Mohammad Meraj

TL;DR: A new high-gain double-duty-triple-mode (DDTM) converter for dc-microgrid applications that operates in three modes to achieve higher voltage gain without utilizing transformer, coupled inductor, voltage multiplier, and multiple voltage lifting techniques.

TL;DR: The merits of proposed topology have been analyzed through various comparison parameters including component counts, voltage stresses, cost and efficiency with a maximum value of 98.3%, together with the integration of switched capacitors into the topology following recent development.

TL;DR: The modified SEP IC converter (MSC) provides higher voltage gain compared to the conventional SEPIC and recently addressed converters with a single-controlled switch and proves the feasibility of the MSC concept and the theoretical analysis.

TL;DR: The proposed modified SIBC (mSIBC) configuration is transformerless and simply derived by replacing the one diode of the classical SI structure with an active switch and is low in cost, provides higher efficiency, and requires the same number of components compared with the classicalSIBC.

TL;DR: In this paper, an evaluation of level shifted and phase shifted triangular and sawtooth carrier modulation schemes for a seven level packed U cell (PUC) inverter is presented.