Dynamic and Steady-State Behavior of Distributed Power Supply in DC Architecture with Minimized DC Bus Capacitor

The dynamic and steady-state behaviors of distributed power supply in a DC architecture with a minimized DC bus capacitor is investigated in this paper using the power balance control technique. The circuit is simulated and analyzed using MATLAB Simulink. The proposed system significantly improves t...

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Bibliographic Details
Published in:IEEJ JOURNAL OF INDUSTRY APPLICATIONS 2023/07/01, Vol.12(4), pp.745-754
Main Authors: Kamnarn, Uthen, Namin, Anon, Wutthiwai, Pakawadee, Yodwong, Jedsada, Thounthong, Phatiphat, Takorabet, Noureddine
Format: Article
Language:English
Subjects:
DC architecture
distributed power supply and power module
minimized DC bus capacitor
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Summary:The dynamic and steady-state behaviors of distributed power supply in a DC architecture with a minimized DC bus capacitor is investigated in this paper using the power balance control technique. The circuit is simulated and analyzed using MATLAB Simulink. The proposed system significantly improves the dynamic response of the converter to load steps with the minimized DC bus capacitor for a distributed Power System. The possibility of using a ratio of capacitance/watt lower than the typical values used in commercial applications, while maintaining the output voltage regulation, is theoretically proved. The minimized DC bus capacitors of the proposed system are 100µF (0.1µF/W), 400µF (0.47µF/W), 80µF (0.53µF/W), 100µF (0.67µF/W), 2000µF (5µF/W) and 2000µF (5µF/W) for the 380Vdc, 100Vdc, 60Vdc, 48Vdc, 24Vdc, and 12Vdc, respectively. The simulation results show the following advantages: small capacitor size, reduced converter volume, good steady-state behavior, and fast dynamic transient response.
ISSN:2187-1094
2187-1108
DOI:10.1541/ieejjia.22008110