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Grounding Basics

Understand why having a grounding path in every electrical circuit is essential to keeping you and your house safe.

By Michael McAlister, Mike Litchfield
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Because electricity moves in a circuit, it will return to its source unless the path is interrupted. The return path in a typical house electrical circuit is through the white neutral wires that bring current back to the main panel. Ground wires provide an alternative low-resistance path should any of the electrical equipment or enclosures become inadvertently energized.

Why is having a grounding path important? Before equipment-grounding conductors (popularly called ground wires) were widespread, people could be electrocuted when they came in contact with voltage that, due to a fault like a loose wire, unintentionally energized the metal casing of a tool or an electrical appliance. Ground wires bond all electrical devices and potentially current-carrying metal surfaces. This bonding creates a path with such low impedance (resistance) that fault currents flow along it, quickly tripping breakers or fuses and interrupting power. Contrary to popular misconceptions, the human body usually has a relatively high impedance (compared with copper wire); if electricity is offered a path with very low resistance—the equipment grounding conductor—it will take the low-resistance path back to the panel, trip the breaker, and cut off the power.

the thicker copper wire runs to a ground rod
Inside this service panel, the smaller copper wire (top) and the insulated white wire feed a subpanel in the house; the thicker copper wire runs to a ground rod.

 


Avoiding Electrical Shocks

Avoiding Electrical Shocks

Ground Faults Can Kill!

Current flowing unintentionally to ground (“earth”) is called a ground fault. The ground wire is intended to be a low-impedance path to ground, to safely carry the current of a ground fault until the circuit breaker trips. You, however, can also be a path to ground should you come in contact with an energized conductor. In this case, you would become part of the circuit, with current flowing through you. So be careful: Only a little current flowing through your heart can kill you.


 

Ground wires (equipment grounding conductors) connect to every part of the electrical system that could possibly become energized—metal boxes, receptacles, switches, fixtures—and, through three-pronged plugs, the metallic covers and frames of tools and appliances. The conductors, usually bare copper or green insulated wire, create an effective path back to the main service panel in case the equipment becomes energized. That allows fault current to flow, tripping the breaker.

Connections to cold-water pipes
Connections to cold-water pipes and gas lines prevent shocks should the pipes become inadvertently energized.

 

ground rod
The main ground wire from the service panel clamps to an 8-ft. grounding electrode (or ground rod) driven into the earth. It diverts outside voltage, such as lightning strikes.

 

Making Sense of Grounding

Grounding confuses a lot of people, including some electricians. Part of the problem is that the word ground has been used imprecisely for more than a century to describe electrical activity or components. The term ground wire, for example, may refer to one of three different things:

  • The large, usually bare-copper wire clamped to a ground rod driven into the earth, or to rebar in a concrete footing. Because the rod or the rebar is technically a grounding electrode, this “ground wire” is correctly called a grounding electrode conductor.
  • Short conductors (wires) that connect two pieces of electrical equipment to eliminate the possibility of a difference in potential (impedance) between them. These short wires should be called “bonding conductors” or “bonding jumpers.”
  • The bare copper or green insulated wires in all modern circuits, which ultimately connect electrical equipment, such as receptacles and fixtures, to the service panel neutral/ground bar. These connections create a low-impedance fault path back to the service panel. Why? In case the equipment becomes energized by a hot wire touching a metal cover or other part, this conductor allows high current to flow safely and trip the breaker. In this book, the term ground wire or grounding conductor refers to this conductor. These wires are properly called equipment-grounding conductors.

 

 

The Neutral/Ground Bus

In the service panel, the ground wires attach to a neutral/ground bus bar, which is bonded to the metal panel housing via a main bonding jumper. If there’s a ground fault in the house, the main bonding jumper ensures the current can be safely directed to the ground—away from the house and the people inside. It is probably the single most important connection in the entire electrical system.

Also attached to the neutral/ground bus in the service panel is a large, usually bare, copper ground wire—the grounding electrode conductor (GEC)—that clamps to a grounding electrode, usually either a ground rod driven into the earth, or a “Ufer grounding electrode,” a 20-ft. length of steel rebar or heavy copper wire placed in the building foundation prior to pouring. The grounding electrode’s primary functions are to divert lightning and other outside high voltages to the earth before they can damage the building’s electrical system, and to provide a ground reference. Although the grounding electrode system (GES) is connected to the equipment grounding system at the service panel, the GES has virtually nothing to do with reducing hazards from problems in the wiring inside the house. That’s the role of the equipment grounding conductors.

The National Electrical Code (NEC) requires grounding electrode conductor size to be based on the sizes and types of conductors in the service. Typically, residential GECs are size 6 American wire gauge (6AWG) copper. Ground rods are typically 1⁄2-in. or 5⁄8-in. copper-clad steel rods at least 8 ft. long. The Ufer or concrete-encased electrode is the preferred grounding electrode and must be used if new concrete footings are poured.

 


Major Grounding Elements
Major Grounding Elements

The equipment-grounding system acts as an expressway for stray current. By bonding conductors or potential conductors, the system provides a low-impedance path for fault currents. In a ground fault, the abnormally high amperage (current flow) that results trips a breaker or blows a fuse, disconnecting power to the circuit.

It’s required by the NEC to ground metal water piping and metal gas piping in case it becomes energized. An underground metal water pipe can’t serve as the only grounding electrode. Otherwise, someone could disconnect the pipe or install a section of non-conductive pipe such as PVC, thus interrupting the grounding continuity and jeopardizing your safety. In new installations, code requires that underground metal water piping be connected to the grounding electrode system and the system be supplemented with another electrode.


 

GFCIs

Ground-fault circuit interrupters (GFCIs) are sensitive devices that can detect very small current leaks and shut off power almost instantaneously. The NEC requires GFCI protection on all bathroom receptacles; all receptacles serving kitchen counters; dishwasher outlets; receptacles within 6 ft. of any sink, tub, or shower stall; laundry-area receptacles; all outdoor receptacles; all unfinished basement receptacles; receptacles in garages and accessory buildings; receptacles in crawlspaces or below grade level; and all receptacles near pools, hot tubs, whirlpools, and the like.

Further, recent code updates require that all new GFCIs have three important features. First, they must be self-diagnostic, with an LED indicator light that will flash or glow red to indicate device failure. Second, should the GFCI fail, it must be self-locking: Current will cease to flow, so that the device must be replaced. Third, GFCIs installed less than 5-1/2 ft. above floor level must be tamper-proof, with plastic shutters that slide across terminal slots to prevent, say, a child from inserting something into a slot.

 


Wiring Complete, 3rd Edition

Excerpted from Wiring Complete, 3rd Edition (The Taunton Press, 2017) by Michael Litchfield and Michael McAlister

Available at Amazon.com.

Previous: Service Panels Next: Why Do I Have To Separate Grounds and Neutrals?

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