Multidimensional Two-Level Multiphase Space Vector PWM Algorithm and Its Comparison With Multifrequency Space Vector PWM Method

A multilevel multiphase space vector pulsewidth modulation (SVPWM) algorithm has been introduced recently, in which the reference is separated into an integer part and a fractional part. The fractional part is, in essence, a two-level multiphase space vector algorithm. This paper shows that, with ap...

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Veröffentlicht in:	IEEE transactions on industrial electronics (1982) 2011-02, Vol.58 (2), p.465-475
Hauptverfasser:	López, Oscar, Dujic, D, Jones, M, Freijedo, F D, Doval-Gandoy, Jesús, Levi, E
Format:	Artikel
Sprache:	eng
Schlagworte:	Aircraft propulsion Algorithms Computational efficiency Induction motor drives Inverters Mathematical analysis Modulation Modulation index range Multidimensional systems multifrequency pulsewidth modulation (PWM) Multilevel Multiphase multiphase voltage-source converter Permission Pulse duration modulation Pulse width modulation converters Pulse width modulation inverters Space vector pulse width modulation space vector PWM (SVPWM) Studies Switching converters Vectors (mathematics) Voltage
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container_start_page	465
container_title	IEEE transactions on industrial electronics (1982)
container_volume	58
creator	López, Oscar Dujic, D Jones, M Freijedo, F D Doval-Gandoy, Jesús Levi, E
description	A multilevel multiphase space vector pulsewidth modulation (SVPWM) algorithm has been introduced recently, in which the reference is separated into an integer part and a fractional part. The fractional part is, in essence, a two-level multiphase space vector algorithm. This paper shows that, with appropriate adaptations, the fractional part of the general space vector multilevel multiphase PWM can be applied as a stand-alone PWM method in conjunction with two-level voltage-source converters with any number of phases. Simulation results of the five- and six-phase cases are shown, and the new algorithm is compared with another recent multifrequency SVPWM algorithm, which follows the standard approach of selecting the switching vectors and calculating their application times using planes. The experimental verification is provided using a five-phase two-motor series-connected induction motor drive, supplied from a custom-designed five-phase voltage-source inverter.
doi_str_mv	10.1109/TIE.2010.2047826
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The experimental verification is provided using a five-phase two-motor series-connected induction motor drive, supplied from a custom-designed five-phase voltage-source inverter.</description><subject>Aircraft propulsion</subject><subject>Algorithms</subject><subject>Computational efficiency</subject><subject>Induction motor drives</subject><subject>Inverters</subject><subject>Mathematical analysis</subject><subject>Modulation</subject><subject>Modulation index range</subject><subject>Multidimensional systems</subject><subject>multifrequency pulsewidth modulation (PWM)</subject><subject>Multilevel</subject><subject>Multiphase</subject><subject>multiphase voltage-source converter</subject><subject>Permission</subject><subject>Pulse duration modulation</subject><subject>Pulse width modulation converters</subject><subject>Pulse width modulation inverters</subject><subject>Space vector pulse width modulation</subject><subject>space vector PWM (SVPWM)</subject><subject>Studies</subject><subject>Switching converters</subject><subject>Vectors (mathematics)</subject><subject>Voltage</subject><issn>0278-0046</issn><issn>1557-9948</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2011</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNplkc9LwzAUx4MoOKd3wUvw5KUzP5vmOMbUwYaC0x1L1r66jrapSafs5L9u5oYHPTzCy_t8vy_ki9AlJQNKib6dT8YDRkLHiFAJi49Qj0qpIq1Fcox6hKkkIkTEp-jM-zUhVEgqe-hrtqm6Mi9raHxpG1Ph-aeNpvABFf4ZtSvjAT-3JgP8CllnHX5azPCwerOu7FY1Nk2OJ53HI1u3xpXeNngRBnt14eB9A022_e8wg25l83N0UpjKw8Xh7KOXu_F89BBNH-8no-E0yjjjXcQ5y1VOlqaQhYpNroTkhC0FMKqN1oXMmAiXsIO0SpaaypjQJC9okkGhY95HN3vf1tnwIt-ldekzqCrTgN34lBJOeSjFA3r9B13bjQtf49OEJ4pKJkmAyB7KnPXeQZG2rqyN2wandBdIGgJJd4Gkh0CC5GovKQHgF5dCxCLs_gbYa4cJ</recordid><startdate>201102</startdate><enddate>201102</enddate><creator>López, Oscar</creator><creator>Dujic, D</creator><creator>Jones, M</creator><creator>Freijedo, F D</creator><creator>Doval-Gandoy, Jesús</creator><creator>Levi, E</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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The fractional part is, in essence, a two-level multiphase space vector algorithm. This paper shows that, with appropriate adaptations, the fractional part of the general space vector multilevel multiphase PWM can be applied as a stand-alone PWM method in conjunction with two-level voltage-source converters with any number of phases. Simulation results of the five- and six-phase cases are shown, and the new algorithm is compared with another recent multifrequency SVPWM algorithm, which follows the standard approach of selecting the switching vectors and calculating their application times using planes. The experimental verification is provided using a five-phase two-motor series-connected induction motor drive, supplied from a custom-designed five-phase voltage-source inverter.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TIE.2010.2047826</doi><tpages>11</tpages></addata></record>
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subjects	Aircraft propulsion Algorithms Computational efficiency Induction motor drives Inverters Mathematical analysis Modulation Modulation index range Multidimensional systems multifrequency pulsewidth modulation (PWM) Multilevel Multiphase multiphase voltage-source converter Permission Pulse duration modulation Pulse width modulation converters Pulse width modulation inverters Space vector pulse width modulation space vector PWM (SVPWM) Studies Switching converters Vectors (mathematics) Voltage
title	Multidimensional Two-Level Multiphase Space Vector PWM Algorithm and Its Comparison With Multifrequency Space Vector PWM Method
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