HIGH SPEED The MJH13090 and MJH13097 transistors are designed for high-voltage, high-sped power switching in inductive cir- cuits where fall time is critical. They are particularly suited for line operated switch-mode applications such as: Features: Switching regulators @ Inverters e Solenoid and Relay drivers Motor Controls. Deflection circuits 100C Performance Specified for: Reverse-Biased SOA with inductive loads Switching times with inductive loads 50 ns inductive fall time (Typ) Saturation voltages Leakage currents NPN POWER TRANSISTORS MJH13090 MJH13091 400 & 450 VOLTS 15 AMPS, 125 WATTS A 9 CASE STYLE TO-218 DIMENSIONS ARE IN INCHES AND (MILLIMETERS) -156(3.96) MIN. [, -617(15.672), .195{4.953) .613(15.570) i ~~ 7170(4.318) +| NPN COLLECTOR EMITTER he 60(1.824) I G40(1.016) 4 LU 461(41,709) NOM. :147(3.734) MAX. 1 048(1.219) > NOM. + .622(15.798) MIN. .226(5.715) + L > 3055.207) Ty TL -450(11.430) 490(10.414) -606(15.392) NOM. .018(.457) NOM. mL 095 (2.413) MIN. [__tyPE [ term.1 | TERM. 2 | TERM.3 | TAB { to-218 | ease | Coutecror | emmter | coucecton | maximum ratings (Ta = 25C) (untess otherwise noted) RATING SYMBOL MJH13090 MJH13091 UNITS Collector-Emitter Voltage VcEO 400 450 Volts Collector-Emitter Voltage VcEV 650 750 Volts Emitter Base Voltage VEBO 6 6 Volts Collector Current : Continuous Io 15 15 A Peak (Repetitive) lom 20 20 Base Current - Continuous Ip 5 5 A Peak (Non-Repetitive) Iem 10 10 Total Power Dissipation @ Tc = 25C Pp 125 125 Watts . @Tc= 100C 50 50 Derate above 25C 1 1 WiC Operating and Storage Junction Temperature Range Ty, Testa -55 to +150 -55 to +150 C thermal characteristics Thermal Resistance, Junction to Case Rec 1.0 1.0 C/W Maximum Lead Temperature for Soldering Purpose: %" from Case for 5 Seconds TL 275 275 C (1) Pulse Test: Pulse Width = 5ms. Duty Cycle = 10%. 753 electrical characteristics (Tc = 25C) (unless otherwise specified) | CHARACTERISTIC | SYMBOL | MIN | TYP MAX | UNIT | off characteristics Collector-Emitter Sustaining Voltage MJH13090 | VcEo(sus) 400 _ _ Volts (I = 100mA, Ig = 0) MJH13091 450 Collector Cutoff Current IcEV (Vcev = Rated Value, Vge(orr) = 1-5V) _ _ 0.5 mA (Vcev = Rated Value, VgE(OFF)) = 1.5V, To = 100C) _ _ 2.5 Collector Cutoff Current | _ _ 3 mA (Voce = Rate Voev, Ree = 502, To = 100C) CER Emitter Cutoff Current (Ves = 6V, Ic = 0) lEBO _ 1 mA second breakdown Second Breakdown with Base Forward Biased FBSOA SEE FIGURE 12 Clamped Inductive SOA with Base Reversed Bias RBSOA SEE FIGURE 13 on characteristics DC Current Gain (Io = 104, Vee = 8V) hee 8.0 _ _ _ Collector-Emitter Saturation Voltage VCE(sat) (Ic = 10A, Ig = 2A) _ 1 Vv (Ig = 15A, Ip = 3A) _- - 3 (I = 104, Ip = 2A, To = 100C) _ 2 Base-Emitter Saturation Voltage VBE(sat) (Ic = 10A, Ip = 2A) - _ 1.5 Vv (Io = 10A, Ip = 2A, To = 100C) _ _ 1.6 switching characteristics Resistive Load Delay Time Voc = 250V, Io = 10A ta _ 0.03 0.05 us Rise Time 1p1 = Ipa = 1.25A, tr _ 0.13 0.5 Storage Time tp = 30 usec ts _ 0.55 | 2.5 Fall Time tf _ 0.10 0.5 Inductive Load, Clamped Storage Time Ioc(pK) = 10A tsy _ 0.8 3 ps Crossover Time Igy = 1.25A (Ty = 100C) te 175 4 Fall Time VBE(OFF) = 5V tti _ 15 3 Storage Time VcE(PK) = 250V tsy - 50 _ Crossover Time (Ty = 25C) te _ 15 _ Fall Time tt _ 10 (1) Pulse Test: Pulse Width - 300us Duty Cycle = 2.% 754 TYPICAL ELECTRICAL CHARACTERISTICS 50 10 _ 1.0 2 5.0 30 5 = 3.0 z oe = 20 5 20 = s = 1.0 a E 0.7 S 10 08 = 5 03 7.0 Z 0.2 5.0 01 0203 08 07 10 20 30 5070 10 20 0.05 0.07 0.1 02 03 0507 1.0 20 3.0 50 Ic, COLLECTOR CURRENT (AMPS) Ip. BASE CURRENT (AMPS) FIGURE 1 DC CURRENT GAIN FIGURE 2 COLLECTOR SATURATION REGION 3.0 2.0 zg - s g o S < ree) = Ee S =_ 5 3 1.0 E = 7 E07 5 = Sebd : @ 05 a = 0. 0.3 0203 O08 07 1.0 20 30 50 70 10 20 02 03 O85 07 1.0 20 30 50 70 10 20 Ic. COLLECTOR CURRENT (AMPS} Ic. COLLECTOR CURRENT (AMPS) FIGURE 3 COLLECTOR-EMITTER FIGURE 4 BASE-EMITTER VOLTAGE SATURATION VOLTAGE 104 10K Voce = 250 V 3 103 5 Ty = 150C w 1000 3 102 1250 & 5 100C 3 5 = 4% 101 759C S a = 100 8 S 2 oo 100 EVERSE ORWARD c 10-1 10 04 02 0 +02 +04 +06 1.0 10 100 1000 VBE. BASE-EMITTER VOLTAGE (VOLTS) Vp. REVERSE VOLTAGE (VOLTS) FIGURE 5 COLLECTOR CUTOFF REGION FIGURE 6 CAPACITANCE 755 Ip pk c VCE (pk) 90% VCEipk) 90% Ic(pk) 10% VEipx) | 10% Ice pk ule TIME FIGURE 7 INDUCTIVE SWITCHING MEASUREMENTS 0 0 2 30 40 50 60 70 80 Vee (ott). BASE-EMITTER VOLTAGE (VOLTS) FIGURE 8 PEAK REVERSE CURRENT INDUCTIVE SWITCHING badd o ~ Vee (off) =1.0V Land o VBE (off) = 5.0 V ty. STORAGE TIME (us) S ~ ad wm 3.0 5.0 7.0 10 15 20 Ic. COLLECTOR CURRENT (AMPS) FIGURE 9 STORAGE TIME lad o eo an 2 is Zesc(t) = rt) Resc Figc = 1.0 CAN MAX D CURVES APPLY FOR PULSE TRAIN SHOWN READ TIME @t Typk) - TC = Pipk) Zauc(t) ee a8 DUTY CYCLE, D= ty/t2 + 0.01 F SINGLE Pipk) ; tb 50 100 200 500 10k 2 8 9 o n TRANSIENT THERMAL RESISTANCE (NORMALIZED) 2 0.01 0.01 0.02 0.05 01 02 50 10 20 TIME (ms) FIGURE 11 TYPICAL THERMAL RESPONSE [(Zgyc(t)] 05 10 20 1.0 Bt= 07 Ty= 75C Vee(ott) = | 05 So3f at = = w oS nN omen te aa thi 2.0 3.0 - 50... 7.0 10 15 = 20 (c, COLLECTOR CURRENT (AMPS) FIGURE 10 ~ CROSSOVER AND FALL TIMES 0.1 The Safe Operating Area figures shown in Figures 12 and 13 are specified for these devices under the test conditions shown. 20 1 10 ws 10 a o MJH13090 MJH13091 = ON oo Ss wn ~~ BONDING. THERMAL LIMIT 0.1 {SINGLE PULSE) Ss ty ic, COLLECTOR CURRENT (AMPS) 0.05 UMIT 0.02 5.0 19 20 - 60 100 200 450 Veg, COLLECTOR-EMITTER VOLTAGE (VOLTS) FIGURE 12 FORWARD BIAS SAFE OPERATING AREA 756 24 22 20 MJH13090 18 MJH13091 16 4 12 10 LLECTGR CURRENT (AMPS) 8 6.0 VBE (off) = VBE (otf) = 1.00 5.0 V 240 2.0 100 200 300 400 500 600 700 800 Veg. COLLECTOR-EMITTER VOLTAGE (VOLTS) FIGURE 13 REVERSE BIAS SAFE OPERATING AREA 757 POWER DERATING FACTOR (%) & 8 & 8 THERMAL TING 40 80 120 Te CASE TEMPERATURE (C) FIGURE 14 POWER DERATING