|

Guide to the Canadian Electrical Code, Part 1[i], 26th Edition – A Road Map: Section 28 – Motors and Generators

By William (Bill) Burr[i]

The 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. 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 28 – Motors and Generators

Rule 28-000 – Scope states that Section 28is a supplementary or amendatory section of the code and provides additional and specific requirements for the installation, wiring methods, conductors, protection, and control of all motors and generators. Appendix B contains important additional helpful notes, and the CEC Handbook contains helpful information on determining conductor sizes and protection ratings.

Section 28
General

This section is divided into several parts, with Rules 28-010 to 28-016applying to all motors and generators, and additional parts that deal with specific installation, protection, control and particular motor applications and generators.

Rule 28-010 – Special terminology, has definitions for terms specifically used in this section:

Locked rotor current rating – usually marked on the equipment or deemed equal to 6 times full load current or as per Table 44 or 45.

Non-continuous duty motor — a motor having characteristics or ratings described as Short-time duty, Intermittent duty, Periodic duty, and Varying duty.

Rated load current – marked on a hermetic motor compressor to ascertain wiring, protection, and control for the unit.

Refrigerant motor-compressor — an appliance consisting of a refrigerant gas compressing section and a motor that may include a terminal box, cover, and other electrical components such as starting and overload components, heaters, fans, or electronic controls.

Refrigerant motor-compressor, hermetic – a refrigerant motor-compressor in which the refrigerant gas compressing section and motor are enclosed in the same housing.  

Refrigerant motor-compressor, semi-hermetic – a refrigerant motor-compressor in which the refrigerant gas compressing section and motor are each enclosed in separate housings.

Service —

Continuous duty service — an application where the motor can operate continuously with load.

Non-continuous duty service — a motor with short-time, intermittent, periodic or varying duty as perSection 0 definitions.

Service factor — a multiplier applied to the rated horsepower of a motor or generator indicating the permissible continuous loading at rated voltage and frequency.

Rule 28-012 provides for the guarding against inadvertent contact of live parts of generators, motors and controllers and conditions where live parts operating at greater than 30 V ac or 60 V dc may be exposed. Stationary motors having commutators, collectors, and brush rigging located inside motor end brackets and not conductively connected to supply circuits operating at more than 150 volts-to-ground may have live parts exposed.

Rule 28-014 describes methods of guarding motors having exposed live parts.

Rule 28-016 outlines ventilation methods to prevent overheating of motors, including using suitable enclosed motors in dust or flyings situations where ventilation is not possible.

Wiring Methods

Rule 28-100 and Rule 28-102state that all wiring methods for stationary motors follow the requirements of Section 12 or Section 36, and that portable motors may be wired with a minimum type S flexible cord.

Rule 28-104 outlines the use of Table 37 to determine the insulation temperature rating and ampacity of motor supply insulated conductors.

Rules 28-106 to 28-112 outline the use of Table 27 to determine the ampacity rating of insulated conductors supplying individual motors, two or more motors, or feeder and secondary insulated conductors.  A chart in Appendix B will help with these calculations.

Overcurrent protection

Rule 28-200 provides the requirements for motor branch circuit overcurrent protection and requires that each ungrounded conductor of a motor branch circuit shall be protected by an overcurrent device following Subrules (2) to (5), including references to Table 29. In addition, Appendix B and Figure B28-1 contains a diagram of circuits, control, and protective devices for motors which you will find invaluable in determining the requirements for the type and rating of conductors, control, protection, and other elements of motor circuits.

Rule 28-202 requires that, notwithstanding the options in Rule 28-200 above, if the characteristics and ratings of the branch circuit overcurrent protection devices for motor control equipment are marked on the equipment, they must not be exceeded.

Rule 28-204 specifies the conditions and methods for rating and setting feeder overcurrent protection.

Rule 28-206 permits the grouping of motors on a single branch circuit overcurrent device under the conditions outlined in subrules (a) to (f).

Rule 28-208 prohibits the size of fuseholders smaller than the maximum rating in Table 29 except under the conditions outlined in subrules (a) to (c).

Rule 28-210 governs the use, rating, and adjustment of instantaneous-trip circuit breakers for branch circuit protection.

Rule 28-212 permits the use of semiconductor fuses that are integral to an approved controller.

Overload and Overheating Protection

Rule 28-300 requires that in addition to overcurrent protection as outlined in the rules above, the branch circuit conductors and control equipment of each motor, except with the conditions under Rule 28-308 below, must have overload protection.

Rule 28-302 outlines the types of overload protection devices or fuses to be used.

Rule 28-304 prescribes the number and location of overload devices required, whether fuses or other devices, as specified in Table 25, are used. The note in Appendix B regarding the location of overload devices for three-phase motor circuits provides additional information.

Rule 28-306 provides that the rating or trip selection of overload devices must be set for the service factor marked on the motor or 115% of full load current, if not marked.  

Rule 28-308 allows that overload protection for motors is not required under the conditions outlined in subrules (a) to (c).

Rule 28-310 permits the shunting of overload protection during the starting period of the motor provided that the overcurrent device is maintained throughout, and the overload protection is restored to the circuit after the starting period.

Rule 28-312 prohibits automatic restarting of a motor after an overload shutdown, to prevent injury to people.

Rules 28-314 to 28-318 provide that overheating protection is required for each motor, the types of overheating protection required, and conditions where overheating protection is not required.

Undervoltage Protection

Rule 28-400 states that undervoltage protection is required for motors to prevent hazards of restarting either by

  • low-voltage protection where automatic restarting is liable to create a hazard, or
  • low-voltage release where it is necessary that a motor stop on failure or reduction of voltage and restart on return of voltage providing no hazard will be incurred.
Control

Rule 28-500 specifies that a motor starter or controller is required with a horsepower rating, not less than that of the motor, and need not be the disconnecting means of the motor. Subrule (3) provides exemptions to this rule for specified applications.

Rule 28-502 requires the motor control to be in a locationsuitableto prevent accidents due to people contacting live or moving parts or to allow the machine to be stopped in an emergency.

Rule 28-504 requires that for starters having different running and starting positions the construction must not allow remaining in the starting position.

Rule 28-506 specifies that no accidental grounded control circuit conductor can cause the motor to start or prevent the stopping of the motor by a safety device.

Disconnecting Means

Rule 28-600 requires that each motor branch circuit, starter or controller, and each motor be provided with a separate disconnecting means. A single disconnecting means may serve more than one function, or motors grouped on a single branch circuit.

Rules 28-602 and 28-604 provide for the types, ratings, application, and location of disconnecting means depending on the conditions outlined in subrules 28-604 (1) to (7).

Refrigerant Motor-Compressors

Rules 28-700 to 28-714 apply to refrigerant motor compressors, including hermetic refrigerant motor compressors, and semi-hermetic refrigerant motor compressors, hereafter referred to as motor-compressors, and supplement or amend some of the other rules of this section. There are separate rules for marking, horsepower rated equipment, insulated conductor ampacity, overcurrent protection, overload protection, control equipment, and disconnecting means for motors in this application.

Multi-winding and Part Winding-start Motors

Rule 28-802 states that where the windings are in a permanent connection configuration, the motor is treated as a single-winding motor.

Rules 28-804 to 28-812 provide for selecting the insulated conductor sizes, overcurrent protection, overload protection, control and disconnecting means for multi-winding and part winding-start motors.

Generators

Rule 28-900 Rules for Generators outlines that Rules 28-902 to 28-914 apply to the installation of generators.

Rule 28-902 outlines that where a generator is provided with an enclosure and the working space required by Rules 2-310 and 2-308 Subrule 1) cannot be provided within the enclosure, then the enclosure must be equipped with access doors to provide the required working space. In addition, generators must not be installed where the required working space can be obstructed by storage or parking.

 Rule 28-904 requires that a generator designed to prevent being overloaded must have conductors from the generator output terminals to the first overcurrent protection device that have an ampacity not less than 100% of the nameplate current rating of the generator. In addition, where the generator is not factory-supplied with overcurrent protection, the conductors from the output terminals to the first overcurrent protection device must have an ampacity of not less than 115% of the nameplate current rating of the generator.

Rule 28-906 specifies the configuration and provision of disconnecting means required for generators and all control apparatus and protective devices.

Rule 28-908 outlines the required protection for constant-voltage generators with noted exceptions.

Rule 28-910 requires a generator not driven by electricity supplying a 2-wire grounded system to have a protective device that disconnects both insulated conductors.

Rule 28-912 requires balancer sets to have protective devices to disconnect the system in the case of an excessive unbalanced voltage.

Rule 28-914 provides requirements for circuit breakers and tripping elements on three-wire dc generators.

In the next installment, we will be discussing Section 30 – Installation of Lighting Equipment.


[i] William (Bill) Burr is an associate member of the Canadian Electrical Code, Part 1, Technical Committee and formerly Chair of the Canadian Advisory Council on Electrical Safety (CACES), Chief Electrical and Elevator Inspector for the Province of BC & the Northwest Territories, Director of Electrical and Gas Standards Development and Director of Conformity Assessment at CSA Group. Bill can be reached at Burr and Associates Consulting billburr@gmail.com..


[i] Source: CSA C22.1:24, Canadian Electrical Code, Part 1 – Safety Standard for Electrical Installations. © 2021 Canadian Standards Association. Please visit Store – CSA Group or call 1-800-463-6727. With the permission of CSA Group, the material is reproduced from CSA Group standard CSA C22.1:21, Canadian Electrical Code, Part 1 – Safety Standard for Electrical Installations. This material is not the complete and official position of CSA Group on the referenced subject, which is represented solely by the Standard in its entirety. While use of the material has been authorized, CSA Group is not responsible for the manner in which the data are presented, nor for any representations and interpretations. No further reproduction is permitted. For more information or to purchase standard(s) from CSA Group, please visit Store – CSA Group or call 1-800-463-6727.

Related Articles


Latest Articles


Changing Scene

  • Canada Invests in Deep Energy Retrofits for Affordable Housing in Hamilton

    Canada Invests in Deep Energy Retrofits for Affordable Housing in Hamilton

    March 13, 2025 There is a need and an opportunity for Canada to strengthen energy security and affordability for all Canadians. Canada’s buildings sector is the third-largest contributor to greenhouse gas emissions across the country. By increasing the scale and pace of building retrofits, we can make homes and buildings more energy-efficient and improve reliability in units.  The federal… Read More…

  • Tesla Products Excluded from BC Hydro Incentive Program

    Tesla Products Excluded from BC Hydro Incentive Program

    March 13, 2025 CBC has reported that BC Hydro is excluding Tesla products from their EV charger incentive program. However, products purchased prior to March 12 will still be eligible. “As of March 12, Tesla chargers, energy storage batteries and inverters are not eligible for rebates, according to B.C. Hydro. Those who have purchased or… Read More…

  • Acuity Rebrands and Introduces New Corporate Identity

    Acuity Rebrands and Introduces New Corporate Identity

    March 13, 2025 Acuity Brands, Inc.’s corporate name is changing from Acuity Brands, Inc. to Acuity Inc. effective March 26, 2025. Acuity will continue to operate through two business segments, Acuity Brands Lighting (ABL) and Acuity Intelligent Spaces (AIS), formerly Intelligent Spaces Group (ISG). They will continue trading on the New York Stock Exchange under the ticker symbol “AYI”. “Acuity is positioned for long term growth…. Read More…

  • IDEAL Electrical™ Unveils Fresh, Modern Brand Identity

    IDEAL Electrical™ Unveils Fresh, Modern Brand Identity

    March 7, 2025 IDEAL Electrical was the first company to obtain a patent to make and sell wire connectors in the United States 96 years ago this month – and today IDEAL® announces a modern look for the brand, which captures the company’s spirit of relentless innovation and the optimistic future of the electrical trade. … Read More…