How to Wire Electrical Outlets and Switches

Electrical outlet being rewired with screwdreiver

The Spruce / Kevin Norris

Project Overview
  • Working Time: 15 - 30 mins
  • Total Time: 15 - 30 mins
  • Skill Level: Intermediate
  • Estimated Cost: $20

Wiring electrical outlets (properly called receptacles) and switches involve many of the same basic techniques. Making safe, long-lasting connections requires properly preparing the circuit wires that will connect to the device and securing each wire to the correct terminal.

What You'll Need

Equipment / Tools

  • Electrician's combination tool or wire stripper
  • Screwdrivers
  • Needle-nose pliers

Materials

  • Wire connectors (wire nuts or push-fit style connectors)

Instructions

Warning

Before starting any electrical component work, be certain that the electrical current to the circuit you are working on has been shut off at the home's breaker panel. Check that the current has been disabled using a multi-meter or similar device before proceeding. Inform yourself about electrical safety before beginning your rewiring outlet task.

Materials and tools to wire electrical outlets and switches

The Spruce / Kevin Norris

Making Proper Screw Terminal Connections

The standard best practice for connecting circuit wires to a switch or receptacle is to use the screw terminals, which are typically located on the sides of the device body. To make a safe, secure connection using screw terminals:

  1. Strip the Wire

    Strip about 3/4 inch of insulation from each circuit wire using wire strippers. (The ground wire may not be insulated.)

    Insulation from circuit wire being stripped with wire stripper

    The Spruce / Kevin Norris

  2. Bend the Wire

    Bend the bare end of the wire into a hook, or "U" shape, using needle-nose pliers.

    Wire bending into a hook shape with needlenose pliers

    The Spruce / Kevin Norris

  3. Attach the Wire to the Screw

    Fit the hook of each wire over the appropriate screw terminal so that the end of the wire is on the right side of the screw. The wire insulation should be close to (but not under) the screw; only the bare metal of the wire should contact any part of the screw.

    Wire hooks placed into appropriate screw terminals

    The Spruce / Kevin Norris

  4. Close the Wire Loop

    Close the hook snugly around the shank of the screw, using needle-nose pliers.

    Needlenose pliers securing hooked wires around shank of screw

    The Spruce / Kevin Norris

  5. Tighten the Screw

    Tighten the screw clockwise, using a Phillips screwdriver or a square recess screwdriver, whichever fits the screw best. Because the hook is wrapped clockwise around the screw, tightening the screw closes the hook even more. The screw should be very tight, holding the wire firmly below the screw head.

    Phillips screwdriver tightening screw to secure wire

    The Spruce / Kevin Norris

Wiring "Middle-of-Run" Outlet Receptacles

 When an outlet receptacle is located in the middle of a circuit run—with other receptacles "upstream" and additional receptacles "downstream"—there are two ways to wire the receptacle.

First, you can wire the receptacle so the incoming wires connect to one pair of hot and neutral screw terminals on the receptacle, and the outgoing wires connect to the other pair of screw terminals. In this configuration, all power for the circuit runs through the metal linkage within the receptacle itself. This makes for fairly easy connections, but its drawback is that if anything goes wrong with the receptacle, the downstream portion of the circuit also goes dead, since no current can flow through the receptacle. For this reason, pros usually wire receptacles using the second method, if possible.

The second method of wiring middle-of-run receptacles is to connect them to the circuit wires via "pigtails." A pigtail is a short length of wire that runs from a hot or neutral screw terminal on the receptacle to the circuit wires, which are joined together in the outlet box with a wire connector. In this configuration, there is a complete pathway running through the electrical box to the downstream portion of the circuit; the pigtails simply tap into the hot and neutral lines to feed the receptacle. The advantage of this configuration is clear: If the receptacle goes bad, there is still an unbroken circuit pathway leading to outlets and fixtures downstream of the receptacle.

Most electricians will use this second configuration where the box has ample room to fit the wire connectors.

Maintaining Proper Polarity

Polarity is part of a safety system that keeps the electricity flowing in the proper direction. In a typical household electrical circuit, the black circuit wires (and sometimes red) are the "hot" wires that carry power from the source to the switch or receptacle. The white wires are "neutral" and carry the electricity back to the home's service panel (breaker box) after it flows through all of the devices or fixtures in the circuit.

To maintain proper polarity when wiring a receptacle, connect the black hot wire to one of the hot bronze-colored terminals. Connect the white neutral wire to one of the neutral silver-colored terminals.

When wiring standard switches, the wires connected to the switch are both hot. If neutral wires are present in the electrical box, they are simply joined together with a wire connector, bypassing the switch.

With all switches and receptacles, connect the circuit's ground wire (bare copper or with green insulation) to the device's ground screw.

Circuit's ground wire connected to device's ground screw for polarity

The Spruce / Kevin Norris

Using the Right Stab-In Connectors

Many switches and receptacles have holes in the back of the device's body for making "stab-in" connections. The stripped end of the wire is inserted into the hole, and a spring clip inside the hole holds the wire in place.

High-quality devices have screws that can be tightened down after inserting the wire for a stab-in connection. These devices provide a secure connection and are acceptable to use. Cheap devices often don't have these screws, and the connection relies entirely on the spring tension inside the hole. For this reason, this type of connection is not recommended.

If a device has no screws for clamping the stab-in connections, use the standard side screw terminals instead of the stab-in connections.

Stab-in connectors inserted into back of electrical device

The Spruce / Kevin Norris

Wiring Three-Way Switches

Three-way switches control a light fixture or outlet from two different locations. These switches have two "traveler" wires and a single "common" wire. The trick to replacing a three-way switch is to mark the common (or "COM") wire on the old switch before removing the wires. The traveler wires don't need to be labeled because either traveler wire can connect to either traveler screw terminal on the switch.

To wire the new switch, connect the labeled common wire to the COM terminal (usually bronze or dark-colored) on the switch. Connect each of the other two wires to one of the light-colored traveler terminals. Lastly, connect the bare or green ground wire to the green screw.

Three-way switches wired to back of electrical device

The Spruce / Kevin Norris

Wiring a GFCI Receptacle

GFCI (ground-fault circuit-interrupter) receptacles have two sets of terminals: one is marked LINE, and one is marked LOAD.

  • If you want the receptacle to provide GFCI protection to the device(s) downstream of the receptacle, use both the LINE and LOAD terminals, following the manufacturer's wiring diagram.
  • If you don't need to provide GFCI protection for other devices, or if the receptacle is at the end of the circuit (end-of-run), use only the LINE terminals, following the manufacturer's wiring diagram. If this receptacle is a middle-of-run receptacle, use short pigtail wires to link the circuit wires to the LINE terminals on the receptacle.
GFCI receptacle wired to front of electrical device

The Spruce / Kevin Norris