Magnetic integration of the harmonic filter inductor for dual-converter fed open-end transformer topology

Ghanshyamsinh Vijaysinh Gohil; Lorand Bede; Remus Teodorescu; Tamas Kerekes; Frede Blaabjerg

doi:10.1109/APEC.2016.7468181

Magnetic integration of the harmonic filter inductor for dual-converter fed open-end transformer topology

Ghanshyamsinh Vijaysinh Gohil, Lorand Bede, Remus Teodorescu, Tamas Kerekes, Frede Blaabjerg

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Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

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Abstract

Many high power converter systems are often connected to the medium voltage network using a step-up transformer. In such systems, the converter-side windings of the transformer can be configured as an open-end and multi-level voltage waveforms can be achieved by feeding these open-end windings from both ends using the dual-converter. An LCL filter with separate converter-side inductors for each of the converter is commonly used to attenuate the undesirable harmonic frequency components in the grid current. The magnetic integration of the converter-side inductors is presented in this paper, where the flux in the common part of the magnetic core is completely canceled out. As a result, the size of the magnetic component can be significantly reduced. A multi-objective design optimization is presented, where the energy loss and the volume are optimized. The optimization process takes into account the yearly load profile and the energy loss is minimized, rather than minimizing the losses at a specific operating point. The size reduction achieved by the proposed inductor is demonstrated through a comparative evaluation. Finally, the analysis is supported through simulations and experimental results.

Originalsprog	Engelsk
Titel	Proceedings of the 31st Annual IEEE Applied Power Electronics Conference and Exposition (APEC)
Antal sider	8
Forlag	IEEE Press
Publikationsdato	mar. 2016
Sider	2264 - 2271
ISBN (Trykt)	978-1-4673-8393-6, 978-1-4673-9551-9
ISBN (Elektronisk)	978-1-4673-9550-2
DOI	https://doi.org/10.1109/APEC.2016.7468181
Status	Udgivet - mar. 2016
Begivenhed	2016 IEEE Applied Power Electronics Conference and Exposition (APEC) - Long Beach Convention and Entertainment Center, Long Beach, USA Varighed: 20 mar. 2016 → 24 mar. 2016 http://www.ieee.org/conferences_events/conferences/conferencedetails/index.html?Conf_ID=32616

Konference

Konference	2016 IEEE Applied Power Electronics Conference and Exposition (APEC)
Lokation	Long Beach Convention and Entertainment Center
Land/Område	USA
By	Long Beach
Periode	20/03/2016 → 24/03/2016
Internetadresse	http://www.ieee.org/conferences_events/conferences/conferencedetails/index.html?Conf_ID=32616

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title = "Magnetic integration of the harmonic filter inductor for dual-converter fed open-end transformer topology",

abstract = "Many high power converter systems are often connected to the medium voltage network using a step-up transformer. In such systems, the converter-side windings of the transformer can be configured as an open-end and multi-level voltage waveforms can be achieved by feeding these open-end windings from both ends using the dual-converter. An LCL filter with separate converter-side inductors for each of the converter is commonly used to attenuate the undesirable harmonic frequency components in the grid current. The magnetic integration of the converter-side inductors is presented in this paper, where the flux in the common part of the magnetic core is completely canceled out. As a result, the size of the magnetic component can be significantly reduced. A multi-objective design optimization is presented, where the energy loss and the volume are optimized. The optimization process takes into account the yearly load profile and the energy loss is minimized, rather than minimizing the losses at a specific operating point. The size reduction achieved by the proposed inductor is demonstrated through a comparative evaluation. Finally, the analysis is supported through simulations and experimental results.",

keywords = "Parallel inverters, integrated inductor, wind turbine, wind energy systems, wind energy conversion system, dual-converter, open-end transformer, harmonic filter design, harmonic filter, LCL filter, Multi-objective optimization, optimized filter design",

author = "Gohil, {Ghanshyamsinh Vijaysinh} and Lorand Bede and Remus Teodorescu and Tamas Kerekes and Frede Blaabjerg",

year = "2016",

month = mar,

doi = "10.1109/APEC.2016.7468181",

language = "English",

isbn = "978-1-4673-8393-6",

pages = "2264 -- 2271",

booktitle = "Proceedings of the 31st Annual IEEE Applied Power Electronics Conference and Exposition (APEC)",

publisher = "IEEE Press",

note = "2016 IEEE Applied Power Electronics Conference and Exposition (APEC) ; Conference date: 20-03-2016 Through 24-03-2016",

url = "http://www.ieee.org/conferences_events/conferences/conferencedetails/index.html?Conf_ID=32616",

}

Gohil, GV, Bede, L, Teodorescu, R , Kerekes, T & Blaabjerg, F 2016, Magnetic integration of the harmonic filter inductor for dual-converter fed open-end transformer topology. i Proceedings of the 31st Annual IEEE Applied Power Electronics Conference and Exposition (APEC). IEEE Press, s. 2264 - 2271, 2016 IEEE Applied Power Electronics Conference and Exposition (APEC), Long Beach, USA, 20/03/2016. https://doi.org/10.1109/APEC.2016.7468181

Magnetic integration of the harmonic filter inductor for dual-converter fed open-end transformer topology. / Gohil, Ghanshyamsinh Vijaysinh; Bede, Lorand; Teodorescu, Remus et al.
Proceedings of the 31st Annual IEEE Applied Power Electronics Conference and Exposition (APEC). IEEE Press, 2016. s. 2264 - 2271.

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - Magnetic integration of the harmonic filter inductor for dual-converter fed open-end transformer topology

AU - Gohil, Ghanshyamsinh Vijaysinh

AU - Bede, Lorand

AU - Teodorescu, Remus

AU - Kerekes, Tamas

AU - Blaabjerg, Frede

PY - 2016/3

Y1 - 2016/3

N2 - Many high power converter systems are often connected to the medium voltage network using a step-up transformer. In such systems, the converter-side windings of the transformer can be configured as an open-end and multi-level voltage waveforms can be achieved by feeding these open-end windings from both ends using the dual-converter. An LCL filter with separate converter-side inductors for each of the converter is commonly used to attenuate the undesirable harmonic frequency components in the grid current. The magnetic integration of the converter-side inductors is presented in this paper, where the flux in the common part of the magnetic core is completely canceled out. As a result, the size of the magnetic component can be significantly reduced. A multi-objective design optimization is presented, where the energy loss and the volume are optimized. The optimization process takes into account the yearly load profile and the energy loss is minimized, rather than minimizing the losses at a specific operating point. The size reduction achieved by the proposed inductor is demonstrated through a comparative evaluation. Finally, the analysis is supported through simulations and experimental results.

AB - Many high power converter systems are often connected to the medium voltage network using a step-up transformer. In such systems, the converter-side windings of the transformer can be configured as an open-end and multi-level voltage waveforms can be achieved by feeding these open-end windings from both ends using the dual-converter. An LCL filter with separate converter-side inductors for each of the converter is commonly used to attenuate the undesirable harmonic frequency components in the grid current. The magnetic integration of the converter-side inductors is presented in this paper, where the flux in the common part of the magnetic core is completely canceled out. As a result, the size of the magnetic component can be significantly reduced. A multi-objective design optimization is presented, where the energy loss and the volume are optimized. The optimization process takes into account the yearly load profile and the energy loss is minimized, rather than minimizing the losses at a specific operating point. The size reduction achieved by the proposed inductor is demonstrated through a comparative evaluation. Finally, the analysis is supported through simulations and experimental results.

KW - Parallel inverters

KW - integrated inductor

KW - wind turbine

KW - wind energy systems

KW - wind energy conversion system

KW - dual-converter

KW - open-end transformer

KW - harmonic filter design

KW - harmonic filter

KW - LCL filter

KW - Multi-objective optimization

KW - optimized filter design

U2 - 10.1109/APEC.2016.7468181

DO - 10.1109/APEC.2016.7468181

M3 - Article in proceeding

SN - 978-1-4673-8393-6

SN - 978-1-4673-9551-9

SP - 2264

EP - 2271

BT - Proceedings of the 31st Annual IEEE Applied Power Electronics Conference and Exposition (APEC)

PB - IEEE Press

T2 - 2016 IEEE Applied Power Electronics Conference and Exposition (APEC)

Y2 - 20 March 2016 through 24 March 2016

ER -

Magnetic integration of the harmonic filter inductor for dual-converter fed open-end transformer topology

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