CM520813

CM520813 Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272 SCR/Diode POW-R-BLOK™ Modules 130 Amperes/800 Volts L - DIA. (2 TYP.) A J A1K2 (4 TYP.) K1 A1K2 P - M8 THD (4 TYP.) A2 C K1 G1 H F B E F B .110 TAB M K D G N E Description: Powerex SCR/Diode POW-R-BLOK™ Modules are designed for use in applications requiring Half-Control and isolated packaging. The modules are isolated for easy mounting with other components on common heatsinks. Features: A1K2 K1 A2 A1K2 K1 G1 *AIK2-AIK2 Connection made by external shorting bar. CM520813 SCR/Diode POW-R-BLOK™ Modules 130 Amperes/800 Volts Isolated Mounting Glass Passivated Chips Metal Baseplate Low Thermal Impedance Outline Drawing Dimension A B C D E F G H J K L M N P Inches 5.906 2.697±0.02 1.575 1.535 1.260 1.181 0.906 0.787 0.630 0.276 Millimeters 150.0 68.5±0.2 40.0 39.0 32.0 30.0 23.0 20.0 16.0 7.0 Applications: Battery Supplies Bridge Circuits AC and DC Motor Control Tap Changers Lighting Control Ordering Information: Select the complete eight digit module part number you desire from the table below. Example: CM420813 is a 800 Volt, 130 Ampere SCR/Diode POW-R-BLOK™ Module. Type CM52 Voltage Volts (x100) 08 Current Rating Amperes (x10) 13 0.256±0.008 Dia. Dia. 6.5±0.2 0.236 0.197 M8 Metric 6.0 5.0 M8 SD-25 Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272 CM520813 SCR/Diode POW-R-BLOK™ Modules 130 Amperes/800 Volts Absolute Maximum Ratings Characteristics Peak Forward Blocking Voltage Transient Peak Forward Blocking Voltage (Non-Repetitive), t < 5ms DC Forward Blocking Voltage Peak Reverse Blocking Voltage Transient Peak Reverse Blocking Voltage (Non-Repetitive), t < 5ms DC Reverse Blocking Voltage RMS On-State Current Average On-State Current, TC = 85°C Peak One-Cycle Surge (Non-Repetitive) On-State Current (60Hz) Peak One-Cycle Surge (Non-Repetitive) On-State Current (50Hz) I2t (for Fusing), 8.3 milliseconds Critical Rate-of-Rise of On-State Current* Amperes/ s Peak Gate Power Dissipation Average Gate Power Dissipation Peak Forward Gate Voltage Peak Reverse Gate Voltage Peak Forward Gate Current Storage Temperature Operating Temperature Maximum Mounting Torque M6 Mounting Screw Maximum Mounting Torque M5 Terminal Screw Module Weight (Typical) V Isolation *Tj = 125°C, IG = 0.5A, VD = 1/2 VDRM Symbol VDRM VDSM VD(DC) VRRM VRSM VR(DC) IT(RMS), IF(RMS) IT(AV), IF(AV) ITSM, IFSM ITSM, IFSM I2t di/dt CM520813 800 960 640 800 960 640 205 130 2600 2365 28000 100 Units Volts Volts Volts Volts Volts Volts Amperes Amperes Amperes Amperes A2sec PGM PG(AV) VGFM VGRM IGFM TSTG Tj — — — VRMS 10.0 3.0 10 5.0 4.0 -40 to 125 -40 to 125 26 72 300 2000 Watts Watts Volts Volts Amperes °C °C in.-lb. in.-lb. Grams Volts Electrical and Thermal Characteristics, Tj = 25°C unless otherwise specified Characteristics Blocking State Maximums Forward Leakage Current, Peak Reverse Leakage Current, Peak Conducting State Maximums Peak On-State Voltage Switching Minimums Critical Rate-of-Rise of Off-State Voltage Thermal Maximums Thermal Resistance, Junction-to-Case Thermal Resistance, Case-to-Sink (Lubricated) Gate Parameters Maximums Gate Current-to-Trigger Gate Voltage-to-Trigger Symbol IDRM IRRM VFM, VTM dv/dt R (J-C) R (C-S) IGT VGT Test Conditions Tj = 125°C, VDRM = Rated Tj = 125°C, VRRM = Rated IFM = 390A, ITM = 390A Tj = 125°C, VD = 2/3 VDRM Per Module Per Module VD = 6V, RL = 2Ω VD = 6V, RL = 2Ω CM520813 30 30 1.3 500 0.22 0.05 100 3.0 Units mA mA Volts Volts/ s °C/Watt °C/Watt mA Volts SD-26 Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272 CM520813 SCR/Diode POW-R-BLOK™ Modules 130 Amperes/800 Volts MAXIMUM ON-STATE CHARACTERISTICS INSTANTANEOUS ON-STATE VOLTAGE, VTM, (VOLTS) MAXIMUM ALLOWABLE PEAK SURGE (NON-REPETITIVE) CURRENT MAXIMUM ALLOWABLE CASE TEMPERATURE, TC, (oC) MAXIMUM ALLOWABLE CASE TEMPERATURE (SINUSOIDAL WAVEFORM) 2.4 MAXIMUM PEAK SURGE (NON-REPETITIVE) CURRENT, ITSM, (AMPERES) 3200 Tj = 125oC 130 120 110 100 90 80 70 = 30o 60o 90o 120o 180o 360o RESISTIVE, INDUCTIVE LOAD PER SINGLE ELEMENT 2800 2400 2000 1600 1200 800 400 0 100 101 CYCLES AT 60 HZ 2.0 1.6 1.2 0.8 60 50 0 20 40 60 80 100 120 140 160 AVERAGE ON-STATE CURRENT, IT(AV), (AMPERES) 0.4 101 102 103 104 102 INSTANTANEOUS ON-STATE CURRENT, ITM, (AMPERES) MAXIMUM ON-STATE POWER DISSIPATION (SINUSOIDAL WAVEFORM) MAXIMUM POWER DISSIPATION, PAV(MAX), (WATTS) MAXIMUM ALLOWABLE CASE TEMPERATURE (RECTANGULAR WAVEFORM) MAXIMUM ALLOWABLE CASE TEMPERATURE, TC, (oC) MAXIMUM POWER DISSIPATION, PAV(MAX), (WATTS) MAXIMUM AVERAGE ON-STATE POWER DISSIPATION (RECTANGULAR WAVEFORM) 160 140 120 100 80 60 40 20 0 0 20 40 60 80 100 120 140 160 AVERAGE ON-STATE CURRENT, IT(AV), (AMPERES) 360o RESISTIVE, INDUCTIVE LOAD PER SINGLE ELEMENT 130 120 360o 200 180 160 140 120 100 80 60 40 20 0 0 40 80 120 = 30o 60o 120o 90o 180o 90o 120o 180o 270o DC 60o 110 100 90 80 70 = 30o 90o 60o RESISTIVE, INDUCTIVE LOAD PER SINGLE ELEMENT = 30o 120o 180o 270o DC 360o RESISTIVE, INDUCTIVE LOAD PER SINGLE ELEMENT 60 50 0 40 80 120 160 200 AVERAGE ON-STATE CURRENT, IT(AV), (AMPERES) 160 200 AVERAGE ON-STATE CURRENT, IT(AV), (AMPERES) TRANSIENT THERMAL IMPEDANCE, Z (J-C)(t), (oC/WATT) TRANSIENT THERMAL IMPEDANCE CHARACTERISTICS (JUNCTION-TO-CASE) 100 101 TRIGGERING CHARACTERISTICS MAXIMUM ALLOWABLE CASE TEMPERATURE, TC, (oC) MAXIMUM ALLOWABLE CASE TEMPERATURE (REVERSE PARALLEL CONNECTION) 0.250 0.225 0.200 0.175 0.150 0.125 0.100 0.075 0.050 0.025 0 10-3 10-2 10-1 100 INSTANTANEOUS GATE VOLTAGE, VG, (VOLTS) 102 130 120 110 100 90 80 70 60 50 0 360o 101 VGFM = 10V PGM = 10W VGT = 3.0V Tj = 25oC PG(AV) = 3.0W NOTE: THE CURVES INDICATE THE RELATIONSHIP BETWEEN THE CASE TEMPERATURE AND THE RMS ON-STATE CURRENT FOR EACH MODULE. = 30o 60o 90o 120o 180o 100 IGT = 100mA VGDM = 0.25V IGFM = 4.0A 10-1 101 RESISTIVE, INDUCTIVE LOAD 102 103 104 40 80 120 160 200 240 280 320 RMS ON-STATE CURRENT, I(RMS), (AMPERES) TIME, t, (SECONDS) INSTANTANEOUS GATE CURRENT, IG, (mA) SD-27 Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272 CM520813 SCR/Diode POW-R-BLOK™ Modules 130 Amperes/800 Volts MAXIMUM ON-STATE POWER DISSIPATION (REVERSE PARALLEL CONNECTION) MAXIMUM ALLOWABLE CASE TEMPERATURE, TC, (oC) MAXIMUM POWER DISSIPATION, PAV(MAX), (WATTS) MAXIMUM ALLOWABLE CASE TEMPERATURE (SINGLE PHASE BRIDGE CONNECTION) MAXIMUM POWER DISSIPATION, PAV(MAX), (WATTS) MAXIMUM ON-STATE POWER DISSIPATION (SINGLE PHASE BRIDGE CONNECTION) 400 350 300 250 200 150 100 50 0 0 40 80 120 160 200 240 280 320 RMS ON-STATE CURRENT, I(RMS), (AMPERES) 360o RESISTIVE, INDUCTIVE LOAD 130 120 110 100 90 80 70 60 50 0 40 80 120 160 200 240 280 320 DC OUTPUT CURRENT, IC, (AMPERES) 360o RESISTIVE, INDUCTIVE LOAD 400 360 320 280 240 200 160 120 80 40 0 0 40 80 120 160 200 240 280 320 DC OUTPUT CURRENT, IO, (AMPERES) 360o RESISTIVE, INDUCTIVE LOAD 180o 120o 90o 60o = 30o 180o 120o 90o 60o = 30o = 30o 60o 90o 120o 180o NOTE: THE CURVES INDICATE THE RELATIONSHIP BETWEEN THE AVERAGE ON-STATE POWER DISSIPATION PER MODULE AND THE RMS ON-STATE CURRENT. NOTE: THE CURVES INDICATE THE RELATIONSHIP BETWEEN THE CASE TEMPERATURE AND THE DC OUTPUT CURRENT (FOR TWO ELEMENTS) WHEN USED IN THE SINGLE PHASE BRIDGE CONFIGURATION. NOTE: THE CURVES INDICATE THE RELATIONSHIP BETWEEN THE AVERAGE ON-STATE POWER DISSIPATION AND THE DC OUTPUT CURRENT FOR THE SINGLE PHASE BRIDGE CONFIGURATION (POWER DISSIPATION EXPRESSED FOR EACH MODULE AND DC OUTPUT CURRENT EXPRESSED FOR THE PAIR) MAXIMUM ALLOWABLE CASE TEMPERATURE (THREE PHASE BRIDGE CONNECTION) MAXIMUM ALLOWABLE CASE TEMPERATURE, TC, (oC) MAXIMUM POWER DISSIPATION, PAV(MAX), (WATTS) MAXIMUM ON-STATE POWER DISSIPATION (THREE PHASE BRIDGE CONNECTION) 130 120 360o 400 360 320 280 240 200 160 120 80 40 0 0 80 160 240 320 400 DC OUTPUT CURRENT, IO, (AMPERES) 360o RESISTIVE, INDUCTIVE LOAD PER SINGLE ELEMENT 110 100 90 80 70 60 50 0 80 160 = 30o 60o 120o 90o 60o = 30o RESISTIVE, INDUCTIVE LOAD 90o 120o 240 320 400 DC OUTPUT CURRENT, IO, (AMPERES) NOTE: THE CURVES INDICATE THE RELATIONSHIP BETWEEN THE CASE TEMPERATURE AND THE DC OUTPUT CURRENT (FOR THREE MODULES) IN THE THREE PHASE CONFIGURATION. NOTE: THE CURVES INDICATE THE RELATIONSHIP BETWEEN THE ON-STATE POWER DISSIPATION (PER MODULE) AND THE DC OUTPUT CURRENT (FOR THREE MODULES) IN THE THREE PHASE BRIDGE CONFIGURATION. SD-28