Surge protector: Difference between revisions
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* A [[Fuse (electrical)|fuse]] burns out or a [[circuit breaker]] trips when excessive power is being consumed and fed to a device within the designed time lag and current rating. These can protect both from surges caused by the device itself and from external surges that last long enough. |
* A [[Fuse (electrical)|fuse]] burns out or a [[circuit breaker]] trips when excessive power is being consumed and fed to a device within the designed time lag and current rating. These can protect both from surges caused by the device itself and from external surges that last long enough. |
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* An iron poor [[transformer]] can transmit [[alternating current|AC]] power similar to a normal iron core transformer (although less efficiently), but will be unable to transmit sudden surges that [[Saturation (magnetic)|saturate]] the small iron core. |
* An iron poor [[transformer]] can transmit [[alternating current|AC]] power similar to a normal iron core transformer (although less efficiently), but will be unable to transmit sudden surges that [[Saturation (magnetic)|saturate]] the small iron core. |
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*A metal oxide [[varistor]] (MOV) is a small device that will short when presented with a voltage above its rated "clamping voltage", passing the surge to ground through the MOV rather than through the protected device, provided the current rating (joule) is not exceeded. If the surge exceeds the joule rating, the MOV will be destroyed. Even if not |
*A metal oxide [[varistor]] (MOV) is a small device that will short when presented with a voltage above its rated "clamping voltage", passing the surge to ground through the MOV rather than through the protected device, provided the current rating (joule) is not exceeded. If the surge exceeds the joule rating, the MOV will be destroyed. Even if not destroyed, MOVs also deteriorate each time they receive a voltage spike, and thus stop working after some time. Some surge protectors have a light to tell you when this stage has been reached. |
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*A [[zener diode]] is a small diode designed to protect against normal spikes in a circuit, especially motor [[controller]] circuits. These are sometimes paired as a [[transient voltage suppression diode]]. |
*A [[zener diode]] is a small diode designed to protect against normal spikes in a circuit, especially motor [[controller]] circuits. These are sometimes paired as a [[transient voltage suppression diode]]. |
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*A [[gas discharge tube]] is used much like a MOV, except that it relies on a trapped gas to become ionized to pass the voltage. This has the advantage of being able to pass much more power without self destructing, but with the disadvantage of reacting to the high voltage more slowly. |
*A [[gas discharge tube]] is used much like a MOV, except that it relies on a trapped gas to become ionized to pass the voltage. This has the advantage of being able to pass much more power without self destructing, but with the disadvantage of reacting to the high voltage more slowly. |
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Revision as of 07:57, 14 June 2006
A surge protector is an appliance designed to protect electrical devices from power surges and voltage spikes. Surge protectors attempt to regulate the voltage supplied to an electric device by either blocking or shorting to ground voltage above a safe threshold.
Surge protectors can be built with one or more of the following electronic components:
- A fuse burns out or a circuit breaker trips when excessive power is being consumed and fed to a device within the designed time lag and current rating. These can protect both from surges caused by the device itself and from external surges that last long enough.
- An iron poor transformer can transmit AC power similar to a normal iron core transformer (although less efficiently), but will be unable to transmit sudden surges that saturate the small iron core.
- A metal oxide varistor (MOV) is a small device that will short when presented with a voltage above its rated "clamping voltage", passing the surge to ground through the MOV rather than through the protected device, provided the current rating (joule) is not exceeded. If the surge exceeds the joule rating, the MOV will be destroyed. Even if not destroyed, MOVs also deteriorate each time they receive a voltage spike, and thus stop working after some time. Some surge protectors have a light to tell you when this stage has been reached.
- A zener diode is a small diode designed to protect against normal spikes in a circuit, especially motor controller circuits. These are sometimes paired as a transient voltage suppression diode.
- A gas discharge tube is used much like a MOV, except that it relies on a trapped gas to become ionized to pass the voltage. This has the advantage of being able to pass much more power without self destructing, but with the disadvantage of reacting to the high voltage more slowly.
- Devices having several outlets with surge protectors described may have all or some outlets protected. The better ones have higher ratings and offer more modes of protection against surges between the phase and neutral and grounding conductors; maybe for telephone and coax cable connections. (The best have insurance policies paying for damages from surges.)
- An UPS of the flywheel type seldom pass surges. The battery variety may absorb spikes much like a capacitor acts as a low pass filter. The battery ones also have protectors described above. "On line" UPSs provide the best protection.
- Series Mode surge protectors use a "surge reactor", which has the advantage of being extremely quick to react to surges and which does not generally deteriorate over time.