October 23, 2017 by Jonathan Roberts
(Copyright © material from the 2009 January Issue of The Code Authority: Electrical Connections newsletter. This material may not reflect changes that have occurred since its original publication.)
Ground-fault circuit interrupters (GFCIs) have been in use for over 40 years, and have proven themselves to be invaluable in the protection of personnel from the hazard of electric shock. Other types of leakage current and ground fault protective devices have been introduced for various applications since the introduction of GFCIs. The use of some protective devices is specifically required in the National Electrical Code® (NEC)®. Others are a component of an appliance, as required by the UL standard covering that appliance. This article will help to differentiate the various types of protective devices used today and clarify their intended uses.
The definition of a ground-fault circuit interrupter is located in Article 100 of the NEC and is as follows: “A device intended for the protection of personnel that functions to de-energize a circuit or portion thereof within an established period of time when a current to ground exceeds the values established for a Class A device.”
Following this definition, an Informational Note provides additional information on what constitutes a Class A GFCI device. It states that a Class A GFCI trips when the current to ground has a value in the range of 4 milliamps to 6 milliamps, and references UL 943, the Standard for Safety for Ground- Fault Circuit-Interrupters.
Section 210.8 of the NEC covers specific applications, both residential and commercial, where GFCI protection for personnel is required. In dwelling units, GFCIs are required in all 125-volt, single phase, 15- and 20-ampere receptacles installed in locations such as bathrooms, garages, outdoors, unfinished basements, and kitchens. Article 680 of the NEC covering swimming pools has additional GFCI requirements.
In almost every new edition of the NEC since 1968, new GFCI requirements were added. See the table below for examples of when the NEC first required GFCIs for various applications. Please note that this list does not include all locations where GFCI protection is required.
|NEC Edition Where GFCI Protection Was First Required|
|1968||Swimming pool underwater lighting|
|1971||Outdoor receptacles and near swimming pools|
|1975||Bathroom receptacles and construction sites|
|1981||Spas or hot tubs|
|1984||Bathrooms of hotel or motel guest rooms|
|1987||Basements, receptacles near kitchen sinks, and boathouses|
|1990||Unfinished basements and crawl spaces|
|1993||Wet bar sinks|
|1996||All kitchen countertop receptacles, unfinished accessory buildings, rooftops|
|2005||Near laundry and utility room sinks, outdoors in public spaces|
|2008||All sinks (other than dwelling units), electric water drinking fountains|
|2011||Indoor wet locations, locker rooms with associated
showering facilities, garages and service bays, pool pump motors
|2014||All sinks, bathtubs or shower stalls, laundry areas, Kitchen dishwasher branch circuit, tire inflation and automotive vacuum machines, cord-and plug-connected high pressure spray washers, 15-kW or smaller portable generators|
|2017||Crawl spaces and unfinished basements in other than dwellings, crawl space lighting outlets|
GFPE (Ground-Fault Protection of Equipment) — Intended for the protection of equipment by disconnecting all ungrounded conductors of a circuit at current levels less than that of a supply circuit overcur- rent protective device. This type of device is designed typically to trip in the 30 mA or higher range, and therefore is not used for personnel protection. This type of device may be provided as required by NEC Sections 210.13, 240.13, 230.95, and 555.3. UL guide information for Ground-Fault Sensing and Relay Equipment can be found under the UL Product Category KDAX.
LCDI (Leakage Current Detector Interrupter) LCDI’s are permitted for single-phase cord- and plug-connected room air conditioners in accordance with Section 440.65 of the NEC. LCDI power supply cord assemblies use a special cord employing a shield around the individual conductors, and are designed to interrupt the circuit when leakage current occurs between a conductor and the shield. UL guide information for Leakage-Current Detection and Interruption can be found under the UL Product Category ELGN.
EGFPD (Equipment Ground-Fault Protective Device) — Intended for applications such as fixed electric deicing and snow melting equipment, as well as fixed electric heating equipment for pipelines and vessels, in accordance with Articles 426 and 427 in the NEC. This device operates to disconnect the electric circuit from the source of supply when the ground-fault current exceeds the ground- fault pick-up level marked on the device, typically 6 mA to 50 mA. UL guide information for Ground-Fault Protective Devices can be found under the UL Product Category FTTE.
These devices are UL Component Recognized, and not intended for general sale or use. They are intended for use as factory-assembled components of specific appliances where the suitability of the installation is determined by UL. They have not been investigated for installation in the field, and may or may not satisfy requirements in the NEC.
ALCI (Appliance Leakage Current Interrupter) — A component device on electrical appliances, ALCIs are similar to GFCIs, as they are designed to interrupt the circuit when a ground fault current exceeds 6 mA. An ALCI is not intended to replace the use of a GFCI device, where GFCI protection is required in accordance with the NEC.
IDCI (Immersion Detection Circuit Interrupter) — A component device that interrupts the supply circuit to an immersed appliance. When a conductive liquid enters the appliance and contacts both a live part and an internal sensor, the device trips when current flow between the live part and the sensor exceeds the trip current value. The trip current may be any value below 6 mA sufficient to detect immersion of the connected appliance. The function of an IDCI is not dependent on the presence of a grounded object.
To help mitigate electrical shock hazards, UL has been at the forefront of detector research, technology and standards development. Statistics have shown that devices described in this article have proven to be an effective means to improve safety in residential occupancies and other electrical installations. Proper application and use of these protective devices is critical to coordinating required protection for safe installations.