Location of protective devices: Difference between revisions
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A protective device is, in general, required at the origin of each circuit | A protective device is, in general, required at the origin of each circuit}} | ||
}} | |||
== General rule == | == General rule == | ||
(see {{FigRef|G7a}}) | |||
A protective device is necessary at the origin of each circuit where a reduction of permissible maximum current level occurs. | |||
== Possible alternative locations in certain circumstances == | == Possible alternative locations in certain circumstances == | ||
(see {{FigRef|G7b}}) | |||
The protective device may be placed part way along the circuit: | |||
*If AB is not in proximity to combustible material, and | *If AB is not in proximity to combustible material, and | ||
*If no socket-outlets or branch connections are taken from AB | *If no socket-outlets or branch connections are taken from AB | ||
Three cases may be useful in practice: | Three cases may be useful in practice: | ||
*Consider case (1) in the diagram | *Consider case (1) in the diagram | ||
** AB ≤ 3 metres, and | |||
** AB has been installed to reduce to a practical minimum the risk of a short-circuit (wires in heavy steel conduit for example) | |||
*Consider case (2) | *Consider case (2) | ||
**The upstream device P1 protects the length AB against short-circuits in accordance | |||
*Consider case (3) | *Consider case (3) | ||
**The overload device (S) is located adjacent to the load. This arrangement is convenient for motor circuits. The device (S) constitutes the control (start/stop) and overload protection of the motor while (SC) is: either a circuit-breaker (designed for motor protection) or fuses type aM | |||
**The short-circuit protection (SC) located at the origin of the circuit conforms with the principles | |||
== Circuits with no protection == | == Circuits with no protection == | ||
(see {{FigRef|G7c}}) | |||
Either | |||
*The protective device P1 is calibrated to protect the cable S2 against overloads and short-circuits | *The protective device P1 is calibrated to protect the cable S2 against overloads and short-circuits | ||
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*Where the breaking of a circuit constitutes a risk, e.g. | *Where the breaking of a circuit constitutes a risk, e.g. | ||
** Excitation circuits of rotating machines | |||
** circuits of large lifting electromagnets | |||
** the secondary circuits of current transformers | |||
No circuit interruption can be tolerated, and the protection of the cabling is of secondary importance. | No circuit interruption can be tolerated, and the protection of the cabling is of secondary importance. | ||
[[File:FigG07a.jpg]] '''[a]''' | [[File:FigG07a.jpg]] '''[a]''' | ||
Revision as of 03:56, 27 November 2016
A protective device is, in general, required at the origin of each circuit
General rule
(see Fig. G7a)
A protective device is necessary at the origin of each circuit where a reduction of permissible maximum current level occurs.
Possible alternative locations in certain circumstances
(see Fig. G7b)
The protective device may be placed part way along the circuit:
- If AB is not in proximity to combustible material, and
- If no socket-outlets or branch connections are taken from AB
Three cases may be useful in practice:
- Consider case (1) in the diagram
- AB ≤ 3 metres, and
- AB has been installed to reduce to a practical minimum the risk of a short-circuit (wires in heavy steel conduit for example)
- Consider case (2)
- The upstream device P1 protects the length AB against short-circuits in accordance
- Consider case (3)
- The overload device (S) is located adjacent to the load. This arrangement is convenient for motor circuits. The device (S) constitutes the control (start/stop) and overload protection of the motor while (SC) is: either a circuit-breaker (designed for motor protection) or fuses type aM
- The short-circuit protection (SC) located at the origin of the circuit conforms with the principles
Circuits with no protection
(see Fig. G7c)
Either
- The protective device P1 is calibrated to protect the cable S2 against overloads and short-circuits
Or
- Where the breaking of a circuit constitutes a risk, e.g.
- Excitation circuits of rotating machines
- circuits of large lifting electromagnets
- the secondary circuits of current transformers
No circuit interruption can be tolerated, and the protection of the cabling is of secondary importance.
[a]
[b]
[c]
Fig. G7: Location of protective devices
