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APT100GT120JR 1200V, 100A, VCE(ON) = 3.2V Typical Thunderbolt IGBT(R) The Thunderbolt IGBT(R) is a new generation of high voltage power IGBTs. Using NonPunch-Through Technology, the Thunderbolt IGBT(R) offers superior ruggedness and ultrafast switching speed. E G C E Features * Low Forward Voltage Drop * Low Tail Current * Integrated Gate Resistor Low EMI, High Reliability * RoHS Compliant * RBSOA and SCSOA Rated * High Frequency Switching to 50KHz * Ultra Low Leakage Current S ISOTOP (R) OT 22 7 "UL Recognized" file # E145592 Unless stated otherwise, Microsemi discrete IGBTs contain a single IGBT die. This device is made with two parallel IGBT die. It is intended for switch-mode operation. It is not suitable for linear mode operation. Maximum Ratings Symbol Parameter VCES VGE IC1 IC2 ICM SSOA PD TJ, TSTG TL Collector-Emitter Voltage Gate-Emitter Voltage Continuous Collector Current @ TC = 25C Continuous Collector Current @ TC = 100C Pulsed Collector Current 1 All Ratings: TC = 25C unless otherwise specified. Ratings 1200 20 123 67 200 200A @ 1200V 570 -55 to 150 300 Watts C Amps Unit Volts Switching Safe Operating Area @ TJ = 150C Total Power Dissipation Operating and Storage Junction Temperature Range Max. Lead Temp. for Soldering: 0.063" from Case for 10 Sec. Static Electrical Characteristics Symbol Characteristic / Test Conditions V(BR)CES VGE(TH) VCE(ON) ICES IGES RG(int) Collector-Emitter Breakdown Voltage (VGE = 0V, IC = 5mA) Gate Threshold Voltage (VCE = VGE, IC = 4mA, Tj = 25C) Collector Emitter On Voltage (VGE = 15V, IC = 100A, Tj = 25C) Collector Emitter On Voltage (VGE = 15V, IC = 100A, Tj = 125C) Collector Cut-off Current (VCE = 1200V, VGE = 0V, Tj = 25C) 2 Collector Cut-off Current (VCE = 1200V, VGE = 0V, Tj = 125C) Gate-Emitter Leakage Current (VGE = 20V) Integrated Gate Resistor 2 Min 1200 4.5 2.7 - Typ 5.5 3.2 4.0 5 Max 6.5 3.7 100 TBD 600 - Unit Volts A nA 052-6288 Rev A 10-2007 CAUTION: These Devices are Sensitive to Electrostatic Discharge. Proper Handling Procedures Should Be Followed. Microsemi Website - http://www.microsemi.com Dynamic Characteristics Symbol Cies Coes Cres VGEP Qg Qge Qgc SSOA td(on) tr td(off) tf Eon1 Eon2 Eoff td(on) tr td(off) tf Eon1 Eon2 Eoff Characteristic Input Capacitance Output Capacitance Reverse Transfer Capacitance Gate-to-Emitter Plateau Voltage Total Gate Charge Gate-Emitter Charge Gate-Collector Charge Switching Safe Operating Area Turn-On Delay Time Current Rise Time Turn-Off Delay Time Current Fall Time Turn-On Switching Energy Turn-On Switching Energy 4 5 APT100GT120JR Test Conditions VGE = 0V, VCE = 25V f = 1MHz Gate Charge VGE = 15V VCE= 600V IC = 100A TJ = 150C, RG = 1.0 , VGE = 15V, L = 100H, VCE= 1200V Inductive Switching (25C) VCC = 800V VGE = 15V IC = 100A RG = 4.7 TJ = +25C 7 Min 150 - Typ 6700 6530 4380 10 685 75 400 Max - Unit pF V nC A 50 100 630 36 TBD 17600 7240 50 100 710 37 TBD 22380 10950 J ns J ns Turn-Off Switching Energy 6 Turn-On Delay Time Current Rise Time Turn-Off Delay Time Current Fall Time Turn-On Switching Energy Turn-On Switching Energy Turn-Off Switching Energy 4 5 6 Inductive Switching (125C) VCC = 800V VGE = 15V IC = 100A RG = 4.7 TJ = 125C - Thermal and Mechanical Characteristics Symbol Characteristic / Test Conditions R JC Min 2500 Typ 29.2 - Max 0.22 - Unit C/W gm Volts Junction to Case Package Weight RMS Voltage (50-60Hz Sinusoidal Waveform from Terminals to Mounting Base for 1 Min.) WT VIsolation 1 Repetitive Rating: Pulse width limited by maximum junction temperature. 2 For Combi devices, Ices includes both IGBT and FRED leakages 3 See MIL-STD-750 Method 3471. 4 Eon1 is the clamped inductive turn-on energy of the IGBT only, without the effect of a commutating diode reverse recovery current adding to the IGBT turn-on loss. Tested in inductive switching test circuit shown in figure 21, but with a Silicon Carbide diode. 5 Eon2 is the clamped inductive turn-on energy that includes a commutating diode reverse recovery current in the IGBT turn-on switching loss. (See Figures 21, 22.) 6 Eoff is the clamped inductive turn-off energy measured in accordance with JEDEC standard JESD24-1. (See Figures 21, 23.) 7 RG is external gate resistance not including gate driver impedance. Microsemi reserves the right to change, without notice, the specifications and information contained herein. 052-6288 Rev A 10-2007 Typical Performance Curves 150 125 TJ= 25C 100 TJ= 125C 75 50 25 0 TJ= 150C V GE APT100GT120JR 250 15V 13V 12V IC, COLLECTOR CURRENT (A) 200 11V 150 10V 100 9V 50 8V 7V = 15V IC, COLLECTOR CURRENT (A) 0 1 2 3 4 5 6 7 8 VCE, COLLECTOR-TO-EMITTER VOLTAGE (V) FIGURE 1, Output Characteristics (TJ = 25C) VGE, GATE-TO-EMITTER VOLTAGE (V) 250s PULSE TEST<0.5 % DUTY CYCLE 0 150 125 100 75 50 25 0 16 14 12 10 0 5 10 15 20 25 30 VCE, COLLECTOR-TO-EMITTER VOLTAGE (V) FIGURE 2, Output Characteristics (TJ = 25C) I = 100A C T = 25C J VCE = 240V VCE = 600V IC, COLLECTOR CURRENT (A) 8 6 4 2 0 0 100 VCE = 960V TJ= -55C TJ= 25C TJ= 125C 0 10 12 14 2 4 6 8 VGE, GATE-TO-EMITTER VOLTAGE (V) FIGURE 3, Transfer Characteristics TJ = 25C. 250s PULSE TEST <0.5 % DUTY CYCLE 200 300 400 500 600 GATE CHARGE (nC) FIGURE 4, Gate charge 700 VCE, COLLECTOR-TO-EMITTER VOLTAGE (V) VCE, COLLECTOR-TO-EMITTER VOLTAGE (V) 8 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 VGE = 15V. 250s PULSE TEST <0.5 % DUTY CYCLE IC = 200A IC = 100A IC = 50A IC = 200A IC = 100A IC = 50A 9 10 11 12 13 14 15 16 VGE, GATE-TO-EMITTER VOLTAGE (V) FIGURE 5, On State Voltage vs Gate-to-Emitter Voltage 1.10 VGS(TH), THRESHOLD VOLTAGE (NORMALIZED) 1.05 1.00 0.95 0.90 0.85 0.80 0.75 -.50 -.25 IC, DC COLLECTOR CURRENT (A) 8 25 50 75 100 125 150 TJ, Junction Temperature (C) FIGURE 6, On State Voltage vs Junction Temperature 120 100 80 60 40 20 0 50 75 100 125 150 TC, Case Temperature (C) FIGURE 8, DC Collector Current vs Case Temperature 25 0 0 25 50 75 100 125 150 TJ, JUNCTION TEMPERATURE FIGURE 7, Threshold Voltage vs Junction Temperature 052-6288 Rev A 10-2007 Typical Performance Curves 80 td(OFF), TURN-OFF DELAY TIME (ns) td(ON), TURN-ON DELAY TIME (ns) 70 60 50 40 30 20 10 0 0 VCE = 800V TJ = 25C, or 125C RG = 4.7 L = 100H APT100GT120JR 900 800 700 600 500 400 300 200 100 0 VCE = 800V RG = 4.7 L = 100H VGE =15V,TJ=125C VGE =15V,TJ=25C VGE = 15V 40 80 120 160 200 ICE, COLLECTOR-TO-EMITTER CURRENT (A) FIGURE 9, Turn-On Delay Time vs Collector Current 350 300 250 tr, RISE TIME (ns) tr, FALL TIME (ns) 200 150 100 50 0 TJ = 25 or 125C,VGE = 15V RG = 4.7, L = 100H, VCE = 800V 0 40 80 120 160 200 ICE, COLLECTOR-TO-EMITTER CURRENT (A) FIGURE 10, Turn-Off Delay Time vs Collector Current 120 100 80 TJ = 25C, VGE = 15V RG = 4.7, L = 100H, VCE = 800V 60 40 TJ = 125C, VGE = 15V 20 0 0 40 80 120 160 200 ICE, COLLECTOR-TO-EMITTER CURRENT (A) FIGURE 11, Current Rise Time vs Collector Current 80000 EOFF, TURN OFF ENERGY LOSS (J) Eon2, TURN ON ENERGY LOSS (J) 70000 60000 50000 40000 30000 20000 10000 0 TJ = 25C TJ = 125C V = 800V CE V = +15V GE R = 4.7 G 0 40 80 120 160 200 ICE, COLLECTOR-TO-EMITTER CURRENT (A) FIGURE 12, Current Fall Time vs Collector Current 18000 16000 14000 12000 10000 8000 6000 4000 2000 0 40 80 120 160 200 ICE, COLLECTOR-TO-EMITTER CURRENT (A) FIGURE 14, Turn-Off Energy Loss vs Collector Current 80000 SWITCHING ENERGY LOSSES (J) V = 800V CE V = +15V GE R = 4.7 G V = 800V CE V = +15V GE R = 4.7 G TJ = 125C TJ = 25C 0 40 80 120 160 200 ICE, COLLECTOR-TO-EMITTER CURRENT (A) FIGURE 13, Turn-On Energy Loss vs Collector Current 160000 SWITCHING ENERGY LOSSES (J) 140000 120000 100000 80000 60000 40000 20000 0 0 Eoff,200A Eon2,100A V = 800V CE V = +15V GE T = 125C J 0 Eon2,200A Eon2,200A 70000 60000 50000 40000 30000 20000 10000 0 0 052-6288 Rev A 10-2007 Eoff,200A Eon2,100A Eoff,100A Eon2,50A Eoff,50A Eoff,100A Eon2,50A Eoff,50A 4 8 12 16 20 RG, GATE RESISTANCE (OHMS) FIGURE 15, Switching Energy Losses vs Gate Resistance 25 50 75 100 125 TJ, JUNCTION TEMPERATURE (C) FIGURE 16, Switching Energy Losses vs Junction Temperature Typical Performance Curves 10000 Cies IC, COLLECTOR CURRENT (A) C, CAPACITANCE (pF) 200 250 APT100GT120JR 1000 150 Coes 100 Cres 100 50 0 100 200 300 400 500 600 700 800 900 VCE, COLLECTOR-TO-EMITTER VOLTAGE (VOLTS) FIGURE 17, Capacitance vs Collector-To-Emitter Voltage 10 0 200 400 600 800 1000 1200 1400 VCE, COLLECTOR-TO-EMITTER VOLTAGE FIGURE 18, Minimum Switching Safe Operating Area 0 0.25 ZJC, THERMAL IMPEDANCE (C/W) D = 0.9 0. 2 0.15 0.7 0.5 0. 1 0.3 0.05 0.1 0 10-4 0.05 10-3 SINGLE PULSE Note: PDM t1 t2 Duty Factor D = 1/t2 Peak TJ = PDM x ZJC + TC t 10-2 10-1 0.1 1 RECTANGULAR PULSE DURATION (SECONDS) Figure 19a, Maximum Effective Transient Thermal Impedance, Junction-To-Case vs Pulse Duration 10 40 FMAX, OPERATING FREQUENCY (kHz) T = 125C J T = 75C C D = 50 % V = 800V CE R = 4.7 G 30 75C TJ (C) TC (C) F max = min (f max, f max2) 0.05 f max1 = t d(on) + tr + td(off) + tf f max2 = Pdiss - P cond E on2 + E off TJ - T C R JC 20 Dissipated Power (Watts) .034 .0618 17.42 ZEXT .045 .0135 .039 10 100C Pdiss = ZEXT are the external thermal impedances: Case to sink, sink to ambient, etc. Set to zero when modeling only the case to junction. FIGURE 19b, TRANSIENT THERMAL IMPEDANCE MODEL 20 30 40 50 60 70 80 90 100 IC, COLLECTOR CURRENT (A) Figure 20, Operating Frequency vs Collector Current 0 0 10 052-6288 Rev A 10-2007 APT100GT120JR 10% td(on) Gate Voltage a -46.0ns 780.4V b 422ns 34.13V 468ns 746.3V TJ = 125C APT100DQ120 tr V CC IC V CE Collector Current 90% 5% 10% 5% Collector Voltage Switching Energy A D.U.T. Figure 21, Inductive Switching Test Circuit 90% Figure 22, Turn-on Switching Waveforms and Definitions TJ = 125C Gate Voltage a -226ns 97.34V b 928ns 0.000V 1.15s 97.34V Collector Voltage 90% td(off) tf 10% 0 Collector Current Switching Energy Figure 23, Turn-off Switching Waveforms and Definitions 052-6288 Rev A 10-2007 Microsemi's products are covered by one or more of U.S. patents 4,895,810 5,045,903 5,089,434 5,182,234 5,019,522 5,262,336 6,503,786 5,256,583 4,748,103 5,283,202 5,231,474 5,434,095 5,528,058 6,939,743 and foreign patents. US and Foreign patents pending. All Rights Reserved. |
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