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AuthorWang, S.
AuthorAdam, G.P.
AuthorMassoud, Ahmed
AuthorHolliday, D.
AuthorWilliams, B. W.
Available date2022-03-23T06:57:31Z
Publication Date2020
Publication NameIEEE Journal of Emerging and Selected Topics in Power Electronics
ResourceScopus
Identifierhttp://dx.doi.org/10.1109/JESTPE.2019.2899794
URIhttp://hdl.handle.net/10576/28739
AbstractAdoption of distributed submodule (SM) capacitors in a modular multilevel converter (MMC) necessitates complex controllers to ensure the stability of its internal dynamics. This paper presents comprehensive analysis and assessment of different proportional resonant (PR)-based control schemes proposed to stabilize the internal dynamics and ensure ac and dc sides power quality of the MMC within a dc transmission system. With the consideration of passive component tolerances, different energy-and voltage-based control schemes under various conditions are analyzed. It has been established that without vertical voltage balance control, unequal passive component values in the upper and lower arms of the same phase leg may cause: unbalanced fundamental currents in the arms, unequal dc voltage across the arms, and fundamental oscillations in the common-mode currents that lead to fundamental frequency ripple in the dc-link current. The theoretical analysis that explains this mechanism is presented, and is used to show that vertical voltage balancing is necessary for the nullification of arm voltage difference and suppression of odd oscillations caused by capacitive/inductive asymmetry between arms of the same phase leg. Simulations support the theoretical analysis and the effectiveness of voltage balancing in ensuring correct operation, independent of tolerances of the MMC passive elements, and operating conditions. A new direct method for elimination of fundamental oscillations in the common-mode and dc-link current is proposed. Experimental results from a single-phase MMC prototype validate the presented theoretical discussions and simulations.
SponsorQatar Foundation; Qatar National Research Fund
Languageen
PublisherInstitute of Electrical and Electronics Engineers Inc.
SubjectDynamics
Electric power transmission
Finance
Fits and tolerances
Power converters
DC transmission systems
DC-link oscillations
Fundamental frequencies
Fundamental oscillations
Internal controls
Internal dynamics
Modular multi-level converters
Voltage balance control
Quality control
TitleAnalysis and Assessment of Modular Multilevel Converter Internal Control Schemes
TypeArticle
Pagination697-719
Issue Number1
Volume Number8
dc.accessType Abstract Only


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