SILICON POWER TRANSISTORS COMPLEMENTARY 4 AMPERES Pe & 229 Pt Te= 25C Vceo le Max. (w) (v) (A) hee hee Packa 7 ge Min. Cont. @1V, 200mA @1V, 1A COMMENTS Package Outline Type Min. Max. No. 30 25 - 229 30 25 30 40 30 40 30 40 30 40 45 25 745 25 TYPICAL APPLICATIONS 45 40 Amplifier Outputs @ Regulators: series, shunt, and 45 40 switching Inverters/Converters 45 40 FEATURES 45 40 : @ Low Collector Saturation 60 25 Voltage (0.5V Typ. @ 3.0A Ic) @ Excellent Linearity 60 25 @ Fast Switching @ Round Leads 60 40 @ TO-66 Compatible @ Typical fr, 50 MHz 60 40 60 40 60 40 D44C10 80 25 D45C10 80 25 D44C11 80 40 D45C11 80 40 D44012 80 40 - D45C12 80 40 hee measured at Ic = 2A 117 Silicon Power Pac Transistors Color Molded The General Electric D44C is a red, silicone plastic encapsulated, power transistor designed for various specific and general purpose applications, such as: output and driver stages of amplifiers operating at frequencies from DC to greater than 1.0 MHz; series, shunt and switching regulators ; low and high frequency inverters/converters; and many others. FEATURING: NPN complement to D45C PNP Red for NPN, green for PNP Very low collector saturation voltage (0.5V typ. @ 3.0A Ic) Excellent linearity Fast switching Round leads Hard solder mountdown absolute maximum ratings: (25C) (unless otherwise specified) = i D44e 4 c ve Red JEDEC TO-220 AB D44Cl D44c4 D44C7 D44C10 D44C2 D44c5 D44cC8 D44C11 D44C3 D44C6 D44c9 D44C12 Voltages Collector to Emitter Vero 30 45 60 80 Volts Emitter to Base Vuso 5 5 5 5 Volts Collector to Emitter Veus 40 55 70 90 Volts Current (1) Collector (Continuous) Ic ee 4 _-> Amps Collector (Peak) _____- 6 > Amps Power Dissipation (1) Case at 25C Pr 30 __ Watts Case at 70C aa 19 _ Watts Free Air at 25C ________ 1.67 _> Watts Free Air at 50C __-_ 1.38 _ Watts Thermal Resistance (2) Junction to Case Rose <_______ 4.2 __> C/W Junction to Ambient Rosa ____ 75 ___ C/W Temperature (2) Operating Ts <___ 55 to +150 ___> C Storage Tsre << 55 to +150 _ C Lead Soldering, 46" + Yeo from ease for 10 seconds max. Ti <____. + 260 C Notes: (1) Refer to the Safe Region of Operation curve for further information. (2) Case temperature reference point is indicated on the Dimensional Outline Drawing. electrical characteristics: (25C) (unless otherwise specified) D44C3 D44C2 D44Cl D44C6 D44c5 D44C4 D44C9 D44C8 D44C7 D44C12 D44C11 D44C10 Min. Max. Min. Max. Min. Forward Current Transfer Ratio (Ver = 1V, Ic = 0.2A) hrs 40 120 100 220 25 (Vez = 1V, Ic = 2A) hrs 20 20 (Ver = 1V,Ic = 1A) hrs _ 10 1147 oa] Electrical Characteristics (Continued) Coliector to Emitter Sustaining Voltage) (Ic = 100 mA) D44C1, 2, 3 Vexo:svs) D44C4, 5, 6 D44C7, 8,9 D44C10, 11, 12 Collector Saturation Voltage? (Io = 1A, Is = 50 mA) D45C2, 3, 5, 6,8, 9, 11, 12 Vor wat (Ic = 1A, Is = 100 mA) D45C1, 4, 7, 10 Ver wan Base Saturation Voltage ? (Io = 1A, In = 100 mA) Van war Collector Cutoff Current (Voz = Rated Vezs, Ty = 25C) Icxs Emitter Cutoff Current (Vas = 5V, T: = 25C) Izzo Collector Capacitance (Vos = 10V, f = 1 MHz) Ccoxzo Gain Bandwidth Product (Vee = 4V, Ig = 20 mA) ft Switching Times Rise Time and Delay Time (Ic = 1A, Is: = 0.1A) ta + tr Storage Time To = 1A, In: = Ine = 0.1A) ts Fall Time (Ie = 1A, Ini = Ine = 0.1A) te Note: (8) Pulsed measurement, 300 psec pulse, duty cycle =2%. a Tl 6 PEAK OR CURRENT [je SEC PULSES MAX, OC CURRENT 10 pt SEC PULSES 4 i004. SEC PULSES 10004, SEC PULSES MAX. OC POWER DISSIPATION AT 70C CASE =55C Te = 70C = 985C To =!00c FORWARD B/ASED OPERATION DUTY CYCLE S50% Tg = 708 P,-POWER DISSIPATION- WATTS Tp- COLLECTOR CURRENT ~AMPERES Ix ! lx t< iz w! MAX. D44C1,2,3 ~~ 4 2 4 6 810 20 40 60 80100 Vog COLLECTOR TO EMITTER VOLTAGE - VOLTS SAFE REGION OF OPERATION 1148 20 Min. 30 60 80 Typ. 50 100 500 75 Vogg MAX.:044C1,2,3 Vogg MAX.044C4,5,6 30 40 50 Max. PIU eo ren 10 100 100 60 Vegg MAX. 044C7,8,9 70 Voge COLLECTOR TO EMITTER VOLTAGE-VOLTS MAXIMUM PERMISSIBLE DC POWER DISSIPATION Volts Volts Volts Volts Volt Volt Volts pA pA pF MHz nsec nsec nsec 80 Vegs MAX. 044610, (1,12 390 NEE SATURATION VOLTAGE S~VOLTS = Veg" | VOLT Veg * 2.5 VOLTS 04462 ,3,5,6,8,9, 11,12 Veer! VoL Ve * 2.5 VOLTS 044 2,3, 5,6,8,9,11, 12 NORMALIZED bee & oF 02 04 .06 .08 Ig - COLLECTOR CURRENT - AMPERES Ol -O2 04 06 .OB OF Lo 10 TYPICAL hee VS. le Ig COLLECTOR CURRENT - AMPERES TYPICAL NORMALIZED hee VS. Ic ty 150 am Ty 25C i ay BE (SAT) _ Ye sary tc/75" y = 150C Vee -BASE EMITTER VOLTAGE ~ VOLTS 04 02 D4 06.08 0.1 Lo lo Ol 02 04 06 080! 1.0 10 100 Te- COLLECTOR CURRENT- AMPERES I, BASE CURRENT-maA TYPICAL SATURATION VOLTAGE TYPICAL INPUT CHARACTERISTICS CHARACTERISTICS 1149 [aac Ig ~COLLECTOR CURRENT- AMPERES 45 a5 25 Os a TRANSIENT THERMAL IMPEDANCE-C/ WATT lo TIME ~- SECONDS MAXIMUM TRANSIENT THERMAL IMPEDANCE wee Vig I VOLT Vog * 25 VOLTS Ty" ts0*C Qa a2 04 O6 OB 1.0 12 ee BASE ~TO-EMITTER VOLTAGE-VOLTS TYPICAL TRANSCONDUCTANCE CHARACTERISTICS DIMENSIONAL OUTLINES TERMINAL ARRANGEMENT 4 CUTOFF CURRENTNANO AMPERES 107 10900, T 1 Tyg AT CLASSIFICATION VOLTAGE | m= Ig gAT CLASSIFICATION VOLTAGE 1000} NN N 100 XN \ aN ~\ 10 SN \ N i 125 100 75 50 25 TEMPERATURE C TYPICAL Iceo, Ices VS. TEMPERATURE 2 + LF 5 4 BASE 2. COLLECTOR 3. EMITTER 4. MOUNTING TAB (ELECTRICALLY COMMON TO COLLECTOR } Dec. In. Metric MM Sym. Min. Max. Min. Max. A "390 420 9.91 10.67 B .110 .120 2.79 3.05 Cc .240 .260 6.10 6.61 D 2325 355 8.26 9.02 E .500 ee 42.7 EF 095 105 2.41 2.67 G 190 .210 4,82 5.34 H .029 .035 73 .89 J .085 ALS 2.16 2.92 K -040 .060 1.02 1.52 L 160 -190 4.06 4,83 M 141 145 3.58 3.68 N -065 1.65 1150