Sizing and protection of conductors: Difference between revisions

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==== Methodology and definition  ====


==== Overcurrent protection principles  ====
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Selection of cross-sectional-areas of cables is certainly one of the most important tasks of the design process of an electrical installation as this greatly influences:
* the selection of overcurrent protective devices,
* the voltage drop along these conductors
* and the estimation of the prospective short-circuit currents
This chapters details the different steps and methodologies for conductor sizing. And the specific recommendations for neutral and Protective Earth (PE) conductors sizing.
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---- Description text for this chapter - END
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==== Practical values for a protective scheme  ====


==== Location of protective devices  ====
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==== Conductors in parallel  ====
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== [[Practical method for determining the smallest allowable cross-sectional area of circuit conductors|Practical method for determining the smallest allowable cross-sectional area of circuit conductors]]<br> ==
==External links==
*[https://www.se.com/ww/en/product-category/26426075-energy-management-software-solutions/?filter=business-4-low-voltage-products-and-systems Electrical design software]


==== General  ====
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==== General method for cables  ====
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==== Recommended simplified approach for cables  ====
 
==== Busbar trunking systems  ====
 
== [[Determination of voltage drop|Determination of voltage drop]]  ==
 
==== Maximum voltage drop limit  ====
 
==== Calculation of voltage drop in steady load conditions  ====
 
== [[Short-circuit current|Short-circuit current]]  ==
 
==== Short-circuit current at the secondary terminals of a MV/LV distribution transformer  ====
 
==== 3-phase short-circuit current (Isc) at any point within a LV installation  ====
 
==== Isc at the receiving end of a feeder in terms of the Isc at its sending end  ====
 
==== Short-circuit current supplied by an alternator or an inverter  ====
 
== [[Particular cases of short-circuit current|Particular cases of short-circuit current]]  ==
 
==== Calculation of minimum levels of short-circuit current  ====
 
==== Verification of the withstand capabilities of cables under short-circuit conditions<br> ====
 
== [[Protective earthing conductor|Protective earthing conductor]]  ==
 
==== Connection and choice  ====
 
==== Conductor sizing  ====
 
==== Protective conductor between MV/LV transformer and the main general distribution board (MGDB)  ====
 
==== Equipotential conductor  ====
 
== [[The neutral conductor|The neutral conductor]]  ==
 
==== Sizing the neutral conductor  ====
 
==== Protection of the neutral conductor  ====
 
==== Breaking of the neutral conductor  ====
 
==== Isolation of the neutral conductor  ====
 
== [[Worked example of cable calculation|Worked example of cable calculation]]  ==

Latest revision as of 13:46, 26 January 2024

Banner-chapter G.jpg

Selection of cross-sectional-areas of cables is certainly one of the most important tasks of the design process of an electrical installation as this greatly influences:

  • the selection of overcurrent protective devices,
  • the voltage drop along these conductors
  • and the estimation of the prospective short-circuit currents

This chapters details the different steps and methodologies for conductor sizing. And the specific recommendations for neutral and Protective Earth (PE) conductors sizing.

Chapter G - Contents

External links


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