Generally speaking, the difference between grounding and bonding is: Grounding is a direct connection to the earth to
aid in removing damaging transient over-voltages due to lightning. The purpose of bonding is to ensure the
electrical continuity of the fault current path, to provide the capacity and ability to conduct safely any fault
current likely to be imposed, and to aid in the operation of the over-current protection device. Properly bonding
all metal parts within an electrical system helps ensure a low-impedance fault current path.
The issue of grounding and bonding confuses many inspectors. Due to its complexity, in this section, we will try to
break it down to its fundamentals, and look at the basic requirements and common failures that can lead to unsafe
conditions around the home.
Grounding
To go back to the beginning, the last stop on the utilities distribution chain, before the supply goes to the home,
is the transformer. This steps the high-voltage primary distribution down to the neighborhood, to the 240/120-volt
feeds to the homes.
This transformer has a winding known as a phase coil that is center-tapped to provide voltage stabilization, and a
return path for the higher voltage system to aid in clearing primary side faults. As discussed earlier, on a typical
240/120-volt service drop, we will have two ungrounded conductors and a single grounded conductor.This means that we
have to establish our own grounding electrode system at the dwelling. It is vital in removing dangerous voltages
imposed on the system via lightning strikes and over-voltage surges from higher voltages on power lines. If
ground-rod, pipe or plate electrodes are used, they must have a rating of 25 Ohms or less; otherwise, an additional
electrode must be added, per Section 250.56 of the NEC.
Grounding Electrodes
There are several methods of connecting the grounding system to the ground, with a driven rod being the most common
in most areas. Most residential construction requires two separate grounding electrodes in any combination of the
following (which need to be at least 6 feet apart):
Historically, the grounding system had just one connection to ground, and this was nearly always made on the water
supply pipe. However, two connections are now required by most jurisdictions to ensure a low-impedance ground (one
with little resistance).
Because most utility companies now install plastic potable water supply lines, a water pipe can NOT be used as a
grounding means, so one of the other electrodes listed must be used. It is also important to note that all
electrodes that are present in the dwelling must be bonded together to form a single and complete grounding
electrode system. Typically, the two required grounding electrodes need to be at least 6 feet apart. If one is the
water pipe ground and the supplemental is a ground rod, another ground rod may need to be added in order to meet the
requirements of section 250.56 of the NEC.Gas piping should not be used as a grounding electrode for safety reasons,
but, in most areas, gas lines are required to be bonded to the grounding system if they are likely to become
energized. Provided by InterNachi