Updated Requirements for Services and Overcurrent Protection based on 2011 NEC

Updated Requirements for Services and Overcurrent Protection
Based on the 2011 NEC

By Mike Holt for EC&M

The 2011 NEC changes the requirements affecting how you supply power to a structure protect the conductors carrying that power. Most of these changes are subtle, so understanding the new requirements isn’t particularly difficult. But, service conductor requirements do present some “gotchas.”

For example, you apply different rules depending on whether a service conductor is inside or outside a building/structure. Getting inside vs. outside right is not as straightforward as it may seem, so consult Section 230.6 before deciding. You should understand some key definitions, also (see Sidebar).

Service conductors
In previous NEC editions, Part II of Article 230 applied to “overhead service-drop conductors” (a term no longer used). Only in instances where the customer owned these overhead conductors did this apply. In the rare instances these conductors fall within the scope of the Code, they’re now called “service conductors, overhead.”

A new exception (number 5) in 230.24 permits lower clearances for overhead service conductors. If the voltage between conductors doesn’t exceed 300V and the roof area is guarded or isolated, the normal 8 ft clearance needs to be only 3 ft.

The physical protection requirement for underground service conductors (230.32) now includes “structures” instead of just “buildings.” While all buildings are structures, not all structures are buildings.

The language of Part IV, Section 230.40 now makes better use of defined terms. Additionally, it addresses multiple accessory structures in a better way.

For example, previous NEC editions have used the word “structure” in the singular, causing some inspectors to see Exception 3 as permitting only a dwelling unit plus one accessory building from a service. With “structures” used instead, the NEC makes it clear that a service may supply a dwelling unit and multiple accessory structures.

Wiring methods
The list of permitted wiring methods for service-entrance conductors grew from 16 to 19 [230.43]. So, you have three more raceway options. These are all conduit: HDPE, NUCC, and RTRC.

RTRC was actually introduced in the 2008 NEC but 230.43 didn’t list it for service entrance wiring. Because its physical characteristics make it appropriate for protecting service-entrance cables, it’s included in the 2011 revision.

Service equipment
The service disconnecting means now must be listed (not just marked) as suitable for use as service equipment [230.66]. “Suitable for use as service equipment” means, among other things, the disconnect has a main bonding jumper. Such a jumper allows you to make the neutral-to-case connection required in 250.24(C) and 250.142(A).

The Code has long required that service equipment be marked as being “suitable for use as service equipment.” While most people agreed this effectively requires the equipment to be listed, a literal reading of the NEC doesn’t require it. For example, a person using a marker could write “suitable for use as service equipment” on the equipment to satisfy the requirement. This change closed that loophole, making the requirement obvious and enforceable.

Service disconnect supply side
You can’t connect electrical equipment to the supply side of the service disconnect enclosure, except for the nine types listed in 230.82. One of these bears further discussion.

It makes no sense to protect your conductors if the building burns down. Thus, the NEC has long permitted installers to connect fire pump equipment upstream of the service equipment. This permission also applies to standby power systems.

Previous NEC editions referred to this connection as a “tap.” That’s confusing, because of the definition of “tap conductors” in 240.2.
While terms defined within articles (other than Article 100) don’t apply to terms within other articles, this language produced considerable debate. Whatever this connection might be, it isn’t a “tap conductor” as defined in 240.2. The simple solution was to change “tap” to “connection,” which is what the NEC meant all along.

Overcurrent protection
Article 240 provides the requirements for selecting and installing overcurrent devices (OCPDs). Overcurrent exists when current exceeds the rating of equipment or the ampacity of a conductor. This can be due to an overload, short circuit, or ground fault [Article 100]. An OCPD must be capable of opening a circuit when an overcurrent situation occurs, and its interrupting rating must be sufficient to avoid damage in fault conditions [110.9].

The general rule for overcurrent protection is that conductors must be protected per their ampacities at the point where they receive their supply [240.4 and 240.21]. But selecting the proper overcurrent protection for a specific circuit can become complicated, because many special cases deviate from this basic rule.

For example, several rules allow tap conductors in specific situations [240.21(B)]. You also must contend with the overcurrent protection limitations for small conductors [240.4(D)] and the rules for specific conductor applications found in other articles (see Table 240.4(G)). Complicating matters further, Article 240 limits where you can locate OCPDs [240.24].

Always review your intended design against Article 240 requirements, before specifying OCPDs or deciding where they go.

Circuit breaker as overcurrent device
You must provide each multiwire branch circuit with a means to disconnect simultaneously all ungrounded conductors at the origin of the branch circuit [210.4(B)]. You can do this by using individual single-pole circuit breakers with identified handle ties or a 2- or 3-pole breaker with a common internal trip [240.15(B)].

AFCI or GFCI circuit breakers for multiwire branch circuits must be of the 2-pole type.

This disconnection requirement was added to 210.4(B) in the 2008 NEC. Unfortunately, 240.15(B)(1) wasn’t updated to be consistent with it. The 2011 revision fixed that inconsistency.

The 2011 revision goes even further with updates along this line. Sections 240.15(B)(2) and (B)(3) have been changed to align the NEC with the product standards for circuit breakers, particularly UL 489. Per this standard and the UL Guide Information for Electrical Equipment (White Book) category DIVQ, handle ties may connect single-pole breakers together on a circuit rated no higher than 120V to ground. This change effectively requires 3-pole breakers for line-to-line loads rated 277/480V.

10 foot feeder taps
You can tap feeder conductors [240.21]; the requirements vary depending on the tap length. In 240.21, you’ll find requirements for taps:

Up to 10 ft long.
Over 10 but not over 25 ft long.
Over 25 ft long.

Of particular interest are the feeder tap conductors up to 10 ft long. You can install these without overcurrent protection at the tap location if they don’t extend beyond the equipment they supply and their ampacity is at least the:

Calculated load per Article 220, and
Rating of the device or overcurrent device supplied by the tap conductors.

If the conductors leave the enclosure or vault in which you make the tap, they must:

Be installed in raceway.
Have an ampacity not less than 1/10th of the rating of the overcurrent device that protects the feeder.

Previous NEC editions have required that the overcurrent device upstream of the feeder tap not exceed 10 times the ampacity of the conductor. The 2011 revision changes the wording to require that the conductor have an ampacity of not less than 1/10 the rating of the overcurrent device. This results in no technical change, but provides a section that’s easier to read. It also brings the NEC text into alignment with the existing text of 240.21(B)(2)(1).

No OCDPs in dorms
The prohibition of OCPDs in bathrooms now expressly applies to dormitories, which were added to the list in 240.24(E). So now it reads “…dwelling units, dormitories, and guest rooms or guest suites….”

Why this change? The Code has long prohibited the installation of OCPDs in the bathrooms of dwelling units. Dormitories share similar usage characteristics with dwelling units. Since many dormitories already meet the definition of a dwelling unit, this change may not be as significant as it appears.

Something that is significant, and surprisingly crops up as an installed code violation, is locating the service disconnecting means in a bathroom. This is prohibited not just in dwellings, but also in commercial or industrial facilities [230.70(A)(2)].

Keeping it straight
This seems like a lot of detail, and yet again the requirements have changed. How can you possibly keep all this straight? For services, begin with Figure 230.1 and work methodically through the applicable parts. Article 230 doesn’t have such a handy figure for overcurrent protection requirements, but the logical arrangement of its nine parts makes it obvious which ones apply to a particular installation. Finally, don’t forget to put together a good one-line drawing before you start bolting equipment down.

Sidebar: Key Definitions

Service Point: The point of connection between the serving utility and the premises wiring.
Service Conductors: The conductors from the service point to the service disconnecting means.
Service Equipment—The necessary equipment, usually consisting of circuit breakers or switches/fuses and their accessories, connected to the load end of service conductors at a structure, and intended to constitute the main control and cutoff of the electrical supply. Service equipment doesn’t include individual meter socket enclosures [230.66].

The information in this article was extracted from Mike Holt’s Illustrated Guide to Understanding the National Electrical Code, Volume 1, based on the 2011 NEC. To receive your copy of this book for a 25% discount, visit www.MikeHolt.com/NEC within the next 10 days, and use discount code 11UN110D. Call our office at 888.NEC.CODE (632.2633) for more information on this and other 2011 products.