143 10/00
Monolithic (CU)
Standard
Construction
■Cylindrical varistor element, encapsulated
■Encapsulation: thermoplast, flame-retardant to UL 94 V-0
■Termination: tinned copper alloy
Features
■Electrical equivalents to leaded
types SIOV-S05/S07 up to 460 VRMS
■Good solderability
■PSpice models
■Approvals UL and CSA
Taping
■Supply on 16-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
Note: Contact EPCOS for consultancy if solvents on water-base are used for cleaning.
General technical data
Climatic category
LCT
UCT
Damp heat, steady state
(93 % r.h., 40 °C)
40/85/56
– 40
°C
+ 85
°C
56 days
in accordance with IEC 60068-1
in accordance with IEC 60068-2-3
Operating temperature – 40 … + 85 °C in accordance with CECC 42 000
Storage temperature – 40 … + 125 °C
Electric strength ≥ 2,5 kVRMS in accordance with CECC 42 000
Insulation resistance ≥ 1,0 GΩin accordance with CECC 42 000
Response time < 10 ns
Solderability 235 °C, 2 s in accordance with IEC 60068-2-58
Resistance to soldering heat 260 °C, 10 s in accordance with IEC 60068-2-20
EPCOS metal oxide varistor
SIOV-CU 4032 K 275 G2
Design
Size (nominal)
Taping mode
Max. AC operating voltage
Tolerance of varistor voltage
SIOV Metal Oxide Varistors
SMD Varistors, Monolithic (Standard Series)
144 10/00
Maximum ratings (TA = 85 °C)
Type
SIOV-
Ordering code
NEW
VRMS
V
VDC
V
imax
8/20 µs
A
Wmax
(2 ms)
J
Pmax
W
CU3225K11G2 B72650-M110-K72 11 14 100 0,3 0,01
CU4032K11G2 B72660-M110-K72 11 14 250 0,8 0,02
CU3225K14G2 B72650-M140-K72 14 18 100 0,4 0,01
CU4032K14G2 B72660-M140-K72 14 18 250 0,9 0,02
CU3225K17G2 B72650-M170-K72 17 22 100 0,5 0,01
CU4032K17G2 B72660-M170-K72 17 22 250 1,1 0,02
CU3225K20G2 B72650-M200-K72 20 26 100 0,6 0,01
CU4032K20G2 B72660-M200-K72 20 26 250 1,3 0,02
CU3225K25G2 B72650-M250-K72 25 31 100 0,7 0,01
CU4032K25G2 B72660-M250-K72 25 31 250 1,6 0,02
CU3225K30G2 B72650-M300-K72 30 38 100 0,9 0,01
CU4032K30G2 B72660-M300-K72 30 38 250 2,0 0,02
CU3225K35G2 B72650-M350-K72 35 45 100 1,1 0,01
CU4032K35G2 B72660-M350-K72 35 45 250 2,5 0,02
CU3225K40G2 B72650-M400-K72 40 56 100 1,3 0,01
CU4032K40G2 B72660-M400-K72 40 56 250 3,0 0,02
CU3225K50G2 B72650-M500-K72 50 65 400 1,8 0,10
CU4032K50G2 B72660-M500-K72 50 65 1200 4,2 0,25
CU3225K60G2 B72650-M600-K72 60 85 400 2,2 0,10
CU4032K60G2 B72660-M600-K72 60 85 1200 4,8 0,25
CU3225K75G2 B72650-M750-K72 75 100 400 2,5 0,10
CU4032K75G2 B72660-M750-K72 75 100 1200 5,9 0,25
CU3225K95G2 B72650-M950-K72 95 125 400 3,4 0,10
CU4032K95G2 B72660-M950-K72 95 125 1200 7,6 0,25
CU3225K115G2 B72650-M111-K72 115 150 400 3,6 0,10
CU4032K115G2 B72660-M111-K72 115 150 1200 8,4 0,25
CU3225K130G2 B72650-M131-K72 130 170 400 4,2 0,10
CU4032K130G2 B72660-M131-K72 130 170 1200 9,5 0,25
CU3225K140G2 B72650-M141-K72 140 180 400 4,5 0,10
CU4032K140G2 B72660-M141-K72 140 180 1200 10,0 0,25
Note: New ordering codes implemented (refer to chapter Varistor Type Cross-Reference List)
Standard
SIOV Metal Oxide Varistors
145 10/00
Characteristics (TA = 25 °C)
Type
SIOV-
Vv
(1 mA)
V
∆Vv
(1 mA)
%
Max. clamping voltage Ctyp
(1 kHz)
pF
Derating
curve
Page
V/I char-
acteristic
Page
v
V
i
A
CU3225K11G2 18 ± 10 36 1,0 1750 246 278
CU4032K11G2 18 ± 10 36 2,5 2750 246 279
CU3225K14G2 22 ± 10 43 1,0 1450 246 278
CU4032K14G2 22 ± 10 43 2,5 2300 246 279
CU3225K17G2 27 ± 10 53 1,0 1200 246 278
CU4032K17G2 27 ± 10 53 2,5 1900 246 279
CU3225K20G2 33 ± 10 65 1,0 980 246 278
CU4032K20G2 33 ± 10 65 2,5 1600 246 279
CU3225K25G2 39 ± 10 77 1,0 850 246 278
CU4032K25G2 39 ± 10 77 2,5 1400 246 279
CU3225K30G2 47 ± 10 93 1,0 720 246 278
CU4032K30G2 47 ± 10 93 2,5 1200 246 279
CU3225K35G2 56 ± 10 110 1,0 620 246 278
CU4032K35G2 56 ± 10 110 2,5 1050 246 279
CU3225K40G2 68 ± 10 135 1,0 520 246 278
CU4032K40G2 68 ± 10 135 2,5 900 246 279
CU3225K50G2 82 ± 10 135 5,0 300 247 278
CU4032K50G2 82 ± 10 135 10,0 530 247 279
CU3225K60G2 100 ± 10 165 5,0 250 247 278
CU4032K60G2 100 ± 10 165 10,0 480 247 279
CU3225K75G2 120 ± 10 200 5,0 210 247 278
CU4032K75G2 120 ± 10 200 10,0 430 247 279
CU3225K95G2 150 ± 10 250 5,0 135 247 278
CU4032K95G2 150 ± 10 250 10,0 260 247 279
CU3225K115G2 180 ± 10 300 5,0 110 247 278
CU4032K115G2 180 ± 10 300 10,0 220 247 279
CU3225K130G2 205 ± 10 340 5,0 100 247 278
CU4032K130G2 205 ± 10 340 10,0 200 247 279
CU3225K140G2 220 ± 10 360 5,0 95 247 278
CU4032K140G2 220 ± 10 360 10,0 180 247 279
Standard
SIOV Metal Oxide Varistors
146 10/00
CU3225K150G2 B72650-M151-K72 150 200 400 4,9 0,10
CU4032K150G2 B72660-M151-K72 150 200 1200 11,0 0,25
CU3225K175G2 B72650-M171-K72 175 225 400 5,6 0,10
CU4032K175G2 B72660-M171-K72 175 225 1200 13,0 0,25
CU3225K230G2 B72650-M231-K72 230 300 400 7,2 0,10
CU4032K230G2 B72660-M231-K72 230 300 1200 17,0 0,25
CU3225K250G2 B72650-M251-K72 250 320 400 8,2 0,10
CU4032K250G2 B72660-M251-K72 250 320 1200 19,0 0,25
CU3225K275G2 B72650-M271-K72 275 350 400 8,6 0,10
CU4032K275G2 B72660-M271-K72 275 350 1200 21,0 0,25
CU3225K300G2 B72650-M301-K72 300 385 400 9,6 0,10
CU4032K300G2 B72660-M301-K72 300 385 1200 23,0 0,25
CU4032K460G2 B72660-M461-K72 460 615 1000 36,0 0,25
Maximum ratings (TA = 85 °C)
Type
SIOV-
Ordering code
NEW
VRMS
V
VDC
V
imax
8/20 µs
A
Wmax
(2 ms)
J
Pmax
W
Note: New ordering codes implemented (refer to chapter Varistor Type Cross-Reference List)
Standard
SIOV Metal Oxide Varistors
147 10/00
CU3225K150G2 240 ± 10 395 5,0 90 247 278
CU4032K150G2 240 ± 10 395 10,0 170 247 279
CU3225K175G2 270 ± 10 455 5,0 75 247 278
CU4032K175G2 270 ± 10 455 10,0 150 247 279
CU3225K230G2 360 ± 10 595 5,0 60 247 278
CU4032K230G2 360 ± 10 595 10,0 115 247 279
CU3225K250G2 390 ± 10 650 5,0 55 247 278
CU4032K250G2 390 ± 10 650 10,0 105 247 279
CU3225K275G2 430 ± 10 710 5,0 50 247 278
CU4032K275G2 430 ± 10 710 10,0 95 247 279
CU3225K300G2 470 ± 10 775 5,0 45 247 278
CU4032K300G2 470 ± 10 775 10,0 90 247 279
CU4032K460G2 750 ± 10 1240 10,0 55 upon
request
279
Characteristics (TA = 25 °C)
Type
SIOV-
Vv
(1 mA)
V
∆Vv
(1 mA)
%
Max. clamping voltage Ctyp
(1 kHz)
pF
Derating
curve
Page
V/I char-
acteristic
Page
v
V
i
A
Standard
SIOV Metal Oxide Varistors
237 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-CT/CN0402L14G(K2)
SIOV-CT/CN0603K17LCG
SIOV-CA05P4S17ALCGK2
SIOV-CA04P2S17ALCGK2
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0522-A
0
10
1
10
2
10
A
5
5
5
10
2
_
1
10
_
1x
imax
r
t
5
1
10 2
510 101035µs 4
i
trmax
VAR0524-Q
0
10
1
10
2
10
A
5
5
5
10 2
_
1
10
_
1x
Derating Curves
SIOV Metal Oxide Varistors
238 10/00
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/CN0805K17LCG
SIOV-CT/CN0603S14BAUTOG SIOV-CA06P4M7GK2 … S17ALCGK2
SIOV-CT/CN0805M4G SIOV-CT/CN1206K35G … K60G
Derating Curves
SIOV Metal Oxide Varistors
239 10/00
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/CN0805M6CCG
SIOV-CT/CN0805S14BAUTOG
SIOV-CT/CN0805K20G … K30G
Derating Curves
SIOV Metal Oxide Varistors
240 10/00
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/CN1206S14BAUTOG
SIOV-CT/CN1210K50G … K60G
Derating Curves
SIOV Metal Oxide Varistors
241 10/00
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
Derating Curves
SIOV Metal Oxide Varistors
242 10/00
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/CN1210S14BAUTOG
SIOV-CT/CN1812K50G … K60G
SIOV-CT/CN1812M4G … M6G SIOV-CT/CN1812K35G … K40G
Derating Curves
SIOV Metal Oxide Varistors
243 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-CT/CN1812S60AG2 SIOV-CT/CN1812K75TELEG2
SIOV-CT/CN1812S95AG2 SIOV-CT/CN1812K115 … K130TELEG2
imax
r
t
5
1
10 2
510 101035µs 4
i
trmax
VAR0416-T
3
4
2
5
6
1010
10
10
10
10x
1x
x
x
x
x
x
2x
0
10
1
10
2
10
3
10
A
5
5
5
10 1
_
imax
r
t
5
1
10 2
510 1010354
VAR0424-K
3
4
2
5
6
1010
10
10
10
10x
1x
x
x
x
x
x
2x
0
10
1
10
2
10
3
10
A
5
5
5
10
_
1
µs
trmax
i
Derating Curves
SIOV Metal Oxide Varistors
244 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-CT/CN1812L8G … K30G SHCV-SR1 … X/Z
SIOV-CT/CN1812S14BAUTOG
SIOV-CT/CN2220K50G … K60G
Derating Curves
SIOV Metal Oxide Varistors
245 10/00
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 SIOV-CT/CN2220 … AUTO(E2)G(2)
Derating Curves
SIOV Metal Oxide Varistors
246 10/00
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
Derating Curves
SIOV Metal Oxide Varistors
247 10/00
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-CU4032K50G2 … K300G2
SIOV-S07S60AGS2/95AGS2 SIOV-CU4032S60AG2/S95AG2
Derating Curves
SIOV Metal Oxide Varistors
248 10/00
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
Derating Curves
SIOV Metal Oxide Varistors
249 10/00
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
Derating Curves
SIOV Metal Oxide Varistors
250 10/00
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
Derating Curves
SIOV Metal Oxide Varistors
251 10/00
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
Derating Curves
SIOV Metal Oxide Varistors
252 10/00
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
Derating Curves
SIOV Metal Oxide Varistors
253 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S20K510 … K1000
SIOV-S05K11 … K40E2
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0432-B
4
2
6
10
10
10
10
1x
2
10
3
10
5
10
5
10
_
1
0
5
5
A
10
10
10
1
2
3
Derating Curves
SIOV Metal Oxide Varistors
254 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S05K50 … K300E2
SIOV-S07K11 … K40E2
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0426-A
4
2
6
10
10
10
10
1x
2
10
3
10
5
10
5
10
_
1
0
5
5
A
10
10
10
1
2
3
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0417-B
4
2
6
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
10
1
_
10
3
5
10
Derating Curves
SIOV Metal Oxide Varistors
255 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S07K50 … K320E2
SIOV-S10K11 … K40E2
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0434-R
3
4
2
5
6
10
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
10
4
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0425-S
4
2
6
10
10
10
10
1x
2
10
3
10
5
10
5
10
_
1
0
5
5
A
10
10
10
1
2
3
Derating Curves
SIOV Metal Oxide Varistors
256 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S10K50 … K320E2
SIOV-S10K385 … K680E2
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0419-R
3
4
2
5
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
10
4
imax
r
t
5
1
10 2
510 101035µs 4
i
trmax
VAR0427-I
3
4
2
5
6
10
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
104
Derating Curves
SIOV Metal Oxide Varistors
257 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S14K11 … K40E2
SIOV-S14K50 … K320E2
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0433-J
3
4
2
5
6
10
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
10
4
imax
r
t
5
1
10 2
510 101035µs 4
i
trmax
VAR0435-Z
3
4
2
5
6
10
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
104
Derating Curves
SIOV Metal Oxide Varistors
258 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S14K385 … K680E2
SIOV-S14K1000E2
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0420-E
3
4
2
5
6
10
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
10
4
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0428-Q
3
4
2
5
6
10
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
10
4
Derating Curves
SIOV Metal Oxide Varistors
259 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S20K11 … K40E2
SIOV-S20K50 … K320E2
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0418-J
3
4
2
5
6
10
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
10
4
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0436-H
3
4
2
5
6
10
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
10
4
Derating Curves
SIOV Metal Oxide Varistors
260 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S20K385 … K680E2
SIOV-S20K1000E2
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0437-P
3
4
2
5
6
10
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
10
4
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
i
t
rmax
VAR0445-Q
3
4
2
5
6
10
10
10
10
10
10
1x
2
0
10
1
10
2
10
3
10
A
5
5
5
10
4
Derating Curves
SIOV Metal Oxide Varistors
261 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-S20K115 … K320E3
i
10
0
10
1
10
2
10
3
10
4
10
5
max
r
t
5
1
10
2
510 1010
3
5µs
4
1x
2
10
10
2
10
3
10
4
10
5
10
6
VAR0453-X
A
5
5
5
5
5
_
10
1
t
rmax
i
Derating Curves
SIOV Metal Oxide Varistors
262 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-Q14K130 … K320
SIOV-Q20K130 … K320
imax
r
t
5
1
10 2
510 101035µs 4
VAR0438-X
0
10
1
10
2
10
3
10
104
A
3
10
10 6
4
10 5
10
2
10
10 2
1x
5
5
5
1
10
10
_
trmax
i
5
i
max
r
t
5
1
10
2
510 1010
3
5µs
4
VAR0446-O
1
10
2
10
3
10
4
10
10
5
A
3
4
2
5
6
10
10
10
10
10
10
1x
5
5
5
5
10
0
t
rmax
i
Derating Curves
SIOV Metal Oxide Varistors
263 10/00
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
Derating Curves
SIOV Metal Oxide Varistors
264 10/00
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)
Derating Curves
SIOV Metal Oxide Varistors
265 10/00
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)
Derating Curves
SIOV Metal Oxide Varistors
266 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-LS50K130 … K550P(K2)
SIOV-B60K130 … K150
i
10
0
max
r
t
5
1
10
2
510 1010
3
5µs
4
VAR0454-F
1
10
2
10
3
10
4
10
10
5
A
3
4
2
5
6
10
10
10
10
10
10x
1x
x
x
x
x
x
2x
5
5
5
5
t
rmax
i
Derating Curves
SIOV Metal Oxide Varistors
267 10/00
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
Derating Curves
SIOV Metal Oxide Varistors
268 10/00
Maximum surge current
imax = f (tr, pulse train – for explanation of the derating curves refer to section 1.8.1)
SIOV-B80K130 … K1100
Derating Curves
SIOV Metal Oxide Varistors
269 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-CT/CN0402L14G(K2)
SIOV-CA06P4M7GK2 SIOV-CA05P4S17ALCGK2
SIOV-CA06P4S17ALCGK2 SIOV-CA04P2S17ALCGK2
v
i
10010 1102103104
A
1
VAR0439-F
2
4
6
8
10
20
40
60
80
100
200
V
10 5
_
10 4
_
10
_
310
_
210
_
1
A B
v
i
1
VAR0449-M
2
4
6
8
10
20
40
60
80
100
200
V
17
7
17
7
10
_
54
10
_
3
10
_
10
_
2
_
10 10
10 1
10 2
10 A103104
A B
V/I Characteristics
SIOV Metal Oxide Varistors
270 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-CT/CN0603M4G … K25G SIOV-CT/CN0603K17LCG
VAR0447-W
1
i
A
v
2
10
20
40
60
80
100
200
400
600
V
1000
B
4
6
8
25
17
11
7
4
20
14
8
6
25 20
17
11
14
4
7
6
8
7
5
10
_
4
10
__
10 3
_
10 210 1
_
10010 110 210A3
V/I Characteristics
SIOV Metal Oxide Varistors
271 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-CT/CN0805M4G … K30G SIOV-CT/CN0805K17LCG SIOV-CT/CN0805M6CCG
VAR0455-N
1
i
A
v
2
10
20
40
60
80
100
200
400
600
V
1000
B
4
6
8
30
20
14
8
4
25
17(LC)
11
6(CC)
30
20
14
8
4
25
17
11
6(CC)
17(LC)
A10
5
_
10
4
_
10
3
_
2
10
_
10
_
10
10 10
1
10
2
10
3
V/I Characteristics
SIOV Metal Oxide Varistors
272 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-CT/CN1206M4G … K60G
VAR0440-S
10
1
i
A
v
2
10
20
40
60
80
100
200
400
600
V
1000
B
10 10 10 10
0
10
1
10
2
10
3
10A
4
6
8
60
40
30
20
14
8
4
50
35
25
17
11
6
60
40
30
20
14
8
4
50
35
25
17
11
6
_
54
_
3
_
2
_
1
_
V/I Characteristics
SIOV Metal Oxide Varistors
273 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-CT/CN1210M4G … K60G
VAR0448-E
1
i
A
v
2
4
6
8
10
20
40
60
80
100
200
400
600
V
1000
B
17
8
14
4
4
8
14
20
30
6
11
17
25
6
11
60
40
30
20
40
60
35
50
25
35
50
10
_
54
10
__
10
3
10
2
_
10
1
_
10
0
10
1
10
2
10A
3
V/I Characteristics
SIOV Metal Oxide Varistors
274 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-CT/CN1812M4G … K60G
SHCV-SR1K20M … X/Z 1812
VAR0456-V
1
i
A
v
2
4
6
8
10
20
40
60
80
100
200
400
600
V
1000
B
60
40
30
20
14
8
4
6
11
50
35
25
17
60
40
30
20
14
8
4
6
11
17
25
35
50
A10 1010
5
_
4
__
3
_
10
2
10
1
_
10
0
10
12
10
3
10
=
^
V/I Characteristics
SIOV Metal Oxide Varistors
275 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-CT/CN2220M4G … K60G SHCV-SR2K20M … X/Z 2220
SIOV-CT/CN2220K25G … K30AUTO(E2)G(2)
VAR0441-A
10
0
10
1
10
2
10
3
10
4
1
i
A
A
v
2
4
6
8
10
20
40
60
80
100
200
400
600
V
1000
60
40
30
20
14
8
4
50
35
25
17
11
6
60
40
30
20
14
8
4
50
35
25
17
11
6
B
10
5
_
10
_
4
10
_
3
10
_
2
10
_
1
=
^
V/I Characteristics
SIOV Metal Oxide Varistors
276 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-CT/CN0603S14BAUTOG … 2220S14BAUTOG SIOV-CN2220S14BAUTOE2G2
SHCV-SR1S14B … X/Z 1812 SHCV-SR2S14B … X/Z 2220
VAR0457-D
1
i
A
v
2
4
6
8
10
20
40
60
80
100
200
400
600
V
1000
B
0603
0805
1206
1210
2220
1812
S14B
S14B
A10 10
_
5
_
4
_
10 310 2
_
10 1
_
10010 12
10 103
=
^=
^
V/I Characteristics
SIOV Metal Oxide Varistors
277 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-CT/CN1812S60AG2 … S95AG2
SIOV-CT/CN1812K75G2 … K130G2
v
i
60
VAR0442-I
10010 1102103
A
80
100
200
400
600
V
95
60
95
60
10
_
510
_
410
_
310
_
210
_
1
A B
v
i
60
VAR0450-Z
10 010 110 210 3
A
80
100
200
400
600
V
130
115
75
75
115
130
5
10
_
10
_
43
10
_
2
10
_
1
10
_
V/I Characteristics
SIOV Metal Oxide Varistors
278 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-S05 … (E2) SIOV-CU3225 … (AUTO)G2
VAR0458-L
1
i
A
v
2
B
4
6
8
10
20
60
80
100
40
200
400
600
800
1000
2000
4000
6000
V
460
440
300
385
420
275
250
210
230
175
140
115
75
150
130
95
60
4050 35
25
17
11
30
20
14
14
17
25 20
30
35
50 40
6075
95
115
130
150
210
250
300
140
175
230
275
385
460 420
440
7
A10 5
_
10 4
_
3
10
_
2
10
__
10 110010 110 2103
11
V/I Characteristics
SIOV Metal Oxide Varistors
279 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-S07 … (D1)(E2) SIOV-CU4032 … (AUTO)G2
VAR0443-Q
1
i
A
v
2
B
4
6
8
20
60
80
100
40
200
400
600
800
1000
2000
4000
6000
V
7
10010 110 210310A 4
10
14
20
30
40
60
95
130
150
210
250
300
385
460
440420
320
275
230
175
140
115
75
50
35
25
17
11
420440
460
385 320
300
250
210
150
130
95
60
40
30
20
14
275
230
175
140
115
75
50 35
25
17
11
5
10
_
4
10
_
10
_
3
_
10 210 1
_
V/I Characteristics
SIOV Metal Oxide Varistors
280 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-S10 … (AUTO)(D1)(E2)
VAR0451-H
4
i
A
vB
6
8
10
20
40
60
80
100
200
400
600
800
1000
2000
4000
6000
V
10000
11
17
25
35
50
14
20
30
40
75
115
140
175
230
275
60
95
130
150
210
250
300
420
320
385
440
460
510
625 550
680
680
625
510
550
385
420
460 440
320
275
230
175
140
115
300
250
210
150
130
95
60
40
50
30
20
14
75
35
25
17
11
101010
5
_
4
__
3
_
10
2
10
_
1
10
0
10
1
10
2
10
3
10A
4
V/I Characteristics
SIOV Metal Oxide Varistors
281 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-S14 … (AUTO)(D1)(E2)
VAR0459-T
4
i
A
v
10
B
8
6
20
40
60
80
100
200
400
600
800
1000
2000
4000
6000
V
10000
680
550
460
625
510
420
385
440
275
320
230
300
250
210
150
130
95
60
40
30
20
14
175
140
115
75
50
35
25
17
11
680 625
550
460
625
440
420
385
300
250
210
150
130
95
60
320
275
230
175
140
115
75
50
35
25
17
11
30
40
20
14
101010 5
_
4
__
3
_
10 210
_
110010 110 210310A4
1000
1000
V/I Characteristics
SIOV Metal Oxide Varistors
282 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-S20 … (AUTO)(E2)(E3)
VAR0444-Y
4
i
A
vB
6
8
10
20
40
60
80
100
200
400
600
800
1000
2000
4000
6000
V
10000
10
0
10
1
10
2
10
3
10
4
10
5
A
11
17
25
35
50
14
20
30
40
75
115
140
175
230
275
320
420
460
550
680
60
95
130
150
210
250
300
385
440
510
625
1000
1000
680 625
550
460
420
320
275
230
175
140
115
75
50
35
25
17
11
510
440
385
300
250
210
150
130
95
60
40
30
20
14
_
10
54
_
10 10
3
_
10
_
2
10
1
_
V/I Characteristics
SIOV Metal Oxide Varistors
283 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-Q14
SIOV-Q20
v
i
10
0
10
1
10
2
10
3
10
4
[A]
50
60
80
100
200
400
600
800
1000
2000
[V]
5000
VAR0452-P
5
10
__
10
4
10
_
3
10
_
2
10
_
1
175
250
230
210
300
275
320
150
140
130
175
210
230
250
275
300
320
150
140
130
A B
v
i
50
60
80
100
200
400
600
800
1000
2000
V
5000
0
10 1
10 2
10 3
10 4
10 5
10A
320
300
275
250
230
210
175
VAR0460-G
130
140
150
320
300
275
250
230
210
175
10
_
54
10
_
10 3
_
10
_
210
_
1
150
140
130
A B
V/I Characteristics
SIOV Metal Oxide Varistors
284 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-S07S60A … S95AG2
SIOV-CU4032S60A … S95AG2
v
i
10 010 110 210 310 4
A
50
60
80
100
200
400
600
800
1000
2000
V
5000 VAR0461-O
95
95
60
60
10
_
510 4
_
10 2
__
10 1
10
_
3
A B
V/I Characteristics
SIOV Metal Oxide Varistors
285 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-B32K130 … K750
V/I Characteristics
SIOV Metal Oxide Varistors
286 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-B40K75 … K750 SIOV-LS40K130QP … K750QP(K2)
VAR0233-X
v
i
10
-5
10
V
AB
10
-4
10
-3
10
-2
10
-1
10
0
10
1
10
2
10
3
10
4
10
5
20
40
60
80
100
200
400
600
800
1000
10000
8000
6000
4000
2000
20000
750
550
420
320
680
460
385
275
230
250
150
75
130
75
150
130
230
250
275
320
420 385
460
440
680
750
550
440
A
140
140
V/I Characteristics
SIOV Metal Oxide Varistors
287 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-B60K130 … K1000
V/I Characteristics
SIOV Metal Oxide Varistors
288 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-LS50K130PK2 … K550PK2 SIOV-LS50K130P … K550P
VAR0513-B
i
A
vB
5
10
_
80 10 4
_
10 3
_
10 2
_
10 1
_
10010 110 210310 410 5
90
100
200
300
400
500
600
700
800
900
1000
2000
3000
4000
5000
6000
V
8000
A
130
150230
250
275
320
385
420
440
460
550
130
150
230
250
275
320
385
420
440
460
550
V/I Characteristics
SIOV Metal Oxide Varistors
289 10/00
v = f (i) – for explanation of the characteristics A = Leakage current for worst-case
refer to section 1.6.3 B = Protection level varistor tolerances
SIOV-B80K130 … K1100
VAR0531-Z
i
A
vB
5
10
_
100 10
4
_
10
3
_
10
2
_
10
1
_
10
0
10
1
10
2
10
3
10
4
10
5
V
A
200
300
400
500
600
700
800
900
1000
2000
3000
4000
5000
6000
7000
8000
10000
150
130
230
250
275
320
440
385
420
460
550
680
750
1100
130
150
230
250
275
320
385
420
440
460
550
680
750
1100
V/I Characteristics
SIOV Metal Oxide Varistors
1
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.
