TLP957 (TLPSS7) TRANSISTOR INVERTOR INVERTER FOR AIR CONDITIONOR POWER TRANSISTOR BASE DRIVE The TOSHIBA TLP557 consists of a GaAAs light emitting diode and a integrated photodetector. This unit is 8-lead DIP package. TLP557 is suitable for base driving circuit of power transistor module up to 20A. External resistor needs to connect between pin 6 and pin 7. This is for constant current driving. Input Threshold Current Ip=5mA (Max.) Guaranteed Performance Temperature Range ~30~70C e Supply Voltage 16V (Max.) e Output Current +0.3A (Max.) Switching Time (tpLH/tpHL) 5s (Max.) e Isolation Voltage UL Recognized SCHMATIC 2500Vims (Min.) UL1577, File No. E67349 GaAgAs IRED & PHOTO-IC Unit in mm 64 785 ~ 880 JEDEC _ EIAJ _ TOSHIBA 11-10C1 Weight : 0.54g PIN CONFIGURATION (TOP VIEW) iQ] 8 i 7 30 6 5 cy rl NC ANODE CATHODE NC GND Vo2 (OUTPUT) Vo 1 (Rex TERMINAL) Vec OAH bwd ke TRUTH TABLE Tri Tr2 LED OFF | OFF ONTLP557 (TLP557) ABSOLUTE MAXIMUM RATINGS CHARACTERISTIC SYMBOL RATING UNIT Forward Current Ip 25 mA Ar Peak Transient Forward Current (Note 1) Ippr 1 A Reverse Voltage VR 5 v Junction Temperature (Tj) 125 C Output Current (fS5kHz, Duty=50%) Io +0.32/ 0.32 A Peak Output Current (PwS10us, f=5kHz) Iop +2/-0.5 A eo Output Voltage Vo 16 Vv pa Supply Voltage Vcc 16 Vv O01 Terminal to Og Terminal (Pin 7-Pin 6) Voltage V1-2 1.5 Vv Og Terminal to Oy Terminal (Pin 6-Pin 7) Voltage Vo-1 5 Vv Power Dissipation (Note 2) Po 0.5 WwW Junction Temperature (T;) 125 C Total Package Power Dissipation (Note 3) Por 0.55 Ww Operating Temperature Range Topr 30~70 C Storage Temperature Range Tstg 55~125 C Lead Solder Temperature (10 sec.) Tsold 260 C Isolation Voltage (AC, lmin., R.H.360%, Ta=25C) (Note 4) BVS 2500 Vrms Note 1 : Pulse width PWS 1ys, 300pps Note 2 : APp/C=-6.7mW/C = (Ta=50C) Note 3 : APoT/C=7.4mW/C (Taz 50C) Note 4 : Device considerd a two terminal device : pins 1, 2, 3 and 4 shorted together, and pins 5, 6, 7 and 8 shorted together. 341 TLPS57 (TLP557} ELECTRICAL CHARACTERISTICS (Ta - 30~70C, Unless otherwise specified) TEST CHARACTERISTIC SYMBOL TEST CONDITION MIN |TYP.*|MAX.!| UNIT |CIR- CUuIT Input Forward Voltage VF Ip=5mA, Ta =25C _ 1.55| 1.7] V Temperature Coefficient m _ of Forward Voltage AVF/ATa|l[P=5mA |-2.0} |mvPC Input Reverse Current IR VR=5V, Ta=25C _ 10] 4A Input Capacitance Cr V=0, f=1MHz, Ta=25C _ 250] pF Oy, Output Leakage Current} I91L |VcC=16V, Vo1=0, Vr=0.8V 0.01 | 200] vA 1 Og Output Leakage Current] Ioa, [Vcc=16V,Vog=16VIp=5mA | 0.2] 200} yA 2 Vg_g=2.3V Voc=6v | 0.22 | 0.27] 0.32 QO, Output Current I9 Rex = 2.79 A 3 Ip=5mA, Ta=25C [VCC=16V] 0.22 | 0.27 | 0.32 Og High Level Output Vec=6V, Rex=2.70 k Voltage Vou ep =5mA 3.5 5-5 | v 4 Vp=0.8V,Rex=2.70 Wog=6v | [027 oat =0.2 = 25 = _ . . Og Low Level Output v ne = aor Pe Moc =16V 0.2 | 0.4 5 Voltage OL |YF=.eV nex= ei Vae=6v | 04] lo =0.5A (*1) ; Vv Ta = 25C Voc=16v) 04) Voc=6V, Ir=5mA ; Rex=2.79, Ta=25C ~~ 3.8 10 High Level Supply Current | Iccy Voc=6V, Ip=5mA, Rex=2.70 _ _ 13 mA Vcc =16V,Ip=5mA, Rex =2.79 .2 17 Voc =6V, Ip=0mA Rex =2.70, Ta=25C ~~, ULM Low Level Supply Current Icch Voc =6V, Ip=0mA, Rex=2.70 _ _ 92 | mA Voc=16V,Ip=0mA, Rex=2.72 13 25 Output L-H Threshold Rex=2.70 Voc=6V | | 25] 5 Input Current IFLH lO =0.254 mA Vog>3V Voc=16v) | 5 =2.7 Output H-L Threshold Rex=2.70 Voc =6V 0.8); _ Input Current VFHL [0 =0.254 Vv Vog<0.4V Voc=16v) 08) | Input Current Hysterisis Inys |Voc=8V, Rex=2.70,Ta=25C | 0.05) | mA Supply Voltage Vcc 5| 16| V Capacitance (Input-Output) Cs Vo=0, f=1MHz, Ta=25C _ 1,0] 2.0] pF Resistance (Input-Output) Rg Vg =500V, Ta = 25C, R.H.S 60% 15x10!) 104] Q * All typical values are at Ta=25C (*1): Duration of Ig time = 100us 342 TLP557 (TLP557) RECOMMENDED OPERATING CONDITION CHARACTERISTIC SYMBOL MIN. TYP. MAX. UNIT Input Current ON Ip(ON) 7 8 20 mA Input Voltage OFF VR(OFF) 0 _ 0.8 Vv Supply Voltage Vcc 5 6 13 Vv Ip, Drive Current Toi _ 0.15 0.25 A Ipg Drive Current Io2 _ _ 0.5 A External Resistance Rex 2.7 4.3 Q Vcc -Vog (Pin 8- Pin 6) Vg_6 2.3 3 2.5 Vy ON Voltage (I91 =0.15A) (Ig 1 =0.25A) Operating Temperature Topr 30 25 70 C = (Rex is for constant current driving) Vv 1 vec [a } Sf If(ON 5 7 Rex Vg-6 I I +F(ON) peered nnn n eee eee 5 VF(OFF) loi J | 6 Vv 3 02 [6 |} on ty x | 4 GND ey 6 4 Li al 343 TLP557 ({TLP557) SWITCHING CHARACTERISTICS (Ta = -30~70C Unless otherwise specified) TEST CHARACTERISTIC SYMBOL TEST CONDITION MIN. | TYP.* |MAX.| UNIT |CIR- CUIT Propagation Delay Time, L>H | tpLH Voc =6V, Ip=8mA _ 1 5 | us Propagation Delay Time, HL | tpHL Rex =2.70 1 5 | us 6 Output Rise Time tr f=5kHz, Duty =10% | 005| | us Output Fali Time te _ 0.05 | BS Common Mode Transient VcomM=600V, Ip=8mA Immunity at High Level CmMyH | Vec=6V, Rex=2700 2000) |Vips| 7 Output R=1kn, Ta=25C Common Mode Transient Vom =600V, Ir=OmA Immunity at Low Level Output | CML | Voc=6V, Rex=2700 20001 | |V/us| 7 mauny Bt mow eves Sp R=1k0, Ta=25C * All typical values are at Ta=25C. TEST CIRCUIT 5 : VoL lg 8 TEST CIRCUIT 1: IoiL 8 ve Rex Vcc 1g +, TH = lo co 4q VF = Vcc 0 a, h | y 4g ai IO1L TEST CIRCUIT 6: tpLH. tpHL, tr, tf Sur 4 ee TEST CIRCUIT 2: Io2L Rex = Vcc 90% 8 I UY. lo \ , wn 0 10% any Ir = Vcc age | [tr tf Te) me 7 4 an O2L Ey tpLH | boHL > TEST CIRCUIT 7: CMH, CML TEST CIRCUIT 3 : Ig 1p '4 b on Re > Ycc AZ WB h x Vo2 4g "| R Vv Gyo 30% fh GOOV . 10% TEST CIRCUIT 4 : VoH VoM [tr tf] CML= 480) id 8 SW : AUp=8mA) res 0.av 3 5y Hom r@ Rex Vcc Vo2 SW: BUF=0) rie CML (CMH) is the maximum rate of rise (fall) of the common mode voltage that can be sustained with the output voltage in the low (high) state.TLP557 (TLPSS7) Po Ta AVF/4Ta Ip f<5kHz DUTY <50% | x ALLOWABLE POWER DISSIPATION FORWARD VOLTAGE TEMPERATURE COEFFICIENT AVp/4Ta (mV/C) = oO a -1 th. -40 -20 0 20 40 60 80 O12 0.3 0.6 1 3 5 10 AMBIENT TEMPERATURE Ta (C) FORWARD CURRENT Ip (mA) Ip Ve 1 = E 1 & 2 fe 1 2 oO Qa < = 01 om o & 0.01 1.0 1.2 14 1.6 1.8 2.0 FORWARD VOLTAGE Vp () 345