Overvoltage

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When the voltage in a circuit or part of it is raised above its upper design limit, this is known as overvoltage. The conditions may be hazardous. Depending on its duration, the overvoltage event can be permanent or transient, the latter case also being known as a voltage spike.

1 Explanation
2 Sources
- 2.1 Natural
- 2.2 Man made
3 Conduction path
4 Overvoltage protection devices
5 See also
6 External links

[edit] Explanation

Electronic and electrical devices are designed to operate at a certain maximum supply voltage, and considerable damage can be caused by voltage that is higher than that for which the devices are rated.

For example an electric light bulb has a wire in it that at the given rated voltage will carry a current just large enough for the wire to get very hot (giving off light and heat), but not hot enough for it to melt. The amount of current in a circuit depends on the voltage supplied: if the voltage is too high, then the wire may melt and the light bulb has "burned out". Similarly other electrical devices may stop working, or even maybe burst into flames if an overvoltage is supplied to the circuit of which these devices are part.

[edit] Sources

[edit] Natural

A typical natural source of transient overvoltage events is lightning. Man-made sources are spikes usually caused by electromagnetic induction when switching on or off inductive loads (such as electric motors or electromagnets), or by switching heavy resistive AC loads when zero-crossing circuitry is not used - anywhere where a large change of current takes place. One of the purposes of electromagnetic compatibility compliance is to eliminate such sources.

[edit] Man made

An important potential source of dangerous overvoltages is electronic warfare. There is intensive military research in this field, whose goal is to produce various transient electromagnetic devices designed to generate electromagnetic pulses that will disable an enemy's electronic equipment. A recent military development is that of the exploding capacitor designed to radiate a high voltage electromagnetic pulse. Another intense source of an electromagnetic pulse is a nuclear explosion.

[edit] Conduction path

The transient pulses can get into the equipment either by power or data lines, or over the air from a strong electromagnetic field change - an electromagnetic pulse (EMP). Filters are used to prevent spikes entering or leaving the equipment through wires, and the electromagnetically coupled ones are attenuated by shielding.