Model Verification of Fixed Series Compensation Devices Using Synchronized Data

Abstract

Regulating agencies mandate that model verification of power system components must be performed to make sure that system analysis software performs accurately. Such verification is necessary for series compensation devices used in transmission systems, since they deteriorate due to aging or prolonged subjection to stressed conditions, leading to changes in compensation levels or voltage-current characteristics of the metal–oxide varistor (MOV) protecting them. This paper presents a method that uses synchronized time-domain data captured by intelligent electronic devices at both ends of a line for model verification of a fixed series compensation device installed at one location in the line. The electromagnetic transient line model is used to calculate the current and voltage across the compensation device, which, in turn, are used to determine the actual compensation and the actual voltage-current characteristics of MOVs. These characteristics are used to detect failures in MOV and spark gap. PSCAD/EMTDC is used to test the method.