Interlinking converters in application of bipolar dc microgrids

This paper investigates two converter topologies, including neutral-point diode-clamped (NPC) and Vienna converters, to be employed as an interlinking converter in bipolar dc microgrid. Since bipolar dc microgrids are subjected to severe voltage unbalance, the interlinking converters should be able to perform voltage-balancing function at their dc-link capacitors. In addition, they should exchange power between upper and lower terminals of bipolar dc microgrid. It is shown that the voltage-balancing function can not be integrated into the control system of the NPC converter, so the parallel connection of a voltage balancer is suggested and the pertinent voltage control system is designed. Moreover, a Vienna converter with modified topology and switching algorithm is proposed to perform voltage-balancing function. The viability of NPC and Vienna converters is evaluated using MATLAB software.

[1]  Guido Carpinelli,et al.  Optimal control strategy of a DC micro grid , 2015 .

[2]  Mohsen Hamzeh,et al.  Decentralised voltage balancing in bipolar dc microgrids equipped with trans-z-source interlinking converter , 2016 .

[3]  M. B. Ferrera,et al.  A Converter for Bipolar DC Link Based on SEPIC-Cuk Combination , 2015, IEEE Transactions on Power Electronics.

[4]  R. Iravani,et al.  An accurate model for the DC-side voltage control of the neutral point diode clamped converter , 2006, IEEE Transactions on Power Delivery.

[5]  Nanfang Yang,et al.  Compensation of droop control using common load condition in DC microgrids to improve voltage regulation and load sharing , 2015 .

[6]  Juan C. Vasquez,et al.  Hierarchical Control of Droop-Controlled AC and DC Microgrids—A General Approach Toward Standardization , 2009, IEEE Transactions on Industrial Electronics.

[7]  Josep M. Guerrero,et al.  Power Oscillations Damping in DC Microgrids , 2016, IEEE Transactions on Energy Conversion.

[8]  Reza Iravani,et al.  Voltage-Sourced Converters in Power Systems: Modeling, Control, and Applications , 2010 .

[9]  Xianjin Zhang,et al.  Three-Level DC Converter for Balancing DC 800-V Voltage , 2015, IEEE Transactions on Power Electronics.

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

[11]  B. G. Fernandes,et al.  Distributed Control to Ensure Proportional Load Sharing and Improve Voltage Regulation in Low-Voltage DC Microgrids , 2013, IEEE Transactions on Power Electronics.

[12]  Marcelo L. Heldwein,et al.  Evaluation of power converters to implement bipolar DC active distribution networks — DC-DC converters , 2011, 2011 IEEE Energy Conversion Congress and Exposition.