Title :
Gapped arresters revisited: a solution to cascade coordination
Author :
Mansoor, Arshad ; Martzloff, FranGois D. ; Phipps, Kermit O.
Author_Institution :
Power Electron. Applications Center, Knoxville, TN, USA
fDate :
10/1/1998 12:00:00 AM
Abstract :
This paper provides a brief perspective on how the coordination of cascaded surge-protective devices (SPDs) has become an issue. The authors propose an approach where the `ancient´ technology of gapped arresters may well be the answer to the dilemma of the incompatibility of a service-entrance SPD having relatively high limiting voltage with the proliferation of built-in or plug-in SPDs having relatively low limiting voltage inside the buildings. The solution involves providing a gapped arrester at the service entrance and gapless SPDs inside the building. An example is given of such a combination, with experimental verification of the proposed solution and computer modeling that allows a parametric evaluation of the significant factors in any candidate combination of SPDs
Keywords :
arresters; building wiring; distribution networks; power system protection; buildings; cascaded surge-protective device coordination; computer modeling; experimental verification; gapped arresters; limiting voltage; service entrance; Arresters; Buildings; Low voltage; Manufacturing; Power electronics; Power system modeling; Power system protection; Silicon carbide; Surge protection; Varistors;
Journal_Title :
Power Delivery, IEEE Transactions on
