TOWEREX T500 Powerex, inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Phase Control SCR Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 40-80 Amperes (63-125 RMS) K OIA. HOLE rc H DIA. HOLE = CATHODE POTENTIAL RED GATE WHITE 7 MARKING 1.055 / 26.80 MM ACROSS FLATS -500-20 UNF - 2A THD. CASE NUMBER T50 STRIKE DISTANCE = .44 INCH / U.2 MM MIN, NOMINAL DIMENSIONS CREEPAGE DISTANCE = .44 INCH / II.2 MM MIN. SYM. A 8 c 0 E E G H J K INCHES 81 a4 38 1.58 89 6.12 48 266 744 146 MM 20.6 8.6 24.9 40.1 22.6 | 155.4 12.2 6.76 | 189.0 | 3.78 ALL DIMENSIONS ARE REFERENCE 7500, TO-94 (Outline Drawing) Also Available with Flag Lead, TO-83 Package Ordering Information: Select the complete part number you desire from the following table: Voltage * Current Turn-off Gate Current Leads Vonm &Vaam | (av) ty let Type (Volts) Code (A) Code | (usec) Code | (mA) Code | Case Code T500 700 46007 40 40 100 0 100 5 |T0-94 AQ 800 3=08 (Typ.) 150 4 900 09 * 1000 = 10 80 80 TO-83 AB 1100 = 11 1200 12 1300 06=:13 1400 14 1500 15 1600 16 * For 600V and Below, see T510 a For Lower Igy Consult Factory Example: Type T500 rated at 80A average with Vprry = 1600V, Iqt = 150MA, and standard flexible lead, order as: Type Voltage Current Turn-off Gate Current Leads T] 5] 0] 1| 6 8 | 0 0 4 A|Q 1600 Volts Seale = 2 T500 Phase Control SCR 40-80 Amperes (63-125 RMS}, 1600 Volts Features: Center Fired, di/namic Gate All Diffused Design Low Vt Compression Bonded Encapsulation Low Thermal Impedance High Surge Current Capability OOO OOO Low Gate Current Applications: (_] Phase control [|] Motor Control [} Power Supplies P-29P-30 POWEREX Cee eee e reer ee aS Powerex, inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 T500 Phase Controi SCR 40-80 Amperes (63-125 RMS), 1600 Volts Absolute Maximum Ratings Characteristics Symbol T500_ 40 T500_ _80 Units RMS Forward Current Tims) 63 125 Amperes Average Forward Current Tav) 40 80 Amperes One-half Cycle Surge Current TSM 1200 1800 Amperes 3 Cycle Surge Current ltTsm 950 1300 Amperes 10 Cycle Surge Current ITSM 800 1170 Amperes Minimum Rate of Rise of On-State Current (Non-repetitive) di/dt 800 800 Amperes/its @t (for Fusing), > 8.3 milliseconds 1 6000 13500 A?sec Peak Gate Power Dissipation Pam 16 16 Watts Average Gate Power Dissipation Pa(av) 3 3 Watts Storage Temperature Tstg -40 to +150 -40 to +150 C Operating Temperature Tj -40 to +125 -40 to +125 C Mounting Torque (Lubricated) 130 130 in-lbPOWEREX Powerex, inc., 200 Hillis Street, Younqwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 T500 Phase Control SCR 40-80 Amperes (63-125 RMS), 1600 Volts Electrical and Thermal Characteristics Characteristics Symbol Test Conditions T500_ 40 T500__80 Units Current - Conducting State Maximums Forward Voltage Drop VIM Tj = 25C, ly = 500A 3.7 2.2 Volts Voltage - Blocking State Maximums Rep. Peak Forward Blocking Voltage (Rated Limit) Vopr 1600 1600 Volts - Repetitive Peak Reverse Voltage (Rated Limit) VRRAM 1600 1600 Volts Non-Rep. Trans. Peak Rev. Voltage (Rated Limit) Vas tos 5.0 msec 1800 1800 Volts Forward Leakage Current lpoRM Tj = 125C, Vpro = Rated 10 10 mA Reverse Leakage Current IRRM Tj = 125C, Varo = Rated 10 10 mA Switching Typical Turn-off Time tg IT = 50A, dip/dt = 5 A/usec, 100 100 psec reapplied dv/dt = 20V/usec linear to 0.8 Vorm: Tj = 125C Typical Turn-on Time ton ly = 100A, Vp = 100V 4 4 psec Minimum Critical dv/dt Exponential to Vor dv/dt T, = 125C 300 300 V/usec Thermal Maximum Resistance, Junction to Case Rejj-c) 0.28 0.28 C/Waitt Maximum Resistance, Case to Sink (Lubricated) Reye-s) 0.12 0.12 C Watt Gate - Maximum Parameters Gate Current to Trigger let Tj = 25C, Vp = 12V (See Ordering Information) mA Gate Voltage to Trigger VGT Tj = 25C, Vp = 12V 3 3 Volts Non-Triggering Gate Voltage VGDM Tj = 125C, Vornm = Rated 0.15 0.15 Volts Peak Forward Gate Current IGTM 4 4 Amperes Peak Reverse Gate Voltage VGRM 5 5 Volts P-31Ya Powerex, inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 T500 Phase Control SCR 40-80 Amperes (63-125 RMS), 1600 Volts Maximum Case Temperature VS. Forward Current _Maximum Power Dissipation VS. Forward Current dP teppab bey + 7 130 [TITTTT ETT TIPET ISTP oo pay cverpesrrere 100 PEEL PERE on. Case Temperature, C Maximum Power Dissipation, Watts xy ps 1o 2 : 30 os an <0 Average Forward Current, Amperes Average Forward Current, Amperes Maximum Case Temperature VS. Forward Current Maximum Power Dissipation VS. Forward Current 180 ~ Case Temperature, C Maximum Power Dissipation, Watts Average Forward Current, Amperes Average Forward Current, Amperes P-32POWEREX Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 T500 Phase Control SCR 40-80 Amperes (63-125 RMS), 1600 Volts Meximum Cease Temperature VS. Forward Current 130 oo + 444 110 nde dee weep Case Temperature, C - aa pt 4 pte +4 pte 4 * sf. t t ft UEs. b 20 40 60 Average Forward Current, Amperes Maximum Case Temperature VS. Forward Current 128 tbe is ttt MNS He ? 108 Cose T 0 20 0 00 80 Average Forwerd Current, Amperes 100 120 arts ceebne nt yrs igi begrbeede 34 140 160 Maximum Power Dissipation VS. Forward Currem 1 rs S Maximum Power Dissipation, Watts. 0 20 40 60 a Average Forward Current, Amperes Maximum Power Dissipation Vs. Forward Current 300 8 8 8 Maximum Power Dissipation, Watts 3 o 0 20 40 6 80 120 140, 100 Average Forward Current, Amperes P-33POWEREX Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 T500 Phase Control SCR 40-80 Amperes (63-125 RMS), 1600 Volts Maximum Forward Voltage VS. Forward Current 7 : / , ! 30 - Sarr oer 6 25 8 Maximum Forward Voltage Drop, Ving. Volts Thermal tmpedance Junction to Case, Ze je G Watt wee 0001 001 01 4 1 10 100 Time.,, Seconds foe bah op gael fb Pe cho 1 2 B 10 26 60 100 200 500 1K 2K 5K 10K Forward Current.I7m.Peak Amperes : P-34