Chapter G

Sizing and protection of conductors


Location of protective devices: Difference between revisions

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A protective device is, in general, required at the origin of each circuit}}


{| cellspacing="1" cellpadding="1" width="790" border="1"
== General rule  ==
|-
(see {{FigRef|G7a}})
| bgcolor="#0099cc" | A protective device is, in general, required at the origin of each circuit
|}


== <br>General rule  ==
A protective device is necessary at the origin of each circuit where a reduction of permissible maximum current level occurs.


(see&nbsp; '''Fig. G7a''')<br>A protective device is necessary at the origin of each circuit where a reduction of permissible maximum current level occurs.<br>
== Possible alternative locations in certain circumstances ==


== Possible alternative locations in certain circumstances<br> ==
(see {{FigRef|G7b}})
 
(see&nbsp; '''Fig. G7b''')<br>The protective device may be placed part way along the circuit:


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 ≤ 3 metres, and<br>
** AB has been installed to reduce to a practical minimum the risk of a short-circuit (wires in heavy steel conduit for example)  
:- 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 with the [[Calculation of minimum levels of short-circuit current ]]
:- 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 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<br>
**The short-circuit protection (SC) located at the origin of the circuit conforms with the principles of [[Calculation of minimum levels of short-circuit current ]].
:- The short-circuit protection (SC) located at the origin of the circuit conforms with the principles<br>


== Circuits with no protection  ==
== Circuits with no protection  ==
(see {{FigRef|G7c}})


(see '''Fig. G7c''')<br>Either  
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
Or  
Or  
*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  
:- Excitation circuits of rotating machines  
** circuits of large lifting electromagnets  
:- circuits of large lifting electromagnets  
** the secondary circuits of current transformers  
:- 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.  


<big>
{{Gallery|G7|Location of protective devices||
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|DB422286a.svg|a|
<br>[[Image:FigG07a.jpg]]&nbsp;&nbsp;&nbsp;'''[a]'''<br><br>
|DB422286b_EN.svg|b|
----
|DB422286c_EN.svg|c|}}
<br>[[Image:FigG07b.jpg]]&nbsp;&nbsp;&nbsp;'''[b]'''<br><br>
----
<br>[[Image:FigG07c.jpg]]&nbsp;&nbsp;&nbsp;'''[c]'''<br><br>
----
</big>
'''''Fig. G7:'''''<i>&nbsp;Location of protective devices</i>
 
[[ru:Расположение защитных устройств]]
[[zh:保护装置的安装位置]]

Latest revision as of 09:49, 22 June 2022

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)
  • 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 of Calculation of minimum levels of short-circuit current .

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.

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