This article was posted 09/12/2013 and is most likely outdated.

Mike Holt - Article_250.118_09-12-13
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2011 Changes to the NEC - 250.118
Based on - NEC - 2011 Edition

2011 Changes to the NEC – 250.118

The following is an instructional page from our 2011 Changes to the NEC Textbook/DVD Package complete with graphics and video where applicable. As part of our on-going effort to provide free resources to help the industry, we will be sending this content as part of a series of newsletters. Each newsletter will feature pages taken directly from our textbooks. This can be a great training resource for your organization!

There are some important features in this text which help to highlight the changes that you should be aware of:

  • Each Code section which contains a change includes a summary of the change, followed by a paraphrase of the NEC text affected by the change. Any specific change is denoted by underlined text and in the corresponding chapter color
  • Graphics with green borders and 2011 CC icons next to the heading are graphics that contain a 2011 change; graphics without a green border or icon are graphics that support the concept being discussed, but nothing in the graphic was affected by a 2011 Code change.
2011 Changes to the NEC

250.118 Types of Equipment Grounding Conductors

Changes made to this section provide consistency with defined terms, and also address the vibration of equipment connected to flexible raceways.


250.118 Types of Equipment Grounding Conductors.

An equipment grounding conductor can be any one or a combination of the following: Figure 250–83

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Figure 250-83

Note: The equipment grounding conductor is intended to serve as the effective ground-fault current path. See 250.2.

Author’s Comment: The effective ground-fault path is an intentionally constructed low-impedance conductive path designed to carry fault current from the point of a ground fault on a wiring system to the electrical supply source. Its purpose is to quickly remove dangerous voltage from a ground fault by opening the circuit overcurrent device [250.2]. Figure 250–84

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Figure 250-84

(1) A bare or insulated copper or aluminum conductor sized in accordance with 250.122.

Author’s Comment: Examples include PVC conduit, Type NM cable, and Type MC cable with an equipment grounding conductor of the wire type.

(2) Rigid metal conduit (RMC).

(3) Intermediate metal conduit (IMC).

(4) Electrical metallic tubing (EMT).

(5) Listed flexible metal conduit (FMC) where: Figure 250–85

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Figure 250-85

a. The raceway terminates in listed fittings.

b. The circuit conductors are protected by an overcurrent device rated 20A or less.

c. The combined length of the flexible conduit in the same ground-fault current path doesn’t exceed 6 ft. Figure 250–86

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Figure 250-86

d. If flexibility is required to minimize the transmission of vibration from equipment or to provide flexibility for equipment that requires movement after installation, an equipment grounding conductor of the wire type must be installed with the circuit conductors in accordance with 250.102(E), and it must be sized according to 250.122, based on the rating of the circuit overcurrent device.

(6) Listed liquidtight flexible metal conduit (LFMC) where: Figure 250–87

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Figure 250-87

a.  The raceway terminates in listed fittings.

b.  For 3⁄8 in. through ½ in., the circuit conductors are protected by an overcurrent device rated 20A or less.

c.  For ¾ in. through 1¼ in., the circuit conductors are protected by an overcurrent device rated 60A or less.

d. The combined length of the flexible conduit in the same ground-fault current path doesn’t exceed 6 ft.

e. If flexibility is required to minimize the transmission of vibration from equipment or to provide flexibility for equipment that requires movement after installation, an equipment grounding conductor of the wire type must be installed with the circuit conductors in accordance with 250.102(E), and it must be sized in accordance with 250.122, based on the rating of the circuit overcurrent device.

(8) The sheath of Type AC cable containing an aluminum bonding strip. Figure 250–88

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Figure 250-88

Author’s Comments:
•  The internal aluminum bonding strip isn’t an equipment grounding conductor, but it allows the interlocked armor to serve as an equipment grounding conductor because it reduces the impedance of the armored spirals to ensure that a ground fault will be cleared. It’s the aluminum bonding strip in combination with the cable armor that creates the circuit equipment grounding conductor. Once the bonding strip exits the cable, it can be cut off because it no longer serves any purpose.
•  The effective ground-fault current path must be maintained by the use of fittings specifically listed for Type AC cable [320.40]. See 300.12, 300.15, and 320.100.

(9) The copper sheath of Type MI cable.

(10)  Type MC cable that provides an effective ground-fault current path in accordance with one or more of the following:

(a) It contains an insulated or uninsulated equipment grounding conductor in compliance with 250.118(1). Figure 250–89

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Figure 250-89

(b) The combined metallic sheath and uninsulated equipment grounding/bonding conductor of interlocked metal tape-type MC cable that’s listed and identified as an equipment grounding conductor. Figure 250–90

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Figure 250-90

Author’s Comment: Once the bare aluminum grounding/bonding conductor exits the cable, it can be cut off because it no longer serves any purpose. The effective ground-fault current path must be maintained by the use of fittings specifically listed for Type MCAP® cable [330.40]. See 300.12, 300.15, and 330.100. Figure 250–91

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Figure 250-91

(c) The metallic sheath or the combined metallic sheath and equipment grounding conductors of the smooth or corrugated tube-type MC cable that’s listed and identified as an equipment grounding conductor.

ANALYSIS: While the Code has recognized that equipment needing flexibility after installation requires an equipment grounding conductor of the wire type, it’s been silent on the issue of vibration. It can be argued that an unusually high amount of vibration can compromise the integrity of the flexible metal conduit’s ability to act as an equipment grounding conductor, so this change will require an EGC of the wire type in those instances. A similar change to the requirements for liquidtight flexible metal conduit has been made as well.

Previous editions of the NEC used the term “ground return path,” instead of the term used throughout most of the Code, “ground-fault current path.” This change replaces the undefined term with a defined one.

Changes made to 250.118(10) should help NEC users better understand the requirements for MC cable, and lastly, the term “grounding conductor” has been removed from the Code in this 2011 edition; therefore, this section has been revised to use the term “equipment grounding conductor” instead.

 

2011 NEC Changes DVD Package
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Comments
  • It seems that the note at Fig 250-83 should leave the reference to a "ground-fault" out and just refer to a fault condition because to use a GFCI as a replacement in a two wire circuit, an EGC is not required.

    Eddy A. Williams  September 13 2013, 8:29 am EDT

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