MV and LV architecture selection guide for buildings

Stakes for the user

Simplified architecture design process

The architecture design

The whole process

Electrical installation characteristics

Activity

Site topology

Layout latitude

Service reliability

Maintainability

Installation flexibility

Power demand

Load distribution

Power interruption sensitivity

Disturbance sensitivity

Disturbance capability of circuits

Other considerations or constraints

Technological characteristics

Environment, atmosphere 

Service Index

Other considerations

Architecture assessment criteria

On-site work time

Environmental impact

Preventive maintenance level

Availability of electrical power supply

Choice of architecture fundamentals

Connection to the upstream network

MV circuit configuration

Number and distribution of MV/LV transformation substations

Number of MV/LV transformers

MV back-up generator

Choice of architecture details

Layout

Centralized or distributed layout

Presence of an Uninterruptible Power Supply (UPS)

Configuration of LV circuits

Choice of equiment

Recommendations for architecture optimization

On-site work time

Environmental impact

Preventive maintenance volume

Electrical power availability

Glossary

ID-Spec software

Example: electrical installation in a printworks

Brief description

Installation characteristics

Technological characteristics

Architecture assessment criteria

Choice of technogical solutions

Downloads

2010 edition in English: D-MV and LV architecture selection guide

2010 edition in French: D-choisir une architecture de distribution electrique

External links

• Electrical Engineering blog