Fig. 3. This rule would apply to commercial/industrial kitchen spaces.
Fig. 3. This rule would apply to commercial/industrial kitchen spaces.
Fig. 3. This rule would apply to commercial/industrial kitchen spaces.
Fig. 3. This rule would apply to commercial/industrial kitchen spaces.
Fig. 3. This rule would apply to commercial/industrial kitchen spaces.

The Differences Between AFCIs and GFCIs

Feb. 20, 2020
Do you know how these devices differ, and where to install them to meet NEC requirements?

An arc-fault circuit interrupter (AFCI) is a device intended to protect against the effects of arc faults by recognizing characteristics unique to arcing and then de-energizing the circuit when it detects an arc fault. It directly protects property by preventing a fire, and thus indirectly protects people.

A ground-fault circuit interrupter (GFCI) is a device intended to protect people from shock by de-energizing a circuit when a current imbalance is 6mA or higher; it does not trip when the current imbalance is less than 4mA [Art. 100].

Each type of protection is available as a breaker (protects the entire circuit) or a receptacle (can also protect downstream of the receptacle if load side is connected downstream).

Generally, you want to install an AFCI as a breaker but a GFCI as a receptacle. Why?

An AFCI trips due to problems with the branch circuit (generally, conditions inside the wall). The user should call an electrician to determine where the arcing occurred.

A GFCI, on the other hand, trips due to conditions outside the wall. For example, the user plugs in something that poses a shock hazard (which the GFCI detects as exceeding its 6mA trip point). Generally, you don’t want the user going to the circuit panel to reset the device.

However, evaluate the application before deciding one way or the other. In some cases, the best solution is a dual-function AFCI/GFCI receptacle.

AFCI Protection

Where required, AFCI protection must be installed in a readily accessible location. It must be provided per Sec. 210.12(A), (B), (C), and (D):

(A) All 15A or 20A, 120V branch circuits supplying outlets in dwelling unit kitchens, family rooms, dining rooms, living rooms, parlors, libraries, dens, bedrooms, sunrooms, recreation rooms, closets, hallways, laundry areas, or similar areas. AFCI protection is not required for outlets located outside or in garages or bathroom areas.

(B) All 15A or 20A, 120V branch circuits supplying outlets in dormitory unit bedrooms, living rooms, hallways, closets, bathrooms, or similar areas.

(C) All 15A or 20A, 120V branch circuits supplying outlets in guest rooms and guest suites of hotels and motels.

(D) Branch circuit extensions or modifications — dwelling units, dormitory units, guest rooms, and guest suites. Where 15A or 20A, 120V branch‑circuit wiring is modified, replaced, or extended in any of the areas specified in Sec. 210.12(A), (B), or (C), it must be AFCI protected.

Exception: AFCI protection is not required for extension wiring that is less than 6 ft long (raceway or cable) if no outlets or devices are added (other than splicing devices). This measurement does not include the conductors inside an enclosure, cabinet, or junction box.

GFCI Protection

Where required, GFCI protection must be in a readily accessible location. It must be provided per Sec. 210.8(A) through (F).

  • Note 2: See Sec. 422.5 for GFCI requirements for specific equipment such as automotive vacuum machines, drinking water coolers, high‑pressure spray washing machines, tire inflation machines provided for public use, and vending machines.
  • Note 3: See Sec. 555.9 for GFCI requirements for boat hoists.
  • Note 4: Additional GFCI requirements for specific circuits and equipment are in Chapters 4, 5, and 6.

When applying the requirements of Secs. 210.8(A)(7), 210.8(A)(9), 210.8(B)(5), and 210.8(B)(12), measure the distance as the shortest path an appliance’s flexible cord will follow without piercing a floor, wall, ceiling, fixed barrier, or passing through a window (Fig. 1).

Dwelling Units

125V through 250V receptacles installed in the following dwelling unit locations must be GFCI protected [Sec. 210.9(A)]:

(1) Bathroom areas.

(2) Garages of dwelling units and grade‑level portions of accessory buildings used for storage or work areas of a dwelling unit.

(3) Outdoors, including receptacles under the eaves of roofs.

Exception: GFCI protection is not required for a receptacle dedicated to fixed electric snow‑melting, deicing, or pipeline and vessel heating equipment if the receptacle is not readily accessible and ground-fault protection of equipment is provided as required by Sec. 426.28 and Sec. 427.22.

(4) Crawl spaces at or below grade.

(5) Finished and unfinished areas of a basement.

Exception: A receptacle supplying only a permanently installed fire alarm or burglar alarm system is not required to have GFCI protection.

(6) Where serving kitchen countertop surfaces. Receptacles below a countertop for appliances, such as trash compactors or garbage disposals, do not require GFCI protection unless they are 6 ft or less from the top inside edge of the bowl of the sink [Sec. 210.8(A)(7)].

A refrigerator is not a countertop appliance so GFCI protection is not required, unless the receptacle is 6 ft or less from the top inside edge of the bowl of the kitchen sink [Sec. 210.8(A)(7)]. Outlets supplying dishwashers require GFCI protection [Sec. 210.8(D)].

(7) Within 6 ft from the top inside edge of the bowl of a dwelling unit sink.

(8) Boathouse. The Code does not require a receptacle to be installed in a dwelling unit boathouse, but if any are installed, they must be GFCI protected.

(9) Within 6 ft of the outside edge of a bathtub or shower stall not installed within a bathroom as defined in Art. 100.

(10) Laundry area.

(11) Indoor damp and wet locations.

Additional Dwelling Unit GFCI Requirements

A few more locations have special considerations in Sec. 210.8:

(C) Crawl spaces. A lighting outlet is not required for a dwelling unit crawl space unless the space is used for storage or has equipment requiring servicing [Sec. 210.70(A)(3)].

(D) Specific appliances. Unless GFCI protection is provided per Sec. 422.5(B)(3) through (B)(5), the outlets supplying appliances specified in Sec. 422.5(A) must have GFCI protection per Sec. 422.5(B)(1) or (B)(2). Where an appliance is a vending machine as specified in Sec. 422.5(A)(5) and GFCI protection is not provided per Sec. 422.5(B)(3) or (B)(4), the branch circuit supplying the vending machines must have GFCI protection per Sec. 422.5(B)(1) or (B)(2).

(E) Equipment Requiring Servicing. A 15A or 20A, 125V receptacle outlet must be installed within 25 ft of heating, air‑conditioning, and refrigeration equipment [Sec. 210.63(A)]. Rooftop GFCI receptacles are required to be readily accessible only from the rooftop itself [Sec. 210.8(B)(3) Exception]. (See Fig. 2.)

(F) Outdoor Dwelling Unit Outlets, other than those for snow-melting equipment covered in Sec. 210.8(A)(3) Exception, that are supplied by single-phase branch circuits rated 150V or less to ground, 50A or less.

Exception: GFCI protection is not required on lighting outlets other than those covered in Sec. 210.8(C).

Other Than Dwellings

GFCI protection is required for all 125V through 250V receptacles supplied by single-phase branch circuits rated 150V or less to ground, 50A or less, and all receptacles supplied by 3-phase branch circuits rated 150V or less to ground, 100A or less, installed in the following locations [Sec. 210.9(B)]:

(1) Bathroom areas.

(2) Kitchens or areas with a sink and permanent provisions for either food preparation or cooking (Fig. 3).

(3) On rooftops. A 15A or 20A, 125V receptacle outlet must be installed within 25 ft of heating, air conditioning, and refrigeration equipment [Sec. 210.63(A)]. Rooftop GFCI receptacles are required to be readily accessible only from the rooftop itself. [Sec. 210.8(B)(3), Exception]

(4) Outdoors.

(5) Within 6 ft from the top inside edge of the bowl of a sink.

(6) Indoor damp and wet locations.

(7) Locker rooms with showering facilities.

(8) Garages, accessory buildings, service bays, and similar areas.

(10) Unfinished areas of a basement.

(11) Laundry areas.

(12) Within 6 ft of the outside edge of the bathtub or shower stall not installed in a bathroom as defined in Art. 100.

Avoiding Errors with AFCIs and GFCIs

You cannot install reconditioned AFCIs or GFCIs [Sec. 210.15]. The NEC does not explicitly bar you from installing used circuit interrupters, but that prohibition is implied by the ban on using reconditioned ones. Besides, why would you want to install a device whose operation and reliability you aren’t sure of?

A common misperception with

GFCIs is that you can’t use them on 2-wire circuits. In fact, you can; the GFCI senses a difference in current between line and neutral. You don’t need to ground the GFCI unless you are installing it in a 3-wire (grounded) system.

Because of how a GFCI receptacle functions, it’s critical to allow the neutral and line to pass through the device if you intend to protect downstream devices, so no pigtailing the neutral. Ensure the line side conductor and neutral terminate on their respective line side terminals. Ensure the load side conductor and neutral terminate on their respective load side terminals. Always test the operation of a newly installed GFCI before walking away from it.

These materials are provided to us by Mike Holt Enterprises in Leesburg, Fla. To view Code training materials offered by this company, visit www.mikeholt.com/code

About the Author

Mike Holt

Mike Holt is the owner of Mike Holt Enterprises (www.MikeHolt.com), one of the largest electrical publishers in the United States. He earned a master's degree in the Business Administration Program (MBA) from the University of Miami. He earned his reputation as a National Electrical Code (NEC) expert by working his way up through the electrical trade. Formally a construction editor for two different trade publications, Mike started his career as an apprentice electrician and eventually became a master electrician, an electrical inspector, a contractor, and an educator. Mike has taught more than 1,000 classes on 30 different electrical-related subjects — ranging from alarm installations to exam preparation and voltage drop calculations. He continues to produce seminars, videos, books, and online training for the trade as well as contribute monthly Code content to EC&M magazine.

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