by SEMIKRON
0698
B 16 65
Absolute Maximum Ratings
Symbol
Conditions
1)
Values
Units
V
CES
V
GES
I
C
I
CM
T
j
T
stg
V
isol
T
heatsink
= 25 / 80 C
t
p
< 1 ms; T
heatsink
= 25 / 80 C
AC, 1 min.
1200
20
95 / 65
190 / 130
40 . . . + 150
40 . . . + 125
2500
V
V
A
A
C
C
V
Inverse Diode
I
F
= I
C
I
FM
= I
CM
I
FSM
I
2
t
T
heatsink
= 25 / 80 C
t
p
< 1 ms; T
heatsink
= 25 / 80 C
t
p
= 10 ms; sin., T
j
= 25 C
t
p
= 10 ms; sin., T
j
= 25 C
80 / 53
160 / 106
720
2600
A
A
A
A
2
s
Characteristics
Symbol
Conditions
1)
min.
typ.
max.
Units
IGBT - Inverter
V
CEsat
t
d(on)
t
r
t
d(off)
t
f
E
on
+ E
off
C
ies
R
thjh
I
C
= 75 A
T
j
= 25 (125)
C
V
CC
= 600 V; V
GE
= 15 V
I
C
= 75 A; T
j
= 125
C
R
gon
= R
goff
= 15
inductive load
V
CE
= 25 V; V
GE
= 0 V, 1 MHz
per IGBT
2,5(3,1)
35
70
450
70
18
5,0
3,0(3,7)
70
140
600
100
0,35
V
ns
ns
ns
ns
mJ
nF
K/W
Diode
2)
- Inverter
V
F
= V
EC
V
TO
r
T
I
RRM
Q
rr
E
off
R
thjh
I
F
= 75 A
T
j
= 25 (125)
C
T
j
= 125 C
T
j
= 125 C
I
F
= 75 A, V
R
= 600 V
di
F
/dt = 800 A/
s
V
GE
= 0 V, T
j
= 125 C
per diode
2,0(1,8)
1,0
11
45
11
3,0
2,5(2.3)
1,2
15
0,8
V
V
m
A
C
mJ
K/W
Current sensor for three phase output ac current (SKiiP 82 AC 12 I)
I
p RMS
I
pmax RMS
I
p peak
R
out
I
s RMS
I
p
: I
s
Offset
error
Linearity
delay time
Bandwidth
Continuous current,
T = 100 C, V
suppl
= 15 V
t
2
s
t
10
s
terminating resistance
rated sensor current
at I
p
= 50 A
RMS
transfer ratio
I
P
= 0 A, T = 40 ... 100 C
I
P
=
10 % 80 %
90 % 20 %
50
1000
50
25
1 : 2000
0,2
0,1
< 1
< 1
0 100
80
( 3dB)
A
A
A
mA
mA
%
s
s
kHz
Temperature Sensor
R
TS
T = 25 / 100 C
1000 / 1670
Mechanical Data
M
1
Case
case to heatsink, SI Units
mechanical outline see pages
B 16 11 and B 16 12
2,5
M8
3,5
Nm
SKiiP 82 AC 12 - SKiiP 82 AC 12 I
MiniSKiiP 8
SEMIKRON integrated
intelligent Power
SKiiP 82 AC 12
SKiiP 82 AC 12 I
3)
IGBT
3-phase bridge inverter
Case M8
UL recognized file no. E63532
more detailed characteristics of
current sensors and temperature
sensor please refer to part A
common characteristics see
page B 16 4
1)
T
heatsink
= 25 C, unless
otherwise specified
2)
CAL = Controlled Axial Lifetime
Technology (soft and fast
recovery)
3)
With integrated closed loop
current sensors
~
~
~
B 16 66
0698
by SEMIKRON
82AC1203.xls
0
5
10
15
20
25
30
0
30
60
90
120
150
I
C
A
E
mJ
Eon
Eoff
82AC1204.xls
0
6
12
18
24
0
10
20
30
40
R
G
E
mJ
Eon
Eoff
0
15
30
45
60
75
90
105
120
135
150
0
1
2
3
4
5
17V
13V
15V
11V
9V
7V
IC [A]
82AC1201
VCE [V]
0
15
30
45
60
75
90
105
120
135
150
0
1
2
3
4
5
9V
7V
13V
17V
11V
15V
IC [A]
82AC1202
VCE [V]
0
2
4
6
8
10
12
14
16
18
20
0
120
240
360
480
600V
800V
VGE [V]
82AC1205
QG [nC]
Fig. 3 Turn-on /-off energy = f (I
C
)
Fig. 4 Turn-on /-off energy = f (R
G
)
I
Cpuls
= 75 A
V
GE
= 0 V
f = 1 MHz
Fig. 1 Typ. output characteristic, t
p
= 80
s; 25 C
Fig. 2 Typ. output characteristic, t
p
= 80
s; 125 C
Fig. 5 Typ. gate charge characteristic
Fig. 6 Typ. capacitances vs. V
CE
T
j
= 125 C
V
CE
= 600 V
V
GE
= 15 V
I
C
= 75 A
T
j
= 125 C
V
CE
= 600 V
V
GE
= 15 V
R
G
= 15
B 16 4
0698
by SEMIKRON
T
j
=
150 C
V
GE
= 15 V
t
sc
=
10
s
L
ext
< 25 nH
T
j
=
150 C
V
GE
= 15 V
T
j
= 150 C
V
GE
=
15 V
Fig. 9 Turn-off safe operating area (RBSOA) of the IGBT
Fig. 10 Safe operating area at short circuit of the IGBT
Fig. 7 Rated current of the IGBT I
Cop
/ I
C
= f (T
h
)
0
0.2
0.4
0.6
0.8
1.0
1.2
0
25
50
75
100
125
150
ICop / IC
Mini1207
Th [C]
0
0,5
1
1,5
2
2,5
0
500
1000
1500
ICpuls/IC
Mini1209
VCE [V]
0
2
4
6
8
10
12
0
500
1000
1500
Note:
*Allowed numbers of
short circuit:<1000
*Time between short
circuit:>1s
ICsc/ICN
Mini1210
VCE [V]
Fig. 11 Typ. freewheeling diode forward characteristic
Fig. 12 Forward characteristic of the input bridge diode
MiniSKiiP 1200 V
MiniSKiiP 8
Inverter part
SKiiP 82 AC 06 ...
SKiiP 83 AC 06 ...
SKiiP 81 AC 12 ...
SKiiP 82 AC 12 ...
SKiiP 83 AC 12 ...
Circuit
Case M8
Note: The current sensors are
available only by option I
MiniSKiiP 8
Inverter part
SKiiP 82 AC 06 ...
SKiiP 83 AC 06 ...
SKiiP 81 AC 12 ...
SKiiP 82 AC 12 ...
SKiiP 83 AC 12 ...
Case M8
Layout and connections for the
customer's printed circuit board
pin
connection optional
1
T +
2
T -
3
~1
ET1
CB1
4
GB1
5
GT1
6
EB1
EB2
EB3
7
+
CT1
CT2
CT3
8
GB2
9
GT2
10
~2
ET2
CB2
11
+
CT1
CT2
CT3
12
EB1
EB2
EB3
13
GT3
14
~3
ET3
CB3
15
GB3
16
K1 for ~1
X
17
K2 for ~1
X
18
S1 for ~1
X
19
S2 for ~1
X
20
K1 for ~2
X
21
K2 for ~2
X
22
S1 for ~2
X
23
S2 for ~2
X
24
K1 for ~3
X
25
K2 for ~3
X
26
S1 for ~3
X
27
S2 for ~3
X
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