SKiiP 232 GH 120 - 210 CTV
Absolute Maximum Ratings
Symbol
V
isol 4)
T
op
,T
stg
Conditions
AC, 1min
Operating / stor. temperature
1)
Values
3000
-25...+85
1200
900
200
-40...+150
200
400
1440
10
18
30
20
75
Units
V
°C
V
V
A
°C
A
A
A
kAs
2
V
V
kHz
kV/µs
IGBT and Inverse Diode
V
CES
V
CC 5)
Operating DC link voltage
I
C
IGBT
3)
T
j
IGBT + Diode
I
F
Diode
I
FM
Diode, t
p
< 1 ms
I
FSM
Diode, T
j
= 150 °C, 10ms; sin
2
I t (Diode) Diode, T
j
= 150 °C, 10ms
Driver
V
S1
Stabilized Power Supply
V
S2
Non-stabilized Power Supply
f
smax
Switching frequency
dV/dt
Primary to secondary side
SKiiPPACK
®
SK integrated intelligent
Power PACK
single phase bridge
SKiiP
7,9)
232 GH 120 - 210 CTV
Preliminary Data
Case S2
Characteristics
Symbol
IGBT
11)
V
(BR)CES
I
CES
V
TO
r
T
V
Cesat
V
Cesat
E
on
+ E
off
C
CHC
L
CE
Conditions
1)
min.
≥V
CES
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
typ.
−
−
10
−
−
−
−
−
1,4
15
−
−
−
−
−
−
−
−
max.
−
0,4
−
1,38
10,5
3,2
3,05
60/98
−
−
2,45
2,55
8
0,91
5,7
0,129
0,375
44
Units
V
mA
mA
V
mΩ
V
V
mJ
nF
nH
V
V
mJ
V
mΩ
K/W
K/W
K/KW
mA
mA
µs
A
A
°C
V
Driver without supply
V
GE
= 0,
T
j
= 25 °C
V
CE
= V
CES
T
j
= 125 °C
T
j
= 125 °C
T
j
= 125 °C
I
C
= 175A,
T
j
= 125 °C
I
C
= 175A,
T
j
= 25 °C
V
CC
=600/900V,I
C
=200A
T
j
= 125 °C
per Phase, AC side
Top, Bottom
T
j
= 125 °C
T
j
= 25 °C
T
j
= 125 °C
Inverse Diode
2)
V
F
= V
EC
I
F
= 175A;
V
F
= V
EC
I
F
= 175A;
E
on
+ E
off
I
F
= 200A;
V
TO
T
j
= 125 °C
r
T
T
j
= 125 °C
Features
•
Short circuit protection, due to
evaluation of current sensor
signals
•
Isolated power supply
•
Low thermal impedance
•
Optimal thermal management
with integrated heatsink
•
Pressure contact technology
with increased power cycling
capability, compact design
•
Low stray inductance
•
High power, small losses
•
Over-temperature protection
1)
2)
3)
4)
Thermal Characteristics
R
thjs10)
per IGBT
10)
R
thjs
per Diode
6,10)
R
thsa
P16 heatsink; see case S2
Driver
I
S1
Supply current 15V-supply
I
S2
Supply current 24V-supply
t
interlock-driver
Interlock-time
SKiiPPACK protection
I
TRIPSC
Short circuit protection
I
TRIPLG
Ground fault protection
T
TRIP
Over-temp. protection
9)
U
DCTRIP
U
DC
-protection
Mechanical Data
M1
DC terminals, SI Units
M2
AC terminals, SI Units
©by
SEMIKRON
5)
6)
7)
230+230*f
s
/f
smax
+2,5*I
AC
/A
170+180*f
s
/f
smax
+1,9*I
AC
/A
2,3
250
58
115
920
4
8
−
−
0898
6
10
9)
10)
11)
T
heatsink
= 25 °C, unless
otherwise specified
CAL = Controlled Axial Lifetime
Technology (soft and fast)
without driver
Driver input to DC link /
AC output to DC link / AC
output to heatsink
with Semikron-DC link (low
inductance)
other heatsinks on request
C - Integrated current sensors
T - Temperature protection
V - 15 V or 24 V power supply
options available for driver:
U - DC link voltage sense
F – Fiber optic connector
“
s
” referenced to temperature
sensor
NPT-technology with homo-
genous current-distribution
Nm
Nm
B 7
−
49
PIN-array - H-bridge driver SKiiPPACK type „GH”
X1:
Pin
1
2
3
4
5
6
7
signal
shield
BOT HB 1 IN
4)
TOP HB 1 IN
4)
BOT HB 2 IN
4)
TOP HB 2 IN
4)
reserved
Overtemp. OUT
1)
remark
connected to GND, when shielded cable is used
positive 15V CMOS logic; 10 kΩ impedance
positive 15V CMOS logic; 10 kΩ impedance
positive 15V CMOS logic; 10 kΩ impedance
positive 15V CMOS logic; 10 kΩ impedance
LOW = NO ERROR =
ϑ
DCB
< 115 + 5°C
open collector Output; max. 30 V / 15 mA
„low“ output voltage < 0,6 V
„high“ output voltage max. 30 V
LOW = NO ERROR; open collector Output; max.
30 V / 15 mA
propagation delay 1
µs,
min. pulsewidth error-memory-reset 8
µs
GND for power supply and
GND for digital signals
15 V
DC
+ 4 % power supply
don´t supply with 15 V, when using + 24 V
DCIN
supply voltage monitoring threshold 13 V
24 V
DC
(20 - 30 V) power supply
don´t supply with 24 V, when using + 15 V
DC
supply voltage monitoring threshold 15,6 V
U
DC
when using
option „U”
actual DC-link voltage, 9,0 V refer to U
DCmax
max. output current 5 mA
GND for analog signals
current actual value, 8,0 V refer to 100 % I
C
overcurrent trip level 10 V
⇔
125 %; I
C
@ 25 °C
current value > 0
⇔
SKiiP is source
current value < 0
⇔
SKiiP is sink
current actual value, 8,0 V refer to 100 % I
C
overcurrent trip level 10 V
⇔
125 %; I
C
@ 25 °C
current value > 0
⇔
SKiiP is source
current value < 0
⇔
SKiiP is sink
8
ERROR OUT
1)
9
10
11
12
13
14
15
16
17
18
GND
GND
+ 15 V
DC
IN
+ 15 V
DC
IN
+ 24 V
DC
IN
+ 24 V
DC
IN
U
DC
analog OUT
Temp. analog OUT
GND aux
2)
I analog OUT HB 1
19
I analog OUT HB 2
20
GND aux
2)
X10: halfbridge 1 (HB1) OUT
Pin Signal
1
2
8
11
12
13
16
17
Collector 1=TOP (HB1)
Gate 1=TOP (HB1)
Emitter 1=TOP (HB1)
Collector 2=BOT (HB1)
Gate 2=BOT (HB1)
Emitter 2=BOT (HB1)
X11: halfbridge 2 (HB2) OUT
Pin Signal
1
2
8
11
12
13
16
17
Temp.-Sensor (HB2)1
Temp.-Sensor (HB2)2
Collector 1=TOP (HB2)
Gate 1=TOP (HB2)
Emitter 1=TOP (HB2)
Collector 2=BOT (HB2)
Gate 2=BOT (HB2)
Emitter 2=BOT (HB2)
1)
Open collector output, external pull
up resistor necessary
2)
GND aux = reference for analog
output signals
4)
„high“ (min) 11,2 V
„low“ (max) 5,4 V
© by SEMIKRON
0898
B7–7
Case S2
SKiiPPACK 2 - GB; GH
Weight without heatsink: 1,85 kg
P16:
4,7 kg
SKiiPPACK 2 - GB with F-option
© by SEMIKRON
0898
B7–2
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