Capacitor volume evaluation based on ripple current in modular multilevel converter

This paper discusses the overall volume evaluation of capacitors in Modular Multilevel Converter (MMC). First, a theoretical formula of the ripple voltage on each cell capacitor in the MMC is clarified. Second, a formula of the total electrostatic energy is clarified. As a result, it is difficult to evaluate the overall volume of the capacitors because the total electrostatic energy is constant even the number of cells changes. Against the problem, the overall volume of the capacitors is designed by using the database of commonly-marketed electrolytic capacitors which are generally implemented into many products. In conclusion, the parallel connection of the capacitor with the small ripple current is better than using one capacitor with the large ripple current in order to achieve the size reduction of capacitors. Finally, it is necessary to close the ratio of the charge voltage to the withstand voltage to 1.0 in order to achieve the volume minimization.

[1]  H. Hara,et al.  Enhanced fault ride through capability of matrix converter for wind power system , 2013, IECON 2013 - 39th Annual Conference of the IEEE Industrial Electronics Society.

[2]  A. Sannino,et al.  Protection of Low-Voltage DC Microgrids , 2009, IEEE Transactions on Power Delivery.

[3]  Hiroaki Kakigano,et al.  Low-Voltage Bipolar-Type DC Microgrid for Super High Quality Distribution , 2010, IEEE Transactions on Power Electronics.

[4]  Rik W. De Doncker,et al.  Control of the Modular Multi-Level Converter for minimized cell capacitance , 2011, Proceedings of the 2011 14th European Conference on Power Electronics and Applications.

[5]  Makoto Hagiwara,et al.  Experimental Verification of a Modular Multilevel Cascade Inverter Based on Double-Star Bridge Cells , 2014, IEEE Transactions on Industry Applications.

[6]  Koji Orikawa,et al.  A single-phase current source PV inverter with power decoupling capability using an active buffer , 2013, 2013 IEEE Energy Conversion Congress and Exposition.

[7]  Frede Blaabjerg,et al.  Overview of Control and Grid Synchronization for Distributed Power Generation Systems , 2006, IEEE Transactions on Industrial Electronics.

[8]  Koji Orikawa,et al.  Modular Multilevel Converter for wind power generation system connected to micro-grid , 2014, 2014 International Conference on Renewable Energy Research and Application (ICRERA).

[9]  T. Funabashi,et al.  A hybrid power system using alternative energy facilities in isolated island , 2005, IEEE Transactions on Energy Conversion.

[10]  Kui Wang,et al.  Voltage Balancing and Fluctuation-Suppression Methods of Floating Capacitors in a New Modular Multilevel Converter , 2013, IEEE Transactions on Industrial Electronics.