Guide du Code, Partie 1 – 5

Electrical Code Updates

 

Bill Burr 

Souvent, les utilisateurs du Code se retrouvent dans des situations où certains règlements peuvent leur sembler étranges. Ces situations se présentent autant chez les concepteurs, les consultants, les installateurs, les inspecteurs, les étudiants, les formateurs que chez les experts qui développent les normes, et sont souvent liées au fait que le règlement a été mal identifié ou mal interprété. Il n’est peut-être pas celui requis par la tâche à effectuer.  Le Code est un document complet et détaillé et la réponse ne se trouve pas toujours facilement. Voici un guide qui au cours des prochains mois vous aidera à trouver votre chemin dans le Code. Cette semaine, la Section 8 – Charge des circuits et facteurs de demande. 

The CE Code is a comprehensive document. Sometimes it can seem quite daunting to quickly find the information you need. This series of articles provides a guide to help users find their way through this critical document. In this article: Section 8 — circuit loading and demand factors.

This is not intended to replace the notes in Appendix B or the explanations of individual requirements contained in the CEC Handbook,* but will hopefully provide some help in navigating the Code.

Section 8 is a general section of the code. It provides you the information you need to select the rating of a circuit, feeder or service (i.e., ampacity of the circuit conductors and rating/setting of the circuit overcurrent devices). Rule 8-104 describes the rating of a circuit (feeder or service) and establishes the criteria between the calculated load and circuit (feeder or service) rating. As well, it determines branch circuit positions for dwelling units.

The special terminology used in this section includes:
• Basic Load — only lighting and receptacle circuits based on the dimensions of specific building occupancy as listed in Table 14
• Calculated load – the load calculated in accordance with the rules in this section
• Demonstrated Load — the historical demand watt information recorded over 24 months for the same type of facility

The General section outlines methods of calculating voltage drop, maximum circuit loading, use of demand factors, number of branch circuit positions and determination of living areas. It specifies standard voltage divisers to be used when calculating currents from watts or volt-amperes in low voltage systems; maximum allowable voltage drop in installations; maximum circuit loading based on the overcurrent device used; and the calculated load. You will also find here the factors for determining a continuous, cyclic, or intermittent load, and how this affects the selection of conductors and equipment. 

This section also outlines conditions for Use of demand factors; that is, where
• the size required for conductors and switches is not available in a standard size
• two or more loads are installed, but only one can be used at a time
• air conditioning and electric space heating are installed and only the greater load is used for calculating demand
• loads of a cyclic nature are installed such that the maximum load cannot be supplied at one time) 

Where additional loads are added to an existing service or feeder, Rule 8-106(9) permits the load to be calculated by adding the sum of the additional loads to the maximum existing demand load measured over 12 months. Other demand factors can be based on demonstrated load calculations by a qualified person, as determined by the authority having jurisdiction.

Another function of this section is to outline the number of branch circuit positions needed for dwelling units. This is based on the ampacity of the service and whether a central electric furnace is intended.

The Services and feeders section outlines the methods of calculating the minimum ampacity of service or feeder conductors for various types of occupancies. Although the various options and conditions may seem complicated, methodically working through the demand factors for each type of occupancy will allow you to determine the correct ampacity for service or feeder conductors. 

The methods for determining demand factors for dwelling units are divided into single dwellings and apartment and similar buildings.For single dwellings you are given two options depending on the size of the dwelling.In the first criterion, where the living area of the dwelling exceeds 90 m2, the basic load is 5000w and additional loads are added with various demand factors as listed in Rule8-200 (1)(a)(ii to vii). The second criterion is to use a basic load of 100 A if the floor area is 80m2 or more, or 60 A if the floor area is less than 80 m2. Note that Rule8-110 designates how to determine the living area.

For two or more dwelling units of row houses, the minimum ampacity of service or feeder conductors from a main service is based on the above demand factors for each single dwelling, excluding electric space heating and air-conditioning loads, plus the demand factors outlined in Rule 8-202(3).

For apartments and similar buildings, the minimum ampacity of service or feeder conductors from a main service is calculated according to Rule 8-202.As with single dwellings and row houses above, the basic load is based on living area plus the demand factors for various other loads as outlined in Rule 8-202 (1 to 4). It should be noted that the load calculated for a single dwelling or for dwelling units in an apartment building is not considered to be continuous. However, a house load (i.e., load of equipment installed in a common area of an apartment building) is considered to be continuous for the purpose of Rule 8-104.

There are specific rules for determining the ampacity of service or feeder conductors for schools (Rule 8-204), hospitals (Rule 8-206), and hotels, motels, dormitories, and buildings of similar occupancy (Rule 8-208). For other occupancies, as listed in Table 14, the calculations are in Rule 8-210.

One other consideration is exit, emergency and show window lighting where the loads may be spread throughout the building. Exit and emergency lighting demand shall be determined by connected load. In the case of show window lighting, demand is based on 650W/m measured along the base of the windows.

This section also outlines required branch circuit positions and demand factors. Rule 8-300 provides demand loads for branch circuits supplying electric ranges and cooking units. Rule 8-302 specifies that branch circuits supplying data processing equipment be considered continuous loads. Rule 8-304 specifies that the maximum number of outlets per any 2-wire circuit is 12, unless the actual connected load is known and the load current doesn’t exceed 80% of the overcurrent device rating.This means that the load of a typical 2-wire circuit protected by a 15 A rated overcurrent device is considered to be 12 A.

Rule 8-400 provides guidance for the number and loading of branch circuits for automobile heater receptacles generally, and where the loading on each receptacle is controlled or restricted.

Pour lire les articles précédents de la série:

Guide du Code, Partie 1

Guide du Code, Partie 1 – 2

Guide du Code, Partie 1 – 3

Guide du Code, Partie 1 – 4

Guide du Code, Partie 1 – 5

Guide du Code, Partie 1 – 6

Guide du Code, Partie 1 – 7

Guide du Code, Partie 1 – 8

Guide du Code, Partie 1 – 9

Guide du Code, Partie 1 – 10


William (Bill) Burr est l’ancien président du Canadian Advisory Council on Electrical Safety (CACES), et l’ancien directeur de l’Electrical and Elevator Safety pour la province de la Colombie-Britannique. Il a aussi été directeur de l’Electrical and Gas Standards Development et directeur du Conformity Assessment pour le Groupe CSA. Bill peut être rejoint à Burr and Associates Consulting au billburr@gmail.com.

Related Articles


Monde en mouvement

  • CanREA accueille favorablement l’élargissement du nouvel approvisionnement en énergie de l’Ontario

    CanREA accueille favorablement l’élargissement du nouvel approvisionnement en énergie de l’Ontario

    20-décembre-2024 L’industrie de l’énergie renouvelable salue sa première occasion en près d’une décennie de proposer de nouveaux projets en Ontario. L’Association canadienne de l’énergie renouvelable (CanREA) accueille favorablement la directive ministérielle adressée par l’Ontario à la Société indépendante d’exploitation du réseau d’électricité (SIERE). Cette directive, qui donne le coup d’envoi à la très attendue deuxième demande de… Read More…

  • Bourses d’études 2024-2025 du 1er District de la FIOE

    Bourses d’études 2024-2025 du 1er District de la FIOE

    20-décembre-2024 Encore une fois, le premier district de la FIOE conjointement avec MWG Apparel, AIL et TD Assurance Meloche Monnex, est fier d’annoncer que dix (10) bourses d’études de 2000 $ chacune seront accessibles à tous les membres canadiens de la FIOE et à leurs familles qui sont inscrits à des cours en vue d’obtenir… Read More…


Formation et événements