The architecture design: Difference between revisions
From Electrical Installation Guide
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The architecture design considered in this document starts at the preliminary design stage (see {{FigRef|D3}} step1). It generally covers the levels of MV/LV main distribution, LV power distribution, and exceptionally the terminal distribution level. (see {{FigRef|D2}}). | |||
The architecture design considered in this document starts at the preliminary design stage (see | |||
In buildings all consumers are connected in low voltage. It means that MV distribution consists in: | In buildings all consumers are connected in low voltage. It means that MV distribution consists in: | ||
* connection to utility, | * connection to utility, | ||
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* MV/LV substation(s) itself. | * MV/LV substation(s) itself. | ||
{{FigImage|DB422121_EN|svg|D2|Example of single-line diagram}} | |||
The design of an electrical distribution architecture can be described by a 3-stage process, with iterative possibilities. This process is based on taking into account of the installation characteristics and criteria to be satisfied. | |||
The design of an electrical distribution architecture can be described by a 3-stage process, with iterative possibilities. This process is based on taking account of the installation characteristics and criteria to be satisfied. | |||
{{Related-guides-intro}} | |||
{{RelatedGuide | |||
|image=Hp-highlight-availability-guide-2022.png | |||
|title=Power Availability and Reliability Guide | |||
|text=The guide outlines innovative solutions from Schneider Electric™ covering the four main areas of Power Availability and Reliability: | |||
*Digital and power systems reference designs | |||
*How selectivity enhances uptime | |||
*Electrical asset management | |||
*Fault localization, root cause analysis, and power recovery | |||
|btn-text=Download the guide (.pdf) | |||
|link=https://download.schneider-electric.com/files?p_Doc_Ref=998-21359052_GMA | |||
}} | |||
Latest revision as of 13:49, 17 May 2022
The architecture design considered in this document starts at the preliminary design stage (see Fig. D3 step1). It generally covers the levels of MV/LV main distribution, LV power distribution, and exceptionally the terminal distribution level. (see Fig. D2).
In buildings all consumers are connected in low voltage. It means that MV distribution consists in:
- connection to utility,
- distribution to MV/LV substation(s),
- MV/LV substation(s) itself.
Fig. D2 – Example of single-line diagram
The design of an electrical distribution architecture can be described by a 3-stage process, with iterative possibilities. This process is based on taking into account of the installation characteristics and criteria to be satisfied.
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