TM
SUSSEX
5000 WATT UNIPOLAR
TRANSIENT SUPPRESSOR CELL
12251 TOWNE LAKE DRIVE, FORT MYERS, FLORIDA, 33913 TEL: (239) 768-6800 FAX: (239) 768-6868
SEMICONDUCTOR, INC.
GLASS PASSIVATED UNIPOLAR TRANSIENT SUPPRESSOR CELL
5000 WATT MAXIMUM POWER HANDLING
REVERSE VOLTAGES - 6.8 TO 440 VOLTS
5000 WATT UNIPOLAR
CELL SPECIFICATIONS
♦
Used in Hybrid Connector and Telecom
Applications Where Axial Leaded Devices Are
Physically Too Large or Have Too Great an
Inductance
♦
Each Die Fully Glass Passivated: Needs No
Encapsulation
♦
Electrical Equivalent to 5KP
Axial Leaded Devices
♦
Each Device Individually Inspected
♦
Unipolar
♦
Operating Temperature: -65 to 150ºC
♦
Storage Temperature: -65 to 175ºC
♦
Tab Metallization OFHC Copper Solder
Plated:95Pb/5Sn
PLEASE NOTE: DRAWINGS ARE NOT TO SCALE.
REFER TO TABLE 1D FOR COMPLETE DIMENSIONS
T ABL E 7D - CEL L DIM ENS IO N S P ECIF ICAT IO NS
005"
♦
A LL D I EN SI N S A R E I I C HES
M
O
N N
♦
A LL TO LER A N C ES A R E ± .
SIZE CODE
35
C
0.200
D
0.066
CHIP
DIMENSION
.200 SQUARE
7
CUSTOM ORDERING SPECIFIER
DIE SPECIFICATIONS
C-SZU 35 -
-
-
%TOLERANCE OF V
BR
TOLERANCES
CODE TOLERANCE
5
10
20
±5%
±10%
±20%
CLAMPING VOLTAGE
UNIPOLAR
REVERSE BREAKDOWN
TRANSIENT
VOLTAGE (V
BR
)
SUPPRESSOR
CELL
AVAILABLESIZES
RATING
CODE
35
5000 WATTS
REFER TO PAGE 7-47 FOR A
LISTING OF 5000 WATT
STANDARD PARTS.
7-45
TM
SUSSEX
5000 WATT BIPOLAR
TRANSIENT SUPPRESSOR CELL
12251 TOWNE LAKE DRIVE, FORT MYERS, FLORIDA, 33913 TEL: (239) 768-6800 FAX: (239) 768-6868
SEMICONDUCTOR, INC.
GLASS PASSIVATED BIPOLAR TRANSIENT SUPPRESSOR CELL
5000 WATT MAXIMUM POWER HANDLING
REVERSE VOLTAGES - 6.8 TO 440 VOLTS
5000 WATT BIPOLAR
CELL SPECIFICATIONS
♦
Used in Hybrid Connector and Telecom
Applications Where Axial Leaded Devices Are
Physically Too Large or Have Too Great an
Inductance
♦
Each Die Fully Glass Passivated: Needs No
Encapsulation
♦
Electrical Equivalent to 5KP
Axial Leaded Devices
♦
Each Device Individually Inspected
♦
Bipolar
♦
Operating Temperature: -65 to 150ºC
♦
Storage Temperature: -65 to 175ºC
♦
Tab Metallization OFHC Copper Solder
Plated:95Pb/5Sn
PLEASE NOTE: DRAWINGS ARE NOT TO SCALE.
REFER TO TABLE 1D FOR COMPLETE DIMENSIONS
TABLE 8D - CELL DIMENSION SPECIFICATIONS
005"
♦
A LL D I EN SI N S A R E I I C HES
M
O
N N
♦
A LL TO LER A N C ES A R E ± .
7
SIZE CODE
35
C
0.200
D
0.066
CHIP
DIMENSION
.200
SQUARE
CUSTOM ORDERING SPECIFIER
DIE SPECIFICATIONS
C-SZZ 35 -
-
-
%TOLERANCE OF V
BR
TOLERANCES
CODE TOLERANCE
5
10
20
±5%
±10%
±20%
CLAMPING VOLTAGE
BIPOLAR
REVERSE BREAKDOWN
TRANSIENT
VOLTAGE (V
BR
)
SUPPRESSOR
CELL
AVAILABLESIZES
RATING
CODE
35
5000 WATTS
REFER TO PAGE 7-47 FOR A
LISTING OF 5000 WATT
STANDARD PARTS.
7-46
TM
SUSSEX
SU SSEX
O RDER CO DE
L R E F E RL IPO
OOSE T S
P P A INE7 1 4 9
ASG K - 3
GE
F OS H O R D E R
R IP S !
S P E C IF IE R
5000 WATT TRANSIENT
SUPPRESSOR
CELL SPECIFICATIONS
12251 TOWNE LAKE DRIVE, FORT MYERS, FLORIDA, 33913 TEL: (239) 768-6800 FAX: (239) 768-6868
T A B L E 9 D - 5 0 0 0 W A T T T R A N S IE N T S U P P R E S S O R C E L L E L E C T R IC A L S P E C IF IC A T IO N S
IN D U S T R Y
ST A N D A R D
PA R T
N U M B ER S
(N O T E 1 )
SEMICONDUCTOR, INC.
(N O T E 2 )
5000 W A T T
5 K P S E R IE S
5 K P 5 .0
5 K P 5 .0 A
5 K P 6 .0
5 K P 6 .0 A
5 K P 6 .5
5 K P 6 .5 A
5 K P 7 .0
5 K P 7 .0 A
5 K P 7 .5
5 K P 7 .5 A
5 K P 8 .0
5 K P 8 .0 A
5 K P 8 .5
5 K P 8 .5 A
5 K P 9 .0
5 K P 9 .0 A
5KP10
5KP10A
5KP11
5KP11A
5KP12
5KP12A
5KP13
5KP13A
5KP14
5KP14A
5KP15
5KP15A
5KP16
5KP16A
5KP17
5KP17A
5KP18
5KP18A
5KP20
5KP20A
5KP22
5KP22A
5KP24
5KP24A
5KP26
5KP26A
5KP28
5KP28A
5KP30
5KP30A
5KP33
5KP33A
5KP36
5KP36A
5KP40
STANDO FF
VO LTAG E
(V
S O
)
V o l ts
5 .0
5 .0
6 .0
6 .0
6 .5
6 .5
7 .0
7 .0
7 .5
7 .5
8 .0
8 .0
8 .5
8 .5
9 .0
9 .0
10
10
11
11
12
12
13
13
14
14
15
15
16
16
17
17
18
18
20
20
22
22
24
24
26
26
28
28
30
30
33
33
36
36
40
M A X.
REV E RS E
REV E RS E
R EVER SE
BRE AKDO W N
BRE AKDO W N
L E A K A G E
V O L T A G E ( V
B R
) @ I
T
V O L T A G E ( V
B R
) @ I
T
(N O T E 4 )
(I
R
)@ V
S O
(N O T E 3 )
M A X . C L A M P IN G
V O L T A G E (V
C L
) @
T EST
P EAK P ULSE
C U R R EN T
C U R R E N T ( I
P P
)
( N O T E
M A X. T EM P.
C O EF F IC IEN T
4
5)
µA
2000
2000
5000
5000
2000
2000
1000
1000
250
250
150
150
50
50
20
20
15
15
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
M IN .
V o l ts
6 .4
6 .4
6 .7
6 .7
7 .2
7 .2
7 .8
7 .8
8 .3
8 .3
8 .9
8 .9
9 .4
9 .4
1 0 .0
1 0 .0
1 1 .1
1 1 .1
1 2 .2
1 2 .2
1 3 .3
1 3 .3
1 4 .4
1 4 .4
1 5 .6
1 5 .6
1 6 .7
1 6 .7
1 7 .8
1 7 .8
1 8 .9
1 8 .9
2 0 .0
2 0 .0
2 2 .2
2 2 .2
2 4 .4
2 4 .4
2 6 .7
2 6 .7
2 8 .9
2 8 .9
3 1 .1
3 1 .1
3 3 .3
3 3 .3
3 6 .7
3 6 .7
4 0 .0
4 0 .0
4 4 .4
M A X.
V o l ts
7 .3
7 .0
8 .2
7 .4
8 .8
8 .0
9 .5
8 .6
1 0 .2
9 .2
1 0 .9
9 .8
1 1 .5
1 0 .4
1 2 .2
1 1 .1
1 3 .6
1 2 .3
1 4 .9
1 3 .5
1 6 .3
1 4 .7
1 7 .6
1 5 .9
1 9 .1
1 7 .2
2 0 .4
1 8 .5
2 1 .8
1 9 .7
2 3 .1
2 0 .9
2 4 .4
2 2 .1
2 7 .1
2 4 .5
2 9 .8
2 6 .9
3 2 .6
2 9 .5
3 5 .3
3 1 .9
3 8 .0
3 4 .4
4 0 .7
3 6 .8
4 4 .9
4 0 .6
4 8 .9
4 4 .2
5 4 .3
(I
T
)
mA
O F V
BR
V
CL
V o l ts
50
50
50
50
50
50
50
50
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
9 .6
9 .2
1 1 .4
1 0 .3
1 2 .3
1 1 .2
1 3 .3
1 2 .0
1 4 .3
1 2 .9
1 5 .0
1 3 .6
1 5 .9
1 4 .4
1 6 .9
1 5 .4
1 8 .8
1 7 .0
2 0 .1
1 8 .2
2 2 .0
1 9 .9
2 3 .8
2 1 .5
2 5 .8
2 3 .2
2 6 .9
2 4 .4
2 8 .8
2 6 .0
3 0 .5
2 7 .6
3 2 .2
2 9 .2
3 5 .8
3 2 .4
3 9 .4
3 5 .5
4 3 .0
3 8 .9
4 6 .6
4 2 .1
5 0 .1
4 5 .4
5 3 .5
4 8 .4
5 9 .0
5 3 .3
6 4 .3
5 8 .1
7 1 .4
I
PP
Amps
546
570
460
509
426
468
394
437
367
406
350
386
330
364
310
340
279
308
261
288
238
263
220
244
203
226
195
215
182
201
172
190
163
179
146
162
133
147
122
134
112
124
104
115
98
108
88
98
81
90
73
(% / ° C )
0 .0 5 7
0 .0 5 7
0 .0 6 1
0 .0 6 1
0 .0 6 5
0 .0 6 5
0 .0 6 8
0 .0 6 8
0 .0 7 3
0 .0 7 3
0 .0 7 5
0 .0 7 5
0 .0 7 8
0 .0 7 8
0 .0 8 1
0 .0 8 1
0 .0 8 4
0 .0 8 4
0 .0 8 6
0 .0 8 6
0 .0 8 8
0 .0 8 8
0 .0 9 0
0 .0 9 0
0 .0 9 2
0 .0 9 2
0 .0 9 4
0 .0 9 4
0 .0 9 6
0 .0 9 6
0 .0 9 7
0 .0 9 7
0 .0 9 8
0 .0 9 8
0 .0 9 9
0 .0 9 9
0 .1 0 0
0 .1 0 0
0 .1 0 1
0 .1 0 1
0 .1 0 1
0 .1 0 1
0 .1 0 2
0 .1 0 2
0 .1 0 3
0 .1 0 3
0 .1 0 4
0 .1 0 4
0 .1 0 4
0 .1 0 4
0 .1 0 5
6 . 8 -9 . 6 -6 . 5
6 . 7 -9 . 2 -4 . 4
7 . 4 - 1 1 . 4 -9 . 9
7 . 0 - 1 0 . 3 -4 . 9
8 . 0 - 1 2 . 3 -9 . 9
7 . 6 - 1 1 . 2 -5
8 . 6 - 1 3 . 3 -1 0
8 . 1 - 1 2 -5
9 . 2 - 1 4 . 3 -1 0
8 . 7 - 1 2 . 9 -5
9 . 8 - 1 5 -1 0
9 . 3 - 1 3 . 6 -5
1 0 . 4 -1 5 . 9 -9 . 8
9 . 9 - 1 4 . 4 -4 . 8
1 1 . 1 -1 6 . 9 -9 . 9
1 0 . 5 -1 5 . 4 -5 . 2
1 2 . 3 -1 8 . 8 -1 0 . 1
1 1 . 7 -1 7 -5 . 1
1 3 . 5 -2 0 . 1 -9 . 9
1 2 . 8 -1 8 . 2 -5
1 4 . 8 -2 2 -1 0 . 1
1 4 -1 9 . 9 -5
1 6 -2 3 . 8 -1 0
1 5 . 1 -2 1 . 5 -4 . 9
1 7 . 3 -2 5 . 8 -1 0
1 6 . 4 -2 3 . 2 -4 . 8
1 8 . 5 -2 6 . 9 -9 . 9
1 7 . 6 -2 4 . 4 -5 . 1
1 9 . 8 -2 8 . 8 -1 0 . 1
1 8 . 7 -2 6 -5
2 1 -3 0 . 5 -1 0
1 9 . 9 -2 7 . 6 -5
2 2 . 2 -3 2 . 2 -9 . 9
2 1 . 0 -2 9 . 2 -4 . 9
2 4 . 6 -3 5 . 8 -9 . 9
2 3 . 3 -3 2 . 4 -4 . 9
2 7 . 1 -3 9 . 4 -9 . 9
2 5 . 6 -3 5 . 5 -4 . 8
2 9 . 6 -4 3 -9 . 9
2 8 . 1 -3 8 . 9 -4 . 9
3 2 . 1 -4 6 . 6 -9 . 9
3 0 . 4 -4 2 . 1 -4 . 9
3 4 . 5 -5 0 . 1 -9 . 9
3 2 . 7 -4 5 . 4 -5
3 7 -5 3 . 5 -1 0
3 5 -4 8 . 4 -4 . 9
4 0 . 8 -5 9 -1 0
3 8 . 6 -5 3 . 3 -5
4 4 . 4 -6 4 . 3 -1 0
4 2 . 1 -5 8 . 1 -4 . 9
4 9 . 3 -7 1 . 4 -1 0
7
THIS TABLE CONTINUES
NOTE 1:
:
NOTE 2:
NOTE 3:
♦ELECTRICAL
CHARACTERISTICS ARE AT A JUNCTION TEMPERATURE (T
J
) OF 25°C
♦INDUSTRY
STANDARD PART NUMBERS REFER TO PACKAGED DEVICES. THE DIES
INDICATED BY THESE NUMBERS, IF PROPERLY PACKAGED, WILL OPERATE WITH THE
SAME PERFORMANCE.
NOTES
4:
NOTE
♦FOR
BIPOLAR DEVICES WITH A V
SO
OF 10 VOLTS OR LESS, THE I
R
LIMIT IS DOUBLED
♦SURGE
CURRENT WAVEFORM SHOWN IN FIGURE 2D ON
PAGE 7-49
♦PEAK
PULSE POWER DERATING SHOWN IN FIGURE 3D ON
PAGE 7-49
7-47
TM
SUSSEX
SU SSEX
O RDER CO DE
L R E F E RL IPO
OOSE T S
P A S IN K - 4 9
GE 7
F OS H O R D E R
R IP S !
S P E C IF IE R
5000 WATT TRANSIENT
SUPPRESSOR
CELL SPECIFICATIONS
12251 TOWNE LAKE DRIVE, FORT MYERS, FLORIDA, 33913 TEL: (239) 768-6800 FAX: (239) 768-6868
SEMICONDUCTOR, INC.
T A B L E 9 D - 5 0 0 0 W A T T T R A N S IE N T S U P P R E S S O R C E L L E L E C T R IC A L S P E C IF IC A T IO N S
IN D U S T R Y
ST A N D A R D
PA R T
N U M B ER S
(N O T E 1 )
(N O T E 2 )
5000 W A T T
5 K P S E R IE S
5KP40A
5KP43
5KP43A
5KP45
5KP45A
5KP48
5KP48A
5KP51
5KP51A
5KP54
5KP54A
5KP58
5KP58A
5KP60
5KP60A
5KP64
5KP64A
5KP70
5KP70A
5KP75
5KP75A
5KP78
5KP78A
5KP85
5KP85A
5KP90
5KP90A
5KP100
5KP100A
5KP110
STANDO FF
VO LTAG E
(V
S O
)
V o l ts
40
43
43
45
45
48
48
51
51
54
54
58
58
60
60
64
64
70
70
75
75
78
78
85
85
90
90
100
100
110
110
1 2 0 .0
1 2 0 .0
1 6 0 .0
1 6 0 .0
1 8 0 .0
1 8 0 .0
2 0 0 .0
2 0 0 .0
2 2 0 .0
2 2 0 .0
2 5 0 .0
2 5 0 .0
3 2 0 .0
3 2 0 .0
3 6 0 .0
3 6 0 .0
4 0 0 .0
4 0 0 .0
4 4 0 .0
4 4 0 .0
M A X.
REV E RS E
R EVER SE
BRE AKDO W N
L E A K A G E
V O L T A G E ( V
B R
) @ I
T
(I
R
)@ V
S O
(N O T E 3 )
M A X . C L A M P IN G
V O L T A G E (V
C L
) @
T EST
P EAK P ULSE
C U R R EN T
C U R R E N T ( I
P P
)
( N O T E
M A X. T EM P.
C O EF F IC IEN T
4)
µA
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
M IN .
V o l ts
4 4 .4
4 7 .8
4 7 .8
5 0 .0
5 0 .0
5 3 .3
5 3 .3
5 6 .1
5 6 .7
6 0 .0
6 0 .0
6 4 .4
6 4 .4
6 6 .7
6 6 .7
7 1 .1
7 1 .1
7 7 .6
7 7 .8
8 3 .3
8 3 .3
8 6 .7
8 6 .7
9 4 .4
9 4 .4
100
100
111
111
122
122
133
133
177
177
199
199
222
222
244
244
277
277
355
355
399
399
443
443
488
488
M A X.
V o l ts
4 9 .1
5 8 .4
5 2 .8
6 1 .1
5 5 .3
6 5 .2
5 8 .9
6 9 .3
6 2 .7
7 3 .3
6 6 .3
7 8 .7
7 1 .2
8 1 .5
7 3 .7
9 6 .9
7 8 .6
9 5 .1
8 6 .0
1 0 2 .0
9 2 .1
1 0 6 .0
9 5 .8
1 1 5 .0
1 0 4 .0
1 2 2 .0
1 1 1 .0
1 3 6 .0
1 2 3 .0
1 4 9 .0
1 3 5 .0
1 6 3 .0
1 4 8 .0
2 1 7 .0
1 9 7 .0
2 4 4 .0
2 2 2 .0
2 7 2 .0
2 4 7 .0
2 9 9 .0
2 7 1 .0
3 4 0 .0
3 0 8 .0
4 3 5 .0
3 9 5 .0
4 8 9 .0
4 4 4 .0
5 4 3 .0
4 9 3 .0
5 9 8 .0
5 4 3 .0
(I
T
)
mA
O F V
BR
V
CL
V o l ts
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
5 .0
6 4 .5
7 6 .7
6 9 .4
8 0 .3
7 2 .7
8 5 .5
7 7 .4
9 1 .1
8 2 .4
9 6 .3
8 7 .1
1 0 3 .0
9 4 .0
1 0 7 .0
9 7 .0
1 1 4 .0
1 0 3 .0
1 2 5 .0
1 1 3 .0
1 3 4 .0
1 2 1 .0
1 3 9 .0
1 2 6 .0
1 5 1 .0
1 3 7 .0
1 6 0 .0
1 4 6 .0
1 7 9 .0
1 6 2 .0
1 9 6 .0
1 7 7 .0
2 1 4 .0
1 9 4 .0
2 8 5 .0
2 5 9 .0
3 2 1 .0
2 9 1 .0
3 5 6 .0
3 2 3 .0
3 9 2 .0
3 5 6 .0
4 4 5 .0
4 0 4 .0
5 7 0 .0
5 1 7 .0
6 4 1 .0
5 8 2 .0
7 1 5 .0
6 4 7 .0
7 8 4 .0
7 1 1 .0
I
PP
Amps
81
68
75
65
72
61
67
57
63
54
60
50
55
49
54
46
50
42
46
39
43
37
41
34
38
32
35
29
32
26
29
23
26
18
19
16
17
14
15
13
14
11
12
9
10
8
9
7
8
6
7
(% / ° C )
0 .1 0 5
0 .1 0 5
0 .1 0 5
0 .1 0 6
0 .1 0 6
0 .1 0 6
0 .1 0 6
0 .1 0 7
0 .1 0 7
0 .1 0 7
0 .1 0 7
0 .1 0 7
0 .1 0 7
0 .1 0 8
0 .1 0 8
0 .1 0 8
0 .1 0 8
0 .1 0 8
0 .1 0 8
0 .1 0 8
0 .1 0 8
0 .1 0 8
0 .1 0 8
0 .1 0 8
0 .1 1 0
0 .1 1 0
0 .1 1 0
0 .1 1 0
0 .1 1 0
0 .1 1 2
0 .1 1 2
0 .1 2 1
0 .1 2 1
0 .1 3 5
0 .1 3 5
0 .1 5 0
0 .1 5 0
0 .2 0 0
0 .2 0 0
0 .2 0 0
0 .2 0 0
0 .2 2 2
0 .2 2 2
0 .2 3 5
0 .2 3 5
0 .2 4 0
0 .2 4 0
0 .2 5 0
0 .2 5 0
0 .2 6 0
0 .2 6 0
7
5KP110A
5KP120
5KP120A
5KP160
5KP160A
5KP180
5KP180A
5KP200
5KP200A
5KP220
5KP220A
5KP250
5KP250A
5KP320
5KP320A
5KP360
5KP360A
5KP400
5KP400A
5KP440
5KP440A
4 6 . 7 -6 4 . 5 -5
5 3 . 1 -7 6 . 7 -9 . 9
5 0 . 3 -6 9 . 4 -4 . 9
5 5 . 5 -8 0 . 3 -9 . 9
5 2 . 6 -7 2 . 7 -5
5 9 . 2 -8 5 . 5 -1 0
5 6 . 1 -7 7 . 4 -4 . 9
6 2 . 7 -9 1 . 1 -1 0
5 9 . 7 -8 2 . 4 -5
6 6 . 6 -9 6 . 3 -9 . 9
6 3 . 1 -8 7 . 1 -4 . 9
7 1 . 5 -1 0 3 -9 . 9
6 7 . 8 -9 4 -5
7 4 . 1 -1 0 7 -9 . 9
7 0 . 2 -9 7 -4 . 9
8 4 -1 1 4 -1 5 . 3
7 4 . 8 -1 0 3 -5
8 6 . 3 -1 2 5 -1 0 . 1
8 1 . 9 -1 1 3 -5
9 2 . 6 -1 3 4 -1 0
8 7 . 7 -1 2 1 -5
9 6 . 3 -1 3 9 -1 0
9 1 . 2 -1 2 6 -4 . 9
1 0 4 . 7 -1 5 1 -9 . 8
9 9 . 2 -1 3 7 -4 . 8
1 1 1 -1 6 0 - 9 . 9
1 0 5 . 5 -1 4 6 -5 . 2
1 2 3 . 5 -1 7 9 -1 0 . 1
1 1 7 -1 6 2 - 5 . 1
1 3 5 . 5 -1 9 6 -9 . 9
1 2 8 . 5 -1 7 7 -5
1 4 8 - 2 1 4 - 1 0 .1
1 4 0 .5 - 1 9 4 - 5
1 9 7 - 2 8 5 - 1 0 .1
187-259-5
2 2 1 .5 - 3 2 1 - 1 0 .1
2 1 0 .5 - 2 9 1 - 5
2 4 7 - 3 5 6 - 1 0 .1
2 3 4 .5 - 3 2 3 - 5
2 7 1 .5 - 3 9 2 - 1 0 .1
2 5 7 .5 - 3 5 6 - 5
3 0 8 .5 - 4 4 5 - 1 0 .1
2 9 2 .5 - 4 0 4 - 5
3 9 5 - 5 7 0 - 1 0 .1
375-517-5
4 4 4 - 6 4 1 - 1 0 .1
4 2 1 .5 - 5 8 2 - 5
4 9 3 - 7 1 5 - 1 0 .1
468-647-5
5 4 3 - 7 8 4 - 1 0 .1
5 1 5 .5 - 7 1 1 - 5
NOTE 1:
:
NOTE 2:
NOTE 3:
♦ELECTRICAL
CHARACTERISTICS ARE AT A JUNCTION TEMPERATURE (T
J
) OF 25°C
♦INDUSTRY
STANDARD PART NUMBERS REFER TO PACKAGED DEVICES. THE DIES
NOTES
4:
NOTE
♦FOR
BIPOLAR DEVICES WITH A V
SO
OF 10 VOLTS OR LESS, THE I
R
LIMIT IS DOUBLED
INDICATED BY THESE NUMBERS, IF PROPERLY PACKAGED, WILL OPERATE WITH THE
SAME PERFORMANCE.
♦SURGE
CURRENT WAVEFORM SHOWN IN FIGURE 2D ON
PAGE 7-49
♦PEAK
PULSE POWER DERATING SHOWN IN FIGURE 3D ON
PAGE 7-49
7-48
TM
SUSSEX
6.8 - 10.8 - 10
5000 WATT CELL
SPECIFICATIONS CONTINUED
12251 TOWNE LAKE DRIVE, FORT MYERS, FLORIDA, 33913 TEL: (239) 768-6800 FAX: (239) 768-6868
SEMICONDUCTOR, INC.
ORDERING SPECIFIER
10
4
FIGURE 1D - TYPICAL JUNCTION
CAPACITANCE
ORDER CODE FROM
PREVIOUS PAGES
TABLE 10D - AVAILABLE CELL SIZES
CELL SPECIFICATIONS
CODE
DIE TYPE
REFER TO:
C-SZU35 5000 WATT UNIPOLAR CELL PAGE 7-45
C-SZZ35 5000 WATT BIPOLAR CELL PAGE 7-46
JUNCTION CAPACITANCE (pF)
Tj=25 C
f=1kHz
M easured @ 100m V
10
3
THIS GRAPH DEMO NSTRATES THE
P ERFORMANCE OF A UNIPOLAR DIE.
B IPOLAR DIES W ILL H AV E A LO W ER
CAPACITANCE
CONTACT FA CTO RY FO R MO RE
DETA ILED INFO RM ATION
M easured @ Vso
10
2
10
1
10
2
10
3
BREAKDOWN VOLTAGE, V
BR
(Volts)
FIGURE 2D - PULSE WAVEFORM
150
15 0
500
0
0
FIGURE 3D - PULSE DERATING CURVE
PEAK PULSE POWER (WATTS)
% PEAK PULSE CURRENT, I
PP
10:1000 W AVEFORM
7
N O N - EP ETITIV IV
N O N -RREP ET A T E E
C U R RE N T P ULL SE
C URRE NT P U S E
PE R FIG UR E 2 A
P ER FIG URE 2 A
I
100
375 0
11 25
PP
250
5 0
7
0
½ I
50
PP
125
7 5
3
0
0
0
1
2
3
0
0
25
50
7 5
10 0
1 25
15 0
17 5
2 00
TIME (ms)
JUNCTION TEMPERATURE, T
J
(°C)
7-49
RF/无线
