VISHAY VDRH10GO17XYE

2381 58. ...../VDRH.......E
Vishay BCcomponents
High Surge Suppression Varistors
FEATURES
RoHS
• Zinc oxide disc, epoxy coated
COMPLIANT
• Straight or kinked leads
• Component in accordance to RoHS 2002/95/EC and
WEEE 2002/96/EC
• Certified according to UL1449, VDE/IEC 61051 and CSA
APPLICATION
• Supression of transients
The encapsulation is made of flammable resistant epoxy in
accordance with UL94V-0.
QUICK REFERENCE DATA
PARAMETER
VALUE
UNIT
Maximum continuous voltage:
RMS
11 to 680
V
DC
14 to 895
V
250 to 10 000
A
10
N
1
m
Maximum non-repetitive transient
current INRP (8 x 20 µs)
Robustness of terminations
DESCRIPTION
The varistors consist of a disc of low-ß ceramic material with
two tinned solid copper leads. They are coated with a layer
of ochre coloured epoxy, which provides electrical,
mechanical and climatic protection. The encapsulation is
resistant to all cleaning solvents in accordance with
“IEC 60068-2-45”.
MOUNTING
The varistors are suitable for processing on automatic
insertion and cutting and bending equipment.
Drop test:
Height of fall
Detailed specification
based on
CECC 42000
Storage temperature
- 40 to + 150
°C
Operating temperature
- 40 to + 125
°C
Typical Soldering
235 °C, duration: 5 s (Pb-bearing)
245 °C, duration: 5 s (Lead (Pb)-free)
Resistance to soldering heat
260 °C; duration: 10 s max.
MARKING
ORDERING INFORMATION
The varistors are available in a number of packaging options:
• Bulk
• On tape on reel
• On tape in ammopack
The basic ordering code for each option is given in tables
titled Varistors on Tape on Reel, Varistors on Tape in
Ammopack and Varistors in Bulk. To complete the catalog
number and to determine the required operating parameters,
see Electrical Data and Ordering Information table.
The varistors are marked with the following information:
• Maximum continuous RMS voltage
• Series number (582, 583, 584, 585 or 586)
• Manufacture logo
• Date of manufacture (YYWW)
INFLAMMABILITY
The varistors are non-flammable.
ELECTRICAL DATA AND ORDERING INFORMATION
MAXIMUM
VOLTAGE (3)
CONTINUOUS
at 1 mA
VOLTAGE
MAXIMUM
VOLTAGE
at STATED
CURRENT
RMS (2)
(V)
V
(V)
11
DC
(V)
14
www.vishay.com
34
(V)
18
MAXIMUM
ENERGY (4)
(10 X 1000 µS)
I
(A)
(J)
MAXIMUM
NON-REP.
TYPICAL
TRANSIENT CAPACITANCE
CURRENT (5)
at 1 kHz
INRP (8 x 20 µs)
(A)
(pF)
CATALOG NUMBERS (1)
12 NC (6)
SAP (7)
40
1.0
0.7
250
1600
2381 582 x110y
VDRH05B011xyE
36
2.5
1.5
500
3600
2381 583 x110y
VDRH07D011xyE
36
5.0
2.6
1000
8000
2381 584 x110y
VDRH10G011xyE
36
10.0
5.2
2000
20 000
2381 585 x110y
VDRH14M011xyE
36
20.0
13.0
3000
40 000
2381 586 x110y
VDRH20R011ByE
For technical questions, contact: [email protected]
Document Number: 29082
Revision: 09-Oct-08
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
MAXIMUM
NON-REP.
TYPICAL
TRANSIENT CAPACITANCE
CURRENT (5)
at 1 kHz
INRP (8 x 20 µs)
MAXIMUM
VOLTAGE (3)
CONTINUOUS
at 1 mA
VOLTAGE
MAXIMUM
VOLTAGE
at STATED
CURRENT
RMS (2)
(V)
V
(V)
I
(A)
(J)
(A)
(pF)
12 NC (6)
48
1.0
0.8
250
1300
2381 582 x140y
VDRH05B014xyE
43
2.5
1.7
500
2800
2381 583 x140y
VDRH07D014xyE
14
17
20
25
30
35
40
50
60
DC
(V)
18
22
26
31
38
45
56
65
85
(V)
22
27
33
39
47
56
68
82
100
Document Number: 29082
Revision: 09-Oct-08
MAXIMUM
ENERGY (4)
(10 X 1000 µS)
CATALOG NUMBERS (1)
SAP (7)
43
5.0
3.2
1000
6000
2381 584 x140y
VDRH10G014xyE
43
10.0
6.3
2000
15 000
2381 585 x140y
VDRH14M014xyE
43
20.0
16.0
3000
30 000
2381 586 x140y
VDRH20R014ByE
60
1.0
1.1
250
1050
2381 582 x170y
VDRH05B017xyE
53
2.5
2.1
500
2000
2381 583 x170y
VDRH07D017xyE
53
5.0
3.9
1000
4000
2381 584 x170y
VDRH10G017xyE
53
10.0
7.8
2000
10 000
2381 585 x170y
VDRH14M017xyE
53
20.0
19.0
3000
20 000
2381 586 x170y
VDRH20R017ByE
73
1.0
1.3
250
900
2381 582 x200y
VDRH05B020xyE
65
2.5
2.8
500
1500
2381 583 x200y
VDRH07D020xyE
65
5.0
4.8
1000
3000
2381 584 x200y
VDRH10G020xyE
65
10.0
9.5
2000
7500
2381 585 x200y
VDRH14M020xyE
65
20.0
24.0
3000
15 000
2381 586 x200y
VDRH20R020ByE
86
1.0
1.5
250
500
2381 582 x250y
VDRH05B025xyE
77
2.5
3.0
500
1350
2381 583 x250y
VDRH07D025xyE
77
5.0
5.6
1000
2600
2381 584 x250y
VDRH10G025xyE
77
10.0
11.0
2000
6500
2381 585 x250y
VDRH14M025xyE
VDRH20R025ByE
77
20.0
28.0
3000
13 000
2381 586 x250y
104
1.0
1.8
250
700
2381 582 x300y
VDRH05B030xyE
93
2.5
3.8
500
1600
2381 583 x300y
VDRH07D030xyE
93
5.0
6.8
1000
2700
2381 584 x300y
VDRH10G030xyE
93
10.0
14.0
2000
6000
2381 585 x300y
VDRH14M030xyE
VDRH20R030ByE
93
20.0
34.0
3000
12 000
2381 586 x300y
123
1.0
2.2
250
560
2381 582 x350y
VDRH05B035xyE
110
2.5
4.4
500
1300
2381 583 x350y
VDRH07D035xyE
110
5.0
8.1
1000
2200
2381 584 x350y
VDRH10G035xyE
110
10.0
16.0
2000
4800
2381 585 x350y
VDRH14M035xyE
110
20.0
41.0
3000
9600
2381 586 x350y
VDRH20R035ByE
150
1.0
2.6
250
460
2381 582 x400y
VDRH05B040xyE
135
2.5
5.4
500
1000
2381 583 x400y
VDRH07D040xyE
135
5.0
9.8
1000
1800
2381 584 x400y
VDRH10G040xyE
135
10.0
20.0
2000
3800
2381 585 x400y
VDRH14M040xyE
135
20.0
49.0
3000
7600
2381 586 x400y
VDRH20R040ByE
145
5.0
3.5
800
370
2381 582 x500y
VDRH05E050xyE
135
10.0
7.0
1750
900
2381 583 x500y
VDRH07K050xyE
135
25.0
14.0
3500
1500
2381 584 x500y
VDRH10S050xyE
135
50.0
28.0
6000
3100
2381 585 x500y
VDRH14V050xyE
175
5.0
4.5
800
290
2381 582 x600y
VDRH05E060xyE
165
10.0
9.0
1750
700
2381 583 x600y
VDRH07K060xyE
165
25.0
18.0
3500
1200
2381 584 x600y
VDRH10S060xyE
165
50.0
36.0
6000
2300
2381 585 x600y
VDRH14V060xyE
165
100.0
72.0
10 000
4600
2381 586 x600y
VDRH20X060ByE
For technical questions, contact: [email protected]
www.vishay.com
35
2381 58. ...../VDRH.......E
Vishay BCcomponents
High Surge Suppression Varistors
ELECTRICAL DATA AND ORDERING INFORMATION
MAXIMUM
VOLTAGE (3)
CONTINUOUS
at 1 mA
VOLTAGE
MAXIMUM
VOLTAGE
at STATED
CURRENT
RMS (2)
(V)
V
(V)
75
95
115
130
140
150
175
195
210
DC
(V)
100
125
150
170
180
200
225
250
275
www.vishay.com
36
(V)
120
150
180
205
220
240
275
300
330
MAXIMUM
ENERGY (4)
(10 X 1000 µS)
I
(A)
(J)
MAXIMUM
NON-REP.
TYPICAL
TRANSIENT CAPACITANCE
CURRENT (5)
at 1 kHz
INRP (8 x 20 µs)
CATALOG NUMBERS (1)
(A)
(pF)
12 NC (6)
SAP (7)
210
5.0
5.5
800
240
2381 582 x750y
VDRH05E075xyE
200
10.0
11.0
1750
530
2381 583 x750y
VDRH07K075xyE
VDRH10S075xyE
200
25.0
22.0
3500
1000
2381 584 x750y
200
50.0
44.0
6000
1900
2381 585 x750y
VDRH14V075xyE
200
100.0
88.0
10 000
3800
2381 586 x750y
VDRH20X075ByE
260
5.0
6.5
800
180
2381 582 x950y
VDRH05E095xyE
250
10.0
13.0
1750
450
2381 583 x950y
VDRH07K095xyE
VDRH10S095xyE
250
25.0
25.0
3500
800
2381 584 x950y
250
50.0
53.0
6000
1500
2381 585 x950y
VDRH14V095xyE
250
100.0
106.0
10 000
3000
2381 586 x950y
VDRH20X095ByE
320
5.0
8.0
800
150
2381 582 x111y
VDRH05E115xyE
300
10.0
16.0
1750
390
2381 583 x111y
VDRH07K115xyE
VDRH10S115xyE
300
25.0
32.0
3500
680
2381 584 x111y
300
50.0
65.0
6000
1320
2381 585 x111y
VDRH14V115xyE
300
100.0
130.0
10 000
2640
2381 586 x111y
VDRH20X115ByE
355
5.0
8.5
800
130
2381 582 x131y
VDRH05E130xyE
340
10.0
17.5
1750
320
2381 583 x131y
VDRH07K130xyE
VDRH10S130xyE
340
25.0
35.0
3500
580
2381 584 x131y
340
50.0
70.0
6000
1050
2381 585 x131y
VDRH14V130xyE
340
100.0
140.0
10 000
2100
2381 586 x131y
VDRH20X130ByE
380
5.0
9.0
800
120
2381 582 x141y
VDRH05E140xyE
360
10.0
19.0
1750
290
2381 583 x141y
VDRH07K140xyE
VDRH10S140xyE
360
25.0
39.0
3500
540
2381 584 x141y
360
50.0
78.0
6000
950
2381 585 x141y
VDRH14V140xyE
360
100.0
155.0
10 000
1900
2381 586 x141y
VDRH20X140ByE
415
5.0
10.5
800
110
2381 582 x151y
VDRH05E150xyE
395
10.0
21.0
1750
270
2381 583 x151y
VDRH07K150xyE
VDRH10S150xyE
395
25.0
42.0
3500
490
2381 584 x151y
395
50.0
84.0
6000
850
2381 585 x151y
VDRH14V150xyE
395
100.0
168.0
10 000
1700
2381 586 x151y
VDRH20X150ByE
475
5.0
11.0
800
90
2381 582 x171y
VDRH05E175xyE
455
10.0
24.0
1750
230
2381 583 x171y
VDRH07K175xyE
VDRH10S175xyE
455
25.0
49.0
3500
430
2381 584 x171y
455
50.0
99.0
6000
750
2381 585 x171y
VDRH14V175xyE
455
100.0
190.0
10 000
1500
2381 586 x171y
VDRH20X175ByE
525
5.0
12.0
800
80
2381 582 x191y
VDRH05E195xyE
455
10.0
26.0
1750
210
2381 583 x191y
VDRH07K195xyE
VDRH10S195xyE
455
25.0
52.0
3500
380
2381 584 x191y
455
50.0
105.0
6000
690
2381 585 x191y
VDRH14V195xyE
455
100.0
210.0
10 000
1350
2381 586 x191y
VDRH20X195ByE
575
5.0
13.0
800
75
2381 582 x211y
VDRH05E210xyE
505
10.0
28.0
1750
190
2381 583 x211y
VDRH07K210xyE
VDRH10S210xyE
505
25.0
58.0
3500
350
2381 584 x211y
505
50.0
115.0
6000
610
2381 585 x211y
VDRH14V210xyE
505
100.0
228.0
10 000
1250
2381 586 x211y
VDRH20X210ByE
For technical questions, contact: [email protected]
Document Number: 29082
Revision: 09-Oct-08
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
MAXIMUM
VOLTAGE (3)
CONTINUOUS
at 1 mA
VOLTAGE
MAXIMUM
VOLTAGE
at STATED
CURRENT
RMS (2)
(V)
V
(V)
230
250
275
300
320
350
385
420
460
DC
(V)
300
320
350
385
420
460
505
560
615
(V)
360
390
430
470
510
560
620
680
750
Document Number: 29082
Revision: 09-Oct-08
MAXIMUM
ENERGY (4)
(10 X 1000 µS)
I
(A)
(J)
MAXIMUM
NON-REP.
TYPICAL
TRANSIENT CAPACITANCE
CURRENT (5)
at 1 kHz
INRP (8 x 20 µs)
(A)
(pF)
CATALOG NUMBERS (1)
12 NC (6)
SAP (7)
620
5.0
16.0
800
70
2381 582 x231y
VDRH05E230xyE
595
10.0
32.0
1750
170
2381 583 x231y
VDRH07K230xyE
595
25.0
65.0
3500
320
2381 584 x231y
VDRH10S230xyE
595
50.0
130.0
6000
540
2381 585 x231y
VDRH14V230xyE
595
100.0
255.0
10 000
1100
2381 586 x231y
VDRH20X230ByE
675
5.0
17.0
800
60
2381 582 x251y
VDRH05E250xyE
650
10.0
35.0
1750
160
2381 583 x251y
VDRH07K250xyE
650
25.0
70.0
3500
300
2381 584 x251y
VDRH10S250xyE
650
50.0
140.0
6000
480
2381 585 x251y
VDRH14V250xyE
650
100.0
275.0
10 000
960
2381 586 x251y
VDRH20X250ByE
745
5.0
20.0
800
55
2381 582 x271y
VDRH05E275xyE
710
10.0
40.0
1750
140
2381 583 x271y
VDRH07K275xyE
710
25.0
80.0
3500
270
2381 584 x271y
VDRH10S275xyE
710
50.0
155.0
6000
440
2381 585 x271y
VDRH14V275xyE
710
100.0
303.0
10 000
900
2381 586 x271y
VDRH20X275ByE
810
5.0
21.0
800
50
2381 582 x301y
VDRH05E300xyE
775
10.0
42.0
1750
130
2381 583 x301y
VDRH07K300xyE
775
25.0
85.0
3500
240
2381 584 x301y
VDRH10S300xyE
775
50.0
175.0
6000
400
2381 585 x301y
VDRH14V300xyE
775
100.0
350.0
10 000
810
2381 586 x301y
VDRH20X300ByE
880
5.0
22.0
800
45
2381 582 x321y
VDRH05E320xyE
842
10.0
45.0
1750
120
2381 583 x321y
VDRH07K320xyE
842
25.0
92.0
3500
220
2381 584 x321y
VDRH10S320xyE
842
50.0
190.0
6000
370
2381 585 x321y
VDRH14V320xyE
842
100.0
382.0
10 000
750
2381 586 x321y
VDRH20X320ByE
940
5.0
25.0
800
42
2381 582 x351y
VDRH05E350xyE
920
10.0
51.0
1750
110
2381 583 x351y
VDRH07K350xyE
920
25.0
102.0
3500
200
2381 584 x351y
VDRH10S350xyE
920
50.0
205.0
6000
320
2381 585 x351y
VDRH14V350xyE
920
100.0
410.0
10 000
650
2381 586 x351y
VDRH20X350ByE
1050
5.0
27.0
800
40
2381 582 x381y
VDRH05E385xyE
1025
10.0
54.0
1750
95
2381 583 x381y
VDRH07K385xyE
1025
25.0
107.0
3500
180
2381 584 x381y
VDRH10S385xyE
1025
50.0
215.0
6000
280
2381 585 x381y
VDRH14V385xyE
1025 100.0
420.0
10 000
570
2381 586 x381y
VDRH20X385ByE
1150
5.0
28.0
800
35
2381 582 x421y
VDRH05E420xyE
1120
10.0
56.0
1750
85
2381 583 x421y
VDRH07K420xyE
1120
25.0
112.0
3500
165
2381 584 x421y
VDRH10S420xyE
1120
50.0
225.0
6000
250
2381 585 x421y
VDRH14V420xyE
1120 100.0
430.0
10 000
510
2381 586 x421y
VDRH20X420ByE
1290
5.0
29.0
800
30
2381 582 x461y
VDRH05E460xyE
1240
10.0
58.0
1750
75
2381 583 x461y
VDRH07K460xyE
1240
25.0
115.0
3500
150
2381 584 x461y
VDRH10S460xyE
1240
50.0
230.0
6000
225
2381 585 x461y
VDRH14V460xyE
1240 100.0
440.0
10 000
450
2381 586 x461y
VDRH20X460ByE
For technical questions, contact: [email protected]
www.vishay.com
37
2381 58. ...../VDRH.......E
Vishay BCcomponents
High Surge Suppression Varistors
ELECTRICAL DATA AND ORDERING INFORMATION
MAXIMUM
VOLTAGE (3)
CONTINUOUS
at 1 mA
VOLTAGE
MAXIMUM
VOLTAGE
at STATED
CURRENT
RMS (2)
(V)
V
(V)
I
(A)
1290
1290
1290
485
510
550
625
680
DC
(V)
640
670
745
825
895
(V)
780
820
910
1000
1100
MAXIMUM
ENERGY (4)
(10 X 1000 µS)
MAXIMUM
NON-REP.
TYPICAL
TRANSIENT CAPACITANCE
CURRENT (5)
at 1 kHz
INRP (8 x 20 µs)
CATALOG NUMBERS (1)
(pF)
12 NC (6)
SAP (7)
1750
65
2381 583 x481y
VDRH07K485xyE
3500
145
2381 584 x481y
VDRH10S485xyE
233.0
6000
220
2381 585 x481y
VDRH14V485xyE
450.0
10 000
400
2381 586 x481y
VDRH20X485ByE
(J)
(A)
10.0
59.0
25.0
116.0
50.0
1290 100.0
1355
10.0
60.0
1750
62
2381 583 x511y
VDRH07K510xyE
1355
25.0
118.0
3500
135
2381 584 x511y
VDRH10S510xyE
1355
50.0
235.0
6000
220
2381 585 x511y
VDRH14V510xyE
1355 100.0
460.0
10 000
400
2381 586 x511y
VDRH20X510ByE
1500
25.0
127.0
3500
120
2381 584 x551y
VDRH10S550xyE
1500
50.0
255.0
6000
180
2381 585 x551y
VDRH14V550xyE
1500 100.0
510.0
10 000
320
2381 586 x551y
VDRH20X550ByE
1650
25.0
140.0
3500
105
2381 584 x6216
VDRH10S625ByE
1650
50.0
283.0
6000
165
2381 585 x6216
VDRH14V625ByE
1650 100.0
566.0
10 000
280
2381 586 x6216
VDRH20X625ByE
1815
25.0
155.0
3500
80
2381 584 x6816
VDRH10S680ByE
1815
50.0
310.0
6000
150
2381 585 x6816
VDRH14V680ByE
1815 100.0
620.0
10 000
250
2381 586 x6816
VDRH20X680ByE
Notes
(1)
The products are certified according to UL (E98144), VDE (40013495) and CSA (219883)
(2)
The sinusoidal voltage is assumed as the normal operating condition. If a non-sinusoidal voltage is present, type selection should be based
on multiplying the peak voltage by a factor of 0.707.
(3)
The voltage measured at 1 mA meets the requirements of “paragraph 4.3 of CECC specification 42000“.
The tolerance on the voltage at 1 mA is ± 10 %.
(4)
High energy surges are generally of longer duration. The maximum energy for one pulse of 10 x 1000 µs is given as a reference for longer
duration pulses. This pulse can be characterised by peak current (Ip) and pulse width t2 (virtual time of half Ip value, following “IEC 60060-2,
section 6“). If Vp is the clamping voltage corresponding to Ip, the energy absorbed in the varistor is determined by the formula:
E = K x Vp x Ip x t2
where:
a) K is dependant on the value of t2 when the value of t1 is between 8 µs and 10 µs; see Peak Current as a Function of Pulse Width drawing
(5)
A current wave of 8 x 20 µs (requirement of “paragraph B.2.10.1 of CECC specification 42000” ) is used as a standard for pulse current and
clamping voltage ratings. The maximum non-repetitive transient current is given for one pulse applied during the life of the component.
(6)
For composition of the 12NC part number replace “x” and “y” by figures from the sections “Varistors in Bulk”, “Varistors on Tape in Ammopack”
and “Varistors on “Tape on Reel”
(7)
For composition of the SAP part number:
Replace “x” by
B for bulk type
T for tape and reel
A for tape and ammopack
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38
Replace “y” by
S for straight leads
K for kinked leads (bulk only)
L for kinked leads with H0 = 16 mm (tape and reel/ammo)
M for kinked leads with H0 = 18.25 mm (tape and reel/ammo)
For technical questions, contact: [email protected]
Document Number: 29082
Revision: 09-Oct-08
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
ELECTRICAL CHARACTERISTICS
ELECTRICAL DATA
PARAMETER
Maximum continuous voltage:
RMS
DC
Maximum non-repetitive transient current (INRP) (8 x 20 µs):
2381 582 ...../VDRH05......E
2381 583 ...../VDRH07......E
2381 584 ...../VDRH10......E
2381 585 ...../VDRH14......E
2381 586 ...../VDRH20......E
Thermal resistance:
2381 582 ...../VDRH05......E
2381 583 ...../VDRH07......E
2381 584 ...../VDRH10......E
2381 585 ...../VDRH14......E
2381 586 ...../VDRH20......E
Maximum dissipation:
2381 582 ...../VDRH05......E
2381 583 ...../VDRH07......E
2381 584 ...../VDRH10......E
2381 585 ...../VDRH14......E
2381 586 ...../VDRH20......E
Temperature coefficient of voltage at 1 mA maximum
Voltage proof between interconnected leads and case
Storage temperature
Operating temperature
DERATING CURVE
VALUE
UNIT
11 to 680
14 to 895
V
V
250 or 800
500 or 1750
1000 or 3500
2000 or 6000
3000 or 10 000
A
A
A
A
A
≈ 80
≈ 70
≈ 60
≈ 50
≈ 40
K/W
K/W
K/W
K/W
K/W
100
250
400
600
1000
± 0.05
2500
- 40 to + 150
- 40 to + 125
mW
mW
mW
mW
mW
%/K
V
°C
°C
PEAK CURRENT AS A FUNCTION OF
PULSE WIDTH
Maximum Dissipation
Maximum Energy
Maximum Transient Current
µ
100 %
0
- 40
125
Tamb (°C)
150
µ
COMPONENT DIMENSIONS (BULK TYPE) in millimeters AND CATALOG NUMBERS
D
NOM.
5.0
D
MAX.
A
MAX.
A0
MAX.
L
MIN.
T
MAX.
d
F
CATALOG NUMBER
7.0
9.0
11.0
24.0
7
0.6 ± 0.05
5 ± 1.0
2381 582 ...../VDRH05.....E
7.0
9.0
11.0
13.0
24.0
7
0.6 ± 0.05
5 ± 1.0
2381 583 ...../VDRH07.....E
10.0
13.5
15.5
18.0
17.0
10
0.8 ± 0.05
7.5 ± 1.0
2381 584 ...../VDRH10.....E
14.0
17.0
19.0
23.0
16.0
11
0.8 ± 0.05
7.5 ± 1.0
2381 585 ...../VDRH14.....E
20.0
23.0
25.0
28.0
24.0
11
1.0 ± 0.05
10 ± 1.0
2381 586 ...../VDRH20.....E
Document Number: 29082
Revision: 09-Oct-08
For technical questions, contact: [email protected]
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39
2381 58. ...../VDRH.......E
Vishay BCcomponents
High Surge Suppression Varistors
VARISTORS IN BULK
2381 582 .....
Ø 5 mm
11 V to 460 V
2381 583 .....
Ø 7 mm
11 V to 510 V
2381 584 .....
Ø 10 mm
11 V to 680 V
2381 585 .....
Ø 14 mm
11 V to 680 V
2381 586 .....
Ø 20 mm
11 V to 680 V
Straight leads; see Outline of components
with straight leads drawing
5...6
5...6
5...6
5...6
5...6
Kinked leads; see Outline of components
with kinked leads drawing
6...6
6...6
6...6
6...6
6...6
14 V to 95 V
250
250
250
100
50
130 V to 385 V
250
250
250
100
50
420 V to 460 V
250
250
200
100
50
485 V to max. V
-
250
150
100
50
TYPE
Packing quantities
DIMENSIONS in millimeters: see Component Dimensions and Catalog Numbers Table
Outline of component with straight leads
D
Outline of component with kinked leads
D
T
T
A0
A
1 min.
F
d
L
L
F
d
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For technical questions, contact: [email protected]
Document Number: 29082
Revision: 09-Oct-08
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
VARISTORS ON TAPE IN AMMOPACK
2381 582 .....
Ø 5 mm
11 V to 460 V
2381 583 .....
Ø 7 mm
11 V to 510 V
2381 584 .....
Ø 10 mm
11 V to 550 V
2381 585 .....
Ø 14 mm
11 V to 550 V
H = 18 mm
-
-
0...7
0...7
H = 20 mm
0...7
0...7
-
-
H0 = 18.25 mm
3...7
3...7
3...7
3...7
H0 = 16 mm
8...7
8...7
8...7
8...7
1500 (1)
1500 (1)
500
500
1000
1000
500
500
TYPE
Straight leads
See drawing Taped version with straight leads
Kinked leads
See drawing Taped version with kinked leads
Packing quantities
14 V to 210 V
230 V to max. V
Note
(1)
Except for 35 and 40 V = 1000 pieces
DIMENSIONS OF AMMOPACK in millimeters
340 max.
52 or 55 max.
250
max.
Document Number: 29082
Revision: 09-Oct-08
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41
2381 58. ...../VDRH.......E
Vishay BCcomponents
High Surge Suppression Varistors
VARISTORS ON TAPE AND REEL
2381 582 .....
Ø 5 mm
11 V to 460 V
TYPE
2381 583 .....
Ø 7 mm
11 V to 510 V
2381 584 .....
Ø 10 mm
11 V to 550 V
2381 585 .....
Ø 14 mm
11 V to 550 V
Straight leads
H = 18 mm
-
-
0...6
0...6
H = 20 mm
0...6
0...6
-
-
See drawing Taped version with straight leads
Kinked leads
H0 = 18.25 mm
3...6
3...6
3...6
3...6
H0 = 16 mm
8...6
8...6
8...6
8...6
See drawing Taped version with kinked leads
Packing quantities
14 V to 250 V
1500
1500
1000
750
275 V to 300 V
1500
1500
750
750
320 V to 350 V
1000
1000
500
500
385 V to max. V
1000
1000
500
500
PACKAGING
TAPED VERSION WITH STRAIGHT LEADS (only for 2381 582 ...../VDRH05.....E and 2381 583 ...../VDRH07.....E)
TAPED VERSION WITH STRAIGHT LEADS (only for 2381 584 ...../VDRH10.....E and 2381 585 ...../VDRH14.....E)
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For technical questions, contact: [email protected]
Document Number: 29082
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2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
TAPED VERSION WITH KINKED LEADS
(only for 2381 584 ...../VDRH10.....E and
2381 585 ...../VDRH14.....E)
TAPED VERSION WITH KINKED LEADS
(only for 2381 582 ...../VDRH10.....E and
2381 583 ...../VDRH07.....E)
P
P
T
D
D
p
p
T
p
h
p
h
h
A0
A0
1 min.
d
h
1 min.
d
F
H0
W2
L
W0
P0
P1
W1
W0
D0
T1
H0
W2
W
F
P1
P0
W1
W
D0
T1
t
t
DIMENSIONS OF REELS in millimeters
356
max.
+
-
+
-
±
±
56 max.
60 max.
For 2381 582 ...../VDRH05.....E
and 2381 583 ...../VDRH07.....E
Document Number: 29082
Revision: 09-Oct-08
356
max.
For 2381 584 ...../VDRH10.....E
and 2381 585 ...../VDRH14.....E
For technical questions, contact: [email protected]
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2381 58. ...../VDRH.......E
Vishay BCcomponents
High Surge Suppression Varistors
TAPING DATA (based on “IEC 60286-2” )
DIMENSIONS/TOLERANCE
SYMBOL
PARAMETER
582
583
584
585
A
Mounting height
9.0 max.
11.0 max.
15.5 max.
19.0 max.
Ao
Mounting height
11.0 max.
13.0 max.
18.0 max.
23.0 max.
D
Body diameter
7.0 max.
9.0 max.
13.5 max.
17.0 max.
D0
Feed hole diameter
d
Lead wire diameter
0.6 ± 0.05
0.8 ± 0.05
F
Lead to lead distance (1)
5.0 ± 0.5/- 0.2
7.5 ± 0.8
H
Distance component to tape center (4)
20.0 + 2.0/- 0.0
18.0 + 2.0/- 0.0
H0
Lead-wire clinch height
16.0 or 18.25 ± 0.5
Δh
Component alignment
0.0 ± 2.0
P
Component pitch
P0
Feed hole pitch (2)
P1
Feed hole center to lead center
Δp
Component alignment
4.0 ± 0.2
12.7 ± 1.0
25.4 ± 1.0
12.7 ± 0.3
3.85 ± 0.7
8.95 ± 0.7
0.0 ± 1.3
T
Total thickness
7.0 max.
7.0 max.
10.0 max.
t
Total tape thickness (3)
1.7 max.
W
Tape width
18.0 + 1.0/- 0.5
W0
Hold down tape width
10 min.
W1
Hole position
9.0 ± 0.5
W2
Hold down tape position
3.0 max.
11.0 max.
Notes
(1)
Guaranteed between component and tape
(2)
Cumulative pitch-error ± 1.0 mm to 20 pitches
(3)
With cardboard tape from 0.5 mm ± 0.1
(4)
For 2381 585 0511y and 2381 585 0551y: H = 20 ± 0.1 mm
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For technical questions, contact: [email protected]
Document Number: 29082
Revision: 09-Oct-08
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
V/I CHARACTERISTIC, 11 TO 40 V (RMS); 2381 582 ...../VDRH05.....E
max. clamping voltage
max. leakage current
VOLTAGE (V)
1000
.400.
.350.
.300.
.250.
.200.
.170.
.140.
.110.
100
10
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
CURRENT (A)
V/I CHARACTERISTIC, 50 TO 460 V (RMS); 2381 582 ...../VDRH05.....E
max. leakage
current
max. clamping voltage
VOLTAGE (V)
10 000
.461.
.421.
.381.
.301.
.271.
.251.
.231.
1000
.171.
.151.
.141.
.131.
950.
.750.
.600.
100
.500.
10
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
CURRENT (A)
V/I CHARACTERISTIC, 11 TO 40 V (RMS); 2381 583 ...../VDRH07.....E
max. leakage current
max. clamping voltage
VOLTAGE (V)
1000
.250.
.200.
.170.
.140.
.110.
100
10
1
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
CURRENT (A)
Document Number: 29082
Revision: 09-Oct-08
For technical questions, contact: [email protected]
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45
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
V/I CHARACTERISTIC, 50 TO 510 V (RMS); 2381 583 ...../VDRH07.....E
max. leakage current
max. clamping voltage
10 000
VOLTAGE (V)
.511.
.461.
.421.
.381.
.321.
.301.
1000
.271.
.231.
.191.
.171.
.151.
.141.
.131.
100
.950.
.750.
.600.
.500.
10
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
1E+4
CURRENT (A)
V/I CHARACTERISTIC, 11 TO 40 V (RMS); 2381 584 ...../VDRH10.....E
max. clamping voltage
max. leakage current
VOLTAGE (V)
1000
.400.
.350.
.300.
.250.
.200.
100
.170.
.140.
.110.
10
1
1E-5
1E-4
1E-3
1E-2
1E-1
CURRENT (A)
1E+0
1E+1
1E+2
1E+3
V/I CHARACTERISTIC, 50 TO 300 V (RMS); 2381 584 ...../VDRH10.....E
max. leakage current
max. clamping voltage
VOLTAGE (V)
10 000
.301.
.271.
.251.
.231.
1000
.171.
.151.
.141.
.131.
.950.
.750.
.600.
100
10
1E-5
.500.
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
1E+4
CURRENT (A)
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For technical questions, contact: [email protected]
Document Number: 29082
Revision: 09-Oct-08
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
V/I CHARACTERISTIC, 320 TO 680 V (RMS); 2381 584 ...../VDRH10.....E
max. leakage current
max. clamping voltage
VOLTAGE (V)
10 000
.681.
.621.
.551.
.511.
.461.
.421.
.381.
.321.
1000
100
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
1E+4
CURRENT (A)
V/I CHARACTERISTIC, 11 TO 40 V (RMS); 2381 585 ...../VDRH14.....E
max. leakage current
max. clamping voltage
VOLTAGE (V)
1000
.400.
.350.
.300.
.250.
.200.
.170.
.140.
-110.
100
10
1
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
1E+4
CURRENT (A)
V/I CHARACTERISTIC, 50 TO 300 V (RMS); 2381 585 ...../VDRH14.....E
max. leakage current
max. clamping voltage
VOLTAGE (V)
10 000
.301.
.271.
.251.
.231.
.171.
1000
.151.
.141.
.131.
.950.
.750.
.600.
.500.
100
10
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
1E+4
CURRENT (A)
Document Number: 29082
Revision: 09-Oct-08
For technical questions, contact: [email protected]
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47
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
V/I CHARACTERISTIC, 300 TO 385 V (RMS); 2381 585 ...../VDRH14.....E
max. leakage current
max. clamping voltage
VOLTAGE (V)
10 000
.681.
.621.
.551.
.511.
.461.
.421.
.381.
1000
.321.
100
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
1E+4
CURRENT (A)
V/I CHARACTERISTIC, 11 TO 40 V (RMS); 2381 586 ...../VDRH20.....E
max. leakage current
max. clamping voltage
VOLTAGE (V)
1000
.400.
.350.
.300.
.250.
.200.
.170.
100
.140.
-110.
10
1
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
1E+4
CURRENT (A)
V/I CHARACTERISTIC, 50 TO 300 V (RMS); 2381 586 ...../VDRH20.....E
max. leakage current
max. clamping voltage
VOLTAGE (V)
10 000
.301.
.271.
.251.
.231.
1000
.171.
.151.
.141.
.131.
.950.
.750.
.600.
100
.500.
10
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
1E+4
CURRENT (A)
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For technical questions, contact: [email protected]
Document Number: 29082
Revision: 09-Oct-08
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
V/I CHARACTERISTIC, 320 TO 680 V (RMS); 2381 586 ...../VDRH20.....E
max. leakage current
max. clamping voltage
VOLTAGE (V)
10 000
.681.
.621.
.551.
.511.
.461.
.421.
.381.
1000
.321.
100
1E-5
1E-4
1E-3
1E-2
1E-1
1E+0
1E+1
1E+2
1E+3
1E+4
CURRENT (A)
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
11 V TO 40 V (RMS); 2381 582 ...../VDRH05.....E
MAXIMUM PEAK CURRENT (A)
10 000
1000
1
100
10
100
1000
10 000
100 000
1 000 000
10
1
0.1
10
100
1000
tp (µs)
10000
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
50 V TO 300 V (RMS); 2381 582 ...../VDRH05.....E
10 000
MAXIMUM PEAK CURRENT (A)
I nrp
(A)
1000
1
10
100
100
1000
10 000
100 000
10
1 000 000
1
10
Document Number: 29082
Revision: 09-Oct-08
10 2
103
For technical questions, contact: [email protected]
tp(µs) 104
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2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
11 V TO 40 V (RMS); 2381 583 ...../VDRH07.....E
1000
MAXIMUM PEAK CURRENT (A)
1
100
10
100
1000
10 000
100 000
10
1 000 000
1
0.1
10
100
1000
tp(µs)
10 000
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
50 V TO 300 V (RMS); 2381 583 ...../VDRH07.....E
10 000
MAXIMUM PEAK CURRENT (A)
I nrp
(A)
1
1000
10
100
1000
10 000
100 000
1 000 000
100
10
1
10
10 2
10 3
t p (µs)
10 4
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
11 V TO 40 V (RMS); 2381 584 ...../VDRH10.....E
MAXIMUM PEAK CURRENT (A)
10 000
1
1000
100
10
100
1000
10 000
100 000
1 000 000
10
1
0.1
10
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50
100
1000
For technical questions, contact: [email protected]
tp (µs)
10 000
Document Number: 29082
Revision: 09-Oct-08
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
50 V TO 300 V (RMS); 2381 584 ...../VDRH10.....E
10 000
I nrp
1
MAXIMUM PEAK CURRENT (A)
(A)
1000
10
100
1000
10 000
100
100 000
1 000 000
10
1
10
102
103
tp(µs) 104
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
320 V TO 680 V (RMS); 2381 584 ...../VDRH10.....E
10 000
MAXIMUM PEAK CURRENT (A)
Inrp
(A)
1
1000
10
100
100
1000
10 000
100 000
1 000 000
10
1
10
10 2
10 3
tp (µs) 10 4
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
11 V TO 40 V (RMS); 2381 585 ...../VDRH14.....E
MAXIMUM PEAK CURRENT (A)
10 000
1
1000
10
100
1000
10 000
100 000
100
1 000 000
10
1
10
Document Number: 29082
Revision: 09-Oct-08
100
1000
For technical questions, contact: [email protected]
tp (µs)
10 000
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2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
50 V TO 300 V (RMS); 2381 585 ...../VDRH14.....E
10 000
1
MAXIMUM PEAK CURRENT (A)
I nrp
(A)
10
1000
100
1000
10 000
100 000
100
1 000 000
10
1
10 2
10
103
tp (µs) 104
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
320 V TO 680 V (RMS); 2381 585 ...../VDRH14.....E
MAXIMUM PEAK CURRENT (A)
10 000
1
I nrp
(A)
10
1000
100
1000
10 000
100 000
100
1 000 000
10
1
10
10 2
103
t p (µs)
104
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
11 V TO 40 V (RMS); 2381 586 ...../VDRH20.....E
10000
MAXIMUM PEAK CURRENT (A)
1
1000
10
100
1000
10 000
100 000
100
1 000 000
10
1
10
www.vishay.com
52
100
1000
For technical questions, contact: [email protected]
tp (µs)
10 000
Document Number: 29082
Revision: 09-Oct-08
2381 58. ...../VDRH.......E
High Surge Suppression Varistors
Vishay BCcomponents
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
50 V TO 300 V (RMS); 2381 586 ...../VDRH20.....E
10 000
1
MAXIMUM PEAK CURRENT (A)
Inrp
(A)
10
1000
100
1000
10 000
10 0
100 000
1 000 000
10
1
10 2
10
10 3
tp (µs) 10 4
MAXIMUM APPLICABLE TRANSIENT CURRENT AS A FUNCTION OF PULSE DURATION,
320 V TO 680 V (RMS); 2381 586 ...../VDRH20.....E
10 000
1
MAXIMUM PEAK CURRENT (A)
Inrp
(A)
10
1000
100
1000
10 000
100 000
100
1 000 000
10
1
10
Document Number: 29082
Revision: 09-Oct-08
10 2
10 3
For technical questions, contact: [email protected]
tp (µs) 10 4
www.vishay.com
53
Legal Disclaimer Notice
Vishay
Disclaimer
All product specifications and data are subject to change without notice.
Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf
(collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein
or in any other disclosure relating to any product.
Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any
information provided herein to the maximum extent permitted by law. The product specifications do not expand or
otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed
therein, which apply to these products.
No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this
document or by any conduct of Vishay.
The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless
otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such
applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting
from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding
products designed for such applications.
Product names and markings noted herein may be trademarks of their respective owners.
Document Number: 91000
Revision: 18-Jul-08
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1