Search results
David D’Achiardi , Anuradha M. Annaswamy , Life Fellow, IEEE, Sudip K. Mazumder , Fellow, IEEE, and Eduardo Pilo , Senior Member, IEEE Abstract—Electricity demand of electric railways is a relatively unexplored source of flexibility in demand response applica-tions in power systems. In this article, we propose a trans-
Sudip K. Mazumder's Office. 842 West Taylor Street, ERF 3013, Chicago, IL, Illinois 60607. Phone: (312) 355-1315. Fax: 312-996-6465 (office) Email: mazumder@uic.edu. Website: https://ece.uic.edu/profiles/sudip-k-mazumder-phd/. Google Maps image. Laboratory. 842 West Taylor Street, ERF 2014, Chicago, Illinois 60607.
Abstract—This article presents a proportional–integral–lead (PI-Lead) compensator for a single-input multi-output (SIMO) converter used in EV auxiliary power supply applications. The proposed SIMO converter (SIMOC) is made by adding an extra switch and inductor to each output port of the standard Cuk converter.
Abstract: Method for operating an ac/ac converter circuit for a high-frequency-link converter. The ac/ac converter circuit converts an ac input voltage to an ac output voltage. When the ac input voltage is zero, each of a pair of switches for both first and second arms are caused to be on.
2016-to date Prof. Mazumder elevated to the rank of IEEE Fellow for his original contributions in power electronics; 2016-to date Prof. Mazumder selected to serve as a Distinguished Lecturer for IEEE Power Electronics Society; 2016 Technical Program Committee Chair, IEEE Wide Bandgap Power Devices and Applications
Optically cascoded ultrahigh voltage gallium oxide devices for modular multi-converter, Department of Energy (flow through University of Buffalo), Co-Principal Investigator: Sudip K. Mazumder, 2024-2027 (Award announced and in subcontracting)
Following these motivations, in this article, an IM is pro-posed for a three-phase differential-mode ˆCuk rectifier (DMCR) [outlined in [24] with discrete magnetics (DM)], comprising three ˆCuk converter modules connected in a differential-mode configuration. The IM-based DMCR is shown in Fig. 1.
Sudip K. Mazumder, Senior Member, IEEE, and Akshay K. Rathore, Member, IEEE Abstract—Emerging trends of high-power-density power-electronics interfaces for renewable- and alternative-energy sources have led to the need for high-frequency-inverter designs without compromising energy-conversion efficiency. In that con-
PV cybersecurity is a component of smart grid security that contributes to overall grid security. At the heart of PV systems is the power conversion device known as the PV solar inverter, a smart power electronics system that is responsible for interfacing with the grid.
IEEE POWER ELECTRONICS SOCIETY Powering a Sustainable Future Co-Editors-in-Chiet: Hui (Helen) Li, Paolo Mattavelli, and Chun Taek Rim Notice the new structure of adding 3 Co-Editor positions to mitigate the increased workload due to the large increase of submissions over the past 6 years.
