continuous) Ic 100 mA A Power Dissipation Pc 150 mW Power Dissipation Derating APC/C 2.0* mW /C & |Stoerage Temperature Range Tsig 55~150 C 4 Operating Temperature Range Topr 55~100 C 5 Lead Soldering Temperature Tsold 260 C |Total Package Power Dissipation Pr 250 mW Total Package Power Dissipation Derating 4Pyp/C 3.3* mW /C Note : Pulse width 300us, 2% duty cycle. * Above 25C ambient. {4n29(Short)) ELECTRICAL CHARACTERISTICS (Ta = 25C) 4N29,29A,30,31,32,32A,33(Short) CHARACTERISTIC SYMBOL TEST CONDITION MIN. | TYP. |MAX.] UNIT Q|Forward Voltage VF Ip=10mA _ 1.15 | 1.5 Vv a Reverse Current Ip VR=a3V _ _ 100 uA Capacitance Cp V=0, f=1MHz _ 30 | pF DC Forward Current Gain hep VCE=5, Ic =0.5mA 10K | _ | Collector-Emitter c Breakdown Voltage V(BR)CEO | Ic=1mA 30) ~ Vv |Collector-Base Breakdown i Voltage V(BR)CBO| Ic =100zA 30 | _ Vv fq | Emitter-Collector | Breakdown Voltage V(BR)ECO | TE=100vA 5) ~ Vv Collector Dark Current Icgko Vcg=10V _ 1.0 | 100 | nA 4N32, 4N32A, 50 Collector | 4N33 Output 4N29, 4N29A, Ic Ip=10mA, VoRp=10V 10 mA Current 4N30 _ _ 4N31 5 Collector- | 4N29, 4N29A, Emitter 4N30, 4N32, _ _ 1.0 Saturation | 4N32A, 4N33 Vox(sat) | Ir=8mA, Ic=2mA v Voltage 4N31 | | 12 A Turn-on Time ton _ _ 5 BS a 4N29, 4N29A _ _ &!Turn-off | 4N30, 4N31 Ip=200mA, VoC=10V 40 -I|n. toff Ic =50mA _ us | Time 4N32, 4N32A 100 o 4N33 Capacitance Input to =0, f= 8 a F Output Cg vV=0, 1MHz 0 Pp Isolation Resistance Rg V=500V 10! | a BYs AC, 1 Minute R.H. = 60% 2500 | | Vrms 4N29, 4N29A, Isolation | 4N32,4N32A AC. Peak 2500) | Vk Voltage | 4N30, 4N31 BVs* ea 1500 P 4N33 4N29A, 4N32A AC, 1 second 1775 |Vrms * JEDEC registered minimum BVg, however, Toshiba specifies a minimum BVg of 2500Vrms 1 minute. 4N29,29A,30,31,32,32A,33(Short) (4N29(Short)) mA} ALLOWABLE FORWARD CURRENT ip (mA) Ipp PULSE FORWARD CURRENT (mv /*C) FORWARD VOLTAGE TEMPERATURE COEFFICIENT AVp/ATa 0 20 40 60 40 AMBIENT TEMPERATURE Ta CG) Ipp Dr 100 1 20 5000(- 3000KL ! PULSE WIDTH s 1,3 Ta= 28C 1000 500 oe a 3S on oe Oo o = | Hf I w S 2 oo 1 os he 1 s a i N = ' r oF I iS 19-3 3 10? 3 jou? 3 DUTY CYCLE RATIO DR AVyE/ATa Ip 0.3 1 3 10 30 FORWARD CURRENT Ip (mA) 199 (mW) ALLOWABLE COLLECTOR POWER DISSIPATION Pc (mA) Ip FORWARD CURRENT Ipp (mA} PULSE FORWARD CURRENT -20 0 20 40 60 80 100 120 AMBIENT TEMPERATURE Ta (C) Ip - VE so] Ta=25C 0.8 1.0 1.2 14 1.6 FORWARD VOLTAGE Vp (V) Ipp VEP 100/ 50 30 PULSE WIDTH S 10,8 REPETITIVE FREQUENCY 3 = 100Hz Ta=25C 1 0.6 10 14 a 2.2 2.6 PULSE FORWARD VOLTAGE Vep () 4N29,29A,30,31,32,32A,33(Short) (4N29(Short)) Ic - Vor 2 TL E & Ty 2 2 rt he 2 & : BA a Ee 5 5 Rype=5.1MQ 7 oO oO g g | G 5 4h | @ w 4 a _ _ yo = a S & TH 7 - Oo oS |. - - Tp=0,.5mA 0 2 4 6 8 10 12044 10 30 100 COLLECTOR-EMITTER VOLTAGE VogE (V) FORWARD CURRENT Ip (mA) Icslpe - Ie IckO ~ Ta gq Boo sor 7 Z We STS ~ 3000) YCE=!V - Ty 4. - - . Oo = Ta =25C 8 = 000 - Base OPEN seb | it 5 3 : 2 oe = 5 x oO = B 2 a < a a = & re - & % oO oa ~ ~ a fl) z f- si 3 8 ? 10 10 01 0.3 1 0 20 40 60 80 100 120 140 FORWARD CURRENT Ip (mA) AMBIENT TEMPERATURE Ta CC) Ic - Ta SWITCHING TIME ~ Ru, 60 1 500 r - ~pejspyaatd=} AT Peay oy re <= 30 bs jo ~ oT _ 4] tessa t 800 ) e-T- 2 3 10 2 3 [= tebe = 2 = a 2 z 5|- fog fd . z 100 tT 2 map por & = Bl EL to 5 Ip=ima Ww = 3 RBE=5.10 50 RRE=5.1MQ 8 Vce=lV Voc=5Vv ee- VoR=12V j Ta= 25C } 30 -40 -20 0 20 40 60 80 100 1 3 AMBIENT TEMPERATURE Ta (C) LOAD RESISTANCE Ri, (kQ)