Design and implementation of an SPB converter for fault tolerant PMSynRel motor control

Design and implementation of an SPB converter for fault tolerant PMSynRel motor control

The stacked polyphase bridges (SPB) converter topology is investigated in the presentthesis as a fault-tolerant choice for permanent-magnet synchronous reluctance (PMSyn-Rel) motor control. Integrated motor drive systems are studied as they offer great benefitsfor propulsion applications. Moreover,...

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Bibliographic Details
Main Author: Apostolopoulos, Nikolaos
Format: Others
Language:English
Published: KTH, Elektrisk energiomvandling 2015
Subjects:
Fault-tolerant operation
multi-star motor
PCB design
permanent-magnet synchronous reluctance motor
PMSynRel
SPB
stacked polyphase bridges converter.
Feltolerant drift
multifasmaskin
PCB-design
permanentmagnetassisterad synkron reluktansmaskin
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-179141
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spelling ndltd-UPSALLA1-oai-DiVA.org-kth-1791412016-01-05T04:55:40ZDesign and implementation of an SPB converter for fault tolerant PMSynRel motor controlengApostolopoulos, NikolaosKTH, Elektrisk energiomvandling2015Fault-tolerant operationmulti-star motorPCB designpermanent-magnet synchronous reluctance motorPMSynRelSPBstacked polyphase bridges converter.Feltolerant driftmultifasmaskinPCB-designpermanentmagnetassisterad synkron reluktansmaskinPMSynRelSPBstacked polyphase bridges converter.The stacked polyphase bridges (SPB) converter topology is investigated in the presentthesis as a fault-tolerant choice for permanent-magnet synchronous reluctance (PMSyn-Rel) motor control. Integrated motor drive systems are studied as they offer great benefitsfor propulsion applications. Moreover, the importance of a modular topology, like theSPB, for an electric powertrain is discussed. The latter consists of a number of seriesconnected, 3-phase 2-level inverter submodules that supply separate sets of windings ina multi-star motor. The specifications of building a four-board SPB setup are examined,while the challenges of an active voltage balancing controller are analyzed. The designprocess is explained step-by-step and the final printed circuit boards (PCBs) are presented.Furthermore, the significance of low electromagnetic interference design for a converterthat requires high speed communication is highlighted. Finally, the prototype is testedthoroughly and the expected fault-tolerant capabilities are validated on a PMSynRel motor. I detta examensarbete unders¨ok SPB-omriktartopologin (stacked polyphase bridges converter)i termer av ett feltolerant elektriskt drivsystem f¨or en permamentmagnetassisteradsynkron reluktansmaskin (PMSynRel). SPB-omriktaren best°ar av ett antal seriekoppladetrefasomriktare av tv°aniv°atyp som, var och en, f¨orser effekt till en trefaslindningtillh¨orande en modul¨ar elmaskin av multifastyp. Specifikation, design och konstruktion aven SPB-omriktare med fyra seriekopplade moduler studeras. Designproceduren presenterasi en steg-f¨or-steg-process och de tillverkade kretskorten presenteras utf¨orligt. Kommunikationenmellan de olika kretskorten unders¨oks med s¨arskild tonvikt p°a l°ag elektromagnetiskinterferens vilket ¨ar n¨odv¨andigt om h¨og kommunikationshastighet skall kunnauppn°as. Den f¨ardigst¨allda prototypen har utv¨arderats experimentellt och kapaciteten f¨orfeltolerans har demonstrerats vid drift av en PMSynRel-maskin utrustad med en multifaslindning. Student thesisinfo:eu-repo/semantics/bachelorThesistexthttp://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-179141EES Examensarbete / Master Thesis ; TRITA-EE 2015:107application/pdfinfo:eu-repo/semantics/openAccess
collection NDLTD
language English
format Others
sources NDLTD
topic Fault-tolerant operation
multi-star motor
PCB design
permanent-magnet synchronous reluctance motor
PMSynRel
SPB
stacked polyphase bridges converter.
Feltolerant drift
multifasmaskin
PCB-design
permanentmagnetassisterad synkron reluktansmaskin
PMSynRel
SPB
stacked polyphase bridges converter.
spellingShingle Fault-tolerant operation
multi-star motor
PCB design
permanent-magnet synchronous reluctance motor
PMSynRel
SPB
stacked polyphase bridges converter.
Feltolerant drift
multifasmaskin
PCB-design
permanentmagnetassisterad synkron reluktansmaskin
PMSynRel
SPB
stacked polyphase bridges converter.
Apostolopoulos, Nikolaos
Design and implementation of an SPB converter for fault tolerant PMSynRel motor control
description The stacked polyphase bridges (SPB) converter topology is investigated in the presentthesis as a fault-tolerant choice for permanent-magnet synchronous reluctance (PMSyn-Rel) motor control. Integrated motor drive systems are studied as they offer great benefitsfor propulsion applications. Moreover, the importance of a modular topology, like theSPB, for an electric powertrain is discussed. The latter consists of a number of seriesconnected, 3-phase 2-level inverter submodules that supply separate sets of windings ina multi-star motor. The specifications of building a four-board SPB setup are examined,while the challenges of an active voltage balancing controller are analyzed. The designprocess is explained step-by-step and the final printed circuit boards (PCBs) are presented.Furthermore, the significance of low electromagnetic interference design for a converterthat requires high speed communication is highlighted. Finally, the prototype is testedthoroughly and the expected fault-tolerant capabilities are validated on a PMSynRel motor. === I detta examensarbete unders¨ok SPB-omriktartopologin (stacked polyphase bridges converter)i termer av ett feltolerant elektriskt drivsystem f¨or en permamentmagnetassisteradsynkron reluktansmaskin (PMSynRel). SPB-omriktaren best°ar av ett antal seriekoppladetrefasomriktare av tv°aniv°atyp som, var och en, f¨orser effekt till en trefaslindningtillh¨orande en modul¨ar elmaskin av multifastyp. Specifikation, design och konstruktion aven SPB-omriktare med fyra seriekopplade moduler studeras. Designproceduren presenterasi en steg-f¨or-steg-process och de tillverkade kretskorten presenteras utf¨orligt. Kommunikationenmellan de olika kretskorten unders¨oks med s¨arskild tonvikt p°a l°ag elektromagnetiskinterferens vilket ¨ar n¨odv¨andigt om h¨og kommunikationshastighet skall kunnauppn°as. Den f¨ardigst¨allda prototypen har utv¨arderats experimentellt och kapaciteten f¨orfeltolerans har demonstrerats vid drift av en PMSynRel-maskin utrustad med en multifaslindning.
author Apostolopoulos, Nikolaos
author_facet Apostolopoulos, Nikolaos
author_sort Apostolopoulos, Nikolaos
title Design and implementation of an SPB converter for fault tolerant PMSynRel motor control
title_short Design and implementation of an SPB converter for fault tolerant PMSynRel motor control
title_full Design and implementation of an SPB converter for fault tolerant PMSynRel motor control
title_fullStr Design and implementation of an SPB converter for fault tolerant PMSynRel motor control
title_full_unstemmed Design and implementation of an SPB converter for fault tolerant PMSynRel motor control
title_sort design and implementation of an spb converter for fault tolerant pmsynrel motor control
publisher KTH, Elektrisk energiomvandling
publishDate 2015
url http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-179141
work_keys_str_mv AT apostolopoulosnikolaos designandimplementationofanspbconverterforfaulttolerantpmsynrelmotorcontrol
_version_ 1718160679026819072

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