© by SEMIKRON 0898 B 1 – 63
VRSM VRRM (dv/ ITRMS (maximum value for continuous operation)
VDRM dt)cr 220 A 250 A 220 A 250 A
ITAV (sin. 180; Tcase = 80 °C)
VVV/
µ
s 148 A 168 A 148 A 168 A
900
1300
1500
1700
1900
2100
2300
800
1200
1400
1600
1800
2000
2200
500
1000
1000
1000
1000
1000
1000
SKKT
132/ 08 D
132/12 E
132/14 E
132/16 E
132/18 E
132/20 E
132/22 E
SKKT
162/08 D
162/12 E
162/14 E
162/16 E
162/18 E
SKKH
132/08 D
132/12 E
132/14 E
132/16 E
132/18 E
132/20 E
132/22 E
SKKH
162/08 D
162/ 12 E
162/ 14 E
162/ 16 E
162/ 18 E
Symbol Conditions SKKT 132
SKKH 132 SKKT 162
SKKH 162 Units
ITAV
ID
IRMS
sin. 180; (Tcase = . . .)
B2/B6 Tamb = 45 °C; P 3/180
Tamb = 35 °C; P 3/180 F
P 16/200 F
W1/W3 P 3/180 F
P 16/200 F
130 (87 °C)
77 / 100
170 / 200
250 / 320
240 / 3 x 163
305 / 3 x 250
160 (83 °C)
190 / 230
290 / 360
265 / 3 x 185
333 / 3 x 312
A
A
A
A
A
A
ITSM
i2t
Tvj = 25 °C; 10 ms
Tvj = 125 °C; 10 ms
Tvj = 25 °C; 8,3 ... 10 ms
Tvj = 125 °C; 8,3 ... 10 ms
4 700
4 000
110 000
80 000
5 400
5 000
145 000
125 000
A
A
A2s
A2s
tgd
tgr
Tvj = 25 °C; IG = 1 A
diG/dt = 1 A/µs
VD = 0,67 . VDRM
1
2µs
µs
(di/dt)cr
tq
IH
IL
Tvj = 125 °C
Tvj = 125 °C
Tvj = 25 °C; typ./max.
Tvj = 25 °C; RG = 33 ; typ./max.
200
typ. 50 . . . 150
150 / 400
0,3 / 1
A/µs
µs
mA
A
VT
VT(TO)
rT
IDD; IRD
Tvj = 25 °C; IT = 500 A
Tvj = 125 °C
Tvj = 125 °C
Tvj = 125 °C; VDRM; VRRM
max. 1,8
1
1,6
max. 40
max. 1,6
0,85
1,5
max. 40
V
V
m
mA
VGT
IGT
VGD
IGD
Tvj = 25 °C; d.c.
Tvj = 25 °C; d.c.
Tvj = 125 °C; d.c.
Tvj = 125 °C; d.c.
2
150
0,25
10
V
mA
V
mA
Rthjc cont.
sin. 180 per thyristor /
rec. 120 per module
0,18 / 0,09
0,19 / 0,095
0,21 / 0,105
0,17 / 0,085
0,18 / 0,09
0,20 / 0,10
°C/W
°C/W
°C/W
Rthch
Tvj, Tstg
0,10 / 0,05
– 40 ... + 125 °C/W
°C
Visol
M1
M2
a
w
a. c. 50 Hz; r.m.s; 1 s/1 min
to heatsink
to terminals
approx.
3600 / 3000
5 (44 lb. in.) + 15 %2)
5 (44 lb. in.) + 15 %
5 . 9,81
250
V~
Nm
Nm
m/s2
g
Case page B 1 – 96 SKKT: A 21 SKMT: A 50
SKKH: A 22 SKNH: A 61
SEMIPACK® 2
Thyristor / Diode Modules
SKKT 132 SKKH 132
SKMT 1321) SKNH 1321)
SKKT 162 SKKH 162
Features
Heat transfer through aluminium
oxide ceramic isolated metal
baseplate
Hard soldered joints for high
reliability
UL recognized, file no. E 63 532
Typical Applications
DC motor control (e.g. for
machine tools)
Temperature control (e.g. for
ovens, chemical processes)
Professional light dimming
(studios, theaters)
SKNH 162 for DC braking of
induction motors, for circuit see
page B 1 – 97
1) SKMT 132, SKNH 132 available
on request
2) See the assembly instructions
SKKT
SKMT
SKKH
SKNH
SI (US) units
© by SEMIKRONB 1 – 64 0895
© by SEMIKRON B 1 – 650896
© by SEMIKRONB 1 – 66 0895
© by SEMIKRON B 1 – 670895
© by SEMIKRONB 1 – 68 0898
Fig. 10 Gate trigger characteristics
Fig. 9 b Surge overload current vs. time
© by SEMIKRONB 1 – 96
SKMT 132
Case A 50
SEMIPACK
®
2 UL recognized, file no. E 63 5 32
SKND 165
Case A 52
SKND 162
Case A 57
SKNH 132
Case A 61
Dimensi ons in mm
SK K T 12 2, 132 , 16 2
Case A 21
SEMIPACK
®
2 UL recognized, file n o. E 63 532
SKKH 122, 132, 162
Case A 22
SKKD 162
Case A 23
SKKE 162
Case A 24
Dim e nsions in mm
0898