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Simulation and Analysis of a Voltage Control Strategy for Single-Stage AC-AC Converter

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Advances in Smart Grid Technology

Part of the book series: Lecture Notes in Electrical Engineering ((LNEE,volume 687))

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Abstract

Matrix converters (MC) are essentially four-quadrant forced commutated converter and are formed by connecting bidirectional switch cells in a matrix form. Factors like single-stage transformation of voltage and frequency, bidirectional power flow capability, sinusoidal input and output voltage, more compact size, low weight, and DC link-free architecture make this converter more attractive than a standard two-stage converter. MCs can be used in applications such as drive systems, frequency converters, wind energy conversion system, and power supply units. In this chapter, the simulation of the MC system and its control strategy under different operative conditions has been discussed. The simulation helps to gain insights into the effect of different parameters on the converter performance.

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Author information

Authors and Affiliations

  1. St. Joseph’s College of Engineering, Chennai, 600119, India

    A. Jamna & R. Sujatha

  2. Jerusalem College of Engineering, Chennai, 600100, India

    V. Jamuna

Authors
  1. A. Jamna
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  2. R. Sujatha
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  3. V. Jamuna
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Corresponding authors

Correspondence to A. Jamna or R. Sujatha .

Editor information

Editors and Affiliations

  1. Department of Management and Innovation Systems, University of Salerno, Fisciano, Italy

    Pierluigi Siano

  2. School of Electrical Engineering, Vellore Institute of Technology, Chennai, India

    K. Jamuna

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Jamna, A., Sujatha, R., Jamuna, V. (2020). Simulation and Analysis of a Voltage Control Strategy for Single-Stage AC-AC Converter. In: Siano, P., Jamuna, K. (eds) Advances in Smart Grid Technology. Lecture Notes in Electrical Engineering, vol 687. Springer, Singapore. https://doi.org/10.1007/978-981-15-7245-6_18

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  • DOI: https://doi.org/10.1007/978-981-15-7245-6_18

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  • Publisher Name: Springer, Singapore

  • Print ISBN: 978-981-15-7244-9

  • Online ISBN: 978-981-15-7245-6

  • eBook Packages: EnergyEnergy (R0)

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