Unit Template Synchronous Reference Frame Theory Based Control Algorithm for DSTATCOM

This article proposes new and simplified unit templates instead of standard phase locked loop (PLL) for Synchronous Reference Frame Theory Control Algorithm (SRFT). The extraction of synchronizing components (sinθ and cosθ) for parks and inverse parks transformation using standard PLL takes more exe...

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Bibliographic Details
Published in:Journal of the Institution of Engineers (India). Series B, Electrical Engineering, Electronics and telecommunication engineering, Computer engineering Vol. 95; no. 2; pp. 135 - 141
Main Authors: Bangarraju, J., Rajagopal, V., Jayalaxmi, A.
Format: Journal Article
Language:English
Published: India Springer India 01.04.2014
Subjects:
Communications Engineering
Engineering
Networks
Original Contribution
Voltage source converter
Harmonics
Insulated gate bipolar transistor
Synchronous Reference Frame Theory
Power quality
DSTATCOM
Phase locked loop
ISSN:2250-2106, 2250-2114
Online Access:Get full text
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Summary:This article proposes new and simplified unit templates instead of standard phase locked loop (PLL) for Synchronous Reference Frame Theory Control Algorithm (SRFT). The extraction of synchronizing components (sinθ and cosθ) for parks and inverse parks transformation using standard PLL takes more execution time. This execution time in control algorithm delays the extraction of reference source current generation. The standard PLL not only takes more execution time but also increases the reactive power burden on the Distributed Static Compensator (DSTATCOM). This work proposes a unit template based SRFT control algorithm for four-leg insulated gate bipolar transistor based voltage source converter for DSTATCOM in distribution systems. This will reduce the execution time and reactive power burden on the DSTATCOM. The proposed DSTATCOM suppress harmonics, regulates the terminal voltage along with neutral current compensation. The DSTATCOM in distribution systems with proposed control algorithm is modeled and simulated using MATLAB using SIMULINK and Simpower systems toolboxes.
ISSN:2250-2106
2250-2114
DOI:10.1007/s40031-014-0087-y