Dr. (Ms) TCPK Wickramasinghe


Faculty of Engineering Technology

Central Campus,

Office: 112881272, Ext: 272

Email: tcwic@ou.ac.lk


Area of Specification:

Power electronics

Research Intrests:

Power converters, DC-Microgrids, PV solar-based systems



Programmes Coordination:

BSE (Jan-July 2017)

Course Coordination:



Doctoral Merit Award (June, 2012)

Best Student Presentation (July, 2015)



Wickramasinghe, T. C. P. K. (2016). Supercapacitor-based linear converter for voltage regulator modules (Thesis, Doctor of Philosophy (PhD)). University of Waikato. Retrieved from http://hdl.handle.net/10289/10624

Wickramasinghe, T., Kularatna, N., & Steyn-Ross, D. A. (2015, June). Supercapacitor-based DC-DC converter technique for DC-microgrids with UPS capability. In DC Microgrids (ICDCM), 2015 IEEE First International Conference on (pp. 119-123). IEEE.

Wickramasinghe, T., Kularatna, N., & Steyn-Ross, D. A. (2015, March). An extra-low-frequency RS-SCALDO technique: A new approach to design voltage regulator modules. In 2015 IEEE Applied Power Electronics Conference and Exposition (APEC) (pp. 2039-2043). IEEE.

Wickramasinghe, T., Steyn-Ross, D. A., & Kularatna, N. (2015) Supercapacitor energy recovery technique to improve the efficiency of dc-to dc converters. In 2015 New Zealand Institute of Physics Conference, NZIP.

Wickramasinghe, T., Kularatna, N., & Steyn-Ross, D. A. (2013, November). Reduced-switch SCALDO technique for high-current VRM implementation. In Industrial Electronics Society, IECON 2013-39th Annual Conference of the IEEE (pp. 6789-6793). IEEE.

Kularatna, N., & Wickramasinghe, T. (2013, May). Supercapacitor assisted low dropout regulators (SCALDO) with reduced switches: A new approach to high efficiency VRM designs. In Industrial Electronics (ISIE), 2013 IEEE International Symposium on (pp. 1-6). IEEE.

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