TIP 29 Series 40-100 VOLTS 1 AMP, 30 WATTS NPN POWER TRANSISTORS COMPLEMENTARY TO THE TIP30 SERIES A : CASE STYLE TO-220AB DIMENSIONS ARE IN INCHES AND (MILLIMETERS) The TIP29 Series power transistors are designed for use in general purpose amplifier and switching applications. NPN COLLECTOR ) EMITTER Features: Designed for complementary use with TIP30 series e 30W at 25C case temperature e +Acontinuous collector current .116(2.98) ODER e027) 1906.83) 9561.38) e 3A peak collector current Ty = LF oserr-22 @ Minimum fT of 3 MHz at 10V, 0.02A Or ee ce cast vg: . . : | TEMPERATURE e Customer-specified selections available Jo f SPOINT . (9.02 THegOA. i 5808 2015.59) } rs t | .13019.9 of fa 0810.15) TERM.1 \ | 500(12.7)MIN TERM.2 ose 1,39 , , ead TERM.3 ke 107({2.72) 08 7(2.21) 033(0.84) A . -105(2.67 .027(0.69) Lal ae : . .021(0.53) .055(1.39) | :210(5,33 .045(1.14) .015(0.38) "790(4.82) ("wee__[venm.1 | term2 | terms | TAB | To-220-A8 | BASE | COLLECTOR | EMITTER | COLLECTOR | maximum ratings (Tc = 25C) (unless otherwise noted) RATING SYMBOL TIP29 TIP29A TIP29B TIP29C UNITS Collector-Emitter Voltage VcEO 40 60 80 100 Volts Collector-Base Voltage VcBo 80 100 120 140 Volts Emitter Base Voltage VEBO 5 5 5 5 Volts Collector Current Continuous Io 1 1 1 1 A Peak lom 3 3 3 3 Base Current Continuous IB 0.4 0.4 0.4 0.4 A Total Power Dissipation @ Ta = 25C Pp 2 2 2 2 Watts @To = 25C 30 30 30 30 Operating and Storage Junction Temperature Range Ty, Tstg | -65to +150 | -65 to +150 | -65to +150 | -65 to +150 C thermal characteristics Thermal Resistance, Junction to Case Rec 4.17 4.17 4.17 4.17 C/W Maximum Lead Temperature for Soldering Purposes: 1%" from Case for Seconds TL 250 250 250 250 C 771electr ical characteristics (Tc = 25C) (unless otherwise specified) | CHARACTERISTIC | SYMBOL| MIN | TYP | MAX | UNIT | off characteristics | Collector-Emitter Breakdown Voltage TIP29 VcEO 40 _ _ Volts (Ig = 30mA) TIP29A 60 _ _ TIP29B 80 ~ TIP29C 100 _ Collector Cutoff Current IcEO (VcE = 30V) TIP29, TIP29A _ 0.3 mA (VCE = 60V) TIP29B, TIP29C _ 0.3 Collector Cutoff Current IcES (VcE = 80V) TIP29 _ 0.2 mA (VcE = 100V) TIP29A _ _ 0.2 (VcE = 120V) TIP29B _ 0.2 (VCE = 140V) TIP29C _ 0.2 Emitter Cutoff Current (Vep = 5V, Ic = 0) lEBO _ _ 1 mA second breakdown | Second Breakdown with Base Forward Biased | FBSOA | SEE FIGURE 3 | on characteristics DC Current Gain hee (Ig = .2A, Vog = 4V) 40 _ ~ ~_ (IG = 1A, VcE = 4V) 15 _ 5 Collector-Emitter Saturation Voltage VoE(sat (Ic = 1A, Ip = 125mA) sa pL 0.7 V Base-Emitter Voltage Vv (Ig = 1A, Voge =: ay) BE(on) _ ~ 1.3 Vv switching characteristics Turn-on Time Ri = 300, Ic = 1A ton 0.5 _ us (p17 = 'po=0.1A Turn-off Time VBE(ott) = -4.3V toft _ 2 _ ( INPUT MONITOR OUTPUT MONITOR Rep1 = 362 ee Oe rn INPUT Tox wonrron 434 ' t a tere feet tott ' | 1N914 =61N914) =61N914 +t 270 pF RAL 302 10% OUTPUT ' . MONITOR 90x - VOLTAGE WAVEFORMS Vep2 =4.3V= Veet = 10V ADJUST FOR Von *85 VAT INPUT MONITOR TEST CIRCUIT NOTES: A. Vgenis@ ~ 30-V pulse into a 50 termination. - The Vgen waveform is supplied by a generator with the following characteristics: 1, < 15.ns, tp 15s, Zour = SOQ, tw = 20s, duty cycte < 2%. . Waveforms are monitored on an oscilloscope with the following characteristics: t, < 15s, Rin 2 10 MQ, Cin < 11.5 pF. . Resistors must be noninductive types. . The d-c power supplies may require additional bypassing in order to minimize ringing. moo OY FIGURE 1. RESISTIVE-LOAD SWITCHING 772STATIC FORWARD CURRENT TRANSFER RATIO vs COLLECTOR CURRENT VcE24V Tc 228C See Notes 5 and 6 hpeStatic Forward Current Transfer Ratio 1 0.001 0.004 0.01 0.04 0.1 04 1 I~Collector CurrentA NOTES: 5. These parameters must be measured using pulse techniques, ty = 300 us, duty cycle < 2%. 6. These parameters are measured with voltage-sensing contacts separate from the current-carrying contacts. FIGURE 2. TYPICAL CHARACTERISTICS FORWARD-BIAS SAFE OPERATING AREA 100 ty = ys, d=0.1> 40 ty = Tms, d= 0.1 = 10% ty = 10 ms, d = 0.1 = 10% 10 DC Operation, See Note 7 4 0.4 TIP29B tCollector CurrentA = 0.1 0.04 0.01 1 4 10 40 6100 400 1k VcECollector-Emitter VoltageV 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 PyMaximum Continuous Device DissipationW 0 25 50 75 100 125 150 TcCase TemperatureC FIGURE 4 THERMAL INFORMATION 773