Distribution Arrester Applications
In distribution applications, strength of the lead wire is rarely a concern so AWG #4 – #8 wires are commonly used. When considering arrester lead length, both the line and ground leads must be considered when in parallel to the protected equipment and carrying surge current. Another unique consideration for distribution applications is the use of a ground lead disconnector (GLD). If a GLD is used in the application, then the ground lead should be sized to provide enough clearance for the disconnector to operate and isolate the arrester from ground in the case of arrester failure.
Substation Arrester Applications
Substation applications have other considerations when evaluating placement of arresters and leads or buswork. First, there may be mechanical requirements of either the line or ground connections of the arrester. In this case, the conductor should be sized to meet those requirements, but keeping the overall length to a minimum. Things like load application and seismic activity might also influence the conductor size. Also, just like for distribution, the lead length includes all leads that are in parallel to the protected equipment and carry surge current. This means that separation distance, or the distance the arrester is placed from the protected equipment, is very important as that lead length will need to be accounted for as well.
Sample Calculation
This example calculation simulates the lead length effects on insulation coordination for a distribution application. Similar examples with protective margin calculations can also be found in the IEEE C62.22 or IEC 60099-5 application guides.
Transformer Characteristics:
Arrester Characteristics (10.2 kV MCOV):
Without considering the inductive voltage drop due to lead length
Including the lead length effect