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Abstract

Dual-active-bridge (DAB) converter with multilevel neutral-point-clamped (NPC) topology has shown potential to be a viable solution for medium-voltage DC (MVDC) systems. However, it will face a crucial challenge with regard to capacitor voltage balancing. In order to mitigate the negative effects caused by the voltage imbalance, e.g., overvoltage on certain devices, various control strategies for voltage balancing have been developed. To better design and implement the voltage balancing strategies, this paper evaluates several voltage balancing approaches, i.e., modified-duty-cycle (MDC) method, modified-phase-shift-and-duty-cycle (MPSDC) method, fixed-switching-state (FSS) method, and complementary-switching-state (CSS) method. These voltage balancing approaches have distinct characteristics in terms of dynamics, efficiency, robustness, applicability with modulation strategy, and implementation complexity. Evaluation results show that the MDC and MPSDC methods have advantage of extending to various control strategies. However, they are affected by current polarity identification, and have large current and power fluctuations. The FSS method is the most robust and the simplest one, but it also has poor dynamics. On the other hand, the CSS method can deliver smooth dynamics and high efficiency, but it relies on identifying the polarity of inductor current, and it cannot be used to the single-phase-shift (SPS) and triple-phase-shift (TPS) control strategies. Based on the evaluation results, the suitable applications of different voltage balancing methods are discussed.
OriginalsprogEngelsk
TidsskriftI E E E Transactions on Power Electronics
Vol/bind39
Udgave nummer12
Sider (fra-til)15548-15564
Antal sider17
ISSN0885-8993
DOI
StatusUdgivet - 2024

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