Comprehensive Analysis of Continuously Variable Series Reactor Using G-C Framework

TL;DR

This paper provides a detailed analysis of the operational characteristics and behaviors of the Continuously Variable Series Reactor (CVSR), including electromagnetic modeling and response during normal and fault conditions.

Contribution

It introduces a gyrator-capacitor based model to analyze CVSR's electromagnetic coupling and investigates its side behaviors under various operational scenarios.

Findings

Voltage induced across the dc winding during operation

Flux density variations within the core

Power exchange dynamics during faults

Abstract

Continuously Variable Series Reactor (CVSR) has the ability to regulate the reactance of an ac circuit using the magnetizing characteristics of its ferromagnetic core, shared by an ac and a dc winding to control power flow, damp oscillations and limit fault currents. In order to understand and utilize a CVSR in the power grid, it is essential to know all of its operational characteristics. The gyrator-capacitor approach has been applied to model electromagnetic coupling between the two circuits, controlled ac circuit and control dc circuit of the device. In this paper, we investigate some of the CVSR side behavior in terms of the induced voltage across the dc winding, flux density within the core's branches, and the power exchange between the two circuits during normal operation and fault conditions.