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HiPerFASTTM IGBT LightspeedTM Series
IXGH 32N60C IXGT 32N60C
VCES IC25 VCE(sat)typ tfi typ
= 600 V = 60 A = 2.1 V = 55 ns
Symbol VCES VCGR VGES VGEM IC25 IC110 ICM SSOA (RBSOA) PC TJ TJM Tstg
Test Conditions TJ = 25C to 150C TJ = 25C to 150C; RGE = 1 MW Continuous Transient TC = 25C TC = 110C TC = 25C, 1 ms VGE = 15 V, TVJ = 125C, RG = 10 W Clamped inductive load, L = 100 mH TC = 25C
Maximum Ratings 600 600 20 30 60 32 120 ICM = 64 @ 0.8 VCES 200 -55 ... +150 150 -55 ... +150 300 V V V V A A A A
TO-268 (IXGT)
G E C (TAB)
TO-247 AD (IXGH)
C (TAB) G C E C = Collector, TAB = Collector
W C C C C
G = Gate, E = Emitter,
Features * International standard packages JEDEC TO-247 and surface mountable TO-268 * High current handling capability * Latest generation HDMOSTM process * MOS Gate turn-on - drive simplicity Applications
Maximum lead temperature for soldering 1.6 mm (0.062 in.) from case for 10 s Md Weight Mounting torque (M3)
1.13/10 Nm/lb.in. TO-247 AD TO-268 6 4 g g
Symbol
Test Conditions
Characteristic Values (TJ = 25C, unless otherwise specified) min. typ. max. 600 2.5 TJ = 25C TJ = 150C 5 200 1 100 2.1 2.5 V V mA mA nA V
BVCES VGE(th) ICES IGES VCE(sat)
IC IC
= 250 mA, VGE = 0 V = 250 mA, VCE = VGE
* PFC circuits * Uninterruptible power supplies (UPS) * Switched-mode and resonant-mode power supplies * AC motor speed control * DC servo and robot drives * DC choppers
VCE = 0.8 * VCES VGE = 0 V VCE = 0 V, VGE = 20 V IC = IC110, VGE = 15 V
Advantages * High power density * Very fast switching speeds for high frequency applications
IXYS reserves the right to change limits, test conditions, and dimensions.
97538B (7/00)
(c) 2000 IXYS All rights reserved
1-4
IXGH 32N60C IXGT 32N60C
Symbol Test Conditions Characteristic Values (TJ = 25C, unless otherwise specified) min. typ. max. 25 2700 VCE = 25 V, VGE = 0 V, f = 1 MHz 190 50 110 IC = IC110, VGE = 15 V, VCE = 0.5 VCES 22 40 Inductive load, TJ = 25C IC = IC110, VGE = 15 V, L = 100 mH, VCE = 0.8 VCES, RG = Roff = 4.7 W Remarks: Switching times may increase for VCE (Clamp) > 0.8 * VCES, higher TJ or increased RG Inductive load, TJ = 150C IC = IC110, VGE = 15 V, L = 100 mH VCE = 0.8 VCES, RG = Roff = 4.7 W Remarks: Switching times may increase for VCE (Clamp) > 0.8 * VCES, higher TJ or increased RG 25 20 85 55 0.32 25 25 0.30 110 105 0.85 170 160 1.25 S pF pF pF nC nC nC ns ns ns ns mJ ns ns mJ ns ns mJ
Dim. Millimeter Min. Max. A B C D E F G H J K L M N 19.81 20.32 20.80 21.46 15.75 16.26 3.55 3.65 4.32 5.49 5.4 6.2 1.65 2.13 4.5 1.0 1.4 10.8 11.0 4.7 0.4 5.3 0.8 Inches Min. Max. 0.780 0.800 0.819 0.845 0.610 0.640 0.140 0.144 0.170 0.216 0.212 0.244 0.065 0.084 0.177 0.040 0.055 0.426 0.433 0.185 0.209 0.016 0.031 0.087 0.102
TO-247 AD (IXGH) Outline
gfs C ies Coes C res Qg Qge Qgc td(on) t ri td(off) tfi Eoff td(on) t ri Eon td(off) tfi Eoff RthJC RthCK
IC = IC110; VCE = 10 V, Pulse test, t 300 ms, duty cycle 2 %
1.5 2.49
0.62 K/W (IXGH32N60C) 0.25 K/W
TO-268AA (D3 PAK)
Dim. A A1 A2 b b2 C D E E1 e H L L1 L2 L3 L4
Millimeter Min. Max. 4.9 5.1 2.7 2.9 .02 .25 1.15 1.45 1.9 2.1 .4 .65 13.80 14.00 15.85 16.05 13.3 13.6 5.45 BSC 18.70 19.10 2.40 2.70 1.20 1.40 1.00 1.15 0.25 BSC 3.80 4.10
Inches Min. Max. .193 .201 .106 .114 .001 .010 .045 .057 .75 .83 .016 .026 .543 .551 .624 .632 .524 .535 .215 BSC .736 .752 .094 .106 .047 .055 .039 .045 .010 BSC .150 .161
Min. Recommended Footprint
(c) 2000 IXYS All rights reserved
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 4,850,072 4,931,844 5,034,796 5,063,307 5,237,481 5,381,025
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IXGH 32N60C IXGT 32N60C
100
TJ = 25C
200
VGE = 15V 13V 11V
9V TJ = 25C
VGE = 15V
80
160
13V
11V
IC - Amperes
IC - Amperes
60 40 20
5V
120
9V
80 40 0
7V 5V
7V
0 0 1 2 3 4 5
0
2
4
6
8
10
VCE - Volts
VCE - Volts
Fig. 1. Output Characteristics
100
TJ = 125C VGE = 15V 11V 9V
Fig. 2. Extended Output Characteristics
1.50
13V VGE = 15V IC = 64A
VCE (sat) - Normalized
80
1.25
IC = 32A
IC - Amperes
60 40 20
5V 7V
1.00
IC = 16A
0.75
0 0 1 2 3 4 5
0.50
25
50
75
100
125
150
VCE - Volts
TJ - Degrees C
Fig. 3. High Temperature Output Characteristics
Fig. 4. Temperature Dependence of VCE(sat)
100
VCE = 10V
10000
Ciss f = 1Mhz
80 Capacitance - pF
IC - Amperes
1000
Coss
60 40
TJ = 125C
100
Crss
20
TJ = 25C
0 3 4 5 6 7 8 9 10
10 0 5 10 15 20 25 30 35 40
VGE - Volts
VCE-Volts
Fig. 5. Admittance Curves
Fig. 6. Capacitance Curves
(c) 2000 IXYS All rights reserved
3-4
IXGH 32N60C IXGT 32N60C
1.00
TJ = 125C
4
E(OFF) RG = 10
4
TJ = 125C
8
E(ON) - millijoules
E(ON) - millijoules
0.75
E(ON)
3
3
E(ON)
IC = 64A E(OFF)
E(OFF) - milliJoules
6
E(OFF) - millijoules
0.50
2
2
E(ON) E(OFF)
4
0.25
1
1
E(ON)
IC = 32A IC = 16A
2
E(OFF)
0.00
0
0 20 40 60 80
0
0
0
10
20
30
40
50
60
IC - Amperes
RG - Ohms
Fig. 7. Dependence of EON and EOFF on IC.
Fig. 8. Dependence of EON and EOFF on RG.
16
IC = 32A VCE = 300V
100
64
12
IC - Amperes
VGE - Volts
10
TJ = 125C
RG = 4.7 dV/dt < 5V/ns
8
1
4
0 0 25 50 75 100 125
0.1 0 100 200 300 400 500 600
Qg - nanocoulombs
VCE - Volts
Fig. 9. Gate Charge
Fig. 10. Turn-off Safe Operating Area
1
D=0.5 D=0.2
ZthJC (K/W)
0.1 D=0.1
D=0.05 D=0.02 D=0.01 Single pulse
0.01
D = Duty Cycle
0.001
0.00001
0.0001
0.001
0.01
0.1
1
Pulse Width - Seconds
Fig. 11. Transient Thermal Resistance
(c) 2000 IXYS All rights reserved
4-4

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