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High Efficiency and Low Complexity Dual-Reference Voltage-Based Pulse Width Modulation for Three-Phase Five-Level HANPC Inverters

This study proposes a low complex and high efficient dual-reference voltage-based pulse width modulation (DRV-PWM) scheme for three-phase five-level hybrid active neutral-point-clamped (HANPC) inverters. Although phase-shifted carrier PWM (PSC-PWM) is capable of naturally balancing dc-link and flyin...

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Published in:	Journal of electrical engineering & technology 2024, 19(5), , pp.3047-3057
Main Authors:	Hakami, Samer Saleh, Halabi, Laith M., Lee, Kyo-Beum
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Language:	English
Subjects:	Electrical Engineering Electrical Machines and Networks Electronics and Microelectronics Engineering Instrumentation Original Article Power Electronics 전기공학
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container_title	Journal of electrical engineering & technology
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creator	Hakami, Samer Saleh Halabi, Laith M. Lee, Kyo-Beum
description	This study proposes a low complex and high efficient dual-reference voltage-based pulse width modulation (DRV-PWM) scheme for three-phase five-level hybrid active neutral-point-clamped (HANPC) inverters. Although phase-shifted carrier PWM (PSC-PWM) is capable of naturally balancing dc-link and flying capacitors voltages, such a process requires a tedious and sophisticated adjustment of the phase-shift between the PWM signals, particularly in a digital signal processor (DSP). As a result, a phase-delay eventually occurs, which leads to unevenly distributed thermal losses among the three phases of the five-level HANPC inverter. Therefore, this study introduces an alternative switching scheme that has the same merits as the conventional PSC-PWM in naturally balancing the voltages without requiring voltage sensors. It also balances the thermal losses across the three phases, which enhances the reliability and efficiency of the switching devices. The proposed DRV-PWM is experimentally evaluated in comparison to conventional PSC-PWM on a TMS320F28377S DSP. The experimental results reveal that the proposed DRV-PWM effectively synchronizes the execution of the three-phase pole voltages while also keeping the thermal losses evenly distributed among the three phases.
doi_str_mv	10.1007/s42835-023-01763-x
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Electr. Eng. Technol</addtitle><description>This study proposes a low complex and high efficient dual-reference voltage-based pulse width modulation (DRV-PWM) scheme for three-phase five-level hybrid active neutral-point-clamped (HANPC) inverters. Although phase-shifted carrier PWM (PSC-PWM) is capable of naturally balancing dc-link and flying capacitors voltages, such a process requires a tedious and sophisticated adjustment of the phase-shift between the PWM signals, particularly in a digital signal processor (DSP). As a result, a phase-delay eventually occurs, which leads to unevenly distributed thermal losses among the three phases of the five-level HANPC inverter. Therefore, this study introduces an alternative switching scheme that has the same merits as the conventional PSC-PWM in naturally balancing the voltages without requiring voltage sensors. It also balances the thermal losses across the three phases, which enhances the reliability and efficiency of the switching devices. 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Electr. Eng. Technol</stitle><date>2024-07-01</date><risdate>2024</risdate><volume>19</volume><issue>5</issue><spage>3047</spage><epage>3057</epage><pages>3047-3057</pages><issn>1975-0102</issn><eissn>2093-7423</eissn><abstract>This study proposes a low complex and high efficient dual-reference voltage-based pulse width modulation (DRV-PWM) scheme for three-phase five-level hybrid active neutral-point-clamped (HANPC) inverters. Although phase-shifted carrier PWM (PSC-PWM) is capable of naturally balancing dc-link and flying capacitors voltages, such a process requires a tedious and sophisticated adjustment of the phase-shift between the PWM signals, particularly in a digital signal processor (DSP). As a result, a phase-delay eventually occurs, which leads to unevenly distributed thermal losses among the three phases of the five-level HANPC inverter. Therefore, this study introduces an alternative switching scheme that has the same merits as the conventional PSC-PWM in naturally balancing the voltages without requiring voltage sensors. It also balances the thermal losses across the three phases, which enhances the reliability and efficiency of the switching devices. The proposed DRV-PWM is experimentally evaluated in comparison to conventional PSC-PWM on a TMS320F28377S DSP. The experimental results reveal that the proposed DRV-PWM effectively synchronizes the execution of the three-phase pole voltages while also keeping the thermal losses evenly distributed among the three phases.</abstract><cop>Singapore</cop><pub>Springer Nature Singapore</pub><doi>10.1007/s42835-023-01763-x</doi><tpages>11</tpages><orcidid>https://orcid.org/0000-0002-2125-9500</orcidid></addata></record>
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subjects	Electrical Engineering Electrical Machines and Networks Electronics and Microelectronics Engineering Instrumentation Original Article Power Electronics 전기공학
title	High Efficiency and Low Complexity Dual-Reference Voltage-Based Pulse Width Modulation for Three-Phase Five-Level HANPC Inverters
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