The TIP32 Series power transistors are designed for use in general purpose amplifier and switching applications. Features: Designed for complementary use with TIP31 series maximum ratings (Tc = 25C) (untess otherwise noted) 40W at 25C case temperature 3A continuous collector current 5A peak collector current Minimum fT of 3 MHz at 10V, 0.5A Customer-specified selections available PNP POWER TRANSISTORS COMPLEMENTARY TO THE TIP31 SERIES TT 2m Rarine| TIP 32 Series -40 ~ -100 VOLTS -3 AMP, 40 WATTS BASE EMITTER PNP COLLECTOR CASE STYLE TO-220AB DIMENSIONS ARE IN INCHES AND (MILLIMETERS) 16(2.95) -404(10.26) ue 79) 43014.83) 83) 380(9.65) Th 70(4.32) ae 25514, 38 TO TA - ~ .265(6.73) Fe ,245(6.22) . CASE TEMPERATURE ' REFERENCE POINT .365(9.02) 145(3.68) + = TaaeBo | \ 8258.25) 22015.) _ OW a TERM. is .500(12.7)MIN. TERM.2 055(1.39 Saath aBtT. 14) TERM.3 ________ 033(0.84} 105(2.67) hy Lge 210712.72 027(0.69) 4 087(2.21) 088(2.41) rm 055(1,38 ,021(0.53} : (1.39) . "210(8.33) ee (4. Fg0a 82) [ tyPE [verm.1 | TERM. 2 | team.3 | Tas | \o-220-a8| ease | couLecton | emitter | coutector | RATING SYMBOL TIP32 TIP32A TIP32B TIP32C UNITS Collector-Emitter Voltage VcEO ~40 -60 -80 -100 Volts Collector-Base Voltage VcoBo -80 -100 -120 -140 Volts Emitter Base Voltage VeEBO -5 -5 6 -5 Volts Collector Current Continuous Io -3 -3 -3 -3 A Peak lom -5 -5 -5 -5 Base Current Continuous Ip -1 -1 -1 -1 A Total Power Dissipation @ Ta = 25C Pp 2 2 2 2 Watts @ To = 25C 40 40 40 40 Operating and Storage Junction Temperature Range Ty, Tstq | -65 to +150 | -65 to +150 | -65to +150 | -65 to +150 C thermal characteristics Thermal Resistance, Junction to Case Rec 3.125 3.125 3.125 3.125 C/W Maximum Lead Temperature for Soldering Purposes: % from Case for 5 Seconds TL 250 250 250 250 C 783 electrical characteristics (Tc = 25C) (unless otherwise specified) } CHARACTERISTIC | SYMBOL| MIN | TYP | MAX | UNIT | off characteristics Collector-Emitter Breakdown Voltage TIP32 VCEO -40 _ _ Volts (Ig = -30mA) TIP32A -~60 TIP32B -80 _ _ TIP32C ~100 _ _ Collector Cutoff Current IcEO (VcE = -30V) TIP32, TIP32A _ _ -0.3 mA (VcE = -60V) TIP32B, TIP32C _ _ -0.3 Collector Cutoff Current IcES (Voce = -80V) TIP32 -0.2 mA (VcE = -100V) TIP32A _ _ -0.2 (VCE = -120V) TIP32B - _ -0.2 (VCE = -140V) TIP32C _- _ -0.2 Emitter Cutoff Current (Ves = -V, Ic = 0) 'EBO 7 mA second breakdown | Second Breakdown with Base Forward Biased FBSOA | SEE FIGURE 3 on characteristics DC Current Gain hee (Ic = -4A, Vog = -1V) 25 _ _ _ (I6 = -3A, VGE = -4V) 10 = 50 Collector-Emitter Saturation Voltage VcE (Ic = -3A, Ip = -375MA) 9 CE(sat) _ _ 1.2 Vv Base-Emitter Voltage VBE (I= -3A, Voce = -4V) (on) = = -1.8 v switching characteristics Turn-on Time Ri = 300, Iq = 1A ton 0.3 _ us ; Ip1 = Igo =0.1A Turn-off Time VBE(ott) = 4.3V toff _ 1 _ INPUT aA MONITOR OUTPUT MONITOR 4 43V 10% IN914 Reai = 36 2 INPUT OV ~-4O-- mH =--- TuT MONITOR \ 90% AN >iPptr- 2N4301 Von =88V ~~ 4 ' 1N914 1N916 -1N914 ' yI ' ! 270 pF Appz = 56 2 $ Ri = 302 ont be Toft | 1 fl Veen 300 | Ves2=43V MONITOR "fT * P 10% Vee ~ 10V % =, Veo" 30 VOLTAGE WAVEFORMS ADJUST FOR Von =- 8.5 VAT INPUT MONITOR TEST CIRCUIT NOTES: A. duty cycle < 2%. moo Vgen is a 30-V pulse into a 50 2 termination. B. The Vgen waveform is supplied by the following characteristics: The d-c power supplies may require additional bypassing in order to minimize ringing. FIGURE 1. RESISTIVE-LOAD SWITCHING 784 ty < 15ns, te< 15ns,Zgur = 502, tw = 20us, . Waveforms are monitored on an oscilloscope with the following characteristics: t, < 15ns, Rin 2 10 MQ, Ci, < 11.5 pF. . Resistors must be noninductive types. STATIC FORWARD CURRENT TRANSFER RATIO vs COLLECTOR CURRENT Ik Vcer-4V To = 25C See 5 and 6 400 100 o hgeStatic Forward Current Transter Ratio 3 1 0.001 -0.01 -0.1 -1 -10 gColtector Current~A FIGURE 2. TYPICAL CHARACTERISTICS NOTES: 5. These parameters must be measured using pulse techniques, ty = 300 ys, duty cycle < 2%. 6. These parameters are measured with voltage-sensing contacts separate from the current-carrying contacts. FORWARD-BIAS SAFE OPERATING AREA 100 = us, d= 0.1 = 40 =1ms, d= 0.1 = 10% ty = 10 ms, d = 0.1 = 10% 10 Operation, See Note 4 teCollector CurrentA > = 0.1 0.04 0.01 y 1 4 10 40 160 400 1k VcECollector-Emitter VoitageV FIGURE3 MAXIMUM SAFE OPERATING AREA NOTE 7: This combination of maximum voltage and current may be achieved only when switching from saturation to cutoff with a clamped inductive load. DISSIPATION DERATING CURVE a Q > o we o 3 = o Py Niaximum Continuous Bevice DissipationW oa o 0 25 50 75 100 125 150 TcoCase TemperatureC FIGURE 4 THERMAL INFORMATION 785