SEMiX101GD12E4s
SEMiX® 13
Trench IGBT Modules
SEMiX101GD12E4s
Features
• Homogeneous Si
• Trench = Trenchgate technology
•V
• High short circuit capability
• UL recognized, file no. E63532
Typical Applications*
• AC inverter drives
•UPS
• Electronic Welding
Remarks
• Case temperature limited to TC=125°C
• Product reliability results are valid for
with positive temperature
CE(sat)
coefficient
max.
T
=150°C
j
Absolute Maximum Ratings
Symbol Conditions Values Unit
IGBT
V
I
C
I
Cnom
I
CRM
V
CES
GES
Tj= 175 °C
I
= 3xI
CRM
Cnom
T
=25°C
c
T
=80°C
c
1200 V
160 A
123 A
100 A
300 A
-20 ... 20 V
VCC= 800 V
V
t
psc
T
j
GE
V
CES
≤ 20 V
≤ 1200 V
= 150 °C
T
j
10 µs
-40 ... 175 °C
Inverse diode
T
I
F
I
Fnom
I
FRM
I
FSM
T
Tj= 175 °C
I
= 3xI
FRM
Fnom
tp= 10 ms, sin 180°, Tj=25°C
j
=25°C
c
T
=80°C
c
121 A
91 A
100 A
300 A
550 A
-40 ... 175 °C
Module
I
t(RMS)
T
stg
V
isol
AC sinus 50Hz, t = 1 min 4000 V
600 A
-40 ... 125 °C
Characteristics
Symbol Conditions min. typ. max. Unit
IGBT
V
CE(sat)
V
CE0
r
CE
V
GE(th)
I
CES
C
ies
C
oes
C
res
Q
R
Gint
t
d(on)
t
r
E
on
t
d(off)
t
f
E
off
R
th(j-c)
IC=100A
V
=15V
GE
chiplevel
VGE=15V
VGE=VCE, IC=3.8mA 5 5.8 6.5 V
VGE=0V
V
= 1200 V
CE
VCE=25V
V
=0V
GE
G
VGE=- 8 V...+ 15 V
Tj=25°C
VCC= 600 V
I
=100A
C
=1Ω
R
G on
R
=1Ω
G off
di/dt
= 3100 A/µs
on
di/dt
= 1200 A/µs
off
per IGBT 0.27 K/W
T
=25°C
j
= 150 °C
T
j
Tj=25°C
T
= 150 °C
j
T
=25°C
j
T
= 150 °C
j
T
=25°C
j
T
= 150 °C
j
f=1MHz
f=1MHz
f=1MHz
T
= 150 °C
j
Tj= 150 °C
Tj= 150 °C
Tj= 150 °C
Tj= 150 °C
Tj= 150 °C
1.8 2.05 V
2.2 2.4 V
0.8 0.9 V
0.7 0.8 V
10.0 11.5 mΩ
15.0 16.0 mΩ
0.1 0.3 mA
mA
6.2 nF
0.41 nF
0.34 nF
565 nC
7.50 Ω
187 ns
35 ns
10.8 mJ
467 ns
94 ns
13.3 mJ
GD
© by SEMIKRON Rev. 0 – 05.05.2010 1
SEMiX101GD12E4s
SEMiX® 13
Trench IGBT Modules
SEMiX101GD12E4s
Features
• Homogeneous Si
• Trench = Trenchgate technology
•V
• High short circuit capability
• UL recognized, file no. E63532
Typical Applications*
• AC inverter drives
•UPS
• Electronic Welding
with positive temperature
CE(sat)
coefficient
Characteristics
Symbol Conditions min. typ. max. Unit
Inverse diode
V
V
r
F
I
RRM
Q
E
R
= V
F
F0
rr
rr
th(j-c)
IF=100A
EC
V
=0V
GE
chip
IF=100A
di/dt
= 3000 A/µs
off
V
=-15V
GE
V
= 600 V
CC
per diode 0.48 K/W
T
=25°C
j
= 150 °C
T
j
Tj=25°C
T
= 150 °C
j
Tj=25°C
T
= 150 °C
j
T
= 150 °C
j
Tj= 150 °C
Tj= 150 °C
2.2 2.52 V
2.1 2.5 V
1.1 1.3 1.5 V
0.7 0.9 1.1 V
8.0 9.0 10.2 mΩ
10.5 12.5 13.7 mΩ
95 A
16 µC
6.5 mJ
Module
L
CE
R
CC'+EE'
R
th(c-s)
M
s
M
t
=25°C
T
res., terminal-chip
C
T
= 125 °C
C
per module 0.04 K/W
to heat sink (M5) 3 5 Nm
to terminals (M6)
2.5 5 Nm
20 nH
0.7 mΩ
1mΩ
Nm
w 350 g
Temperatur Sensor
R
100
B
100/125
Tc=100°C (R25=5 kΩ) 493 ± 5% Ω
R
T[K];
(T)=R100
exp[B
100/125
(1/T-1/T
100
)];
3550
±2%
K
Remarks
• Case temperature limited to TC=125°C
max.
• Product reliability results are valid for
T
=150°C
j
GD
2 Rev. 0 – 05.05.2010 © by SEMIKRON
SEMiX101GD12E4s
Fig. 1: Typ. output characteristic, inclusive R
Fig. 3: Typ. turn-on /-off energy = f (IC) Fig. 4: Typ. turn-on /-off energy = f (RG)
CC'+ EE'
Fig. 2: Rated current vs. temperature IC = f (TC)
Fig. 5: Typ. transfer characteristic Fig. 6: Typ. gate charge characteristic
© by SEMIKRON Rev. 0 – 05.05.2010 3
SEMiX101GD12E4s
Fig. 7: Typ. switching times vs. I
C
Fig. 8: Typ. switching times vs. gate resistor R
G
Fig. 9: Typ. transient thermal impedance Fig. 10: Typ. CAL diode forward charact., incl. R
CC'+EE'
Fig. 11: Typ. CAL diode peak reverse recovery current Fig. 12: Typ. CAL diode recovery charge
4 Rev. 0 – 05.05.2010 © by SEMIKRON
SEMiX101GD12E4s
SEMiX 13
spring configuration
This is an electrostatic discharge sensitive device (ESDS), international standard IEC 60747-1, Chapter IX
* The specifications of our components may not be considered as an assurance of component characteristics. Components have to be tested
for the respective application. Adjustments may be necessary. The use of SEMIKRON products in life support appliances and systems is
subject to prior specification and written approval by SEMIKRON. We therefore strongly recommend prior consultation of our personal.
© by SEMIKRON Rev. 0 – 05.05.2010 5
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