M. R. Hajimoradi scite author profile

M. R. Hajimoradi

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5Publications

11Citation Statements Received

28Citation Statements Given

How they've been cited

How they cite others

Affiliations

Sharif University of Technology, Tarbiat Modares University

Publications

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High‐efficiency low‐cost AC/AC buck converter with stability analysis

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2017

IET Power Electronics

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The commutation issue is the most important limiting factor of expanding AC chopper applications, which in most cases are solved by employing snubber circuits, implementing sensor-based selective switching patterns and utilising resonant circuits. To overcome the commutation problem, this study proposes a novel non-resonant AC/AC buck converter with no snubber circuits and no sensor-based switching patterns. The introduced hardware configuration and the proposed control strategy provide a path for an inductive load current in all switching states. This converter offers higher reliability and efficiency as well as lower cost compared to the AC choppers with snubber circuits or voltage and current sensors for performing a selective switching. This study presents the operation principles of the proposed hardware configuration and derives the stability condition thorough mathematical analyses. Moreover, the achievements are evaluated by simulation and verified by experiments.

AC voltage regulator based on AC/AC buck converter

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2016

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Efficiency improvement of a high step up high efficiency converter for photovoltaic applications based on three-state switching cell

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2013

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Double stage switch mode AC voltage regulator

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2011

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Performance improvement of a double stage switch mode AC voltage regulator

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et al. 2012

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Widespread use of sensitive loads in industries has required the need for high efficiency voltage regulators in order to provide continuous and fast dynamic adjustable AC voltage. This paper introduces a new control strategy to improve the response time and performance of a double stage switch mode regulator. The proposed strategy responds to input voltage variations quickly and improves the efficiency and performance of the circuit. Results of some simulations are presented and analyzed. Experimental tests on a laboratory prototype verify the excellent performance of the proposed system.

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