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Model predictive control of a medium-voltage grid-connected converter with LC filter using optimal pulse patterns with relaxed symmetry

Thesis (MEng)--Stellenbosch University, 2020.

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Main Author: Birth, Annika Christine
Other Authors: Geyer, T.
Format: Thesis
Language:English
Published: Stellenbosch : Stellenbosch University 2020
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access_status_str Open Access
author Birth, Annika Christine
author2 Geyer, T.
author_browse Birth, Annika Christine
Geyer, T.
author_facet Geyer, T.
Birth, Annika Christine
author_sort Birth, Annika Christine
collection Thesis
dc_rights_str_mv Stellenbosch University
description Thesis (MEng)--Stellenbosch University, 2020.
format Thesis
id oai:scholar.sun.ac.za:10019.1/108004
institution Stellenbosch University (South Africa)
language English
last_indexed 2026-06-10T12:43:25.190Z
license_str Other — see source repository
provenance_str_mv Harvested via OAI-PMH from SUNScholar — Stellenbosch University Repository
publishDate 2020
publishDateRange 2020
publishDateSort 2020
publisher Stellenbosch : Stellenbosch University
publisherStr Stellenbosch : Stellenbosch University
record_format dspace
source_str SUNScholar — Stellenbosch University Repository
spelling oai:scholar.sun.ac.za:10019.1/108004 Model predictive control of a medium-voltage grid-connected converter with LC filter using optimal pulse patterns with relaxed symmetry Birth, Annika Christine Geyer, T. Mouton, H. du T. Stellenbosch University. Faculty of Engineering. Dept. of Electrical and Electronic Engineering. Predictive control Voltage regulators Electric power transmission Electric current converters Electric inverters UCTD Thesis (MEng)--Stellenbosch University, 2020. ENGLISH ABSTRACT: Medium-voltage converters are operated at very low switching frequencies. To minimise the resulting harmonic distortions, offline computed optimised pulse patterns are the modulation method of choice. The optimal switching angles, at which a converter phase switches, are obtained by solving a constrained optimisation problem. To simplify the analysis and computation, quarter- and half-wave symmetry of the switching function is typically imposed. Moreover, for three-level converters, the switch positions are required to be non-negative in the positive half-wave of the fundamental period. The impact of these restrictions on the harmonic performance of the pulse patterns is investigated in the first part of this thesis. By relaxing the symmetry restrictions and by allowing also negative switch positions in the positive half-wave of the fundamental period, the current distortions can be reduced by up to one third compared to the traditional problem formulation. Commonly used linear control techniques require zero current ripple at regularly-spaced sampling instants. For optimised pulse patterns, in general, the current ripple is never zero in all three phases. Moreover, the switching angles may be discontinuous when varying the modulation index. To address these issues, controllers based on trajectory tracking were developed, most notably model predictive pulse pattern control. By treating the fundamental and harmonic components as one single quantity, it achieves superior disturbance rejection and very short settling times during transients. However, only a single (vector valued) variable is controlled with this method, such as the stator flux linkage of a machine or the converter current of a grid-connected converter. To address higher-order systems, such as converters with LC filters, an additional damping loop is required limiting its performance during transients. In the second part of this thesis, a generalised model predictive pulse pattern controller is proposed. It regulates multiple controlled variables along their nominal trajectories and does not require an additional active damping loop. Nearly optimal steady-state performance and fast transient response times are achieved in simulations. AFRIKAANSE OPSOMMING: Mediumspanning omsetters word bedryf teen baie lae skakelfrekwensies. Aflynberekende geoptimeerde pulspatrone is die modulasie tegniek van keuse om die gevolglike harmoniese distorsie te verminder. Die optimale vuurhoeke, waarteen die omsetter skakel, word verkry deur ’n optimeringsprobleem met beperkings op te los. Om beide die analiese en berekeninge te vereenvoudig, word kwartgolf en halfgolf simmetrie tipies toegepas. Drievlak omsetters vereis dat die skakelposisies nie-negatief moet wees tydens die positiewe halfsiklus van die fundamentele periode. Die gevolg van hierdie beperkings op die harmoniese optrede van die pulspatroon word ondersoek in die eerste deel van hierdie tesis. Deur die kwartgolf simmetrie te ontspan en die negatiewe skakelposisies toe te laat tydens die positiewe halfsiklus, kan die stroomharmoniese distorsies verminder word met tot ’n derde in vergelyking met die tradisionele formulering. Algemene lineêre beheertegnieke benodig nul stroomriffel by die die monsteroomlikke. Oor die algemeen is die stroomriffel nooit nul nie in al drie fases wanneer geoptimeerde pulsepatron gebruik word. Verder kan die vuurhoeke diskontinu word wanneer die modulasieindeks verander word. Om hierdie probleme aan te spreek, was beheerders gebasseer op trajekvolging ontwerp. Modelvoorspellendepulspatroonbeheer is die mees merkwaardigste van hierdie beheertegnieke. Deur die fundamentele komponent en riffel as ’n enkele kwantiteit te hanteer, bereik die laasgenoemde beheer tegniek uitstekende steuringsverwerping and baie kort vestigingstye tydens oordragsverskynsels. Slegs ’n enkele veranderlike (vektor waarde) word beheer met hierdie metode, soos byvoorbeeld die stator vloedkoppeling van ’n masjien of the omsetterstroom van ’n kragnetwerkgekoppelde omsetter. Hoë-orde stelsels, soos byvoorbeeld omsetters met LC-filters, vereis ’n addisionele dempingslus wat hul optrede tydens oorgangsverskynsels belemmer. ’n Veralgemeende modelvoorspellendebeheerder pulspatroon strategie word voorgestel in die tweede deel van hierdie tesis. Dit reguleer verskeie beheerde veranderlikes al langs hul onderskeie nominale trajekte en vereis nie die gebruik van ’n addisionele aktiewe dempingslus nie. Beinaoptimale bestendigde toestand optrede asook vinnige oorgangs-optrede word bereik in simulasies. Masters 2020-02-25T09:01:14Z 2020-04-28T12:13:58Z 2020-02-25T09:01:14Z 2020-04-28T12:13:58Z 2020-04 Thesis http://hdl.handle.net/10019.1/108004 en Stellenbosch University ix, 80 leaves : illustrations (some color) application/pdf Stellenbosch : Stellenbosch University
spellingShingle Predictive control
Voltage regulators
Electric power transmission
Electric current converters
Electric inverters
UCTD
Birth, Annika Christine
Model predictive control of a medium-voltage grid-connected converter with LC filter using optimal pulse patterns with relaxed symmetry
title Model predictive control of a medium-voltage grid-connected converter with LC filter using optimal pulse patterns with relaxed symmetry
title_full Model predictive control of a medium-voltage grid-connected converter with LC filter using optimal pulse patterns with relaxed symmetry
title_fullStr Model predictive control of a medium-voltage grid-connected converter with LC filter using optimal pulse patterns with relaxed symmetry
title_full_unstemmed Model predictive control of a medium-voltage grid-connected converter with LC filter using optimal pulse patterns with relaxed symmetry
title_short Model predictive control of a medium-voltage grid-connected converter with LC filter using optimal pulse patterns with relaxed symmetry
title_sort model predictive control of a medium voltage grid connected converter with lc filter using optimal pulse patterns with relaxed symmetry
topic Predictive control
Voltage regulators
Electric power transmission
Electric current converters
Electric inverters
UCTD
url http://hdl.handle.net/10019.1/108004
work_keys_str_mv AT birthannikachristine modelpredictivecontrolofamediumvoltagegridconnectedconverterwithlcfilterusingoptimalpulsepatternswithrelaxedsymmetry