Difference between revisions of "Residual current device"
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[[Category:Components]] | [[Category:Components]] | ||
[[File:Rcd.png|250px|thumb|right|'''A diagram of a RCD in the output circuit of an inverter.'''<br/> 1. Is an integrated overcurrent protection device and residual current device. Both the ungrounded and grounded conductors pass through the RCD.]] | [[File:Rcd.png|250px|thumb|right|'''A diagram of a RCD in the output circuit of an inverter.'''<br/> 1. Is an integrated overcurrent protection device and residual current device. Both the ungrounded and grounded conductors pass through the RCD.]] | ||
| − | A residual current device (RCD) or Ground Fault Circuit Interruptor (GFCI) is a device that constantly measures the current flowing between the outgoing and incoming wires of a circuit to see if there is a difference. If there is a difference, it means that there is a fault at some point in the circuit and a potential hazard. A RCD is typically incorporated into a [[Overcurrent protection|breaker]] or outlet so that it is able to disconnect the circuit upon identifying a difference in current or fault. RCDs are often required by the [[Electrical codes|electrical codes]] in many countries. In a [[Grounding | + | A residual current device (RCD) or Ground Fault Circuit Interruptor (GFCI) is a device that constantly measures the current flowing between the outgoing and incoming wires of a circuit to see if there is a difference. If there is a difference, it means that there is a fault at some point in the circuit and a potential hazard. A RCD is typically incorporated into a [[Overcurrent protection|breaker]] or outlet so that it is able to disconnect the circuit upon identifying a difference in current or fault. RCDs are often required by the [[Electrical codes|electrical codes]] in many countries. In a [[Grounding system|grounded system]] this current is typically returning through the grounding system. RCDs are far more effective at preventing electrical accidents than OCPDs as they are far more sensitive and can therefore identify hazards more easily. All RCDs should include a test button (pictured in yellow in the diagram) that enables users to periodically make sure the device is functioning correctly. |
A small amount of current - .1-.2 amps - can be sufficient for an electric shock to be lethal, yet the [[Overcurrent protection|overcurrent protection devices]] installed in electrical systems for lighting and outlets are generally 15 amps or more. Additionally, [[Overcurrent protection|overcurrent protection devices]] typically have a time delay to avoid accidentally opening (disconnecting) the circuit if there is a brief surge of current required by a [[Surge load|surge load]]. If there is insufficient current flowing to activate the [[Overcurrent protection|overcurrent protection device]], this can lead to a many faults and potential hazards going unnoticed until there is an accident. An RCD is far more sensitive - can be activated by as little as 5-30mA (.005-.03 A) of current - and will activate within 25-40ms (.025-.04 seconds). To improve the safety of an off-grid installation, it is recommended that any system that has a [[Grounding system|grounding system]] on the alternating current (AC) side incorporate a RCD. | A small amount of current - .1-.2 amps - can be sufficient for an electric shock to be lethal, yet the [[Overcurrent protection|overcurrent protection devices]] installed in electrical systems for lighting and outlets are generally 15 amps or more. Additionally, [[Overcurrent protection|overcurrent protection devices]] typically have a time delay to avoid accidentally opening (disconnecting) the circuit if there is a brief surge of current required by a [[Surge load|surge load]]. If there is insufficient current flowing to activate the [[Overcurrent protection|overcurrent protection device]], this can lead to a many faults and potential hazards going unnoticed until there is an accident. An RCD is far more sensitive - can be activated by as little as 5-30mA (.005-.03 A) of current - and will activate within 25-40ms (.025-.04 seconds). To improve the safety of an off-grid installation, it is recommended that any system that has a [[Grounding system|grounding system]] on the alternating current (AC) side incorporate a RCD. | ||
==Functioning of an RCD== | ==Functioning of an RCD== | ||
Revision as of 09:12, 25 October 2020
A residual current device (RCD) or Ground Fault Circuit Interruptor (GFCI) is a device that constantly measures the current flowing between the outgoing and incoming wires of a circuit to see if there is a difference. If there is a difference, it means that there is a fault at some point in the circuit and a potential hazard. A RCD is typically incorporated into a breaker or outlet so that it is able to disconnect the circuit upon identifying a difference in current or fault. RCDs are often required by the electrical codes in many countries. In a grounded system this current is typically returning through the grounding system. RCDs are far more effective at preventing electrical accidents than OCPDs as they are far more sensitive and can therefore identify hazards more easily. All RCDs should include a test button (pictured in yellow in the diagram) that enables users to periodically make sure the device is functioning correctly.
A small amount of current - .1-.2 amps - can be sufficient for an electric shock to be lethal, yet the overcurrent protection devices installed in electrical systems for lighting and outlets are generally 15 amps or more. Additionally, overcurrent protection devices typically have a time delay to avoid accidentally opening (disconnecting) the circuit if there is a brief surge of current required by a surge load. If there is insufficient current flowing to activate the overcurrent protection device, this can lead to a many faults and potential hazards going unnoticed until there is an accident. An RCD is far more sensitive - can be activated by as little as 5-30mA (.005-.03 A) of current - and will activate within 25-40ms (.025-.04 seconds). To improve the safety of an off-grid installation, it is recommended that any system that has a grounding system on the alternating current (AC) side incorporate a RCD.
