VSSC4 surge protection terminal with varistor (MOV)
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Surge protection with individual components
With suppressor diodes
Suppressor diodes work similarly as conventional Zener diodes. The diode becomes conductive within 10– 100ps after a certain breakdown voltage, set by the manufacturer, is exceeded. Compared to Zener diodes, suppressor diodes have a higher current-carrying capacity and a shorter reaction time.
Suppressor diodes work similarly as conventional Zener diodes. The diode becomes conductive within 10– 100ps after a certain breakdown voltage, set by the manufacturer, is exceeded. Compared to Zener diodes, suppressor diodes have a higher current-carrying capacity and a shorter reaction time.
The metal-oxide varistors can be used in terminal design. They are approved for a maximum sine-wave-form power-frequency operating voltage, which is printed on the component. Any voltages greater than the permitted maximum are discharged safely within 25 ns. Varistors are used for medium to high power.
Online Catalogue
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Electronics
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Lightning and Surge Protection
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SPDs for instrumentation and control (I&C)
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non-pluggable VSSC series in terminal design
»
1-level protection with varistor (MOV)
»
VSSC4 surge protection terminal with varistor (MOV)
»
VSSC4 surge protection terminal with varistor (12 V, 24 V, 48 V, 60 V, 120 V, 150 V and 240 V MOV)
VSSC4 surge protection terminal with varistor (12 V, 24 V, 48 V, 60 V, 120 V, 150 V and 240 V MOV):
Online Catalogue
»
Electronics
»
Lightning and Surge Protection
»
SPDs for instrumentation and control (I&C)
»
non-pluggable VSSC series in terminal design
»
1-level protection with varistor (MOV)
»
VSSC4 surge protection terminal with varistor (MOV)
»
VSSC6 surge protection terminal with varistor (12 V, 24 V, 48 V, 60 V, 120 V, 150 V and 240 V MOV)
VSSC6 surge protection terminal with varistor (12 V, 24 V, 48 V, 60 V, 120 V, 150 V and 240 V MOV):
