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| Advance Technical Data HiPerFAST TM IGBT with Diode IXGK 60N60C2D1 VCES IXGX 60N60C2D1 IC25 VCE(sat) C2-Class High Speed IGBTs tfi(typ) = 600 V = 75 A = 2.5 V = 35 ns Symbol V CES VCGR VGES VGEM IC25 IC110 ICM SSOA (RBSOA) PC TJ TJM Tstg Md Weight Test Conditions TJ = 25C to 150C TJ = 25C to 150C; RGE = 1 M Continuous Transient TC = 25C (limited by leads) TC = 110C TC = 25C, 1 ms VGE = 15 V, TVJ = 125C, RG = 10 Clamped inductive load @ VCE 600 V TC = 25C Maximum Ratings 600 600 20 30 75 60 300 ICM = 100 480 -55 ... +150 150 -55 ... +150 V V V V A A A A TO-264 AA (IXGK) (TAB) C E G PLUS247 (IXGX) (TAB) G = Gate E = Emitter C = Collector Tab = Collector W C C C Features * Very high frequency IGBT and anti-parallel FRED in one package * Square RBSOA * High current handling capability * MOS Gate turn-on for drive simplicity * Fast Recovery Epitaxial Diode (FRED) with soft recovery and low IRM Applications * Switch-mode and resonant-mode power supplies * Uninterruptible power supplies (UPS) * DC choppers * AC motor speed control * DC servo and robot drives Mounting torque, TO-264 TO-264 PLUS247 1.13/10 Nm/lb.in. 10 6 300 g g C Maximum lead temperature for soldering 1.6 mm (0.062 in.) from case for 10 s Symbol Test Conditions Characteristic Values (TJ = 25C, unless otherwise specified) Min. Typ. Max. 3.0 TJ = 25C TJ = 125C 5.0 650 5 100 TJ = 25C TJ = 125C 2.1 1.8 2.5 V A mA nA V V VGE(th) ICES IGES VCE(sat) IC = 250 A, VCE = VGE VCE = VCES VGE = 0 V VCE = 0 V, VGE = 20 V IC = 50 A, VGE = 15 V Note 1 Advantages * Space savings (two devices in one package) * Easy to mount with 1 screw (c) 2003 IXYS All rights reserved DS99044A(09/03) IXGK 60N60C2D1 IXGX 60N60C2D1 Symbol Test Conditions Characteristic Values (TJ = 25C, unless otherwise specified) Min. Typ. Max. 40 58 3900 280 97 146 28 50 18 Inductive load, TJ = 25C IC = 50 A, VGE = 15 V VCE = 400 V, RG = Roff = 2.0 25 95 150 35 0.48 18 25 0.9 130 80 1.2 0.15 S pF pF pF nC nC nC Dim. Millimeter Min. Max. 4.82 5.13 2.54 2.89 2.00 2.10 1.12 1.42 2.39 2.69 2.90 3.09 0.53 0.83 25.91 26.16 19.81 19.96 5.46 BSC 0.00 0.25 0.00 0.25 20.32 20.83 2.29 2.59 3.17 3.66 6.07 6.27 8.38 8.69 3.81 4.32 1.78 2.29 6.04 6.30 1.57 1.83 Min. Inches Max. TO-264 AA Outline gfs Cies Coes Cres Qg Qge Qgc td(on) tri td(off) tfi Eoff td(on) tri Eon td(off) tfi Eoff RthJC RthCK IC = 50 A; VCE = 10 V, Note 1 VCE = 25 V, VGE = 0 V, f = 1 MHz IC = 50 A, VGE = 15 V, VCE = 0.5 VCES ns ns ns ns 0.8 mJ ns ns mJ ns ns mJ 0.26 K/W K/W Inductive load, TJ = 125C IC = 50 A, VGE = 15 V VCE = 400 V, RG = Roff = 2.0 A A1 A2 b b1 b2 c D E e J K L L1 P Q Q1 R R1 S T .190 .202 .100 .114 .079 .083 .044 .056 .094 .106 .114 .122 .021 .033 1.020 1.030 .780 .786 .215 BSC .000 .010 .000 .010 .800 .820 .090 .102 .125 .144 .239 .247 .330 .342 .150 .170 .070 .090 .238 .248 .062 .072 PLUS247 Outline Reverse Diode (FRED) Symbol VF IRM t rr RthJC Test Conditions IF = 60 A, VGE = 0 V, Note 1 Characteristic Values (TJ = 25C, unless otherwise specified) min. typ. max. TJ = 150C 2.1 1.4 8.3 35 V A ns 0.85 K/W Terminals: 1 - Gate 2 - Drain (Collector) 3 - Source (Emitter) 4 - Drain (Collector) IF = 60 A, VGE = 0 V, -diF/dt = 100 A/ TJ = 100C VR = 100 V IF = 1 A; -di/dt = 200 A/ms; VR = 30 V Note 1: Pulse test, t 300 s, duty cycle 2 % Dim. A A1 A2 b b1 b2 C D E e L L1 Q R Millimeter Min. Max. 4.83 5.21 2.29 2.54 1.91 2.16 1.14 1.40 1.91 2.13 2.92 3.12 0.61 0.80 20.80 21.34 15.75 16.13 5.45 BSC 19.81 20.32 3.81 4.32 5.59 6.20 4.32 4.83 Inches Min. Max. .190 .205 .090 .100 .075 .085 .045 .055 .075 .084 .115 .123 .024 .031 .819 .840 .620 .635 .215 BSC .780 .800 .150 .170 .220 0.244 .170 .190 IXYS reserves the right to change limits, test conditions, and dimensions. IXYS MOSFETs and IGBTs are covered by one or more of the following U.S. patents: 4,835,592 4,881,106 5,017,508 5,049,961 5,187,117 5,486,715 6,306,728B1 6,259,123B1 6,306,728B1 4,850,072 4,931,844 5,034,796 5,063,307 5,237,481 5,381,025 6,404,065B1 6,162,665 6,534,343 IXGK 60N60C2D1 IXGX 60N60C2D1 Fig. 1. Output Characteristics @ 25 Deg. C 1 00 90 80 VG E = 15V 13V 11 V 9V 1 75 1 50 200 VG E = 15V 13V 11 V 9V Fig. 2. Extended Output Characteristics @ 25 deg. C I C - Amperes 70 60 50 40 30 20 1 0 0 0.5 1 1 .5 2 2.5 I C - Amperes 7V 1 25 1 00 75 50 7V 5V 25 0 5V 1 1 .5 2 2.5 3 3.5 4 4.5 3 3.5 V CE - Volts V CE - Volts Fig. 3. Output Characteristics @ 125 Deg. C 1 00 90 80 70 VGE = 15V 13V 11 V 9V 1 .1 1 .2 Fig. 4. Temperature Dependence of V CE(sat) VC E (sat) - Normalized VG E = 15V 1 0.9 0.8 0.7 I C = 100A I C - Amperes 7V 60 50 40 30 20 1 0 0 0.5 1 1 .5 2 2.5 3 3.5 I C = 50A 5V I C = 25A 0.6 0.5 25 50 75 1 00 1 25 1 50 V CE - Volts TJ - Degrees Centigrade Fig. 5. Collector-to-Emitter Voltage vs. Gate-to-Emitter voltage 5 4.5 4 T J = 25 C 200 1 75 1 50 Fig. 6. Input Admittance VCE - Volts 3.5 3 2.5 2 1 .5 1 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 I C - Amperes 1 25 1 00 75 50 25 0 3.5 4 4.5 5 5.5 6 6.5 7 7.5 8 8.5 T J = 125 C 25 C -40 C I C = 100A 50A 25A V GE - Volts (c) 2003 IXYS All rights reserved V GE - Volts IXGK 60N60C2D1 IXGX 60N60C2D1 Fig. 7. Transconductance 1 00 90 80 T J = -40 C 25 C 125 C Fig. 8. Dependence of Eoff on RG 6 5 TJ = 125 C VGE = 15V VCE = 400V I C = 100A E off - milliJoules g f s - Siemens 70 60 50 40 30 20 1 0 0 0 25 4 I C = 75A 3 2 1 0 I C = 50A I C = 25A 50 75 1 00 1 25 1 50 1 75 200 2 4 6 8 1 0 1 2 1 4 1 6 I C - Amperes R G - Ohms Fig. 9. Dependence of Eoff on IC 5 R G = 2 Ohms R G = 10 Ohms - - - - 4 5 Fig. 10. Dependence of Eoff on Temperature R G = 2 Ohms R G= 10 Ohms - - - - 4 I C = 100A E off - MilliJoules 3 T J = 125 C E off - milliJoules VG E = 15V VC E = 400V VG E = 15V VC E = 400V I C = 75A 3 2 T J = 25 C 1 2 I C = 50A 1 I C = 25A 25 50 75 1 00 1 25 0 20 30 40 50 60 70 80 90 1 00 0 I C - Amperes TJ - Degrees Centigrade Fig. 11. Gate Charge 1 5 VC E = 300V I C = 50A I G = 10mA 1 0000 Fig. 12. Capacitance f = 1M Hz C ies 1 000 C oes 1 00 C res 1 2 VG E - Volts 9 6 3 0 0 20 40 60 80 1 00 1 20 1 40 1 60 Capacitance - pF 1 0 0 5 1 0 1 5 20 25 30 35 40 Q G - nanoCoulombs IXYS reserves the right to change limits, test conditions, and dimensions. IXYS MOSFETs and IGBTs are covered by one or more of the following U.S. patents: V CE - Volts 4,835,592 4,881,106 5,017,508 5,049,961 5,187,117 5,486,715 6,306,728B1 6,259,123B1 6,306,728B1 4,850,072 4,931,844 5,034,796 5,063,307 5,237,481 5,381,025 6,404,065B1 6,162,665 6,534,343 IXGK 60N60C2D1 IXGX 60N60C2D1 160 A 140 IF 120 100 80 60 40 20 0 0 1 VF 2 V 0 100 A/s 1000 -diF/dt 0 0 200 400 600 A/s 1000 800 -diF/dt 4000 nC TVJ= 100C VR = 300V 80 A TVJ= 100C VR = 300V TVJ= 25C TVJ=100C 3000 Qr 2000 IF=120A IF= 60A IF= 30A 60 IRM 40 TVJ=150C 1000 20 IF=120A IF= 60A IF= 30A Fig. 12 Forward current IF versus VF Fig. 13 Reverse recovery charge Qr versus -diF/dt 140 ns 130 Fig. 14 Peak reverse current IRM versus -diF/dt 20 V VFR 15 1.6 s tfr 2.0 TVJ= 100C VR = 300V 1.5 Kf 1.0 trr 120 110 IRM 100 0.5 IF=120A IF= 60A IF= 30A tfr 10 VFR 1.2 0.8 Qr 5 90 80 0 0.4 0.0 TVJ= 100C IF = 60A 0 200 400 0 40 80 120 C 160 TVJ 0 200 400 600 -diF/dt 800 A/s 1000 0.0 600 A/s 1000 800 diF/dt Fig. 15 Dynamic parameters Qr, IRM versus TVJ 1 K/W 0.1 ZthJC 0.01 Fig. 16 Recovery time trr versus -diF/dt Fig. 17 Peak forward voltage VFR and tfr versus diF/dt Constants for ZthJC calculation: i 1 2 3 4 Rthi (K/W) 0.3073 0.3533 0.0887 0.1008 ti (s) 0.0055 0.0092 0.0007 0.0399 0.001 0.0001 0.00001 DSEP 2x61-06A 0.0001 0.001 0.01 0.1 s t 1 Fig. 18 Transient thermal resistance junction to case (c) 2003 IXYS All rights reserved |
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