61
GAE150AA120
IGBT MODULE
SanRex IGBT Module GAE150AA120 is designed for high speed, high current
switching applications. This Module is electrically isolated and contains IGBT connected
with clamp diode in series with a fast switching, soft recovery diode (trr=0.1
s) reverse
connected across IGBT.
I
C
150A
V
CES
1200V
V
CES sat
3.0V Typ
t f
0.10 s Typ
Soft recovery diode
Applications
Brake for motor control (VVVF)
Unit
mm
Maximum Ratings
Unless otherwise Tj
25
Symbol
Item
V
CES
Collector-Emitter Voltage
Conditions
with gate terminal shorted to emitter
Ratings
GAE150AA120
Unit
V
1200
V
GES
Gate-Emitter Voltage
with collector shorted to emitter
V
20
Ic
Collector
Current
DC
Pulse
ms
A
150
I
CP
300
Ic
Reverse Collector Current
A
150
P
T
Total Power Dissipation
Tc
25
W
1100
Tj
Junction Temperature
150
Tstg
Storage Temperature
40
125
V
ISO
Isolation Voltage
R.M.S.
A.C.
minute
V
2500
Mounting
Torque
Mounting
6
Terminal
5
Recommended Value 2.5
3.9
25
40
N m
kgf cm
4.7
48
Recommended Value 1.5
2.5
15
25
2.7
28
Mass
Typical Value
g
225
Electrical Characteristics
Symbol
Item
I
GES
Gate Leakage Current
Conditions
V
GE
20V
V
CE
0V
Ratings
Min.
Typ.
Max.
Unit
nA
500
I
CES
Collector Cut-Off Current
V
CE
1200V
V
GE
0V
mA
1.0
0
V
BR CES
Collector-Emitter Breakdown Voltage
V
GE
0V
Ic
mA
V
1200
V
GE th
Gate Threshold Voltage
V
CE
10V
Ic
15mA
V
4.5
3.0
0
7.5
0
V
CE sat
Collector-Emitter Saturation Voltage
Ic
150A
V
GE
15V
V
17
.00
3.4
0
Cies
Input Capacitance
V
CE
10V
V
GE
0V
f
1MHz
nF
0.10
30
.00
tr
Switching
Time
Rise Time
Turn-on Delay Time
Fall Time
Turn-off Delay Time
Ic
150A
V
GE
15V/
5V
Vcc
600V
R
G
2.1
s
0.15
0.25
td on
0.10
0.35
tf
Emitter-Collector Voltage
0.25
0.35
td off
2.40
0.35
V
ECS
Ic
150A
V
GE
0V
V
0.15
3.50
trr
Reverse Recovery Time
Ic
150A
V
GE
10V
d i / dt
300A/ s
s
0.25
2.40
V
FM
Forward Voltage Drop
IF
150A, Clamp Diode
3.50
0.15
trr
Reverse Recovery Time
IF
150A d i F/ dt
300A/ s, Clamp Diode
0.25
Rth j-c
Thermal Impedance
Clamp Diode
0.30
Rth j-c
Thermal Resistance
IGBT-Case
/W
V
s
/W
0.11
Diode-Case
0.30
UL;E76102 M
