Experimental analysis of advanced control technique for a five‐phase direct matrix converter based on space vector PWM

Khaliqur Rahman; Adil Sarwar; Mohd Tariq; Shabana Urooj; Farhad Ilahi Bakhsh; Atif Iqbal; Salman Ahmad; Md. Rasidul Islam

doi:10.1049/pel2.12577

IET Power Electronics (Nov 2023)

Experimental analysis of advanced control technique for a five‐phase direct matrix converter based on space vector PWM

Khaliqur Rahman,
Adil Sarwar,
Mohd Tariq,
Shabana Urooj,
Farhad Ilahi Bakhsh,
Atif Iqbal,
Salman Ahmad,
Md. Rasidul Islam

Affiliations

Khaliqur Rahman: Department of Electrical Engineering Aligarh Muslim University Aligarh India
Adil Sarwar: Department of Electrical Engineering Aligarh Muslim University Aligarh India
Mohd Tariq: Department of Electrical and Computer Engineering Florida International University Miami Florida USA
Shabana Urooj: Department of Electrical Engineering College of Engineering Princess Nourah bint Abdulrahman University Riyadh Saudi Arabia
Farhad Ilahi Bakhsh: Department of Electrical Engineering National Institute of Technology Srinagar Srinagar Jammu and Kashmir India
Atif Iqbal: Department of Electrical Engineering Qatar University Doha Qatar
Salman Ahmad: Department of Electrical Engineering Islamic University of Science & Technology Awantipora Jammu and Kashmir India
Md. Rasidul Islam: Department of Electrical and Electronic Engineering Bangamata Sheikh Fojilatunnesa Mujib Science and Technology University Jamalpur Bangladesh

DOI: https://doi.org/10.1049/pel2.12577
Journal volume & issue: Vol. 16, no. 15
pp. 2515 – 2524

Abstract

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Abstract The multiphase matrix converter outperforms the conventional three‐phase system with higher fault tolerance capability and higher power control competency. This paper discusses the direct control based on different possible switching combinations of a three‐phase to five‐phase matrix converter (MC). The proposed control topology significantly reduces the switching commutations in a switching cycle when compared with its counterpart. The control is based on the modified space vector pulse width modulation (SVPWM) strategy. The proposed space vector scheme intelligently selects the voltage vectors to get the desired output characteristics with the least possible switching transitions in a switching cycle. Three possible cases exist in controlling space vectors based on their magnitude, the number of active switching vectors, and their commutations. The results for three different cases of SVPWM have been presented and compared. The total harmonic distortion (THD) obtained in the output is lower in case 2; however, it suffers from a higher common‐mode voltage (CMV). The scheme has been successfully implemented and verified in hardware.

Published in IET Power Electronics

ISSN: 1755-4535 (Print); 1755-4543 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electronics
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17554543

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