2322 58. .....
Vishay BCcomponents
High Surge Suppression Varistors
FEATURES
•
Zinc oxide disc, epoxy coated
•
Straight or kinked leads.
APPLICATION
•
Supression of transients
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”
.
QUICK REFERENCE DATA
PARAMETER
Maximum continuous voltage:
RMS
DC
Maximum non-repetitive transient
Robustness of terminations
Drop test:
Height of fall
Detailed specification
Storage temperature
Operating temperature
1
based on
CECC 42 000
-40 to +150
-40 to +125
°C
°C
m
11 to 680
14 to 895
250 to10000
10
V
V
A
N
VALUE
UNIT
MOUNTING
The varistors are suitable for processing on automatic
insertion and cutting and bending equipment.
Varistors with flanged leads provide better positioning on
printed-circuit boards (PCB) and more accurate control over
component height. This is important for hand mounting and
automatic insertion techniques; see Outlines of flanged leads
drawing.
Soldering
240 C; duration 5 s
Resistance to heat
260 C; duration 5 s
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.
MARKING
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
INFLAMMABILITY
The varistors are non-flammable.
ELECTRICAL DATA AND ORDERING INFORMATION
MAXIMUM
CONTINUOUS
VOLTAGE
VOLTAGE
(3)
at 1 mA
MAXIMUM
VOLTAGE at
STATED
CURRENT
V
(V)
40
36
11
14
18
36
36
36
I
(A)
1.0
2.5
5.0
10.0
20.0
MAXIMUM
ENERGY
(4)
(10
X
1000 µ
S
)
MAXIMUM
NON-REP.
TRANSIENT
CURRENT
(5)
I
nrp
(8 x 20 µs)
(A)
250
500
1000
2000
3000
TYPICAL
CAPACITANCE
AT 1kHz
CATALOG
NUMBERS
(1)
RMS
(2)
(V)
DC
(V)
(V)
(J)
0.7
1.5
2.6
5.2
13.0
(pF)
1600
3600
8000
20000
40000
2322 ... .....
582 .110.
583 .110.
584 .110.
585 .110.
586 .110.
www.vishay.com
44
For technical questions contact: nlr.europe@vishay.com
Document Number: 29082
Revision: 15-Oct-04
2322 58. .....
Vishay BCcomponents
High Surge Suppression Varistors
ELECTRICAL DATA AND ORDERING INFORMATION
MAXIMUM
CONTINUOUS
VOLTAGE
VOLTAGE
(3)
at 1 mA
MAXIMUM
VOLTAGE at
STATED
CURRENT
V
(V)
1050
1025
1025
1025
1025
1150
1120
1120
1120
1120
1290
1240
1240
1240
1240
1290
1290
1290
1290
1355
1355
1355
1355
1500
1500
1500
1650
1650
1650
1815
1815
1815
I
(A)
5.0
10.0
25.0
50.0
100.0
5.0
10.0
25.0
50.0
100.0
5.0
10.0
25.0
50.0
100.0
10.0
25.0
50.0
100.0
10.0
25.0
50.0
100.0
25.0
50.0
100.0
25.0
50.0
100.0
25.0
50.0
100.0
MAXIMUM
ENERGY
(4)
(10
X
1000 µ
S
)
MAXIMUM
NON-REP.
TRANSIENT
CURRENT
(5)
I
nrp
(8 x 20 µs)
(A)
800
1750
3500
6000
10000
800
1750
3500
6000
10000
800
1750
3500
6000
10000
1750
3500
6000
10000
1750
3500
6000
10000
3500
6000
10000
3500
6000
10000
3500
6000
10000
TYPICAL
CAPACITANCE
AT 1kHz
CATALOG
NUMBERS
(1)
RMS
(2)
(V)
DC
(V)
(V)
(J)
27.0
54.0
107.0
215.0
420.0
28.0
56.0
112.0
225.0
430.0
29.0
58.0
115.0
230.0
440.0
59.0
116.0
233.0
450.0
60.0
118.0
235.0
460.0
127.0
255.0
510.0
140.0
283.0
566.0
155.0
310.0
620.0
(pF)
40
95
180
280
570
35
85
165
250
510
30
75
150
225
450
65
145
220
400
62
135
220
400
120
180
320
105
165
280
80
150
250
2322 ... .....
582 .381.
583 .381.
584 .381.
585 .381.
586 .381.
582 .421.
583 .421.
584 .421.
585 .421.
586 .421.
582 .461.
583 .461.
584 .461.
585 .461.
586 .461.
583 .481.
584 .481.
585 .481.
586 .481.
583 .511.
584 .511.
585 .511.
586 .511.
584 .551.
585 .551.
586 .551.
584 .621.
585 .621.
586 .621.
584 .681.
585 .681.
586 .681.
385
505
620
420
560
680
460
615
750
485
640
780
510
670
820
550
745
910
625
825
1000
680
Notes
895
1100
1. Lists with products certified according to UL (E98144), VDE (40002622) and CSA (219883) are available at www.vishay.com or on request.
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
×
1000
µ
s is given as a reference for longer
duration pulses. This pulse can be characterised by peak current (I
p
) and pulse width t
2
(virtual time of half I
p
value, following
“IEC 60060-2,
section 6”
). If V
p
is the clamping voltage corresponding to I
p
, the energy absorbed in the varistor is determined by the formula:
E
=
K
×
V
p
×
I
p
×
t
2
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.
www.vishay.com
48
For technical questions contact: nlr.europe@vishay.com
Document Number: 29082
Revision: 15-Oct-04
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