This article was posted 02/03/2006 and is most likely outdated.

Grounding vs Bonding Online Training
 

 
Grounding vs Bonding: 250.64 Grounding Electrode Conductor Installation

February 3, 2006  

  View Comments | Add Comments  

Many of you have completed our Online Continuing Education Courses which include video instruction and know this is a very fast way to obtain your CEU credits from the comfort of the chair you're sitting in. For the rest of you we are sending a weekly series of newsletters featuring an instructional page complete with videos.

To view the videos you will need to download the free Real Player Download Real Player plugin for your browser - if you don't already have it. After installing Real Player, you can view the videos by clicking on one of these icons:

  • Click on this icon Hi Res - Cable/DSL to view the video

Below is the full course page which includes these videos:


PART III. GROUNDING ELECTRODE SYSTEM AND GROUNDING ELECTRODE CONDUCTOR  Hi Res - Cable/DSL [984Kb]       Page 11 of 14
Sections

250.64 Grounding Electrode Conductor Installation.

(A) Aluminum Grounding Electrode Conductor. Aluminum grounding electrode conductors cannot be in contact with earth, masonry, or subjected to corrosive conditions. When used outdoors, the termination to the electrode must not be within 18 in. of earth.

(B) Grounding Electrode Conductor Protection. Where exposed, grounding electrode conductors sized 8 AWG and smaller must be installed in rigid metal conduit, intermediate metal conduit, rigid nonmetallic conduit, or electrical metallic tubing.

Author’s Comment: Ferrous metal raceways containing the grounding electrode conductors must be made electrically continuous by bonding each end of the ferrous metal raceway to the grounding electrode conductor [250.64(E)].
Grounding electrode conductors 6 AWG copper and larger can be run exposed along the surface if securely fastened to the construction and not subject to physical damage.

(C) Continuous Run. The grounding electrode conductor, which runs to any convenient grounding electrode [250.64(F)], must not be spliced, except as permitted in (1) through (3): Figure 250–112

(1) Splicing is permitted by irreversible compression-type connectors listed for grounding or by exothermic welding.
(2) Sections of busbars can be connected together to form a grounding electrode conductor.
(3) Bonding and grounding electrode conductors are permitted to terminate to a busbar that is sized not smaller than 1⁄4 x 2 in., and the busbar must be securely fastened in place at an accessible location. Connections must be made by a listed connector or by the exothermic welding process. Figure 250–113

(D) Grounding Electrode Tap Conductors. When a service consists of multiple disconnecting means as permitted in 230.71(A), a grounding electrode tap from each disconnect to a common grounding electrode conductor is permitted.

The grounding electrode tap must be sized in accordance with 250.66, based on the largest ungrounded conductor serving that disconnect.

The common grounding electrode conductor for the grounding electrode taps is also sized in accordance with 250.66, based on the service conductors feeding all the service disconnects.

Each grounding electrode tap must terminate to the common grounding electrode conductor in such a manner that there will be no splices or joints in the common grounding electrode conductor. Figure 250–114

(E) Enclosures for Grounding Electrode Conductor. Ferrous (iron/steel) raceways, boxes, and enclosures containing the grounding electrode conductors must have each end of the ferrous metal raceway, box, and enclosure bonded to the grounding electrode conductor [250.92(A)(3)]. Figure 250–115

Author’s Comment: “Nonferrous” metal raceways, such as aluminum rigid metal conduit, enclosing the grounding electrode conductor aren’t required to meet the “bonding each end of the raceway to the grounding electrode conductor” provisions of this section.
The bonding jumper must be sized no smaller than the enclosed grounding electrode conductor.

CAUTION: The effectiveness of the grounding electrode can be significantly reduced if a ferromagnetic raceway containing a grounding electrode conductor isn’t bonded to the grounding electrode conductor at both ends. This is because a single conductor carrying high-frequency lightning current in a ferrous raceway causes the raceway to act as an inductor, which severely limits (chokes) the current flow through the grounding electrode conductor. ANSI/IEEE 142, Recommended Practice for Grounding of Industrial and Commercial Power Systems (Green Book) states, “An inductive choke can reduce the current flow by 97 percent.”

Author’s Comment: To save a lot of time and effort, simply run the grounding electrode conductor exposed if not subject to physical damage [250.64(B)], or enclose it in a nonmetallic conduit that is suitable for the application.
(F) To Electrode(s). The grounding electrode conductor can be run to any convenient grounding electrode available in the grounding electrode (earthing) system. The grounding electrode conductor must be sized for the largest grounding electrode conductor required among all the electrodes connected to it.

Author’s Comment: It is not necessary to run the grounding electrode conductor to all of the electrodes unbroken, just to the first electrode.

Table 250.66—Grounding Electrode Conductor
Ungrounded Conductor or.....................Copper Grounding
Area of Parallel Conductors
.................Electrode Conductor
12 through 2 AWG.............................................8 AWG
1 or 1/0 AWG......................................................6 AWG
2/0 or 3/0 AWG...................................................4 AWG
Over 3/0 through 350 kcmil.............................2 AWG
Over 350 through 600 kcmil.........................1/0 AWG
Over 600 through 1,100 kcmil......................2/0 AWG
Over 1,100 kcmil.............................................3/0 AWG


Figure 250–112
(Click on image to enlarge)


Figure 250–113
(Click on image to enlarge)


Figure 250–114
(Click on image to enlarge)


Figure 250–115
(Click on image to enlarge)

 

Grounding versus Bonding Library - DVDs
Grounding and bonding problems are at epidemic levels. Surveys repeatedly show a high percentage of power quality problems are due to poor grounding and bonding. Electrical theory has been applied to this difficult to understand Article, making it easier for students to grasp the concepts of grounding and bonding. Additionally, Mike has color coded the graphics so you can easily differentiate between grounding and bonding. For a limited time, you can order the Entire Grounding versus Bonding Library including the textbook, 2 videos, MP3 Audio CD and the Online Program for this great price. You save over $200!

Product Code: 05GBDVD
ISBN: N/A
MultiMedia: Tape & CDROM & DVD

DVD/CD Return Policy: Unopened sealed DVD's or CD's may be returned within 10 days and we will credit your credit card or issue a refund for the price of the item(s). Opened items may not be returned unless they arrive defective.

Table of Contents
Sample Pages
Sample Graphic

Copyright © 2005 Mike Holt Enterprises,Inc.
1-888-NEC-CODE (1-888-632-2633)

 

Comments
    No comments to display

Add Your Comments to this Newsletter
* Your Name:
   Your name will appear under your comments.

* Your Email:
   Your email address is not displayed.
* Comments:

This newsletter is closed to new comments.

Email Notification Options:
Notify me when a reply is posted to this comment
Notify me whenever a comment is posted to this newsletter