D44C Series NPN POWER TRANSISTORS COMPLEMENTARY TO THE D45C SERIES 30-80 VOLTS 4 AMP, 30 WATTS | The General Electric D44C is a power transistor designed for wen various specific and general purpose applications, such as: COLLECTOR output and driver stages of amplifiers operating at frequencies from DC to greater than 1.0 MHz; series, shunt and switching ase regulators; low and high frequency inverters/converters; and many others. EMITTER CASE STYLE TO-220AB Fi t a DIMENSIONS ARE IN INCHES AND (MILLIMETERS) satures: .904110.26) F382 93) 9014.83) NPN complement to D45C PNP pr 38019.65) of 1704.32) of Ye Seat 3} Very Low collector saturation voltage (0.5V typ. @ 3.0A Ic) On sat a . . : 22} - CASE Exceilent linearity t TEMPERATURE \ \ . POINT e Fast switching 1508.64, + 50.09) atta. | \ | 22015 5) y * a ie Bees TERM. \ 500(12.7)MIN. TERM.2 3511.99) TERM3 mente Sap aR yh aE a ee ast Foote D180. type |TeRM.t | TEAM.2 | TERM3 | TAB | [To-220-AB | ase | COLLECTOR | EmiTTER | COLLECTOR | maximum ratings (T, = 25C) (unless otherwise specified) RATING SYMBOL | D44C1,2,3 | D44C4,5,6 | D44C7,8,9 | D44C10, 11, 12 | UNITS Collector-Emitter Voltage VcEO 30 45 60 80 Volts Collector-Emitter Voltage Voces 40 55 70 90 Volts Emitter Base Voltage VEBO 5 5 5 5 Voits Collector Current Continuous Ic 4 4 4 4 A Peak(?) Icom 6 6 6 6 Base Current Continuous Ig 2 2 2 2 A Total Power Dissipation @ Ta = 25C Pp 1.67 1.67 1.67 1.67 Watts @ Tc = 28C 30 30 30 30 ee apeature Henao unetion TyTstg | -85to +150 | -55to +150 | -55to+150 | -sSto+150 | C thermal characteristics Thermal Resistance, Junction to Ambient Resa 75 75 75 75 C/W Thermal Resistance, Junction to Case Rguc 4.2 4.2 4.2 4.2 C/W Maximum Lead Temperature for Soldering Purposes: % from Case for 5 Seconds TL +260 +260 +260 +260 C (1) Pulse Test Pulse Width = 300ms Duty Cycle < 2%, 407electrical characteristics (Tc = 25C) (unless otherwise specified) | CHARACTERISTIC [SYMBOL | MIN | TYP MAX | UNIT | off characteristics Collector-Emitter Sustaining Voltage D44C1, 2,3 VCEO(sus) 30 _ _ Volts (I = 100mA) D4404, 5, 6 45 -- D44C7, 8,9 60 ~ D44C10, 11, 12 80 _ _ Collector Cutoff Current (VceE = Rated Vces) IcES _ _ 10 HA Emitter Cutoff Current (Vep = 5V) lEBO _ _ 100 BA second breakdown | Second Breakdown with Base Forward Biased | FBSOA | SEE FIGURE 3 | eas 1) on characteristics DC Current Gain D44C1, 4, 7, 10 hre 25 _ _ (Ic = 0.2A, Voce = 1V) D44C2, 5, 8, 11 100 _ 220 D44C3, 6, 9, 12 40 120 (Ig = 1A, Voce = 1V) D44C1, 4, 7, 10 nFE 10 _ (Ic = 2A, Voce = 1V) D44C2, 5, 8, 11 20 _ __ D44C3, 6, 9, 12 20 _ _- Collector-Emitter Saturation Voltage (Ic = 1A, Ig = 50mA) D44C2, 5, 8, 11 VcE(sat) 0.5 Volts D44C3, 6, 9, 12 _ 0.5 (Io = 1A, Ig = 100mA) D44C1, 4, 7, 10 0.5 Base-Emitter Saturation Voltage (ic = 1A, Ig = 100mA) VBE(sat) 13 Volts dynamic characteristics Collector Capacitance (Vop = 10V, f = 1MHz) CcBo 100 pF Current-Gain Bandwidth Product (Ig = 20mA, VE = 4V) fT 7 50 7 MHz switching characteristics Resistive Load Delay Time + = =1p9=0.1A +t 100 - ns Rise Time Io = 1A, Ig = !B2 : ta + tr Storage Time ts 500 - Voc = 30A, ty = 25 usec Fall Time ce peer ty = 75 = (1) Pulse Test PW = 300ms Duty Cycle < 2%. 408aoe T, 7150 ma 1, 25C m= Vce* 2.5 VOLTS as o 44C2,3,5,6,8 E : 2 Yet serie > . 5 =O F 2 Ig ~ COLLECTOR CURRENT - AMPERES FIG.1 TYPICAL bre VS. Ic_ -.O -al 02 04 -06-08-0.1 -~l0 - 10 Ie- COLLECTOR CURRENT~ AMPERES FIG.2 TYPICAL SATURATION VOLTAGE CHARACTERISTICS 100 ys SEC PULSES 104 SEC PULSES 1004 SEC PULSES 10004 SEC PULSES MAX. DC POWER DISSIPATION AT 70C CASE FORWARD BIASED OPERATION OUTY CYCLE < 50% To S70C VCGES MAX. D44C1, 2,3 ic - COLLECTOR CURRENT - AMPERES VCES MAX. D444, 5, 6 Vor = -10V Ig = -500 mA TRANSIENT THERMAL IMPEDANCE - C/WATT VCES MAX. 044C7, 8, 9 VcoEs MAX. D44C10, 11, 12 -t -2 -4 ~6 -8 -10 ~20 40 --60 -80 -100 10? 10 VCE - COLLECTOR TO EMITTER VOLTAGE - VOLTS TIME - SECONDS FIG. 3 SAFE REGION OF OPERATION FIG.4 MAXIMUM TRANSIENT THERMAL IMPEDANCE 409