Varistors, MOVs

Results: 4
Series
AdvanceD MP CompactStandarD
Maximum AC Volts
275 V300 V550 V
Maximum DC Volts
350 V385 V745 V
Varistor Voltage (Min)
387 V423 V819 V
Varistor Voltage (Typ)
430 V470 V910 V
Varistor Voltage (Max)
473 V517 V1.001 kV
Current - Surge
4.5 kA6 kA6.5 kA8 kA
Energy
76J130J173J210J
Capacitance @ Frequency
400 pF @ 1 kHz410 pF @ 1 kHz530 pF @ 1 kHz780 pF @ 1 kHz
Package / Case
Disc 14mmDisc 20mm
Stocking Options
Environmental Options
Media
Marketplace Product
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Mfr Part #
Quantity Available
Price
Series
Package
Product Status
Maximum AC Volts
Maximum DC Volts
Varistor Voltage (Min)
Varistor Voltage (Typ)
Varistor Voltage (Max)
Current - Surge
Energy
Number of Circuits
Capacitance @ Frequency
Operating Temperature
Features
Grade
Qualification
Mounting Type
Package / Case
20mm Series
B72220S0301K101
VARISTOR 470V 8KA DISC 20MM
EPCOS - TDK Electronics
20,030
In Stock
1 : ¥6.90000
Bulk
Bulk
Active
300 V
385 V
423 V
470 V
517 V
8 kA
173J
1
780 pF @ 1 kHz
-40°C ~ 105°C (TA)
-
-
-
Through Hole
Disc 20mm
Varistor 14mm Series
B72214S0301K101
VARISTOR 470V 4.5KA DISC 14MM
EPCOS - TDK Electronics
70,290
In Stock
1 : ¥3.69000
Bulk
Bulk
Active
300 V
385 V
423 V
470 V
517 V
4.5 kA
76J
1
400 pF @ 1 kHz
-40°C ~ 105°C (TA)
-
-
-
Through Hole
Disc 14mm
20mm Series
B72220S0551K101
VARISTOR 910V 6.5KA DISC 20MM
EPCOS - TDK Electronics
4,011
In Stock
1 : ¥10.92000
Bulk
Bulk
Active
550 V
745 V
819 V
910 V
1.001 kV
6.5 kA
210J
1
410 pF @ 1 kHz
-40°C ~ 105°C (TA)
-
-
-
Through Hole
Disc 20mm
MFG_S14-Series
B72314P2271K101
14MM, 275VAC, 10%, ADVANCED MP C
EPCOS - TDK Electronics
0
In Stock
Check Lead Time
1 : ¥6.24000
Bulk
Bulk
Active
275 V
350 V
387 V
430 V
473 V
6 kA
130J
1
530 pF @ 1 kHz
-40°C ~ 105°C (TA)
-
-
-
Through Hole
Disc 14mm
Showing
of 4

Varistors, MOVs

Transient voltage suppression (TVS) products based on Metal Oxide Varistor (MOV) technology are used to protect electrical and electronic devices against excess voltage hazards, such as may be caused by lighting induced transients, static electricity, or similar hazards. Their relatively high parasitic capacitance limits their application to low frequency circuits such as AC utility power inputs, in which application they excel due to their comparably high power dissipation capability and clamping behavior, which allows continued operation of protected devices without need of a reset process following a protection event, as is common with crowbar protection mechanisms.