MICROSEMI CORP/ MICRO SbE D MM 6215907 0002355 148 MMNAL MICR TARO 7 UALITY SEMICONDUCTOR, INC 50 Amp Epitaxial Center Tapped High Efficiency Rectifiers 50 Volt, 100 Volt, 150 Volt and 200 Volt Vaan Low Thermal Resistance Extremely Low Leakage at High Temperature High Surge Capability Very Fast Switching Speeds Glass Passivated Standard TO3 Case LTR. INCHES MILLIMETERS CENTER Tap A 74 76 Dia. 18,8 -19,3 Dia. pHa | coamaonl CATHODE B .323- .342 8,20- 8,69 Ss nd ej .40 Min. 10,16 + D 038-043 Dia. 97-_1,09 Dia. o~ Tf E 1.180-1.194 29,97-90,33 PIN 2 F 665-675 16,89-17,15 case G .426- .440 10,82-11,18 PosiTive H 525R Max, 13,34 I 151-161 Dia. 3,84 4,09 t PIN 1 ' H Ail JEDEC TO-3 dimensions and notes are applicable. MAXIMUM RATINGS (At T, = 25C unless otherwise noted) RATINGS SYMBOL VHE2601 VHE2602 VHE2603 VHE2604 UNITS OC Blocking Voltage Van Working Peak Reverse Voltage Vewaa 50 100 150 200 Volts Peak Repetitive Reverse Voltage Varnm AMS Reverse Voltage Vagus) 35 70 105 140 Volts Average Rectified Forward Current @ T. = 118C lo 50 Amps Peak Surge Current (non-rep), 2 cycle, 60 Hz lrem 500 Amps Thermal Resistance, Junction to Case Pac 0.8 C/W Operating and Storage Temperature Range Ta, Tsta ~ 65 to +175 C ELECTRICAL CHARACTERISTICS (At T, = 25C unless otherwise noted) CHARACTERISTICS SYMBOL UNITS Maximum Instantaneous Forward Voltage Ty = 25C Ty = 125C per diode |; = 15A 0.93 0.8 kk = 254 Vin 1.0 0.87 Volts Iz = 100A 1.4 1.3 Maximum Reverse Current at Rated Vay per diode T, = 26C 20 Ty = 125C tem 200 wh Ty = 175C 1000 Maximum Reverse Recovery Time, ip = YA, In = 1A, lag = 0.25A i 35 nsec Maximum Capacitance, Vz = 10V C, 500 pF 71MICROSEMI CORP/ MICRO FORWARD CURRENT VS FORWARD VOLTAGE === MAXIMUM DC FORWARD CURRENT. Ig, (AMPS) o7 0B a9 to it 12 13 14 INSTANTANEOUS FORWARD VOLTAGE DROP, Vey - (VOLTS) REVERSE CURRENT. tay. (Ad SBE D MM 6115907 0001356 084 MMaL REVERSE CURRENT VS JUNCTION TEMPERATURE were MAXIMUM JUNCTION TEMPERATURE, T, .(" ) FIGURE 1 FIGURE 2 T-23-09 TYPICAL CAPACITANCE VS REVERSE VOLTAGE ic a wi So z < Q = < 9 100K Hz Te 25C 100 100 Va REVERSE VOLTAGE. (VOLTS) FIGURE 3 OUTPUT CURRENT VS CASE TEMPERATURE Ipsum. PEAK SURGE CURRENT (AMPS) & = $s e Zz wi < =} oe rE > a e > 2 50 78 425 180 1 Te CASE TEMPERATURE (* C) FIGURE 5 72 SURGE CURRENT VS NO. OF CYCLES (NON-REP.) 10 100 NUMBER OF CYCLES AT 60 Hz FIGURE 4