B72540-T3300-K072 [EPCOS]
RESISTOR, VOLTAGE DEPENDENT, 34 V, 12 J, SURFACE MOUNT, CHIP;型号: | B72540-T3300-K072 |
厂家: | EPCOS |
描述: | RESISTOR, VOLTAGE DEPENDENT, 34 V, 12 J, SURFACE MOUNT, CHIP |
文件: | 总57页 (文件大小:1340K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
SIOV Metal Oxide Varistors
SMD Varistors (Automotive; MLV Series)
Automotive
Construction
ꢀ Multilayer technology
ꢀ Termination: nickel barrier or silver palladium
ꢀ No plastic or epoxy packaging assures better than UL 94 V-0 flammability rating
Features
ꢀ Sizes 0603 … 2220
ꢀ High energy absorption,
particularly in case of load dump
ꢀ Stable protection level, minimum leakage current
ꢀ High resistance to cyclic temperature stress
ꢀ Wide range of operating temperature
ꢀ Low inductance (suitable for ESD protection)
ꢀ PSpice models
ꢀ Bidirectional clamping
Taping
ꢀ Supply on 8/12-mm tape, for tape dimensions see page 155,
for reel dimensions and packing units see page 157
Type designation
Detailed description of coding system on page 39
SIOV-CT 1210 S 14 B AUTO G
EPCOS metal oxide varistor
Design
Taping mode
Automotive varistor
Size (nominal)
Specifies special tolerance (B)
Max. AC operating voltage
Special tolerance
of varistor voltage
General technical data
Climatic category
LCT
UCT
55/125/56
55 °C
+ 125 °C
in accordance with IEC 60068-1
–
Damp heat, steady state 56 days
(93 % r.h., 40 °C)
in accordance with IEC 60068-2-3
in accordance with CECC 42 000
Operating temperature
Storage temperature1)
Response time
– 55 … + 125 °C
– 55 … + 150 °C
< 0,5 ns
Solderability
235 °C, 2 s
in accordance with IEC 60068-2-58
in accordance with IEC 60068-2-58
Resistance to soldering heat 260 °C, 10 s
1) for mounted parts (storage conditions for unused parts on reel see page 38 [1.12.4])
133 10/00
SIOV Metal Oxide Varistors
Automotive – Nickel Barrier Termination (availability upon request)
Maximum ratings (TA = 125 °C)
1
2
3
Type
Ordering code
VRMS VDC
imax
Wmax
Pmax
WLD
(10x)
J
8/20 µs (2 ms)
SIOV-
NEW
V
V
A
J
W
12-V supply systems
CT0603S14BAUTOG
CT0805S14BAUTOG
CT1206S14BAUTOG
CT1210S14BAUTOG
CT1812S14BAUTOG
CT2220S14BAUTOG
B72500-T1140-S260 14
B72510-T1140-S262 14
B72520-T1140-S262 14
B72530-T1140-S262 14
B72580-T1140-S262 14
B72540-T1140-S262 14
16
16
16
16
16
16
16
30
120
200
400
800
0,2
0,3
0,6
1,6
2,4
5,8
5,8
0,003
0,008
0,008
0,010
0,015
—
1,0
1,5
3,0
6,0
1200
1200
0,030 12,0
0,030 25,0
CT2220S14BAUTOE2G2 B72540-T3140-S272 14
24-V supply systems
CT2220K25AUTOE2G2
CT2220K30AUTOG
CT2220K30AUTOE2G2
B72540-T3250-K072 25
B72540-T1300-K062 30
B72540-T3300-K072 30
31
34
34
1200
1200
1200
9,6
12,0
12,0
0,030 25,0
0,030 12,0
0,030 25,0
Characteristics (TA = 25 °C)
4
Type
VJump Vv
∆Vv
Max. clamping Ctyp
Ltyp
Der. V/I
(5 min) (1 mA) (1 mA)
voltage
(1 kHz)
nF
0,12
0,4
0,8
1,7
5,6
9,5
curve char.
v
V
i
A
SIOV-
V
V
%
nH
Page Page
12-V supply systems
CT0603S14BAUTOG
CT0805S14BAUTOG
CT1206S14BAUTOG
CT1210S14BAUTOG
CT1812S14BAUTOG
CT2220S14BAUTOG
24,5
24,5
24,5
24,5
24,5
24,5
22
22
22
22
22
22
22
+23/–0 42
+23/–0 42
+23/–0 40
+23/–0 40
+23/–0 40
+23/–0 40
+23/–0 40
1,0
1,0
1,0
2,5
5,0
1,0
1,5
1,8
1,8
2,5
3,0
3,0
238
239
240
242
244
245
245
276
276
276
276
276
276
276
10,0
10,0 15,0
CT2220S14BAUTOE2G2 24,5
24-V supply systems
CT2220K25AUTOE2G2
CT2220K30AUTOG
CT2220K30AUTOE2G2
40,0
45,0
45,0
39
47
47
10
10
10
65
77
77
10,0 10,0
3,0
3,0
3,0
245
245
245
275
275
275
10,0
4,0
10,0 10,0
1
2
3
4
Also called:
working voltage;
peak current;
transient energy
breakdown voltage
Notes
New ordering codes implemented (refer to chapter Varistor Type Cross-Reference List)
ꢀ If the maximum loads specified for load dump and jump start are fully utilized, subsequent
polarity reversal of the AUTO varistors is inadmissible.
ꢀ If the load remains under the maximum ratings, polarity reversal may be admissible.
Contact EPCOS for consultancy on this kind of problem.
ꢀ Load dump or jump start can decrease the varistor voltage in load direction by max. 15 %.
ꢀ Load dump: min. time of energy input 40 ms, interval 60 s.
(Note: The load dump time constant td differs from the time constant of the energy input)
134 10/00
SIOV Metal Oxide Varistors
Automotive – Silver Palladium Termination
Maximum ratings (TA = 125 °C)
1
2
3
Type
Ordering code
VRMS VDC
imax
Wmax
Pmax
WLD
(10x)
J
8/20 µs (2 ms)
SIOV-
NEW
V
V
A
J
W
12-V supply systems
CN0603S14BAUTOG
CN0805S14BAUTOG
CN1206S14BAUTOG
CN1210S14BAUTOG
CN1812S14BAUTOG
CN2220S14BAUTOG
B72500-V1140-S260 14
B72510-V1140-S262 14
B72520-V1140-S262 14
B72530-V1140-S262 14
B72580-V1140-S262 14
B72540-V1140-S262 14
16
16
16
16
16
16
16
30
120
200
400
800
0,2
0,3
0,6
1,6
2,4
5,8
5,8
0,003
0,008
0,008
0,010
0,015
—
1,0
1,5
3,0
6,0
1200
1200
0,030 12,0
0,030 25,0
CN2220S14BAUTOE2G2 B72540-V3140-S272 14
24-V supply systems
CN2220K25AUTOE2G2 B72540-V3250-K072 25
31
34
34
1200
1200
1200
9,6
12,0
12,0
0,030 25,0
0,030 12,0
0,030 25,0
CN2220K30AUTOG
B72540-V1300-K062 30
CN2220K30AUTOE2G2 B72540-V3300-K072 30
Characteristics (TA = 25 °C)
4
Type
VJump Vv
∆Vv
Max. clamping Ctyp
Ltyp
Der. V/I
(5 min) (1 mA) (1 mA)
voltage
(1 kHz)
nF
0,12
0,4
0,8
1,7
5,6
9,5
curve char.
v
V
i
A
SIOV-
V
V
%
nH
Page Page
12-V supply systems
CN0603S14BAUTOG
CN0805S14BAUTOG
CN1206S14BAUTOG
CN1210S14BAUTOG
CN1812S14BAUTOG
CN2220S14BAUTOG
24,5
24,5
24,5
24,5
24,5
24,5
22
22
22
22
22
22
22
+23/–0 42
+23/–0 42
+23/–0 40
+23/–0 40
+23/–0 40
+23/–0 40
+23/–0 40
1,0
1,0
1,0
2,5
5,0
1,0
1,5
1,8
1,8
2,5
3,0
3,0
238
239
240
242
244
245
245
276
276
276
276
276
276
276
10,0
10,0 15,0
CN2220S14BAUTOE2G2 24,5
24-V supply systems
CN2220K25AUTOE2G2 40,0
39
47
47
10
10
10
65
77
77
10,0 10,0
3,0
3,0
3,0
245
245
245
275
275
275
CN2220K30AUTOG
45,0
10,0
4,0
CN2220K30AUTOE2G2 45,0
10,0 10,0
1
2
3
4
Also called:
working voltage;
peak current;
transient energy
breakdown voltage
Notes
New ordering codes implemented (refer to chapter Varistor Type Cross-Reference List)
ꢀ If the maximum loads specified for load dump and jump start are fully utilized, subsequent
polarity reversal of the AUTO varistors is inadmissible.
ꢀ If the load remains under the maximum ratings, polarity reversal may be admissible.
Contact EPCOS for consultancy on this kind of problem.
ꢀ Load dump or jump start can decrease the varistor voltage in load direction by max. 15 %.
ꢀ Load dump: min. time of energy input 40 ms, interval 60 s.
(Note: The load dump time constant td differs from the time constant of the energy input)
135 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0522-A
102
A
imax
imax
tr
101
5
1x
100
5
_1
10
5
_2
101
10
5
102
5
103
5
µs 104
t r
SIOV-CT/CN0402L14G(K2)
SIOV-CT/CN0603K17LCG
VAR0524-Q
102
A
imax
imax
tr
101
5
1x
100
5
_1
10
5
_2
101
10
5
102
5
103
5
µs 104
t r
SIOV-CA05P4S17ALCGK2
SIOV-CA04P2S17ALCGK2
237 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-CT/CN0603M4G … K25G
SIOV-CT/CN0603S14BAUTOG
SIOV-CT/CN0805K17LCG
SIOV-CA06P4M7GK2 … S17ALCGK2
SIOV-CT/CN0805M4G
SIOV-CT/CN1206K35G … K60G
238 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-CT/CN0805M6G … K17G
SIOV-CT/CN0805S14BAUTOG
SIOV-CT/CN0805M6CCG
SIOV-CT/CN0805K20G … K30G
239 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-CT/CN1206M4G
SIOV-CT/CN1206M6G … K30G
SIOV-CT/CN1210K50G … K60G
SIOV-CT/CN1206S14BAUTOG
240 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-CT/CN1210M4G
SIOV-CT/CN1210K35G … K40G
SIOV-CT/CN1210M6G
SIOV-CT/CN1210K25G … K30G
241 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-CT/CN1210L8G … K20G
SIOV-CT/CN1812K50G … K60G
SIOV-CT/CN1210S14BAUTOG
SIOV-CT/CN1812M4G … M6G
SIOV-CT/CN1812K35G … K40G
242 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0416-T
103
A
imax
imax
tr
102
5
1x
2x
10x
102
103
105
x
x
x
101
5
104
106
x
x
100
5
_1
101
10
5
102
5
103
5
µs 104
t r
SIOV-CT/CN1812S60AG2
SIOV-CT/CN1812K75TELEG2
VAR0424-K
103
A
imax
imax
tr
102
5
1x
2x
10x
10
104
106
103
105
x
x
2x
101
5
x
x
100
5
_1
101
10
5
102
5
103
5
µs 104
t r
SIOV-CT/CN1812S95AG2
SIOV-CT/CN1812K115 … K130TELEG2
243 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-CT/CN1812L8G … K30G
SIOV-CT/CN1812S14BAUTOG
SHCV-SR1 … X/Z
SIOV-CT/CN2220K50G … K60G
244 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-CT/CN2220M4G
SIOV-CT/CN2220K35G … K40G
SIOV-CT/CN2220M6G … K30G
SHCV-SR2 … X/Z
245 10/00
SIOV-CT/CN2220 … AUTO(E2)G(2)
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S05K11 … K40
SIOV-CU3225K11G2 … K40G2
SIOV-CU3225K14AUTOG2 … K30AUTOG2
SIOV-S07K11 … K40
SIOV-CU4032K11G2 … K40G2
SIOV-S07K14AUTOS2D1
SIOV-CU4032K14AUTOG2 … K30AUTOG2
246 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S05K50 … K460
SIOV-CU3225K50G2 … K300G2
SIOV-S07K50 … K460
SIOV-S07S60AGS2/95AGS2
SIOV-CU4032K50G2 … K300G2
SIOV-CU4032S60AG2/S95AG2
247 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S10K11 … K40
SIOV-S10K14AUTO … K40AUTO
SIOV-S10K14AUTOS5D1
SIOV-S10K50 … K320
248 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S10K385 … K680
SIOV-S14K11 … K40
SIOV-S14K14AUTO … K40AUTO
SIOV-S14K14AUTOS5D1
249 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S14K50 … K320
SIOV-S14K385 … K1000
250 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S20K11 … K40
SIOV-S20K14AUTO … K30AUTO
SIOV-S20K50 … K115
251 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S20K130 … K320
SIOV-S20K385 … K460
252 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S20K510 … K1000
VAR0432-B
103
A
imax
imax
tr
102
5
1x
2
101
5
10
102
103
104
105
106
100
5
_1
101
10
5
102
5
103
5
µs 104
t r
SIOV-S05K11 … K40E2
253 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0426-A
103
A
imax
imax
tr
1x
2
102
5
10
102
103
104
105
106
101
5
100
5
_1
101
10
5
102
5
103
5
µs 104
t r
SIOV-S05K50 … K300E2
VAR0417-B
103
A
imax
imax
tr
102
5
1x
2
10
102
103
104
105
106
101
5
100
5
_1
101
10
5
102
5
103
5
µs 104
t r
SIOV-S07K11 … K40E2
254 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0434-R
104
A
imax
imax
tr
103
5
1x
2
102
5
10
102
103
104
105
106
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S07K50 … K320E2
VAR0425-S
103
A
imax
imax
tr
1x
2
102
5
10
102
103
104
105
106
101
5
100
5
_1
101
10
5
102
5
103
5
µs 104
t r
SIOV-S10K11 … K40E2
255 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0419-R
104
A
imax
imax
tr
103
5
1x
2
10
102
5
102
103
104
105
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S10K50 … K320E2
VAR0427-I
104
A
imax
imax
tr
103
5
1x
2
10
102
5
102
103
104
105
106
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S10K385 … K680E2
256 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0433-J
104
A
imax
imax
tr
103
5
1x
2
102
5
10
102
103
104
105
106
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S14K11 … K40E2
VAR0435-Z
104
A
imax
imax
tr
103
5
1x
2
10
102
103
104
105
102
5
106
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S14K50 … K320E2
257 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0420-E
104
A
imax
imax
tr
103
5
1x
2
10
102
102
5
103
104
105
106
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S14K385 … K680E2
VAR0428-Q
104
A
imax
imax
tr
103
5
1x
2
10
102
103
102
5
104
105
106
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S14K1000E2
258 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0418-J
104
A
imax
imax
tr
103
5
1x
2
10
102
102
5
103
104
105
106
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S20K11 … K40E2
VAR0436-H
104
A
imax
imax
tr
1x
2
103
5
10
102
103
104
105
106
102
5
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S20K50 … K320E2
259 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0437-P
104
A
imax
imax
tr
1x
2
103
5
10
102
103
104
105
106
102
5
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S20K385 … K680E2
VAR0445-Q
104
A
imax
imax
tr
1x
2
103
5
10
102
102
5
103
104
105
106
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-S20K1000E2
260 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0453-X
105
A
imax
imax
tr
104
5
1x
2
10
103
5
102
103
104
105
106
102
5
101
5
100
5
_1
101
10
5
102
5
103
5
µs 104
t r
SIOV-S20K115 … K320E3
261 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0438-X
104
A
imax
imax
tr
1x
2
103
5
10
102
103
102
5
104
105
106
101
5
100
5
_1
101
10
5
102
5
103
5
µs 104
t r
SIOV-Q14K130 … K320
VAR0446-O
105
A
imax
imax
tr
104
5
1x
103
5
10
102
103
102
5
104
105
106
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-Q20K130 … K320
262 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-B32K130 … K150
SIOV-B40K75
SIOV-B32K230 … K460
263 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-B32K550 … K750
SIOV-B40K130 … K150
SIOV-LS40K130QP … K150QP(K2)
264 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-B40K230 … K460
SIOV-LS40K230QP … K460QP(K2)
SIOV-B40K550 … K750
SIOV-LS40K550QP … K750QP(K2)
265 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
VAR0454-F
105
A
imax
imax
tr
104
5
1x
2x
10x
102
103
x
x
103
5
104
x
102
5
105
106
x
x
101
5
100
101
5
102
5
103
5
µs 104
t r
SIOV-LS50K130 … K550P(K2)
SIOV-B60K130 … K150
266 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-B60K230 … K460
SIOV-B60K550 … K1000
267 10/00
SIOV Metal Oxide Varistors
Derating Curves
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-B80K130 … K1100
268 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0439-F
200
V
A
B
v
100
80
60
40
20
10
8
6
4
2
1
_5
_4
_3
_2
_1
10
10
10
10
10
100
101
102
103
A
104
i
SIOV-CT/CN0402L14G(K2)
VAR0449-M
200
V
A
B
v
100
80
60
17
7
40
17
20
7
10
8
6
4
2
1
_5
_4
_3
_2
_1
10
10
10
10
10
100
101
102
103
A
104
i
SIOV-CA06P4M7GK2
SIOV-CA06P4S17ALCGK2
SIOV-CA05P4S17ALCGK2
SIOV-CA04P2S17ALCGK2
269 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0447-W
1000
V
A
B
v
600
400
200
100
80
60
25
20
40
14
8
17
11
20
25
6
20
14
17
7
4
11
7
8
6
10
8
6
4
4
2
1
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
A
103
7
i
SIOV-CT/CN0603M4G … K25G
SIOV-CT/CN0603K17LCG
270 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0455-N
1000
V
A
B
v
600
400
200
100
80
60
40
30
20
25
17
11
17(LC)
25
30
20
14
8
17(LC)
6(CC)
20
11
14
8
4
10
8
6(CC)
6
4
4
2
1
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
A
103
i
SIOV-CT/CN0805M4G … K30G
SIOV-CT/CN0805K17LCG
SIOV-CT/CN0805M6CCG
271 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0440-S
1000
V
A
B
v
600
400
200
60
50
35
25
100
40
80
50
60
60
40
30
20
35
25
40
30
17
11
14
8
20
14
17
11
6
20
4
10
8
8
6
6
4
4
2
1
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
A
103
i
SIOV-CT/CN1206M4G … K60G
272 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0448-E
1000
V
A
B
v
600
400
200
60
50
100
40
80
60
35
25
50
35
25
60
40
30
20
30
20
40
17
11
6
14
8
17
11
20
14
8
4
10
8
6
6
4
4
2
1
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
A
103
i
SIOV-CT/CN1210M4G … K60G
273 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0456-V
1000
V
A
B
v
600
400
200
60
50
100
40
80
60
35
25
17
50
35
25
17
60
30
20
40
30
40
14
8
11
6
20
14
20
11
6
4
10
8
8
4
6
4
2
1
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
A
103
i
SIOV-CT/CN1812M4G … K60G
^
=
SHCV-SR1K20M … X/Z
1812
274 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0441-A
1000
V
A
B
v
600
400
200
60
50
100
40
80
60
35
50
60
30
25
35
40
40
20
17
11
6
25
17
30
20
14
8
20
11
6
14
8
4
10
8
6
4
4
2
1
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
103
A 104
i
^
2220
=
SIOV-CT/CN2220M4G … K60G
SIOV-CT/CN2220K25G … K30AUTO(E2)G(2)
SHCV-SR2K20M … X/Z
275 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0457-D
1000
V
A
B
v
600
400
200
0603
100
80
0805
1206
1210
1812
2220
60
40
S14B
S14B
20
10
8
6
4
2
1
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
A
103
i
SIOV-CT/CN0603S14BAUTOG … 2220S14BAUTOG
SIOV-CN2220S14BAUTOE2G2
^
^
2220
SHCV-SR1S14B … X/Z
1812
SHCV-SR2S14B … X/Z
=
=
276 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0442-I
600
A
B
V
v
400
95
60
200
95
60
100
80
60
_5
_4
_3
_2
_1
10
10
10
10
10
100
101
102
A
103
i
SIOV-CT/CN1812S60AG2 … S95AG2
VAR0450-Z
600
V
v
400
130
115
75
200
130
115
75
100
80
60
_5
_4
_3
_2
_1
10
10
10
10
10
10 0
10 1
10 2
A
10 3
i
SIOV-CT/CN1812K75G2 … K130G2
277 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0458-L
6000
V
4000
A
B
v
2000
420
440
460
385
1000
800
440
420
300
250
275
230
600
460
385
400
300
250
210
175
275
230
140
115
150
130
210
150
130
200
175
140
115
95
75
60
40
95
100
80
35
25
50
75
50
60
30
20
60
40
30
20
17
11
40
35
25
14
20
14
17
11
10
8
6
4
2
1
_5
_4
_3
_2
_1
10
10
10
10
10
100
101
102
A
103
7
i
SIOV-S05 … (E2)
SIOV-CU3225 … (AUTO)G2
278 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0443-Q
6000
V
4000
A
B
v
2000
440
420
1000
460
385
800 420
440
320
275
230
600
460
300
250
320
275
385
400
210
175
140
115
300
250
150
130
230
175
140
210
200
95
150
75
115
130
60
40
95
100
75
50
50
35
25
80
60
30
20
60
35
25
17
11
40
40
30
14
17
11
20
14
20
10
8
6
4
2
1
_5
_4
_3
_2
_1
10
10
10
10
10
100
101
102
103
A 104
7
i
SIOV-S07 … (D1)(E2)
SIOV-CU4032 … (AUTO)G2
279 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0451-H
10000
V
A
B
v
6000
4000
460
440
2000
680
550
625
510
1000
800
680
420
385
550
460
420
625
510
320
275
230
440
600
400
300
250
210
385
320
275
230
300
250
210
175
150
130
140
115
150
130
200
175
140
115
95
75
95
60
40
60
40
100
80
50
75
50
35
25
17
30
20
60
40
30
20
35
25
17
14
11
20
14
11
10
8
6
4
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
103
A 104
i
SIOV-S10 … (AUTO)(D1)(E2)
280 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0459-T
10000
V
A
B
v
6000
4000
1000
420
2000
440
1000
680
625
625
550
460
1000
800
625
510
680
385
550
460
440
320
275
230
300
250
210
600
400
420
320
385
275
230
300
250
210
175
140
115
150
130
175
140
115
200
95
60
150
130
75
95
75
50
50
35
100
80
40
60
30
20
60
40
25
17
11
35
25
17
11
40
14
30
20
14
20
10
8
6
4
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
103
A 104
i
SIOV-S14 … (AUTO)(D1)(E2)
281 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0444-Y
10000
V
A
B
v
6000
4000
1000
2000
1000
680
550
460
420
625
510
440
385
1000
800 680
625
510
440
385
550
320
275
230
600
400
300
250
210
460
420
300
250
320
275
230
175
140
115
150
130
210
150
130
200
175
140
115
95
75
50
35
95
60
60
40
100
80
75
30
20
14
60
40
40
30
20
50
35
25
17
25
17
11
20
14
11
10
8
6
4
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
103
104 A 105
i
SIOV-S20 … (AUTO)(E2)(E3)
282 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0452-P
5000
[V]
A
B
v
320
320
300
275
250
230
210
175
300
275
250
230
210
175
2000
1000
800
600
400
200
150
140
130
150
140
130
100
80
60
50
_5
_4
_3
_2
_1
10
10
10
10
10
10 0
10 1
10 2
10 3 [A] 10 4
i
SIOV-Q14
VAR0460-G
5000
V
A
B
v
320
300
275
250
230
210
175
320
2000
300
275
250
230
210
175
1000
800
600
400
200
150
140
130
150
140
130
100
80
60
50
_5
_4
_3
_2
_1
10
10
10
10
10
10 0
10 1
10 2
10 3
10 4
A
10 5
i
SIOV-Q20
283 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0461-O
5000
V
A
B
v
2000
1000
800
600
400
95
200
95
60
60
100
80
60
50
_5
_4
_3
_2
_1
10
10
10
10
10
10 0
10 1
10 2
10 3
A
10 4
i
SIOV-S07S60A … S95AG2
SIOV-CU4032S60A … S95AG2
284 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
SIOV-B32K130 … K750
285 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0233-X
20000
V
v
A
B
10000
8000
6000
4000
2000
750
550
420
680
1000
800
460
385
680
750
440
440
460
385
600
400
320
250
275
230
550
420
275
230
320
250
150
130
140
200
140
75
150
130
100
80
75
60
40
20
10
10 -5
10 -4
10 -3
10 -2
10 -1
10 0
10 1
10 2
10 3
10 4
A
10 5
i
SIOV-B40K75 … K750
SIOV-LS40K130QP … K750QP(K2)
286 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
SIOV-B60K130 … K1000
287 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0513-B
8000
V
A
B
v
6000
5000
4000
3000
2000
550
440
1000
900
800
700
460
420
385
320
550
440
420
600
500
275
230
250
385
320
460
400
300
150
130
250
275
230
200
150
130
100
90
80
10
_5
_4
_3
_2
_1
10
10
10
10
100
101
102
103
104
A
105
i
SIOV-LS50K130PK2 … K550PK2
SIOV-LS50K130P … K550P
288 10/00
SIOV Metal Oxide Varistors
V/I Characteristics
v = f (i) – for explanation of the characteristics
A = Leakage current
B = Protection level
for worst-case
varistor tolerances
refer to section 1.6.3
VAR0531-Z
10000
V
A
B
8000
7000
v
6000
5000
4000
3000
1100
680
2000
750
550
420
1100
440
1000
900
800
700
460
385
680
460
750
550
320
250
600
500
275
230
385
440
420
400
300
275
150
320
250
230
130
200
130
150
100
_5
_4
_3
_2
_1
10
10
10
10
10
100
101
102
103
104
A
105
i
SIOV-B80K130 … K1100
289 10/00
Herausgegeben von EPCOS AG
Marketing Kommunikation, Postfach 80 17 09, 81617 München, DEUTSCHLAND
EPCOS AG 2000. Alle Rechte vorbehalten. Vervielfältigung, Veröffentlichung, Verbreitung und
Verwertung dieser Broschüre und ihres Inhalts ohne ausdrückliche Genehmigung der EPCOS AG
nicht gestattet.
Mit den Angaben in dieser Broschüre werden die Bauelemente spezifiziert, keine Eigenschaften
zugesichert. Bestellungen unterliegen den vom ZVEI empfohlenen Allgemeinen Lieferbedingungen
für Erzeugnisse und Leistungen der Elektroindustrie, soweit nichts anderes vereinbart wird.
Diese Broschüre ersetzt die vorige Ausgabe.
Fragen über Technik, Preise und Liefermöglichkeiten richten Sie bitte an den Ihnen nächstgele-
genen Vertrieb der EPCOS AG oder an unsere Vertriebsgesellschaften im Ausland.
Bauelemente können aufgrund technischer Erfordernisse Gefahrstoffe enthalten. Auskünfte
darüber bitten wir unter Angabe des betreffenden Typs ebenfalls über die zuständige Vertriebsge-
sellschaft einzuholen.
Published by EPCOS AG
Marketing Communications, P.O. Box 80 17 09, 81617 Munich, GERMANY
EPCOS AG 2000. All Rights Reserved. Reproduction, publication and dissemination of this bro-
chure and the information contained therein without EPCOS’ prior express consent is prohibited.
The information contained in this brochure describes the type of component and shall not be con-
sidered as guaranteed characteristics. Purchase orders are subject to the General Conditions for
the Supply of Products and Services of the Electrical and Electronics Industry recommended by the
ZVEI (German Electrical and Electronic Manufacturers’ Association), unless otherwise agreed.
This brochure replaces the previous edition.
For questions on technology, prices and delivery please contact the Sales Offices of EPCOS AG or
the international Representatives.
Due to technical requirements components may contain dangerous substances. For information on
the type in question please also contact one of our Sales Offices.
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