Design of a three-phase statcom-based inductive static VAR compensator using DC capacitor voltage control scheme

Abdulkareem Mokif Obais, Pasupuleti Jagadeesh

Research output: Contribution to journalArticle

Abstract

In this study, a three-phase continuously controlled harmonic-free inductive static VAR compensator is presented. The compensator is built of a three-phase voltage source inverter based statcom. The phase currents of this compensator are linearly and continuously controlled by the statcom DC capacitor voltage. The control strategy is outlined by a process of forcing the capacitor voltage to follow a certain reference voltage which can be varied linearly from its maximum to its minimum values to produce balanced three-phase inductive currents varying in the range of zero to maximum value (IMAX). The proposed compensator was verified on the computer program PSpice.

Original languageEnglish
Pages (from-to)1674-1680
Number of pages7
JournalResearch Journal of Applied Sciences, Engineering and Technology
Volume5
Issue number5
Publication statusPublished - 2013

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Voltage control
Capacitors
Electric potential
Computer program listings

All Science Journal Classification (ASJC) codes

  • Engineering(all)
  • Computer Science(all)

Cite this

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abstract = "In this study, a three-phase continuously controlled harmonic-free inductive static VAR compensator is presented. The compensator is built of a three-phase voltage source inverter based statcom. The phase currents of this compensator are linearly and continuously controlled by the statcom DC capacitor voltage. The control strategy is outlined by a process of forcing the capacitor voltage to follow a certain reference voltage which can be varied linearly from its maximum to its minimum values to produce balanced three-phase inductive currents varying in the range of zero to maximum value (IMAX). The proposed compensator was verified on the computer program PSpice.",
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N2 - In this study, a three-phase continuously controlled harmonic-free inductive static VAR compensator is presented. The compensator is built of a three-phase voltage source inverter based statcom. The phase currents of this compensator are linearly and continuously controlled by the statcom DC capacitor voltage. The control strategy is outlined by a process of forcing the capacitor voltage to follow a certain reference voltage which can be varied linearly from its maximum to its minimum values to produce balanced three-phase inductive currents varying in the range of zero to maximum value (IMAX). The proposed compensator was verified on the computer program PSpice.

AB - In this study, a three-phase continuously controlled harmonic-free inductive static VAR compensator is presented. The compensator is built of a three-phase voltage source inverter based statcom. The phase currents of this compensator are linearly and continuously controlled by the statcom DC capacitor voltage. The control strategy is outlined by a process of forcing the capacitor voltage to follow a certain reference voltage which can be varied linearly from its maximum to its minimum values to produce balanced three-phase inductive currents varying in the range of zero to maximum value (IMAX). The proposed compensator was verified on the computer program PSpice.

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