ZNC Varistor Switching Surge
ZNC Varistor Switching Surge
ZNC Varistor Switching Surge
TPC
Zinc Oxide Varistors
As we are anxious that our customers should benefit from the latest developments in technology and standards,
AVX reserves the right to modify the characteristics published in this brochure.
TPC
TPC
Current
Intergranular
phase
Zinc oxide
grains
Figure 3
On the contrary, the resistivity of the second phase (or intergranular layer) basically depends on the value of the applied
voltage.
If the voltage value is low, the phase is insulating (region I of
the I = f(V) curve). As the voltage increases this phase
becomes conductive (region II). At very high current values
the resistivity of the grain can become preponderant and the
I = f(V) curve tends towards a linear law (region III).
The curve I = f(V) for the different types can be found in corresponding data sheets.
Voltage
Voltage
Figure 1
Figure 2
Figure 4 explains the behavior of a zinc oxide varistor. r represents the equivalent resistance of all semiconducting
grains and that of the intergranular layer (the value of which
basically varies with the applied voltage). Cp corresponds to
the equivalent capacitance of the intergranular layers.
When the applied voltage is low, the resistivity of the intergranular layer is quite high and the current passing through
the ceramic is low. When the voltage increases, the resistance decreases (region II in Figure 5).
When a certain voltage value is reached, becomes lower
than r and the I = f(V) characteristic tends to become ohmic
(region III).
The equivalent capacitance due to the insulating layers
depends on their chemical types and geometries.
Zinc oxide
grains
III
II
Current
I
grains
Cp boundaries
>r
>r
r>
Voltage
= f (V)
Figure 4
Figure 5
TPC
A
0.5
0.1
1 10 20
50
Figure 8
K=
V 1 mA
V 1 mA
(%)
+2
10-5
0
- 25
10-6
25
50
75 100
125
-2
10-7
10-8
100C
75C
10
102
-9.10-4 / C
-4
25C
(V)
10-9
103
Figure 6
Figure 7
4 - Varistor characteristics
The choice of a varistor for a specific application should be
guided by the following major characteristics:
1) Working or operating voltage (alternating or direct).
2) Leakage current at the working voltage.
3) Max. clamping voltage for a given current.
4) Maximum current passing through the varistor.
5) Energy of the pulse to be dissipated in the varistor.
6) Average power to be dissipated.
l1/ l2
= Log
Log V / V
1
where l1 = 10
l2
60
50
=
40
30
(I) A
in which: A = a constant f( )
K = a constant
(I = KVa).
PC = dissipated power for a DC voltage Vp.
log (I1/I2)
log (V1/V2)
10-3
10-4
100
10-6
10-3
10
102
1.9
1.8
1.7
1.6
1.5
1.4
1.3
1.2
1.1
V1
V2
V 2 = Voltage for l2
l1 > l2
l1
= 106
l2
l1
3
l2 = 10
10
Figure 9
V 1 = Voltage for l1
20
30
Figure 10
Where:
V1 voltage for current I1
V2 voltage for current I2
The curve giving
versus the value of is shown in
Figure10 for 2 ratios of I1 /I2 =103 and 106.
TPC
a) Voltage surge
Figure 11 - 12 - 13 - 14
b) Current surge
Figure 15 - 16 - 17 - 18
If, for example, we take a current surge as shown in Figure
19, we demonstrate that the dissipated energy is given by
the approximate expression:
W = Vp Ip (1.4 2 - 0.88 1 ) 10-6
in which Vp is the peak voltage value and Ip the peak current
value.
W is expressed in joules.
in seconds.
Vp in volts.
Ip in amperes.
Operating
Voltage
(V)
250
250
250
250
250
Uncoated
Disc
(mm)
5
7
10
14
20
Number of Current
Surges
(8 x 20 s)
1
2
102
104
Ic = KVc
V = Vc _t
I = KV
-2
W = 310 Ic Vc
Vc
Vc
Table I
t
Figure 11
V
Permissible
Current
(A)
6500
4000
1000
200
V = Vc
W = Ic Vc
I max.
(A)
400
1200
2500
4500
6500
V = Vc sin _t
W = 0.22 Ic Vc
Vc/2
t
Figure 13
Figure 14
I = Ic
V = Ic _t
W = 0.5 Ic Vc
W = Ic Vc
Ic
Ic
-t
1.4
Vc
Figure 12
W = 4.5 10-2 Ic Vc
Vc
Table II
V = Vc exp
Figure 15
I
I = Ic exp
Figure 16
-t
1.4
I = Ic sin _t
W = 0.64 Ic Vc
W = 1.4 Ic Vc
Ic
Ic
Ic/2
Figure 17
TPC
t
0
Figure 18
Ip/2
1 2
Time
Figure 19
P/P0
105
Table III
Vp
(V)
Ip
(A)
Waveform
(s)
Energy
(J)
104
500
300
1.2
50
10
500
300
103
20
500
300
10
1000
210
Uncoated
Disc
(mm)
5
7
10
14
20
Energy
(J)
10
21
40
72
130
10
1.1
1.2
1.3
V/V 0
Figure 20
Table V
= 10
102
Table IV
V
(V)
180
220
230
= 30
Operating
Voltage
(V)
250
250
250
250
250
= 50
P
(mW)
0.5
0.2
0.75
TPC
This response time corresponds to the conduction mechanisms specific to semiconductors, therefore its value is quite
low and is less than one nanosecond.
Volts
Generator at 50
100
80
Generator at 50
+ zinc oxide varistor
60
40
20
0
20
40 60
80
Nanoseconds
Figure 21
TPC
Id-cor a-c
Rest state
Figure 22A
Ip
Protective
state
Figure 22B
Vs
Rc
Vp
2 - Main applications
Varistors are widely used in the different electronic equipment:
telecommunication and data systems
power supply units,
switching equipment,
answering sets, ...
industrial equipment
control and alarm systems,
proximity switches,
transformers,
motors,
traffic lighting, ...
consumer electronics
television and video sets,
washing machines,
electronic ballasts, ...
automotive
all motor and electronic systems.
TPC
Figure 23
Figure 24
Figure 25
Figure 26
TPC
Maximum Operating
RMS Voltage
(VRMS)
VRMS
11
14
75
150
250 300
420
625
18
100
200
330 385
560
825
VDC
Maximum Operating
Steady State Voltage
(VDC)
14
V1mA
Nominal Varistor
Voltage
(V1mA)
18
22
Types
120
240 390
470
680
VE 07
VF 05
0.3
0.4
VE 09
VF 07
0.8
0.9
11
23
VE 13
VF 10
2.0
12
24
45
68
VE 17
VF 14
0.4
20
40
75
130
40
85
140
230
VE 24
VF 20
VN 32
VB 32
10
TPC
11
25
200
550
200
550
1000
M
Series
M: Varistors
for general
applications
P: Varistors for
heavy duty
applications
0251
Marking
AC nominal
voltage
VE:0
AC Operating Voltage
(EIA coding)
VE
Tolerance
Suffixes
at 1 mA
See
K: 10%
on page 32
(J: 5% upon request)
Operating Voltage
at 1 mA dc
Nominal
voltage
at 1 mA dc
VF:1
(EIA coding)
VF
75 V: 0750
250 V: 0251
300 V: 0301
TPC
11
VF 05/07/10/14/20
FEATURES
t
30 (1.18) min
PARTICULAR CHARACTERISTICS
UL and CSA
approval
VE Series
P/N codification using
(Dmax , Vrms)
Pending
Pending
Pending
Pending
12
VE07M00110K
VE09M00110K
VE07M00140K
VE09M00140K
VE13M00140K
VE17M00140K
VE07M00170K
VE09M00170K
VE13M00170K
VE17M00170K
VE07M00200K
VE09M00200K
VE13M00200K
VE17M00200K
VE07M00250K
VE09M00250K
VE13M00250K
VE17M00250K
VE07M00300K
VE09M00300K
VE13M00300K
VE17M00300K
VE07M00350K
VE09M00350K
VE13M00350K
VE17M00350K
VE07M00400K
VE09M00400K
VE13M00400K
VE17M00400K
VE07M00500K
VE09M00500K
VE13M00500K
VE17M00500K
VF Series
P/N codification using
(dceramic, V1mA)
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VF05M10180K
VF07M10180K
VF05M10220K
VF07M10220K
VF10M10220K
VF14M10220K
VF05M10270K
VF07M10270K
VF10M10270K
VF14M10270K
VF05M10330K
VF07M10330K
VF10M10330K
VF14M10330K
VF05M10390K
VF07M10390K
VF10M10390K
VF14M10390K
VF05M10470K
VF07M10470K
VF10M10470K
VF14M10470K
VF05M10560K
VF07M10560K
VF10M10560K
VF14M10560K
VF05M10680K
VF07M10680K
VF10M10680K
VF14M10680K
VF05M10820K
VF07M10820K
VF10M10820K
VF14M10820K
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TPC
Maximum
operating voltage
Nominal voltage
at 1 mA dc
Vrms
VDC
V1mA mini
V1mA nominal
V1mA maxi
11
14
16.0
18
20.0
14
18
19.8
22
24.2
17
22
24.0
27
30.0
20
26
29.5
33
36.5
25
31
35
39
43
30
38
42
47
52
35
45
50
56
62
40
56
61
68
75
50
65
73
82
91
VF 05/07/10/14/20
GENERAL CHARACTERISTICS
millimeters (inches)
D
Maximum
Vp (V)
43
43
43
43
53
53
53
53
65
65
65
65
77
77
77
77
93
93
93
93
110
110
110
110
135
135
135
135
135
135
135
135
Ip (A)
1
2.5
5
10
1
2.5
5
10
1
2.5
5
10
1
2.5
5
10
1
2.5
5
10
1
2.5
5
10
1
2.5
5
10
5
10
25
50
0.4
0.9
2
4
0.5
1.1
2.5
4.7
0.6
1.3
3.1
5.7
0.7
1.6
3.7
7
0.9
2.0
4.4
9.0
1.1
2.5
5.4
10.0
1.3
3.0
8.4
13.0
1.8
4.2
8.4
15.0
0.2
0.6
1.3
2.6
0.3
0.7
1.6
3.0
0.3
0.9
2.0
4.0
0.4
1.0
3
5
0.4
1
4
7
0.4
1
4.4
8
0.5
1
5.9
8.5
0.6
1.6
6
11
Type
AC nominal voltage (EIA coding) for VE types
V1mA varistor voltage (EIA coding) for VF types
Logo
UL logo (when approved)
Lot number (VE13/17/24 and VF10/14/20 only)
Max. permissible
peak current
(8 x 20 s)
Ip (A)
1 surge 2 surges
100
250
500
1000
100
250
500
1000
100
250
500
1000
100
250
500
1000
100
250
500
1000
100
250
500
1000
100
250
500
1000
400
1200
2500
4500
-40C to +125C
+85C
< 25 ns
K < 0.09%/C
2500 V
Flame retardant
UL94-VO
MARKING
Storage temperature:
Max. operating temperature:
Response time:
Voltage coefficient temp.:
Voltage proof:
Epoxy coating:
50
125
250
500
50
125
250
500
50
125
250
500
50
125
250
500
50
125
250
500
50
125
250
500
50
125
250
500
200
600
1250
2500
Typical
capacitance
f = 1kHz
Mean
power
dissipation
Maximum
thickness
t
V/I
characteristic
Derating
curves
pF
mm (inches)
Page
Page
1050
1900
4000
4000
1050
1900
4000
6800
750
1500
3100
5700
660
1250
2800
4600
580
1050
2150
3500
460
850
1900
3100
400
720
1700
2800
300
530
950
1800
TPC
0.01
0.02
0.05
0.10
0.01
0.02
0.05
0.10
0.01
0.02
0.05
0.10
0.01
0.02
0.05
0.10
0.01
0.02
0.05
0.10
0.01
0.02
0.05
0.10
0.01
0.02
0.05
0.10
0.1
0.2
0.4
0.6
3.6
3.6
4.3
4.3
3.7
3.7
4.3
4.3
3.9
3.9
4.5
4.5
3.6
3.6
4.4
4.4
3.8
3.8
4.4
4.4
3.9
3.9
4.7
4.7
4.1
4.1
4.9
4.9
3.5
3.5
4.1
4.1
(.142)
(.142)
(.169)
(.169)
(.146)
(.146)
(.169)
(.169)
(.154)
(.154)
(.177)
(.177)
(.142)
(.142)
(.173)
(.173)
(.150)
(.150)
(.173)
(.173)
(.154)
(.154)
(.185)
(.185)
(.161)
(.161)
(.193)
(.193)
(.138)
(.138)
(.161)
(.161)
22
22
22
23
22
22
22
23
22
22
22
23
22
22
22
23
22
22
22
23
22
22
22
23
22
22
22
23
22
22
22
23
24
25
26
27
24
25
26
27
24
25
26
27
24
25
26
27
24
25
26
27
24
25
26
27
24
25
26
27
24
25
26
27
13
VF 05/07/10/14/20
VE Series
P/N codification using
(Dmax , Vrms)
14
VE07M00600K
VE09M00600K
VE13M00600K
VE17M00600K
VE07M00750K
VE09M00750K
VE13M00750K
VE17M00750K
VE24M00750K
VE07M00950K
VE09M00950K
VE13M00950K
VE17M00950K
VE24M00950K
VE07M01150K
VE09M01150K
VE13M01150K
VE17M01150K
VE24M01150K
VE07M00131K
VE09M00131K
VE13M00131K
VE17M00131K
VE24M00131K
VE07M00141K
VE09M00141K
VE13M00141K
VE17M00141K
VE24M00141K
VE07M00151K
VE09M00151K
VE13M00151K
VE17M00151K
VE24M00151K
VE07M01750K
VE09M01750K
VE13M01750K
VE17M01750K
VE24M01750K
VE07M00211K
VE09M00211K
VE13M00211K
VE17M00211K
VE24M00211K
VE07M00231K
VE09M00231K
VE13M00231K
VE17M00231K
VE24M00231K
VF Series
P/N codification using
(dceramic, V1mA)
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VF05M10101K
VF07M10101K
VF10M10101K
VF14M10101K
VF05M10121K
VF07M10121K
VF10M10121K
VF14M10121K
VF20M10121K
VF05M10151K
VF07M10151K
VF10M10151K
VF14M10151K
VF20M10151K
VF05M10181K
VF07M10181K
VF10M10181K
VF14M10181K
VF20M10181K
VF05M12050K
VF07M12050K
VF10M12050K
VF14M12050K
VF20M12050K
VF05M10221K
VF07M10221K
VF10M10221K
VF14M10221K
VF20M10221K
VF05M10241K
VF07M10241K
VF10M10241K
VF14M10241K
VF20M10241K
VF05M10271K
VF07M10271K
VF10M10271K
VF14M10271K
VF20M10271K
VF05M10331K
VF07M10331K
VF10M10331K
VF14M10331K
VF20M10331K
VF05M10361K
VF07M10361K
VF10M10361K
VF14M10361K
VF20M10361K
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TPC
Maximum
operating voltage
Nominal voltage
at 1 mA dc
Vrms
VDC
V1mA mini
60
80
90
V1mA nominal
100
V1mA maxi
110
75
100
108
120
132
95
125
135
150
165
115
150
162
180
198
130
170
184
205
226
140
180
198
220
242
150
200
216
240
264
175
225
243
270
297
210
275
297
330
363
230
300
324
360
396
165
165
165
165
200
200
200
200
200
250
250
250
250
250
300
300
300
300
300
340
340
340
340
340
360
360
360
360
360
400
400
400
400
400
445
445
445
445
445
545
545
545
545
545
595
595
595
595
595
Ip (A)
5
10
25
50
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
2.2
4.8
10
17
2.5
5.9
12
20
40
3.4
7.6
15
25
50
3.6
8.4
18
30
60
4.2
9.5
19
34
74
4.5
10
22
36
78
4.9
11
24
40
85
5.6
13
28
46
98
7.2
15
31
54
115
7.2
17
36
60
130
0.7
1.7
7
14
0.8
1.8
8
15
30
1
3
9
20
33
1.3
3.3
10.6
22
40
1.5
4
11
25
46
1.5
4
12.5
26.5
50
1.8
4.1
13
30
56
1.9
4.5
13.5
31
56
2.2
5.4
14.0
35
70
2.4
6
14.3
38
75
VF 05/07/10/14/20
Max. permissible
peak current
(8 x 20 s)
Ip (A)
1 surge
2 surges
400
1200
2500
4500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
200
600
1250
2500
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
Typical
capacitance
f = 1kHz
Mean
power
dissipation
Maximum
thickness
t
V/I
characteristic
Derating
curves
pF
mm (inches)
Page
Page
22
22
22
23
22
22
22
23
23
22
22
22
23
23
22
22
22
23
23
22
22
22
23
23
22
22
22
23
23
22
22
22
23
23
22
22
22
23
23
22
22
22
23
23
22
22
22
23
23
24
25
26
27
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
165
440
870
2200
150
400
700
1900
4200
110
310
560
1200
3400
100
280
500
1100
3000
90
250
450
1000
2500
85
235
425
930
2250
80
220
400
850
2000
70
190
340
750
2000
60
155
275
600
1650
55
140
250
550
1500
TPC
0.1
0.2
0.4
0.6
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
3.8
3.8
4.5
4.5
4.0
4.0
4.4
4.4
4.8
4.4
4.4
5.0
5.0
5.4
4.5
4.5
5.1
5.1
5.5
4.1
4.1
4.7
4.7
5.1
4.2
4.2
4.8
4.8
5.2
4.3
4.3
4.9
4.9
5.3
4.5
4.5
5.1
5.1
5.5
4.9
4.9
5.5
5.5
5.9
5.1
5.1
5.7
5.7
6.1
(.150)
(.150)
(.177)
(.177)
(.157)
(.157)
(.173)
(.173)
(.189)
(.173)
(.173)
(.197)
(.197)
(.213)
(.177)
(.177)
(.201)
(.201)
(.217)
(.161)
(.161)
(.185)
(.185)
(.201)
(.165)
(.165)
(.189)
(.189)
(.205)
(.169)
(.169)
(.193)
(.193)
(.209)
(.177)
(.177)
(.201)
(.201)
(.217)
(.193)
(.193)
(.217)
(.217)
(.232)
(.201)
(.201)
(.224)
(.224)
(.240)
15
16
VF 05/07/10/14/20
VE Series
P/N codification using
VF Series
P/N codification using
(Dmax , Vrms)
(dceramic, V1mA)
VE07M00251K
VE09M00251K
VE13M00251K
VE17M00251K
VE24M00251K
VE07M02750K
VE09M02750K
VE13M02750K
VE17M02750K
VE24M02750K
VE07M00301K
VE09M00301K
VE13M00301K
VE17M00301K
VE24M00301K
VE09M00321K
VE13M00321K
VE17M00321K
VE24M00321K
VE09M00351K
VE13M00351K
VE17M00351K
VE24M00351K
VE09M03850K
VE13M03850K
VE17M03850K
VE24M03850K
VE09M00421K
VE13M00421K
VE17M00421K
VE24M00421K
VE13M00441K
VE17M00441K
VE24M00441K
VE13M00461K
VE17M00461K
VE24M00461K
VE13M00511K
VE17M00511K
VE24M00511K
VE13M00551K
VE17M00551K
VE24M00551K
VE13M05750K
VE17M05750K
VE24M05750K
VE13M06250K
VE17M06250K
VE24M06250K
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
VF05M10391K
VF07M10391K
VF10M10391K
VF14M10391K
VF20M10391K
VF05M10431K
VF07M10431K
VF10M10431K
VF14M10431K
VF20M10431K
VF05M10471K
VF07M10471K
VF10M10471K
VF14M10471K
VF20M10471K
VF07M10511K
VF10M10511K
VF14M10511K
VF20M10511K
VF07M10561K
VF10M10561K
VF14M10561K
VF20M10561K
VF07M10621K
VF10M10621K
VF14M10621K
VF20M10621K
VF07M10681K
VF10M10681K
VF14M10681K
VF20M10681K
VF10M17150K
VF14M17150K
VF20M17150K
VF10M10751K
VF14M10751K
VF20M10751K
VF10M10821K
VF14M10821K
VF20M10821K
VF10M10861K
VF14M10861K
VF20M10861K
VF10M10911K
VF14M10911K
VF20M10911K
VF10M10102K
VF14M10102K
VF20M10102K
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
TPC
Maximum
operating voltage
Nominal voltage
at 1 mA dc
Vrms
VDC
V1mA mini
V1mA nominal
V1mA maxi
250
320
351
390
429
275
350
387
430
473
300
385
423
470
517
320
420
459
510
561
350
460
504
560
616
385
505
558
620
682
420
560
612
680
748
440
585
643
715
787
460
615
675
750
825
510
670
738
820
902
550
715
774
860
946
575
730
819
910
1001
625
825
900
1000
1100
645
645
645
645
645
710
710
710
710
710
775
775
775
775
775
840
840
840
840
910
910
910
910
1025
1025
1025
1025
1120
1120
1120
1120
1180
1180
1180
1240
1240
1240
1350
1350
1350
1420
1420
1420
1500
1500
1500
1650
1650
1650
Ip (A)
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
10
25
50
100
10
25
50
100
10
25
50
100
10
25
50
100
25
50
100
25
50
100
25
50
100
25
50
100
25
50
100
25
50
100
8.2
19
38
65
140
8.6
21
43
71
151
9
25
45
80
150
25
45
82
150
25
45
85
155
25
45
88
155
25
45
90
160
45
95
165
45
100
175
55
110
190
57
113
200
60
120
210
68
130
230
2.8
7.3
19
39
100
3
7.4
20
40
105
3.3
7.5
20
42
107
7.5
20
42
107
7.5
20
42
107
7.5
20
42
107
7.5
20
42
107
20
44
115
20
47
120
22
57
150
24
57
150
25
60
160
25
60
160
VF 05/07/10/14/20
Max. permissible
peak current
(8 x 20 s)
Ip (A)
1 surge
2 surges
400
1200
2500
4500
6500
400
1200
2500
4500
6500
400
1200
2500
4500
6500
1200
2500
4500
6500
1200
2500
4500
6500
1200
2500
4500
6500
1200
2500
4500
6500
2500
4500
6500
2500
4500
6500
2500
4500
6500
2500
4500
6500
2500
4500
6500
2500
4500
6500
200
600
1250
2500
4000
200
600
1250
2500
4000
200
600
1250
2500
4000
600
1250
2500
4000
600
1250
2500
4000
600
1250
2500
4000
600
1250
2500
4000
1250
2500
4000
1250
2500
4000
1250
2500
4000
1250
2500
4000
1250
2500
4000
1250
2500
4000
Typical
capacitance
f = 1kHz
Mean
power
dissipation
Maximum
thickness
t
V/I
characteristic
Derating
curves
pF
mm (inches)
Page
Page
50
130
230
500
1300
45
120
210
450
1200
40
100
180
400
1000
100
170
380
950
95
160
365
900
95
150
350
850
80
120
300
700
115
275
650
110
250
600
100
220
550
90
200
500
80
180
450
74
165
410
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.2
0.4
0.6
0.8
0.2
0.4
0.6
0.8
0.2
0.4
0.6
0.8
0.2
0.4
0.6
0.8
0.4
0.6
0.8
0.4
0.6
0.8
0.4
0.6
0.8
0.4
0.6
0.8
0.4
0.6
0.8
0.4
0.6
0.8
5.4 (.213)
5.4 (.213)
5.9 (.232)
5.9 (.232)
6.3 (.248)
5.7 (.224)
5.7 (.224)
6.3 (.248)
6.3 (.248)
6.7 (.264)
6.0 (.236)
6.0 (.236)
6.6 (.260)
6.6 (.260)
7.0 (.276)
6.4 (.252)
7.0 (.276)
7.0 (.276)
7.5 (.276)
6.6 (.260)
7.3 (.287)
7.3 (.287)
7.8 (.307)
7.0 (.276)
7.7 (.303)
7.7 (.303)
8.1 (.319)
7.4 (.291)
8.2 (.323)
8.2 (.323)
8.6 (.339)
8.4 (.331)
8.4 (.331)
8.8 (.346)
8.5 (.335)
8.5 (.335)
9.0 (.354)
9.0 (.354)
9.0 (.354)
9.4 (.370)
9.3 (.366)
9.3 (.366)
9.7 (.382)
9.7 (.382)
9.7 (.382)
10.1 (.398)
10.5 (.413)
10.5 (.413)
11.0 (.433)
22
22
22
23
23
22
22
22
23
23
22
22
22
23
23
22
22
23
23
22
22
23
23
22
22
23
23
22
22
23
23
22
23
23
22
23
23
22
23
23
22
23
23
22
23
23
22
23
23
TPC
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
25
26
27
28
25
26
27
28
25
26
27
28
25
26
27
28
26
27
28
26
27
28
26
27
28
26
27
28
26
27
28
26
27
28
17
30 (1.18) min
PARTICULAR CHARACTERISTICS
VE Series
P/N codification using
VF Series
P/N codification using
(Dmax , Vrms)
(dceramic, V1mA)
VE07P00131K
VE09P00131K
VE13P00131K
VE17P00131K
VE24P00131K
VE07P00141K
VE09P00141K
VE13P00141K
VE17P00141K
VE24P00141K
VE07P00151K
VE09P00151K
VE13P00151K
VE17P00151K
VE24P00151K
VE07P01750K
VE09P01750K
VE13P01750K
VE17P01750K
VE24P01750K
VE07P00211K
VE09P00211K
VE13P00211K
VE17P00211K
VE24P00211K
VE07P00231K
VE09P00231K
VE13P00231K
VE17P00231K
VE24P00231K
18
_
_
_
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_
_
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_
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_
_
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_
_
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_
_
_
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_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
VF05P12050K
VF07P12050K
VF10P12050K
VF14P12050K
VF20P12050K
VF05P10221K
VF07P10221K
VF10P10221K
VF14P10221K
VF20P10221K
VF05P10241K
VF07P10241K
VF10P10241K
VF14P10241K
VF20P10241K
VF05P10271K
VF07P10271K
VF10P10271K
VF14P10271K
VF20P10271K
VF05P10331K
VF07P10331K
VF10P10331K
VF14P10331K
VF20P10331K
VF05P10361K
VF07P10361K
VF10P10361K
VF14P10361K
VF20P10361K
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
_
TPC
Maximum
operating voltage
Nominal voltage
at 1 mA dc
Vrms
VDC
V1mA mini
V1mA nominal
V1mA maxi
130
170
184
205
226
140
180
198
220
242
150
200
216
240
264
175
225
243
270
297
210
275
297
330
363
230
300
324
360
396
GENERAL CHARACTERISTICS
millimeters (inches)
D
Type
Type Ceramic
diameter
VE07 VF05 5 (.196)
VE09 VF07 7 (.275)
VE13* VF10* 10 (.393)
VE17 VF14 14 (.551)
VE24** VF20** 20 (.787)
Maximum
coated
H
t
+10%
E
diameter max. max. 0.05 (.002) 0.8
7 (.275) 10 (.394)
0.6 (.024) 5.08 (0.20)
9 (.354) 12 (.472)
0.6 (.024) 5.08 (0.20)
13* (.512) 16 (.630) see 0.8* (.031) 7.62*(0.30)
17 (.669) 20 (.787) table 0.8 (.031) 7.62 (0.30)
24 (.945) 27 (1.06)
0.8** (.031) 7.62 (0.30)
Vp (V)
340
340
340
340
340
360
360
360
360
360
400
400
400
400
400
445
445
445
445
445
545
545
545
545
545
595
595
595
595
595
Ip (A)
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
5
10
25
50
100
Type
AC nominal voltage (EIA coding) for VE types
V1mA varistor voltage (EIA coding) for VF types
Logo
UL logo (when approved)
Lot number (VE13/17/24 and VF10/14/20 only)
Max. permissible
peak current
(8 x 20 s)
Ip (A)
1 surge 2 surges
800
1750
3500
6000
10000
800
1750
3500
6000
10000
800
1750
3500
6000
10000
800
1750
3500
6000
10000
800
1750
3500
6000
10000
800
1750
3500
6000
10000
-40C to +125C
+85C
< 25 ns
K < 0.09%/C
2500 V
Flame retardant
UL94-VO
MARKING
Storage temperature:
Max. operating temperature:
Response time:
Voltage coefficient temp.:
Voltage proof:
Epoxy coating:
600
1250
2500
4500
7000
600
1250
2500
4500`
7000
600
1250
2500
4500
7000
600
1250
2500
4500
7000
600
1250
2500
4500
7000
600
1250
2500
4500
7000
Typical
capacitance
f = 1kHz
Mean
power
dissipation
Maximum
thickness
t
V/I
characteristic
Derating
curves
pF
mm (inches)
Page
Page
90
250
450
1000
2500
85
235
425
930
2250
80
220
400
850
2000
70
190
340
750
2000
60
155
275
600
1650
55
140
250
550
1500
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
0.1
0.2
0.4
0.6
0.8
TPC
4.1
4.1
4.7
4.7
5.1
4.2
4.2
4.8
4.8
5.2
4.3
4.3
4.9
4.9
5.3
4.5
4.5
5.1
5.1
5.5
4.9
4.9
5.5
5.5
5.9
5.1
5.1
5.7
5.7
6.1
(.161)
(.161)
(.185)
(.185)
(.201)
(.165)
(.165)
(.189)
(.189)
(.205)
(.169)
(.169)
(.193)
(.193)
(.209)
(.177)
(.177)
(.201)
(.201)
(.217)
(.193)
(.193)
(.217)
(.217)
(.232)
(.201)
(.201)
(.224)
(.224)
(.240)
34
34
34
35
35
34
34
34
35
35
34
34
34
35
35
34
34
34
35
35
34
34
34
35
35
34
34
34
35
35
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
24
25
26
27
28
19
20
VE Series
P/N codification using
VF Series
P/N codification using
(Dmax , Vrms)
(dceramic, V1mA)
Maximum
operating voltage
Nominal voltage
at 1 mA dc
Vrms
VDC
V1mA mini
V1mA nominal
V1mA maxi
VE07P00251K
VE09P00251K
VE13P00251K
VE17P00251K
VE24P00251K
_
_
_
_
_
_
_
_
_
_
VF05P10391K
VF07P10391K
VF10P10391K
VF14P10391K
VF20P10391K
_
_
_
_
_
_
_
_
_
_
250
320
351
390
429
VE07P02750K
VE09P02750K
VE13P02750K
VE17P02750K
VE24P02750K
_
_
_
_
_
_
_
_
_
_
VF05P10431K
VF07P10431K
VF10P10431K
VF14P10431K
VF20P10431K
_
_
_
_
_
_
_
_
_
_
275
350
387
430
473
VE07P00301K
VE09P00301K
VE13P00301K
VE17P00301K
VE24P00301K
_
_
_
_
_
_
_
_
_
_
VF05P10471K
VF07P10471K
VF10P10471K
VF14P10471K
VF20P10471K
_
_
_
_
_
_
_
_
_
_
300
385
423
470
517
VE09P00321K
VE13P00321K
VE17P00321K
VE24P00321K
_
_
_
_
_
_
_
_
VF07P10511K
VF10P10511K
VF14P10511K
VF20P10511K
_
_
_
_
_
_
_
_
320
420
459
510
561
VE09P00351K
VE13P00351K
VE17P00351K
VE24P00351K
_
_
_
_
_
_
_
_
VF07P10561K
VF10P10561K
VF14P10561K
VF20P10561K
_
_
_
_
_
_
_
_
350
460
504
560
616
VE09P03850K
VE13P03850K
VE17P03850K
VE24P03850K
_
_
_
_
_
_
_
_
VF07P10621K
VF10P10621K
VF14P10621K
VF20P10621K
_
_
_
_
_
_
_
_
385
505
558
620
682
VE09P00421K
VE13P00421K
VE17P00421K
VE24P00421K
_
_
_
_
_
_
_
_
VF07P10681K
VF10P10681K
VF14P10681K
VF20P10681K
_
_
_
_
_
_
_
_
420
560
612
680
748
VE13P00441K _ _
VE17P00441K _ _
VE24P00441K _ _
VF10P17150K _ _
VF14P17150K _ _
VF20P17150K _ _
440
585
643
715
787
VE13P00461K _ _
VE17P00461K _ _
VE24P00461K _ _
VF10P10751K _ _
VF14P10751K _ _
VF20P10751K _ _
460
615
675
750
825
VE13P00511K _ _
VE17P00511K _ _
VE24P00511K _ _
VF10P10821K _ _
VF14P10821K _ _
VF20P10821K _ _
510
670
738
820
902
VE13P00551K _ _
VE17P00551K _ _
VE24P00551K _ _
VF10P10861K _ _
VF14P10861K _ _
VF20P10861K _ _
550
715
774
860
946
VE13P05750K _ _
VE17P05750K _ _
VE24P05750K _ _
VF10P10911K _ _
VF14P10911K _ _
VF20P10911K _ _
575
730
819
910
1001
VE13P06250K _ _
VE17P06250K _ _
VE24P06250K _ _
VF10P10102K _ _
VF14P10102K _ _
VF20P10102K _ _
625
825
900
1000
1100
TPC
Ip (A)
Max. permissible
peak current
(8 x 20 s)
Ip (A)
1 surge 2 surges
Typical
capacitance
f = 1kHz
Mean
power
dissipation
Maximum
thickness
t
V/I
characteristic
Derating
curves
pF
mm (inches)
Page
Page
645
645
645
645
645
5
10
25
50
100
17
35
70
140
280
800
1750
3500
6000
10000
600
1250
2500
4500
7000
50
130
230
500
1300
0.1
0.2
0.4
0.6
0.8
5.4
5.4
5.9
5.9
6.3
(.213)
(.213)
(.232)
(.232)
(.248)
34
34
34
35
35
24
25
26
27
28
710
710
710
710
710
5
10
25
50
100
20
40
80
160
310
800
1750
3500
6000
10000
600
1250
2500
4500
7000
45
120
210
450
1200
0.1
0.2
0.4
0.6
0.8
5.7
5.7
6.3
6.3
6.7
(.224)
(.224)
(.248)
(.248)
(.264)
34
34
34
35
35
24
25
26
27
28
775
775
775
775
775
5
10
25
50
100
21
42
85
170
340
800
1750
3500
6000
10000
600
1250
2500
4500
7000
40
100
180
400
1000
0.1
0.2
0.4
0.6
0.8
6.0
6.0
6.6
6.6
7.0
(.236)
(.236)
(.260)
(.260)
(.276)
34
34
34
35
35
24
25
26
27
28
840
840
840
840
10
25
50
100
45
90
180
360
1750
3500
5000
8000
1250
2500
4000
6000
100
170
380
950
0.2
0.4
0.6
0.8
6.4
7.0
7.0
7.5
(.252)
(.276)
(.276)
(.295)
34
34
35
35
25
26
27
28
910
910
910
910
10
25
50
100
47
95
190
380
1750
3500
5000
8000
1250
2500
4000
6000
95
160
365
900
0.2
0.4
0.6
0.8
6.6
7.3
7.3
7.8
(.260)
(.287)
(.287)
(.307)
34
34
35
35
25
26
27
28
1025
1025
1025
1025
10
25
50
100
50
100
200
400
1750
3500
5000
8000
1250
2500
4000
6000
95
150
350
850
0.2
0.4
0.6
0.8
7.0
7.7
7.7
8.1
(.276)
(.303)
(.303)
(.319)
34
34
35
35
25
26
27
28
1120
1120
1120
1120
10
25
50
100
52
105
210
420
1750
3500
5000
8000
1250
2500
4000
6000
80
120
300
700
0.2
0.4
0.6
0.8
7.4
8.2
8.2
8.6
(.291)
(.323)
(.323)
(.339)
34
34
35
35
25
26
27
28
1180
1180
1180
25
50
100
105
210
420
3500
5000
8000
2500
4000
6000
115
275
650
0.4
0.6
0.8
8.4 (.331)
8.4 (.331)
8.8 (.346)
34
35
35
26
27
28
1240
1240
1240
25
50
100
105
210
420
3500
5000
8000
2500
4000
6000
110
250
600
0.4
0.6
0.8
8.5 (.335)
8.5 (.335)
9.0 (.354)
34
35
35
26
27
28
1350
1350
1350
25
50
100
110
225
450
3500
5000
7500
2500
4000
6000
100
220
550
0.4
0.6
0.8
9.0 (.354)
9.0 (.354)
9.4 (.370)
34
35
35
26
27
28
1420
1420
1420
25
50
100
120
240
480
3500
5000
7500
2500
4000
6000
90
200
500
0.4
0.6
0.8
9.3 (.366)
9.3 (.366)
9.7 (.382)
34
35
35
26
27
28
1500
1500
1500
25
50
100
125
250
500
3500
5000
7500
2500
4000
6000
80
180
450
0.4
0.6
0.8
9.7 (.382)
9.7 (.382)
10.1 (.398)
34
35
35
26
27
28
1650
1650
1650
25
50
100
140
230
560
3500
5000
7500
2500
4000
6000
74
165
410
0.4
0.6
0.8
10.5 (.413)
10.5 (.413)
11.0 (.433)
34
35
35
26
27
28
TPC
21
U(V)
VE 07/VF 05
103
8
6
275
300
250
230
210
4
275
300
230
175
160
140
130
250
210
95
130
240
102
115
150
175
75
115
60
95
95
50
40
75
8
6
60
50
35
30
35
40
25
30
17
20
14
20
15
14
17
10
10-5
10-4
10-3
10-2
10-1
U(V)
102
10
I(A)
103
U(V)
VE 13/VF 10
VE 09/VF 07
625
575
103
625
10
420
510
420
385
420
275
230
275
250
300
275
250
230
230
250
175
250
210
150
130
130
115
150
102
130
140
210
140
95
95
130
115
75
50
60
50
40
75
50
30
25
20
17
35
50
30
35
25
20
17
14
20
25
14
17
10
10-4
30
17
20
35
40
14
25
30
60
6
40
175
35
10-5
60
95
102
115
60
130
115
150
75
160
95
150
175
175
175
300
210
300
275
22
385
210
230
385
385
300
460
420
550
575
550
510
10-3
10-2
10-1
10
102
103
I(A)
14
10
TPC
10-5
10-4
10-3
10-2
10-1
10
102
103
I(A)
625
103
625
8
6
4
575
550
460
385
300
280
575
550
510
460
420
385
510
320
300
275
250
230
275
175
150
230
140
130
420
320
115
175
140
95
150
130
75
115
95
102
8
6
4
50
75
50
36
25
60
40
80
40
35
30
25
20
17
30
14
20
17
14
10
10-5
10-4
10-3
10-2
10-1
10
102
103
I(A)
U(V)
VE24M/VF20M
625
103
8
6
4
625
550
46
385
300
280
550
510
460
420
385
510
320
300
275
250
230
275
175
150
230
140
130
420
320
115
175
140
95
150
130
75
115
95
102
8
6
75
10
10-5
10-4
TPC
10-3
10-2
10-1
10
102
103 I(A)
23
400
300
200
100
80
60
40
Ip
(A)
VE07M/VF05M 40VRMS
400
300
100
80
60
40
20
20
10
8
6
4
10
10
8
6
4
2
1
0.8
0.6
0.4
10 2
10 3
10 4
10 5
RMS
10 2
10 3
10 4
10 5
10 6
10 6
1
0.8
0.6
0.4
0.2
200
2.000
Ip
(A)
( S)
0.1
20
200
10000
VE07P/VF05P 130VRMS
1000
1
2
10
100 1
02
10 3
10 4
10 5
10 6
10
1
20
24
> 40V
10
0.2
0.1
20
VE07M/VF05M
200
200
TPC
2.000
( S)
10000
2.000
(S)
800
600
400
300
200
100
80
60
40
20
10
8
6
4
Ip 2.000
(A)
1.000
800
600
400
VE09M/VF07M 40VRMS
> 40V
RMS
200
2
100
80
60
40
2
10
10 2
10 3
10 4
10 5
10 6
20
10
8
6
1
0.8
0.6
10
10 2
10 3
10 4
10 5
10 6
1
0.8
0.6
0.4
0.4
0.2
0.1
20
VE09M/VF07M
200
( S)
2.000
Ip
(A)
0.2
20
200
2.000
( S)
10000
VE09P/VF07P 130VRMS
1000
2
100
10
10 2
10 3
10 4
10 5
10 6
10
1
20
200
TPC
2.000
( S)
25
500
400
300
200
100
80
60
40
20
10
8
6
4
Ip
(A)
VE13M/VF10M 40VRMS
VE13M/VF10M >40VRMS
1.000
800
600
400
2
10
10 2
10 3
10 4
10 5
2
200
10
100
80
60
10 6
10 2
10 3
10 4
10 5
10 6
40
20
10
8
6
4
1
0.8
0.6
0.4
0.2
0.1
0.08
0.06
20
3.000
2.000
200
( S)
2.000
Ip
(A)
1
0.8
0.6
0.4
20
200
10000
VE13P/VF10P 130VRMS
1000
2
10
100
10 2
10 3
10 4
10 5
10 6
10
1
20
26
200
TPC
2.000
( S)
10000
2.000
( S)
1.000
800
600
Ip 5.000
(A) 4.000
3.000
2.000
VE17M/VF14M 40VRMS
400
200
100
80
60
40
10
10 2
10 3
10 4
20
10 5
> 40 V
RMS
1.000
800
600
400
2
10
200
10 2
100
80
60
10 6
10
8
6
4
10 3
10 4
10 5
40
10 6
20
10
8
6
4
2
1
0.8
0.6
0.4
0.2
0.1
20
VE17M/VF14M
200
( S)
2.000
Ip
(A)
1
0.8
0.6
20
200
2.000
( S)
10000
VE17P/VF14P 130VRMS 130VRMS
1000
1
2
10
100
10 2
10 3
10 4
10 5
10 6
10
1
20
200
TPC
2.000
( S)
10000
27
7.000
6.000
5.000
4.000
3.000
2.000
1.000
800
600
400
200
2
10
10 2
10 3
100
80
60
40
10 5
20
10 6
10 4
10
8
6
4
2
1
0.8
20
200
( S)
2.000
Ip
(A)
10000
VE24P/VF20P 130VRMS 130VRMS
1000
1
2
10
10 2
100
10 3
10 4
10 5
10 6
10
1
20
28
TPC
200
2.000
( S)
10000
millimeters (inches)
Type
VN32M00251KVN32M02750KVN32M00321KVN32M00381KVN32M00421KVN32M00461KVN32M00511KVN32M00750K-
d
D
Type
Material
d
1
28 (1.10)
28 (1.10)
28 (1.10)
28 (1.10)
28 (1.10)
28 (1.10)
28 (1.10)
28 (1.10)
t
max.
2.8 (.110)
3.1 (.122)
3.7 (.146)
4.4 (.173)
4.9 (.193)
5.5 (.217)
6.0 (.236)
6.6 (.260)
GENERAL CHARACTERISTICS
HOW TO ORDER
VN32
D
1.5
32 (1.26)
32 (1.26)
32 (1.26)
32 (1.26)
32 (1.26)
32 (1.26)
32 (1.26)
32 (1.26)
0461
RMS
Operating Voltage
Tolerance
Suffix
MARKING
On packaging only
REMARK
Discs of 14 mm and 20 mm available upon request
PARTICULAR CHARACTERISTICS
Max. operating
voltage
Nominal voltage
at 1 mA DC
Clamping voltage
Vp(V)
Type
VN32M00251KVN32M02750KVN32M00321KVN32M00381KVN32M00421KVN32M00461KVN32M00511KVN32M00750K-
VRMS
(V)
250
275
320
380
420
460
510
575
VDC
(V)
330
369
420
500
560
615
675
730
VR
(V)
390
430
510
610
680
750
820
910
at 2.5 kA
970
1075
1200
1350
1500
1650
1800
2000
at 2.5 kA
1100
1230
1380
1550
1700
1900
2070
2300
Energy
Max. peak current
1 surge
with insulating coating
(10 x 1000 s)
(8 x 20 s)
W
lp (kA)
(J)
1 pulse
2 pulses
200
25
15
260
25
15
300
25
15
350
25
15
400
25
15
450
25
15
500
25
15
550
25
15
VOLTAGE-CURRENT CHARACTERISTICS
10,000
5750
0511
0461
0421
0381
0321
2750
0251
5
4
U (v)
2
1,000
8
5
4
2
100
10-5
10-4
10-3
10-2
10-1
10
100
1,000
10,000
I (A)
TPC
29
millimeters (inches)
GENERAL CHARACTERISTICS
15...45
5 (.197)
40 (1.57)
54 (2.13)
44 (1.73)
24 (.945)
MOUNTING
5 (.197)
o 5.1 (.201)
20 (.787)
PACKAGING
20 (.787)
44 (1.73)
HOW TO ORDER
VB32
Type
Material
MARKING
0421
RMS
Operating Voltage
Tolerance
Suffix
Type
AC nominal voltage (EIA code)
Logo
PARTICULAR CHARACTERISTICS
Max. operating
voltage
Nominal voltage
at 1 mA DC
Clamping voltage
at 2.5 kA
VR
(V)
390
430
510
610
680
750
820
910
Vp
(V)
970
1075
1200
1350
1500
1650
1800
2000
Type
VB32M00251KVB32M02750KVB32M00321KVB32M00381KVB32M00421KVB32M00461KVB32M00511KVB32M00750K-
VRMS
(V)
250
275
320
380
420
460
510
575
VDC
(V)
330
369
420
500
560
615
675
730
Energy
Max. peak current
1 surge
with insulating coating
(10 x 1000 s)
(8 x 20 s)
W
lp (kA)
(J)
1 pulse
2 pulses
200
25
15
260
25
15
300
25
15
350
25
15
400
25
15
450
25
15
500
25
15
550
25
15
VOLTAGE-CURRENT CHARACTERISTICS
10,000
5750
0511
0461
0421
0381
0321
2750
0251
5
4
U (v)
2
1,000
8
5
4
2
100
10-5
10-4
10-3
10-2
10-1
1
I (A)
30
TPC
10
100
1,000
10,000
p
Marking on
this side
Reference plane
H1
P1
W2
H1
E
A
H
W0
H0 W1
W
Adhesive
tape
I2
Direction of unreeling
D0
Cross section
P0
A-B
E
p
Marking on
this side
Reference plane
H1
W2
H1
E
A
H
W0
H0 W1
W
Adhesive
tape
I2
Direction of unreeling
D0
P1
Cross section
A-B
P0
DIMENSIONS:
Lead diameter
Protrusions beyond the lower
side of the hold down tape
Lead spacing
Components pitch
DIMENSIONS:
millimeters (inches)
Dimension Characteristics
Leading tape width
millimeters (inches)
Value
Tolerance
18 (.709)
+1/-0.5
W
The hold down tape shall
not protrude beyond the
W0
carrier tape
9 (.354)
+0.75/-0.5 W1
Dimension Characteristics
3 (.118) max
Verticality of components
Alignment of components
(.157)
16/
or 18
16/
or 18
(.630)/
(.709)
(.630)/
(.709)
W2
0.2
D0
0.5/
-0/+2
0.5/
-0/+2
7.62
(0.30)
25.4
(0.10)
Tolerance
12.7 (0.50)
0.3
P0
3.8 (.150)
0.7
P1
H0
H1
+10%
-0.05
5 (.197) max
5.08
(0.20)
12.7
(0.50)
Value
d
I2
0.8
0.3
TPC
31
MISSING COMPONENTS
AMMOPACK
millimeters (inches)
REEL
millimeters (inches)
295 (11.6)
360 (14.2)
33
(1
3.
2)
52 (2.05)
50
(1.
97
31 (1.22)
Straight leads
Kinked leads
Ho represents the distance between the sprocket holes axis
and the base of the knee.
Leads
Straight
Kinked (type 1)
Kinked (type 2)
Dimensions
0.6 (.024)
0.6 (.024)
5.08 (0.2)
0.6 (.024)
5.08 (0.2)
5.08 (0.2)
Packaging
AMMOPACK
REEL
AMMOPACK
REEL
AMMOPACK
REEL
H/Ho = 16 0.5
DA(*)
DB(*)
DQ(**)
DR(**)
D7(**)
D5(**)
H/Ho = 18 -0/+2
DC(**)
DD(**)
DS
DT
D8
D6
Types
VE 13/17 - VF 10/14
Leads
Straight
Kinked (type 1)
Kinked (type 2)
Dimensions
0.8 (.031)
0.8 (.031)
7.62 (0.3)
Packaging
AMMOPACK
0.8 (.031)
7.62 (0.3)
REEL
AMMOPACK
7.62 (0.3)
REEL
AMMOPACK
REEL
H/Ho = 16 0.5
EA(*)
EN(*)
EC(**)
EF(**)
EQ(**)
ER(**)
H/Ho = 18 -0/+2
EB(**)
ED(**)
EG
EH
ES
ET
(*) DA, DB, EA, EN suffixes are not available for varistors with VRMS 300V and available only upon request for other types.
(**) Preferred versions according to IEC 286-2
32
TPC
Type
VF05 all
VF07
VF07
VF07
VF10
VE13 - VF10
VE13 - VF10
VE17 - VF14
VE17 - VF14
VE17 - VF14
VE24 - VF20
< 230 V
230 V VRMS 300 V
> 300 VRMS
230 VRMS
> 230 VRMS
300 VRMS
> 300 VRMS
230 VRMS
> 230 VRMS
300 VRMS
> 300 VRMS
Bulk
1500
1000
1000
750
500
AMMOPACK
1500
1500
1000
1000
750
REEL
1500
1500
1000
1000
750
500
500
500
500
750
750
500
500
500
500
500
250
IDENTIFICATION - TRACEABILITY
On the packaging of all shipped varistors, you will find a bar code label.
This label gives systematic information on the type of product, part number, lot number,
manufacturing date and quantity.
An example is given below:
Lot number
Manufacturing date (YYMMDD)
Quantity per packaging
Part number
TPC
33
APPROVALS
The quality of our products and organization has been recognized by the following approvals:
ISO 9002
Certificate of approval n 928373
CECC, EN100114-1
Certificate of approval of manufacturer n 004-96
CECC 42201-005
Qualification approval certificate N 96-024
All VE/VF types
VDE
Certificate of approval n 94763E
All VE/VF types with VRMS from 25V to 575V
Underwriters Laboratories, Inc./Canadian Standards Association
UL 1449 Transient Voltage Surge Suppressors
File E 84108 (S)
UL 1414 - Across the line components
File 184 051
All types VE/VF with VRMS from 130V to 275V
List GAM T1
Types VB1 (VE09) to VB4 (VE24)
List LNZ 44004
Types EPV-7A (VE09) to EPV-20A (VE24)
34
TPC
Stacking
Sintering
Electrical test
Silvering
Silver firing
Soldering
Cleaning
Coating
Marking
Polymerization
Cutting leads
Final control
Quality control
Packaging
Shipping consignment
Outgoing shipping - Verification
TPC
35
RELIABILITY
TPC has a Quality System that complies with the ISO &
CECC quality requirements.
All products are tested and released by the quality department based on the compliance to established customer
specifications. Critical raw materials are inspected for dimensional, electrical and physical properties prior to releasing to
the production floor.
Routine checks are carried out at crucial processes. The
finished products are submitted to Quality Control for inspection on electrical, dimensional, physical & visual conformance
to relevant specifications, based on established AQLs.
The average outgoing quality level is < 10ppm on TPC
varistors. The low ppm value is applicable for total functional failures, i.e. short circuit and open circuit.
10,000
0.8 VRMS
0.7 VRMS
1,000
100
10
1
40
60
80
Temperature (C)
100
120
1.0 VRMS
0.9 VRMS
100,000
10,000
0.8 VRMS
0.7 VRMS
1,000
100
10
1
20
36
TPC
40
60
80
Temperature (C)
100
120
Test Condition
RESISTANCE TO SOLDERING
HEAT
RAPID CHANGE IN
TEMPERATURE
Test Requirement
I Delta V/V (1 mA) I max 10%
Measured in the direction of the
surge current
No visible damage
I Delta V/V (1 mA) I max 10%
Measured in the direction of the
surge current
No visible damage
SHOCK
VIBRATION
CLIMATIC SEQUENCE
LIFE TEST
TPC
37
USA
EUROPE
ASIA-PACIFIC
AVX/Kyocera, Singapore
Asia-Pacific Headquarters
Tel: 843-448-9411
FAX: 843-448-1943
AVX Northwest, WA
Tel: 360-669-8746
FAX: 360-699-8751
AVX/Kyocera, Korea
Tel: 317-848-7153
FAX: 317-844-9314
AVX Northeast, MA
AVX/Kyocera, Taiwan
Tel: 508-485-8114
FAX: 508-485-8471
AVX Mid-Pacific, CA
AVX/Kyocera, China
Tel: 408-436-5400
FAX: 408-437-1500
AVX Southwest, AZ
AVX/Kyocera, Malaysia
Tel: 602-539-1496
FAX: 602-539-1501
Elco, Japan
Tel: 972-669-1223
FAX: 972-669-2090
Tel: 045-943-2906
FAX: 045-943-2910
Kyocera, Japan
AVX Southeast, NC
Tel: 919-878-6357
FAX: 919-878-6462
AVX Canada
Contact:
Tel: 905-564-8959
FAX: 905-564-9728
http://www.avxcorp.com
S-ZOV10M698-N