E\ 6(0,.521
%
SKKT 330, SKKH 330
9
560
9
550
GY
,
7506
PD[LPXP YDOXHV IRU .RQWLQXRXV RSHUDWLRQ
9
'50
GW
.U
$
,
7$9
VLQ 7
.DVH
&
9
9
9
V
$
6..7 (
6..7 (
6..7 (
6..7 (
6..7 (
6..+ (
6..+ (
6..+ (
6..+ (
6..+ (
6\PERO &RQGLWLRQV
6..7
6..+
8QLWV
,
7$9
VLQ 7
.DVH
&
7
.DVH
&
$
$
,
760
L
W
7
YM
& PV
7
YM
& PV
7
YM
& PV
7
YM
& PV
$
$
$
V
$
V
W
JG
W
JU
7
YM
& ,
*
$
GL
*
GW $
V
9
'
9
'50
V
V
GLGW
.U
W
T
,
+
,
/
7
YM
&
7
YM
&
7
YM
& W\S PD[
7
YM
& 5
*
;
W\S PD[
W\S
$
V
V
P$
$
9
7
9
7 72
U
7
,
''
,
5'
7
YM
& ,
7
$
7
YM
&
7
YM
&
7
YM
& 9
5'
9
550
9
''
9
'50
PD[
9
9
P
P$
9
*7
,
*7
9
*'
,
*'
7
YM
& G.
7
YM
& G.
7
YM
& G.
7
YM
& G.
9
P$
9
P$
5
WKM.
5
WK.K
7
YM
7
VWJ
.RQW
SHU WK\ULVWRU SHU PRGXOH
VLQ SHU WK\ULVWRU SHU PRGXOH
UH. SHU WK\ULVWRU SHU PRGXOH
SHU WK\ULVWRU SHU PRGXOH
&:
&:
&:
&:
&
9
LVRO
0
0
D
Z
D . +] UPV V PLQ
WR KHDWVLQN
WR WHUPLQDOV
DSSUR[
OE LQ
OE LQ
9a
1P
1P
PV
J
&DVH
6..7 $ D
6..+ $ D
6(0,3$&.
7K\ULVWRU 'LRGH 0RGXOHV
6..7
6..+
)HDWXUHV
+HDW WUDQVIHU WKURXJK DOXPLQLXP
QLWULGH .HUDPL. LVRODWHG PHWDO
EDVHSODWH
3UH.LRXV PHWDO SUHVVXUH
.RQWD.WV IRU KLJK UHOLDELOLW\
7K\ULVWRU ZLWK DPSOLI\LQJ JDWH
8/ UH.RJQL]HG ILOH QR (
7\SL.DO $SSOL.DWLRQV
'& PRWRU .RQWURO HJ IRU
PD.KLQH WRROV
7HPSHUDWXUH .RQWURO HJ IRU
RYHQV .KHPL.DO SUR.HVVHV
3URIHVVLRQDO OLJKW GLPPLQJ
VWXGLRV WKHDWHUV
6..7
6..+
6, 86 XQLWV
6HH WKH DVVHPEO\ LQVWUX.WLRQV
7KH V.UHZV PXVW EH OXEUL.DWHG
%
E\ 6(0,.521
SKKT 330, SKKH 330
SKKT330.xls 3R
0
500
1000
1500
2000
0
50
100
150
70
75
80
85
90
95
100
105
110
115
120
125
130
T
amb
C
0,03
0,02
0,15
0,10
0,08
0,06
R
thca
=0,04
SKKT
330
SKKH 330
2
W
T
case
P
Vtot
0,2
0,25
0,3
0,4
C/W
C
SKKT330.xls 3L
0
500
1000
1500
2000
0
200
400
600
800
R
L
P
Vtot
W
I
D
A
A
SKKT
330
SKKH 330
2
SKKT330.xls 2R
0
100
200
300
400
500
600
700
800
900
0
50
100
150
80
85
90
95
100
105
110
115
120
125
130
0,14
0,2
0,25
T
amb
C
R
thca
=0,06
0,1
0,02
SKKT
330
SKKH 330
1
W
P
Vtot
0,4
0,5
0,6
0,8
0,3
C
T
case
SKKT330.xls 2L
0
100
200
300
400
500
600
700
800
900
0
200
400
600
800
I
RMS
A
P
Vtot
W
A
SKKT
330
SKKH 330
1
SKKT330.xls 1R
0
100
200
300
400
500
0
50
100
150
0,25
0,35
0,4
0,8
1,0
0,6
1,5
2,0
0,2
0,5
T
amb
C
R
thca
=0,3
P
TAV
W
SKKT
330
SKKH 330
1/2
0,15
C/W
SKKT330.xls 1L
0
100
200
300
400
500
0
100
200
300
rec. 15
30
60
90
120
sin.
180
rec.
180
cont.
P
TAV
W
I
TAV
A
SKKT
330
SKKH 330
1/2
)LJ / 3RZHU GLVVLSDWLRQ SHU WK\ULVWRU YV RQVWDWH .XUUHQW
)LJ 5 3RZHU GLVVLSDWLRQ SHU WK\ULVWRU YV DPELHQW WHPS
)LJ / 3RZHU GLVVLSDWLRQ RI WZR PRGXOHV YV GLUH.W .XUUHQW
)LJ 5 3RZHU GLVVLSDWLRQ RI WZR PRGXOHV YV .DVH WHPS
)LJ / 3RZHU GLVVLSDWLRQ SHU PRGXOH YV UPV .XUUHQW
)LJ 5 3RZHU GLVVLSDWLRQ SHU PRGXOH YV .DVH WHPS
E\ 6(0,.521
%
SKKT 330, SKKH 330
SKKT330.xls 8
0
200
400
600
800
1000
0
0,5
1
1,5
2
V
F
V
I
F
A
typ.
max.
T
vj
= 25 C
130 C
SKKT
330
SKKH 330
1/2
10
100
1000
10000
1
10
100
-di
T
/dt
A/s
SKKT330.xls 5
SKKT
330
SKKH 330
1/2
10A
C
Q
rr
20A
50A
100A
200A
500A
1000A
I
TM
=
T
vj
= 130C
0,4
0,6
0,8
1
1,2
1,4
1,6
1,8
1
10
100
1000
t
ms
I
T(OV)
I
TSM
0
V
RRM
1/2
V
RRM
1
V
RRM
T
vj
25C
130C
I
TSM
9,5kA
8kA
SKKT330.xls 9
A
SKKT
330
SKKH 330
1/2
SKKT330.xls 6
0
0,05
0,1
0,15
0,2
0,001
0,01
0,1
1
10
100
t
s
Z
(th)t
C/W
A
SKKT
330
SKKH 330
1/2
Z
thjh
Z
thjc
SKKT330.xls 4L
0
500
1000
1500
2000
2500
3000
0
200
400
600
800
B6
W3
P
Vtot
W
I
D
,I
RMS
A
SKKT
330
SKKH 330
3
SKKT330.xls 4R
0
500
1000
1500
2000
2500
3000
0
50
100
150
65
70
75
80
85
90
95
100
105
110
115
120
125
130
T
amb
C
0,06
0,2
0,16
0,3
0,12
0,1
0,08
0,05
0,03
0,04
Rthca=0,02 C/W
A
SKKT
330
SKKH 330
3
W
T
case
P
Vtot
C
Fig. 4L Power dissipation of three modules vs. direct and
rms current
Fig. 4R Power dissipation of three modules vs. case temp.
Fig. 8 On-state characteristics
Fig. 9 Surge overload current vs. time
Fig. 5 Recovered charge vs. current decrease
Fig. 6 Transient thermal impedance vs. time
B 1 8
020807
by SEMIKRON
SKKT 330, SKKH 330
0,1
1
10
100
0,001
0,01
0,1
1
10
100
I
G
A
V
G
V
SKKT330.xls 10
V
GT
I
GT
I
GD
20 V; 20
25C
-40C
BMZ
BSZ
T
vj
=
130C
V
GD
A
SKKT
330
SKKH 330
1/2
)LJ *DWH WULJJHU .KDUD.WHULVWL.V
7KLV WH.KQL.DO LQIRUPDWLRQ VSH.LILHV VHPL.RQGX.WRU GHYL.HV EXW SURPLVHV QR .KDUD.WHULVWL.V 1R ZDUUDQW\ RU JXDUDQWHH H[SUHVVHG RU
LPSOLHG LV PDGH UHJDUGLQJ GHOLYHU\ SHUIRUPDQ.H RU VXLWDELOLW\
6..7
&DVH $ D
6(0,3$&.
'LPHQVLRQV LQ PP
6..+
&DVH $ D
PDF 
ZIP