Reuben's Home Inspection Blog

Inspecting Tandem Circuit Breakers – aka Cheaters

February 28th, 2012 | 6 comments

Confusion abounds over the use of tandem circuit breakers in panelboards, even among electricians and electrical inspectors.  Today I’ll set  the record straight as to when tandem circuit breakers can be used.   This is an adaptation of an article I wrote for the ASHI Reporter, which was published in February of 2011.

First, a quick definition.  A tandem circuit breaker is a double circuit breaker that takes up the space of a single circuit breaker on a panelboard. You’ll also hear them called duplex, slimline, twin, half-height, half-inch, double and wafer breakers, depending on local customs. While a two-pole circuit breaker gets connected to two different poles at a panelboard and has a common trip or a handle tie for simultaneous disconnecting of two poles, a tandem breaker does not.

The photo below shows a 60 amp two-pole circuit breaker at the top, then a 15 amp tandem circuit breaker (highlighted), then a 20 amp tandem circuit breaker (highlighted), then a 20 amp single-pole circuit breaker at the bottom.

Tandem circuit breakers

The next photo shows an older style tandem breaker found in Square D panelboards.

Tandem Square D

Because tandem circuit breakers allow for two circuits to be installed on a panelboard in a one circuit breaker space, they’re typically used after a panelboard has been filled to capacity with standard circuit breakers. Because of this, they’re often referred to as “cheaters.”

Is this really ‘cheating’? No, it’s not. The use of tandem circuit breakers is a perfectly acceptable practice, as long as the panelboard is designed for tandem circuit breakers and they’re installed in locations within the panelboard where they’re allowed.

How does a home inspector determine whether tandem circuit breakers are allowed on the panelboard they’re inspecting? There are a number of ways to do so.

Class CTL Panelboards

Panelboards must follow UL  Standard 67, which requires all lighting and appliance panelboards to be Class CTL (Circuit Total Limiting). Here’s an old formula for determining how many circuits are allowed in the Class CTL panelboard being inspected; this formula is helpful to use when inspecting older electric panels without clear labeling inside the panel. Take the amperage of the panelboard, multiply by the number of poles, and divide by 10. It sounds complicated, but it’s not — let’s use a 100-amp panelboard as an example:

100 Amp x 2 Poles = 200
200 / 10 = 20

Based on this formula, the maximum number of circuits allowed in a 100-amp 120/240-volt panelboard is 20. For panelboards not manufactured as “lighting & appliance” panelboards, there is no limit to the number of circuit breakers allowed.  This formula is also no longer applicable for today’s panels.

The 2008 National Electrical Code (NEC) makes it a little confusing.  Previous editions of the NEC limited the maximum number of circuits in a lighting and appliance panelboard to 42.  The 2008 version of the NEC removed the “lighting & appliance” panelboard designation, however, NEC 408.54 says “A panelboard shall be provided with physical means to prevent the installation of more overcurrent devices than that number for which the panelboard was designed, rated, and listed.”   Manufacturers still list the maximum number of circuit breakers allowed, and must provide a rejection feature to help prevent the use of tandem circuit breakers where not allowed.

Class CTL panelboards have different methods of preventing class CTL tandem circuit breakers from being used in locations where they’re not allowed.  This is referred to as a “rejection feature”.  In the photo below, the highlighted bus stabs are notched to allow the use of tandem circuit breakers; the bus stabs which don’t have this notch won’t allow tandem breakers.

Photo courtesy of Douglas Hansen

Class CTL tandem circuit breakers have a different shape than standard single pole circuit breakers, to help prevent them from being installed where they don’t belong.

Tandem vs standard breaker 2

Tandem vs standard breaker

Tandem circuit breakers are manufactured this way in an effort to prevent people from using them in an improper manner – but this doesn’t stop everyone.  In the photos below, you can see how someone broke the bottoms of the circuit breakers to make them fit where they didn’t belong.  This is probably where the term “cheater” comes from.

broken tandem breaker

Photo courtesy of Douglas Hansen

For panelboards manufactured before adoption of the Class CTL standard,  non-Class CTL tandem circuit breakers are allowed to be installed as replacement circuit breakers only.  Non-Class CTL tandem circuit breakers do not have the ‘rejection’ feature that Class CTL breakers have.  As clearly indicated by the label on the side of the circuit breaker pictured below, these circuit breakers are not allowed in ClassCTLpanelboards.  The difficulty for home inspectors is that the marking is not usually visible after installation, and home inspectors aren’t supposed to pull out circuit breakers to try to figure this stuff out.

Non-CTL Tandem Circuit Breaker

Does the panelboard allow tandems?

Now that I’ve talked about the general rules for tandem circuit breakers, I’ll discuss the ways that home inspectors or electrical inspectors can determine when tandem circuit breakers are allowed in various panelboards.

The model of the panelboard

The model or part number of the electric panelboard usually will indicate whether or not the electric panelboard is designed to accept tandem breakers and how many can be used. Here are a few examples:

  • G3040BL1200 = 30 spaces, 40 total circuits allowed.
    Up to 10 tandem circuit breakers can be used.
  • G3030BL1150 = 30 spaces, 30 total circuits allowed.
    Tandem circuit breakers are not allowed.
  • BR1220B100 = 12 spaces, 20 total circuits allowed.
    Up to 8 tandem circuit breakers can be used.
  • BR1212B100 = 12 spaces, 12 total circuits allowed.
    Tandem circuit breakers are not allowed.
  • HOMC20U100C = 20 spaces, 20 total circuits allowed.
    Tandem circuit breakers are not allowed.

I think it’s easy enough to see the pattern.

A diagram inside the panelboard

The wiring diagram inside the panelboard is a great way to determine if tandem breakers are allowed and, if so, exactly where they’re allowed. In the photo below, you can see that the top four spaces allow only full size breakers, while the bottom eight slots allow tandem breakers.

panelboard diagram

Here’s another panelboard diagram – this panelboard allows the use of tandem breakers in four locations.

panelboard diagram 2

And another – this panelboard doesn’t allow any tandem breakers.

panelboard diagram 3

And another – this panelboard allows tandem breakers in the bottom ten spaces only (11-20 and 31-40).

panelboard diagram 4

Another easy thing to look for is a label stating the maximum number of circuits allowed.  In the photo below, you can see that only 20 circuits are allowed at the panelboard.  This panelboard has 20 full-size spaces, so tandem circuit breakers aren’t allowed.

Max Poles

What’s the concern with tandem circuit breakers?

When tandem circuit breakers are used in locations where they’re not allowed, they could make an improper physical connection to the bus bar in the panelboard, which can create a fire hazard. Tandem circuit breakers also increase the total load on the bus bars in a panelboard; this is where home inspectors need to use common sense.

When a home inspector finds tandem circuit breakers used in improper locations, they’ll often recommend repair by an electrician. If the bus bars of the panelboard have been damaged or altered to allow for the installation of tandem circuit breakers, the proper repair is to have the panelboard replaced. There is no way for a home inspector to determine if the bus bars have been damaged without actually removing the circuit breakers, which is something home inspectors shouldn’t be doing.

Information for this article was provided, in part, by Alan Manche of Schneider Electric, Stephen Ploszay of Siemens Industry, Inc. and Joseph Fello of Eaton Corporation. Also, a special thanks to Retired ASHI Member Douglas Hansen.

Reuben Saltzman, Structure Tech Home Inspections - Email - Minneapolis Home Inspector

        

6 responses to “Inspecting Tandem Circuit Breakers – aka Cheaters”

  1. How To Correct Double Tapped Circuit Breakers | Structure Tech Home Inspections
    March 1, 2012, 5:39 am

    [...] A Tandem Breaker If the panelboard is designed to use tandem breakers and a tandem breaker can be properly used in [...]

  2. elec outlet inspector
    March 16, 2012, 12:41 am

    Thanks to this guide because as an inspector I learned something new here about tandem circuit breakers though I’m already familiarized with some of it.

  3. Double breaker in mini profile - InspectionNews - Home Inspection
    August 5, 2012, 1:08 pm

    [...] – 'Ruben's Blog Posts' – by Reuben Sltzmn, Structure Tech Home Inspections — (clickable link): Inspecting Tandem Circuit Breakers – aka 'Cheaters' | Structure Tech Home Inspections Article gives credit as follows: "Information for this article was provided, in part, by Alan [...]

  4. Jose Quinones
    August 11, 2012, 7:37 am

    I have learned a lot from this presentation. I have also guided friends to review this information. Thank you very much for providing it. Keep up the excellent work…Blessed be all that provided it.

  5. John Kogel
    August 15, 2012, 9:11 pm

    Good article, easy to read, good info. Knowing how to read the label can give inspectors confidence to call out a fault in one of these old panels.

    Any fault is added incentive for the homeowner to replace the antique equipment.

    If a red and a black from the same cable are connected to a double breaker, a multiwire circuit, the neutral could be forced to carry a heavy load. That is another fault to watch for.

  6. Marianne Zura
    March 6, 2013, 8:20 pm

    As a new inspector in an area where I have no mentor, I am so glad to have a resource like your site to learn more about electrical components and other systems that I need more exposure to. Thank you for letting us all learn from your experience and knowledge. I appreciate it.

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