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An Experimental Methodology for Modeling Surge Protective Devices: An Application to DC SPDs for Electric Vehicle Charging Stations

Thomas E. Tsovilis, Alexandros Y. Hadjicostas, Evangelos T. Staikos, Georgios D. Peppas

2023IEEE Transactions on Industry Applications28 citationsDOIOpen Access PDF

Abstract

This work introduces an experimental methodology for time-domain modeling of low-voltage surge protective devices (SPDs), accounting for their sparkover performance as well as their resistive, inductive, and capacitive behavior. The modeling procedure is demonstrated through an application to a combination type SPD connected to the DC side of electric vehicle charging stations. An equivalent circuit model is developed based on experimental records acquired from applied voltages and currents of a wide frequency range and energy content. The developed lumped-circuit model yields results in very good agreement with experimental data regarding sparkover voltage, residual voltage, and energy absorption of SPDs, as illustrated through ATP-EMTP simulations. The proposed methodology can be an effective tool for surge protection and insulation coordination studies.

Topics & Concepts

SurgeVoltageEngineeringEmtpSurge arresterElectrical engineeringCapacitive sensingResistive touchscreenOvervoltageElectric vehicleRange (aeronautics)Electronic engineeringElectric power systemPower (physics)PhysicsAerospace engineeringQuantum mechanicsElectrical Fault Detection and ProtectionVacuum and Plasma ArcsElectrical Contact Performance and Analysis
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