MJE13004 NPN POWER TRANSISTORS 300 VOLTS 4 AMP, 75 WATTS Designed for switching regulator, DC-DC converter, AC-DC NPN inverter, high voltage, high speed switching applications. COLLECTOR Features: ) EMITTER VCEO(sus) = 300V (Min). VCEV = 600V blocking capability e Excellent switching time: ty = 0.7 us (Max.), AS CASE STYLE TO-220AB DIMENSIONS ARE IN INCHES AND (MILLIMETERS) .404(10.26) eee -190(4.83) tf = 0.9 ws (Max.) -380(0.65) a mm a aS - TT!" - . .265(6.73 OD F 245(6.22) . CASE t TEMPERATURE REFERENCE 4 a7 POINT .355(9,02 145(3.68) Secs 28 *41(3.58)0* | \ 3 | } 22015 50 006(0.15 y + Le | ip sone o TERM.1 A 500(12.7)MIN. TERM.2 055(1,39) TERM3 Cc 033(0,84) | \L 107(2.72 027(0.69) L = 9512.67) 0872.21) .055(1.39 5,33 .021{0.53} SBT) TE ag op) OT5(0.38) (wee |TeRM.1 | TERM 2 | TERM3 | TAB | maximum ratings (Ta = 25C) (unless otherwise specified) [To-220-a8 | BASE [couector | emiTrer | cotLector | RATING SYMBOL MJE13004 UNITS Collector-Emitter Voltage VCEO 300 Volts Collector-Emitter Voltage VoEv 600 Volts Emitter Base Voltage VEBO 9 Volts Collector Current Continuous lo 4 A Pulse Iop 8 Base Current Continuous Ip 2 A Pulse IBP 4 Emitter Current Continuous le 6 A Pulse lep 12 Collector Power Dissipation Ta = 25C Po 2 Watts Derate above 25C 16 mWw/C Collector Power Dissipation To = 25C Po 75 Watts Derate above 25C 600 mW/?C Operating and Storage Junction Temperature Range Ty, TsTa -65 to +150 C 715 thermal characteristics Thermal Resistance, Junction to Case Resc 1.67 C/W Thermal Resistance, Junction to Ambient Rea 62.5 C/W Maximum Lead Temperature for Soldering Purpose: %" from Case for Seconds Th 275 C electrical characteristics (Tc = 25C) (unless otherwise specified) CHARACTERISTIC | SYMBOL | MIN TYP | MAX | UNIT | off characteristics Collector-Emitter Voltage VCEO(sus) 300 _ - Volts (Ic = 10mA, Ip = 0) Coliector Cutoff Current (VcE = 600V, Vee = -1.5V) IceV 1 mA (VcE = 600V, Veg = -1.5V, To = 100C) _ _ 5 Emitter Cutoff Current _ _ (Vep = 9V, Ic = 0) lEBO ' mA second breakdown . Second Breakdown with Base Forward Biased FBSOA SEE FIGURE 11 Clamped Inductive SOA with Base Reversed Bias RBSOA SEE FIGURE 12 on characteristics a so vee 5 h 10 60 c= 1A, Vce = 5V) FE _ _ (Io = 2A, Voge = 5V) 8 _ 40 Collector-Emitter Saturation Voltage VcE(sat) (Ic = 1A, Ig = 0.2A) = 0.5 V (Io = 2A, Ig = 0.5A) _ _ 0.6 (ig = 4A, Ig = 1A) _ _ 1 (IG = 2A, Ip = 0.5A, To = 100C) 1 Base-Emitter Saturation Voltage VBE(sat) (I = 1A, tp = 0.2A) _ 1.2 Vv (IG = 2A, Ig = 0.5A) 1.6 (Io = 2A, Ig = 0.5A, To = 100C) _ 1.5 dynamic characteristics Output Capacitance _ _ (Vop = 10V, Ie = 0, f= 0.1 MHz) Cob 55 pF Current Gain Bandwidth Product _ _ (Ig = 500MA, Vg = 10V, frest = 1.0 MHz) fT 4 MHz switching characteristics Resistive Load Delay Time (Voc = 125V, Io = 2A ta _ _ 0.1 us Rise Time Ip1 = -Ip2 = 0.4A, tp = 25 ws tr _ _ 0.7 Storage Time Duty Cycle < 1%) ts _ _ 4 Fall Time tr _ ~ 0.9 Inductive Load, Clamped Storage Time (Ic = 2A, Velamp = 300V tsy _ _ 4 ps Crossover Time Ig1 = 0.4A, VBE(otf) = -5V, To = 100C) tc _ _ 0.9 Fall Time tt _ 0.16 _ (1) Pulse Test: Pulse Width - 300us Duty Cycle <: 2%. 716 Vge. BASE-EMITTER VOLTAGE (VOLTS) hee, DC CURRENT GAIN Ic, COLLECTOR CURRENT (A) 70 Ty= 125C 50 30 20 10 ce=2 gem Vcer5V 5 0.04 0.06 0.1 0.2 04 06 1 Ic, COLLECTOR CURRENT (AMP) FIGURE 1 DC CURRENT GAIN 1.3 0.7 05 0.3 0.04 -0.4 om VBE (sat) @ icig=4 _ VBE(on) @Veegz2V Tyt- 006 0.1 0.2 04 06 1 ic. COLLECTOR CURRENT (AMP) FIGURE 3 BASE-EMITTER VOLTAGE Vee = 250 V y= 150C 4259C 100C 50C 25C REVERSE FORWARD -0.2 Q 0.2 +0.4 Vee. SASE-EMITTER VOLTAGE (VOLTS) FIGURE 5 COLLECTOR CUTOFF REGION 717 0.8 0.4 Veg. COLLECTOR-EMITTER VOLTAGE (VOLTS) 0 0.03 0.05 0.1 02 03 05 07 1 2 3 Ig, BASE CURRENT (AMP} FIGURE 2 COLLECTOR SATURATION REGION = 055 oOo - <x S 0.45 2 x 2a cr F S 0.35 a c< E5025 So > J 8 = 0.15 5 a > 005 0.04 0.06 0.1 0.2 04 06 1 2 4 Ig, COLLECTOR CURRENT (AMP) FIGURE 4 COLLECTOREMITTER SATURATION VOLTAGE C, CAPACITANCE (pF) 03 0.5 } > i) 10 30 50100 300 Va. REVERSE VOLTAGE (VOLTS) FIGURE 6 CAPACITANCE t, TIME (us) Ic. COLLECTOR CURRENT (AMP) 'cPK Velamp 0.5 90% Vetamp [NN 30% Ic ty Uy = 02 3 = F 0.1 10% Vey 10% 0.05 rome Cox 2% Ie tg @ Veecotty = 8 V 0.02 0.01 0.04 0.1 02 04 1 2 4 TIME Ic, COLLECTOR CURRENT (AMP) FIGURE 7 INDUCTIVE SWITCHING MEASUREMENTS FIGURE 8 TURN-ON TIME RESISTIVE SWITCHING PERFORMANCE 1.0 07 Os 03 0.2 TRANSIENT THERMAL RESISTANCE (NORMALIZED) D CURVES APPLY FOR PULSE TRAIN SHOWN 0.07 READ TIME @ty Tytpk) - Te * P 0.05 Jtpk} - TS * Pepky Zayctt) DUTY CYCLE, D= 0.08 i. 0.02 Tr SINGLE Pipk) t2 0.01 01 6.1 0.2 05 1 2 4 0.01 0.02 005 01 02 OF 10 20 50 10 20 50 100 200 SOO 10k 0.04 TIME (ms) Ic, COLLECTOR CURRENT (AMP) FIGURE 9 TURN-OFF TIME FIGURE 10 TYPICAL THERMAL RESPONSE [(Zgyc(t)] The Safo Operating Area Figures 11 and 12 are specified ratings tor these devices under the test conditions shown. 10 4 5 = Te < 100C < 1g, =2.0A 2 5 3 t = ec 05 3 5 2 M2 . Vee(ott) "9V ad 01 3 S 0.05 = ! = MJE13004 5Vv 0.02 3V 15V 0.01 0 5 7 10 20 (30 50 70 100 200 300 500 0 100 200 300 400 500 600 700 800 Veg. COLLECTOR-EMITTER VOLTAGE (VOLTS) Vcev, COLLECTOR-EMITTER CLAMP VOLTAGE (VOLTS} FIGURE 11 FORWARD BIAS SAFE OPERATING AREA FIGURE 12 REVERSE BIAS SWITCHING SAFE OPERATING AREA 718