Etobi A.N.Nor N.M.Abdullah S.Eng N.E.Othman M.2024-05-282024-05-282017978151000000010.1109/ICEMPE.2017.79821482-s2.0-85027846180https://www.scopus.com/inward/record.uri?eid=2-s2.0-85027846180&doi=10.1109%2fICEMPE.2017.7982148&partnerID=40&md5=30ffc77ed17105ffda9a2d20fe737c30https://oarep.usim.edu.my/handle/123456789/8656Under high impulse currents, an earthing system exhibits different impulse characteristics depending on the shape and/or design configuration of the earthing system. These characteristics have been seen to be different with respect to its steady-state as highlighted in many studies. Furthermore, in order to ascertain that a correct design of an electrical system is achieved, it is important to evaluate the impulse characteristics of the earthing system under high impulse conditions. So far little emphasis has been given in previous publications to investigate the characteristics of earthing systems under high impulse conditions by field measurements. For this reason, a rather efficient and reliable technique to solve this problem is by conducting a practical analysis (field experiment). This paper investigates the characteristics of a single rod electrode under high impulse conditions by field measurements under different polarities. The single rod is selected in this paper for its simple configuration and installation. It was observed in this study that the resistance of the single rod earthing system was seen to reduce with increasing current magnitudes for both polarities and negative polarity has higher impulse resistance than that of positive polarity. � 2017 IEEE.en-USEarthing systemsHigh Impulse CurrentsImpulse PolaritySingle rod electrodeSteady-StateCharacterizationElectrodesCurrent magnitudesDesign configurationsEarthing systemHigh-impulse currentsImpulse characteristicsImpulse conditionsImpulse polaritySteady stateElectric groundingArticle70757982148