Subpanel Alternatives

Before installing a subpanel, consider its necessity. Certainly, it’s a convenience in the event of a tripped breaker, but is it worth the expense of purchasing a second panel (albeit a smaller one than your main panel)? The convenience factor aside, what you’re really comparing is the difference in cost between running individual circuits all the way back to the main panel and running a feeder cable to the subpanel, the cost and installation of the subpanel, and the cost of running the branch circuits from the subpanel. Some subpanels are installed because there aren’t any breaker slots remaining in the service panel, even though the panel has the amperage to carry more circuits. In this case, your existing breakers can be replaced with a smaller version of a standard single-pole breaker. These go by different names, including …
➤ Slimline breaker.
➤ Peanut breaker.
➤ Mini breaker.
➤ Tandem breaker.
These breakers are half the thickness of a standard breaker, which enables you to fit two of them into a single breaker slot. Others have two breakers on one single-polesize breaker.

Subpanels—a Real Convenience

Subpanels are smaller versions of your main service panel. They serve a couple of purposes:

• They provide proximity to circuit breakers, especially in large homes, so you don’t have to access the main panel some distance away.
• They can expedite the wiring of a large house because the electrician only has to run one feeder cable from the main panel to the subpanel instead of running cable for every circuit separately the same distance. A subpanel on the second floor of a large three-story house, for example, enables you to control the circuits on the second and third floors. Like your main panel, you have to follow a few rules regarding the location of a subpanel:
• It cannot be installed in a bathroom.
• It cannot be installed in a closet.
• The subpanel must be in an accessible, visible location.

Breaker, Breaker

Circuit breakers, along with fuses, are known as overcurrent protective devices. They protect you, your electrical equipment, and your wiring. They are matched to the ampacity of a circuit’s conductors, and they shut the current down if there’s an overload or a short-circuit. Breakers are clearly marked (15, 20, 30 amp, and so on) and must be used accordingly. You can’t stuff a 20-amp breaker into your panel box and use it on a 15-amp circuit, especially if the circuit only has 14-gauge wire. This is a recipe for fire because you’ll be allowing the wire to carry more current than it’s designed to carry, and the breaker won’t sense the problem and thus won’t trip.
Breakers are either single pole or double pole (sometimes referred to as a two-pole breaker). Double-pole breakers are used for 240-volt circuits and draw power from each of the 120-volt hot wires entering the panel. A double-pole breaker can be either a single device or two single-pole breakers tied together so they’ll both shut off at the same time.

Grounding Your Panel

A big safety advantage in newer service panels over old fuse systems is the fact that they’re grounded. The code is very specific about grounding procedures including
…
➤ The size of the grounding conductor.
➤ What is and is not an acceptable grounding electrode.
➤ Bonding requirements and the use of clamps and bonding bushings.

A service panel is grounded twice when possible: once to your water pipes (assuming they’re metal and not plastic) and once to a grounding rod buried in the ground. When a grounding rod cannot be used due to soil conditions, a length of copper wire can be buried directly in the earth (a minimum of 21/2 feet deep) or encased in concrete at least two inches thick that has direct contact with the ground (usually a foundation).
There also are other means of grounding the system (depending on your soil and house construction). The materials allowed, their installation, and their dimensions are all spelled out extensively in Article 250 of the code. Electricians know this stuff by heart because they use it every day. You, on the other hand, will never use it again, so consider calling an electrician for your panel installation.

Location Is Everything

The code is a little particular about where you can situate a service panel. In addition to being as close as possible to the service conductors’ entry point, a service panel …

➤ Must have clear access to it (a minimum of a 30-inch wide by 36-inch deep uncluttered space).
➤ Cannot be installed inside cabinets or above shelving or any other encumbrance. It also cannot be installed in a bathroom.
➤ Must have a working space with 61/2 feet of headroom around it.

In other words, the panel has to be in a clear and accessible area, and it must be readily visible to anyone looking for it. You can’t store your skis or bikes in front of it, and you must be able to open the panel door a full 90 degrees until it’s flat against the wall. Section 110-26(d) of the NEC calls for some illumination to be provided around the panel so that you or an electrician can see what you’re doing if you have to access the panel. Although the code doesn’t detail how much lighting you need to supply, you want to be able to comfortably read the panelboard (the breakers) and the panelboard directory inside the door.

Anatomy of an Electrical Service Panel

A service panel must conduct electricity to individual breakers, must receive and
route the current being returned through the neutral conductor, and must provide a
grounding medium for the system. In a sense, it’s the most powerful electrical device
in your system. Remember, the conductors and cable that come into and leave your
service panel include …

➤ Two hot conductors.
➤ One neutral conductor.
➤ One grounding conductor that

originates in the panel. The two hot conductors energize the panel—and thus the breakers—via two hot bus bars, which are located in the center of the panel. The black or red outbound wires are connected to the circuit breakers that clip or slide into the hot bus bars. These wires supply the current to electrical loads throughout your house. The neutral wires are connected to the neutral bus with setscrew terminals. A grounding bus bar connects the various grounding conductors from the circuits to the panel’s main grounding conductor. The grounding bus bar is bonded to the neutral bus bar. This is the only place the neutral and grounding conductors are tied together. In addition to individual breakers, most service panels have a single main service disconnect in the form of an individual breaker or a series of high-amperage breakers connected together. The code requires that you be able to shut the entire panel down with a maximum of six hand movements. (That is, the panel can’t need more than six switches or breakers to disconnect all of your home’s electrical equipment.) An old panel might require up to six moves to shut everything down, but new service panels all have a single main shutoff, as previously described. The code requires that this main disconnect be as close as possible to the service conductors’ point of entry into the building. In other words, you can’t bring the service conductors into one corner of your basement and then install the service panel 15 feet away while exposing the conductors. (Certain exceptions do apply.)

New Service/Old Service Electrical Service

Unless you’re rewiring your entire house (which isn’t likely unless you’re doing a major remodel), you’ll need to connect your new service panel with at least some of the existing circuits. This usually is not included in the cost of the service change. It really depends on the purpose of the upgrade. In addition, if you have an old fuse system, you will most likely replace the following (again, at an extra cost):

➤ The major appliance circuits
➤ The kitchen and bathroom circuits
➤ The water heater and possibly the furnace circuits

Existing branch circuits for lighting often can be left alone and simply tied into your new panel. (Each will have to be checked, of course.) If you are replacing an existing service panel on a three-wire grounded system with a higher-amp panel, you also will need to connect to the existing service. Only when you’re completely rewiring your home can you ignore the existing service and its location.