VE13P00141KDD [KYOCERA AVX]
RESISTOR, VOLTAGE DEPENDENT, 180V, 39J, THROUGH HOLE MOUNT;
| 型号: | VE13P00141KDD |
| 厂家: | 
KYOCERA AVX |
| 描述: | RESISTOR, VOLTAGE DEPENDENT, 180V, 39J, THROUGH HOLE MOUNT |
| 文件: | 总15页 (文件大小:319K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Zinc Oxide Varistors
VE/VF Types for Heavy Duty Applications (“P Series”)
FEATURES
• “P Series” are especially dedicated to heavy duty applica-
t
D
tions encountered in the AC power network. Higher surge
current and energy ratings provide an improved protection
and a better reliability
• Radial lead varistors
• Operating voltage range from 130 V to 625 V (V for
rms
VE types) or 205 V to 1000 V (V1mA for VF types)
• Available in tape and reel for use with automatic insertion
equipment (see pages 31 to 33 for details).
E
PARTICULAR CHARACTERISTICS
UL
VE Series
VF Series
Maximum
Nominal voltage
at 1 mA dc
(USA and
Canadian
Standards)
P/N codification using
P/N codification using
operating voltage
(Dmax , V
)
(dceramic, V
)
V
VDC
V
V
V
rms
1mA
rms
1mA mini
1mA nominal
1mA maxi
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
★
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 _ _
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 _ _
130
170
184
205
226
140
180
198
220
242
150
175
200
225
216
243
240
270
264
297
210
230
275
300
297
324
330
360
363
396
18
TP C
Zinc Oxide Varistors
VE/VF Types for Heavy Duty Applications (“P Series”)
GENERAL CHARACTERISTICS
DIMENSIONS millimeters (inches)
D
Storage temperature:
-40°C to +125°C
Maximum
Type Ceramic coated
diameter diameter
ø
Max. operating temperature: +85°C
Type
H
t
+10%
E
± 0.8
Response time:
< 25 ns
max. max. –0.05 (.002)
Voltage coefficient temp.:
Voltage proof:
Epoxy coating:
K
< 0.09%/°C
VE07 VF05
VE09 VF07
5 (.196)
7 (.275)
7
9
(.275) 10 (.394)
(.354) 12 (.472)
0.6 (.024) 5.08 (0.20)
0.6 (.024) 5.08 (0.20)
2500 V
Flame retardant
UL94-VO
VE13* VF10* 10 (.393) 13* (.512) 16 (.630) see 0.8* (.031) 7.62*(0.30)
VE17 VF14 14 (.551) 17 (.669) 20 (.787)
VE24** VF20** 20 (.787) 24 (.945) 27 (1.06)
table
0.8 (.031) 7.62 (0.30)
0.8** (.031) 7.62 (0.30)
MARKING
Type
* VE13 / VF10: For models with V ≤ 320 V
RMS
other version/suffixes available with:
E = 5.08 (0.20) Suffix:
Ø = 0.6 (.024) Bulk: HB
D = 12.5 (.492) max Tape: DA, DB, DC,
DD, DQ, ...
AC nominal voltage (EIA coding) for VE types
1mA varistor voltage (EIA coding) for VF types
V
Logo
UL logo (when approved)
Lot number (VE13/17/24 and VF10/14/20 only)
**VE24 / VF20: For lead diameter = 1.0 (.039),
please consult us.
Max. clamping
Max. energy absorption
(10 x 1000 µs)
W (J )
Number of surges
1 surge
Max. permissible
peak current
(8 x 20 µs)
Ip (A)
Typical
capacitance
f = 1kHz
Mean
power
Maximum
thickness
t
V/I
Derating
curves
voltage (8 x 20 µs)
characteristic
dissipation
Vp (V)
Ip (A)
1 surge
2 surges
pF
W
mm (inches)
Page
Page
340
5
8.5
17.5
35
800
1750
3500
6000
10000
800
600
1250
2500
4500
7000
600
90
250
450
1000
2500
85
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
4.1 (.161)
4.1 (.161)
4.7 (.185)
4.7 (.185)
5.1 (.201)
4.2 (.165)
4.2 (.165)
4.8 (.189)
4.8 (.189)
5.2 (.205)
4.3 (.169)
4.3 (.169)
4.9 (.193)
4.9 (.193)
5.3 (.209)
4.5 (.177)
4.5 (.177)
5.1 (.201)
5.1 (.201)
5.5 (.217)
4.9 (.193)
4.9 (.193)
5.5 (.217)
5.5 (.217)
5.9 (.232)
5.1 (.201)
5.1 (.201)
5.7 (.224)
5.7 (.224)
6.1 (.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
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
10
25
50
100
5
70
140
9
10
25
50
100
5
19
1750
3500
6000
10000
800
1250
2500
4500`
7000
600
235
425
930
2250
80
39
78
155
10.5
21
10
25
50
100
5
1750
3500
6000
10000
800
1250
2500
4500
7000
600
220
400
850
2000
70
42
85
170
11
10
25
50
100
5
24
1750
3500
6000
10000
800
1250
2500
4500
7000
600
190
340
750
2000
60
50
100
190
13
10
25
50
100
5
28
1750
3500
6000
10000
800
1250
2500
4500
7000
600
155
275
600
1650
55
60
115
230
16
10
25
50
100
32
1750
3500
6000
10000
1250
2500
4500
7000
140
250
550
1500
65
130
250
19
TP C
Zinc Oxide Varistors
VE/VF Types for Heavy Duty Applications (“P Series”)
UL
VE Series
P/N codification using
VF Series
Maximum
Nominal voltage
at 1 mA dc
(USA and
Canadian
Standards)
P/N codification using operating voltage
(Dmax , V
)
(dceramic, V
)
V
VDC
V
V
V
rms
1mA
rms
1mA mini
1mA nominal
1mA maxi
VE07P00251K _ _
VE09P00251K _ _
VE13P00251K _ _
VE17P00251K _ _
VE24P00251K _ _
VF05P10391K _ _
VF07P10391K _ _
VF10P10391K _ _
VF14P10391K _ _
VF20P10391K _ _
250
275
300
320
351
387
423
390
430
470
429
★
★
★
★
★
VE07P02750K _ _
VE09P02750K _ _
VE13P02750K _ _
VE17P02750K _ _
VE24P02750K _ _
VF05P10431K _ _
VF07P10431K _ _
VF10P10431K _ _
VF14P10431K _ _
VF20P10431K _ _
350
385
473
517
★
★
★
★
★
VE07P00301K _ _
VE09P00301K _ _
VE13P00301K _ _
VE17P00301K _ _
VE24P00301K _ _
VF05P10471K _ _
VF07P10471K _ _
VF10P10471K _ _
VF14P10471K _ _
VF20P10471K _ _
★
★
★
★
★
VE09P00321K _ _
VE13P00321K _ _
VE17P00321K _ _
VE24P00321K _ _
VF07P10511K _ _
VF10P10511K _ _
VF14P10511K _ _
VF20P10511K _ _
320
350
385
420
420
460
505
560
459
504
558
612
510
560
620
680
561
616
682
748
★
★
★
★
VE09P00351K _ _
VE13P00351K _ _
VE17P00351K _ _
VE24P00351K _ _
VF07P10561K _ _
VF10P10561K _ _
VF14P10561K _ _
VF20P10561K _ _
★
★
★
★
VE09P03850K _ _
VE13P03850K _ _
VE17P03850K _ _
VE24P03850K _ _
VF07P10621K _ _
VF10P10621K _ _
VF14P10621K _ _
VF20P10621K _ _
★
★
★
★
VE09P00421K _ _
VE13P00421K _ _
VE17P00421K _ _
VE24P00421K _ _
VF07P10681K _ _
VF10P10681K _ _
VF14P10681K _ _
VF20P10681K _ _
★
★
★
★
VE13P00441K _ _
VE17P00441K _ _
VE24P00441K _ _
VF10P17150K _ _
VF14P17150K _ _
VF20P17150K _ _
440
460
510
550
575
625
585
615
670
715
730
825
643
675
738
774
819
900
715
750
820
860
910
1000
787
825
★
★
★
VE13P00461K _ _
VE17P00461K _ _
VE24P00461K _ _
VF10P10751K _ _
VF14P10751K _ _
VF20P10751K _ _
★
★
★
VE13P00511K _ _
VE17P00511K _ _
VE24P00511K _ _
VF10P10821K _ _
VF14P10821K _ _
VF20P10821K _ _
902
★
★
★
VE13P00551K _ _
VE17P00551K _ _
VE24P00551K _ _
VF10P10861K _ _
VF14P10861K _ _
VF20P10861K _ _
946
★
★
★
VE13P05750K _ _
VE17P05750K _ _
VE24P05750K _ _
VF10P10911K _ _
VF14P10911K _ _
VF20P10911K _ _
1001
1100
★
★
★
VE13P06250K _ _
VE17P06250K _ _
VE24P06250K _ _
VF10P10102K _ _
VF14P10102K _ _
VF20P10102K _ _
★
★
★
20
TP C
Zinc Oxide Varistors
VE/VF Types for Heavy Duty Applications (“P Series”)
Max. clamping
Max. energy absorption
(10 x 1000 µs)
W (J )
Number of surges
1 surge
Max. permissible
peak current
(8 x 20 µs)
Ip (A)
Typical
capacitance
f = 1kHz
Mean
power
Maximum
thickness
t
V/I
Derating
curves
voltage (8 x 20 µs)
characteristic
dissipation
Vp (V)
Ip (A)
1 surge
2 surges
pF
W
mm (inches)
Page
Page
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 (.213)
5.4 (.213)
5.9 (.232)
5.9 (.232)
6.3 (.248)
34
34
34
35
35
24
25
26
27
28
645
645
645
645
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 (.224)
5.7 (.224)
6.3 (.248)
6.3 (.248)
6.7 (.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 (.236)
6.0 (.236)
6.6 (.260)
6.6 (.260)
7.0 (.276)
34
34
34
35
35
24
25
26
27
28
840
840
840
840
10
25
50
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 (.252)
7.0 (.276)
7.0 (.276)
7.5 (.295)
34
34
35
35
25
26
27
28
100
910
910
910
910
10
25
50
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 (.260)
7.3 (.287)
7.3 (.287)
7.8 (.307)
34
34
35
35
25
26
27
28
100
1025
1025
1025
1025
10
25
50
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 (.276)
7.7 (.303)
7.7 (.303)
8.1 (.319)
34
34
35
35
25
26
27
28
100
1120
1120
1120
1120
10
25
50
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 (.291)
8.2 (.323)
8.2 (.323)
8.6 (.339)
34
34
35
35
25
26
27
28
100
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
21
TP C
Zinc Oxide Varistors
Electrical Characteristics VE / VF Types
VOLTAGE-CURRENT CHARACTERISTICS
V/I characteristics give:
- for I below 1 mA the maximum leakage current under V
dc
- for I above 1 mA the maximum clamping voltage
U(V)
VE 07/VF 05
103
8
275
300
6
230
250
210
4
175
140
160
130
275
230
300
250
210
115
75
95
60
150
130
2
175
240
115
9955
60
102
50
40
75
50
30
20
8
6
35
40
30
20
25
17
14
4
35
15
17
2
14
10
10-5
10-4
10-3
10-2
10-1
1
10
102
103
I(A)
U(V)
U(V)
103
VE 13/VF 10
VE 09/VF 07
625
550
575
510
460
385
625
550
420
8
6
103
575
510
275
230
300
250
210
175
420
385
8
6
385
420
300
250
4
420
275
230
275
230
300
250
150
130
385
210
175
300
250
140
115
4
2
210
175
275
230
150
130
2
130
115
150
130
95
60
210
175
140
115
75
95
160
115
75
35
95
60
150
130
95
102
50
35
60
102
175
50
50
40
75
50
8
6
30
8
60
40
30
20
40
25
17
6
20
14
25
17
4
35
30
20
35
4
14
25
17
30
20
25
17
2
2
14
14
10
10
10-5
10-5
10-4
10-3
10-2
10-1
1
10
102
103
10-4
10-3
10-2
10-1
1
10
102
103
I(A)
I(A)
22
TP C
Zinc Oxide Varistors
Electrical Characteristics VE / VF Types
VOLTAGE-CURRENT CHARACTERISTICS
U(V)
VE17/VF14
625
575
550
103
510
420
460
625
385
575
550
8
6
320
275
230
510
420
300
250
460
385
320
275
230
4
150
130
175
300
280
140
115
95
150
130
175
140
115
2
75
60
40
95
80
40
102
50
35
75
50
8
6
30
20
25
17
4
30
20
14
36
25
17
2
14
10
10-5 10-4 10-3 10-2 10-1
1
10
102 103
U(V)
I(A)
VE24/VF20
625
510
420
103
550
460
625
385
8
6
320
275
230
510
420
550
46
300
250
0
385
320
275
230
4
150
130
175
300
280
140
115
95
150
130
175
140
115
2
75
95
102
75
8
6
4
2
10
10-5 10-4 10-3 10-2 10-1
1
10
102 103 I(A)
23
TP C
Zinc Oxide Varistors
Electrical Characteristics VE / VF Types
MAXIMUM SURGE CURRENT (Ip)
DERATING CURVES WITH PULSE WIDTH () AND FREQUENCY
400
300
Ip
(A)
400
300
Ip
(A)
VE07M/VF05M Յ 40V
VE07M/VF05M > 40VRMS
RMS
200
200
100
80
100
80
60
60
40
40
20
20
10
8
6
10
8
6
4
4
2
2
1
0.8
0.6
1
0.8
0.6
0.4
0.2
0.1
0.4
0.2
0.1
(µS)
(µS)
20
200
2.000
20
200
2.000
10000
1000
Ip
(A)
VE07P/VF05P130VRMS to 625VRMS
100
10
1
(µS)
10
100
1000
10000
24
TPC
Zinc Oxide Varistors
Electrical Characteristics VE / VF Types
MAXIMUM SURGE CURRENT (Ip)
DERATING CURVES WITH PULSE WIDTH () AND FREQUENCY
2.000
Ip
(A)
Ip
(A)
800
600
400
300
200
VE09M/VF07M
40V
>
RMS
VE09M/VF07M Յ 40V
1.000
800
600
RMS
400
200
100
80
60
40
20
100
80
60
40
10
8
20
6
10
8
4
2
6
4
2
1
0.8
0.6
1
0.4
0.2
0.1
0.8
0.6
0.4
0.2
(µS)
(µS)
20
200
2.000
20
200
2.000
10000
1000
Ip
(A)
VE09P/VF07P130VRMS to 625VRMS
100
10
1
(µS)
10
100
1000
10000
25
TPC
Zinc Oxide Varistors
Electrical Characteristics VE / VF Types
MAXIMUM SURGE CURRENT (Ip)
DERATING CURVES WITH PULSE WIDTH () AND FREQUENCY
Ip
(A)
3.000
2.000
Ip
(A)
500
400
300
VE13M/VF10M 40V
VE13M/VF10M р 40V
>
RMS
RMS
200
1.000
800
600
100
80
60
400
40
20
200
100
80
60
10
8
6
40
4
2
20
10
8
6
1
0.8
0.6
4
0.4
2
0.2
1
0.8
0.6
0.1
0.08
0.06
0.4
(µS)
(µS)
20
200
2.000
20
200
2.000
10000
1000
Ip
(A)
VE13P/VF10P 130VRMS to 625VRMS
100
10
1
(µS)
10000
10
100
1000
26
TPC
Zinc Oxide Varistors
Electrical Characteristics VE / VF Types
MAXIMUM SURGE CURRENT (Ip)
DERATING CURVES WITH PULSE WIDTH () AND FREQUENCY
Ip
(A)
Ip
(A)
5.000
4.000
3.000
1.000
800
600
VE17M/VF14M р40V
VE17M/VF14M > 40 V
RMS
RMS
2.000
400
1.000
800
200
600
100
80
60
400
200
40
100
80
20
60
10
8
6
40
20
4
10
8
6
2
1
0.8
0.6
4
2
0.4
0.2
0.1
1
0.8
0.6
(µS)
(µS)
20
200
2.000
20
200
2.000
10000
1000
Ip
(A)
VE17P/VF14P 130V to 320VRMS
RMS
100
10
1
(µS)
10000
10
100
1000
27
TPC
Zinc Oxide Varistors
Electrical Characteristics VE / VF Types
MAXIMUM SURGE CURRENT (Ip)
DERATING CURVES WITH PULSE WIDTH () AND FREQUENCY
Ip
(A)
7.000
6.000
5.000
4.000
3.000
VE24M/VF20M >75 VRMS
2.000
1.000
800
600
400
200
100
80
60
40
20
10
8
6
4
2
1
0.8
(µS)
20
200
2.000
10000
Ip
(A)
VE24P/VF20P 130VRMS to 625VRMS
1000
100
10
1
(µS)
10000
10
100
1000
28
TPC
Zinc Oxide Varistors
Ordering Code
HOW TO ORDER
VE09
M
0
0251
K
– –
Series
M: Varistors
for general
applications
P: Varistors for
heavy duty
applications
Marking
AC nominal
voltage
AC Operating Voltage
Tolerance
at 1 mA
K: ±10%
Suffixes
See
on page 32
Type
VE 07
VE 09
VE 13
VE 17
VE 24
VF 05
VF 07
VF 10
VF 14
VF 20
VN 32
VB 32
(EIA coding)
VE
VE:0
(J: ±5% upon request)
Nominal Voltage
at 1 mA dc
(EIA coding)
VF
Nominal
voltage
at 1 mA dc
VF:1
1. Operating voltage expressed by
2 significant figures:
1st digit: 0 (zero).
2. Operating voltage expressed by
3 significant figures:
1st, 2nd and 3rd digit:
the 3 significant figures of
the operating voltage.
4th digit: the number of
ZEROS to be added to
the operating voltage
value.
2nd and 3rd digit:
the two significant figures
of the operating voltage.
4th digit: the number of
ZEROS to be added to
the operating voltage
value.
Examples: 205 V: 2050
275 V: 2750
Examples: 75 V: 0750
250 V: 0251
300 V: 0301
11
TP C
Zinc Oxide Varistors
Taping Characteristics
TAPING OF OUR VARISTORS IS MADE ACCORDING TO IEC 286-2
Types: VE07/09 - VF05/07
P
p
p
h
h
Marking on
this side
Reference plane
P1
H1 W2
H1
E
H
H0
W1
A
B
W0
W
Adhesive
tape
I2
Direction of unreeling
t
d
Cross section
A - B
D0
P0
E
Types: VE13/17 - VF10/14
p
p
P
h
h
Marking on
this side
Reference plane
H1
H1 W2
E
H
H0
W1
A
B
W0
W
Adhesive
tape
I2
Direction of unreeling
t
d
Cross section
A - B
P1
D0
P0
E
DIMENSIONS: millimeters (inches)
DIMENSIONS: millimeters (inches)
Dimension Characteristics
Sprocket holes pitch
Dimension Characteristics
Value
Tolerance
Value
Tolerance
Leading tape width
18 (.709)
+1/-0.5
W
12.7 (0.50)
±0.3
P0
P1
The hold down tape shall
not protrude beyond the
carrier tape
Distance between the sprocket
hole axe and the lead axe
3.8 (.150)
±0.7
Adhesive tape width
Sprocket hole position
W0
9
(.354)
+0.75/-0.5 W1
Total thickness of tape
Verticality of components
Alignment of components
0.9 (.035) max
t
Distance between the tops of
the tape and the adhesive
0
0
±2
±2
⌬p
⌬h
3
4
(.118) max
(.157)
W2
Diameter of sprocket hole
±0.2
D0
H
Distance between the tape axis
and the bottom plane of
component body
16/ (.630)/
or 18 (.709)
±0.5/
-0/+2
Distance between the tape axis
and the kink
16/ (.630)/
or 18 (.709)
±0.5/
-0/+2
H0
Distance between the tape axis
and the top of component body
VE 07/09 - VF 05/07
33.0 (1.30) max
45.0 (1.77) max
H1
d
VE 13/17 - VF 10/14
0.6
0.8
+10%
-0.05
Lead diameter
(.024) (.031)
Protrusions beyond the lower
side of the hold down tape
5 (.197) max
I
2
5.08
(0.20) (0.30)
12.7 25.4
(0.50) (0.10)
7.62
Lead spacing
±0.8
±0.3
E
p
Components pitch
31
TP C
Zinc Oxide Varistors
Taping Characteristics
PACKAGING
For automatic insertion, the following types can be ordered
on tape either in AMMOPACK (fan folder) or on REEL in
accordance to IEC 286-2.
MISSING COMPONENTS
A maximum of 3 consecutive components may be missing
from the bandolier, surrounded by at least 6 filled positions.
The number of missing components may not exceed 0.5%
of the total per packing module.
AMMOPACK
millimeters (inches)
REEL
millimeters (inches)
360 (14.2)
52 (2.05)
31 (1.22)
– Straight leads
LEADS CONFIGURATION AND
PACKAGING SUFFIXES
The tables below indicate the suffixes to be specified when
ordering kink and packaging types. For devices on tape, it is
necessary to specify the height (H or Ho) which is the
distance between the tape axis (sprocket holes) and the
sitting plane on the printed circuit board.
H represents the distance between the sprocket holes axis
and the bottom plane of component body (base of resin or
base of stand off).
– Kinked leads
Ho represents the distance between the sprocket holes axis
and the base of the knee.
Types
Leads
VE 07/09 - VF 05/07 (VE13 - VF10 ≤ 320 V upon request)
rms
Straight
Kinked (type 1)
Kinked (type 2)
Dimensions
0.6 (.024)
0.6 (.024)
0.6 (.024)
5.08 (0.2)
5.08 (0.2)
AMMOPACK
DQ(**)
5.08 (0.2)
Packaging
AMMOPACK
DA(*)
REEL
DB(*)
DD(**)
REEL
DR(**)
DT
AMMOPACK
REEL
D5(**)
D6
H/Ho = 16 ± 0.5
H/Ho = 18 -0/+2
D7(**)
D8
DC(**)
DS
Types
Leads
VE 13/17 - VF 10/14
Kinked (type 1)
Straight
Kinked (type 2)
Dimensions
0.8 (.031)
0.8 (.031)
0.8 (.031)
7.62 (0.3)
7.62 (0.3)
7.62 (0.3)
Packaging
AMMOPACK
EA(*)
REEL
EN(*)
ED(**)
AMMOPACK
EC(**)
REEL
EF(**)
EH
AMMOPACK
EQ(**)
REEL
ER(**)
ET
H/Ho = 16 ± 0.5
H/Ho = 18 -0/+2
EB(**)
EG
ES
(*) DA, DB, EA, EN suffixes are not available for varistors with V 300V are available only upon request for other types.
RMS
(**) Preferred versions according to IEC 286-2
32
TP C
>
300 VRMS
Zinc Oxide Varistors
Packaging
PACKAGING QUANTITIES
Type
VE07 - VF05 all
VE09 - VF07
Bulk
AMMOPACK
1500
REEL
1500
1500
1000
1500
1000
1000
< 230 V
1500
RMS
VE09 - VF07
≥ 230 V ≤ 300 V
1000
RMS
RMS
VE09 - VF07
VE13 - VF10
> 300 V
750
500
1000
750
1000
750
RMS
≤ 230 V
RMS
VE13 - VF10
VE13 - VF10
VE17 - VF14
VE17 - VF14
VE17 - VF14
VE24 - VF20
> 230 VRMS ≤ 300 V
500
500
500
500
500
250
500
—
500
—
RMS
> 300 V
RMS
≤ 230 V
750
500
—
750
500
—
RMS
> 230 VRMS ≤ 300 V
RMS
> 300 V
RMS
—
—
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
This information allows complete traceability of the entire manufacturing process,
from raw materials to final inspection.
This is extremely useful for any information request.
33
TP C
相关型号:
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