Design and implementation of a novel zero‐current switching method for low‐power DC–DC converters

Abstract: This paper introduces a unique zero‐current switching (ZCS) technique for low‐power dc–dc converters. In this paper, a single‐inductor dual‐input triple‐output converter is considered to apply this new technique, which can be generalized for converters with more inputs and outputs and high‐power and energy‐harvesting applications. The first input of this converter can be connected to any source that can produce energy, such as photovoltaic (PV) cells or thermoelectric generator (TEG), and the second input can … Show more

“…By varying the spins' number on the HV side of the inductor, various voltages were attained in order to progress a SPA [26]. In Reference [27], a zero-current switching (ZCS) scheme for DC-DC converters was presented to create and implement a ZCS-based digital control algorithm. A one-inductor 2-input, 3-output topology for a converter can be extended to a PC with extra inputs and outputs.…”

Multiport Converter Utility Interface with a High-Frequency Link for Interfacing Clean Energy Sources (PV\Wind\Fuel Cell) and Battery to the Power System: Application of the HHA Algorithm

“…By varying the spins' number on the HV side of the inductor, various voltages were attained in order to progress a SPA [26]. In Reference [27], a zero-current switching (ZCS) scheme for DC-DC converters was presented to create and implement a ZCS-based digital control algorithm. A one-inductor 2-input, 3-output topology for a converter can be extended to a PC with extra inputs and outputs.…”

Multiport Converter Utility Interface with a High-Frequency Link for Interfacing Clean Energy Sources (PV\Wind\Fuel Cell) and Battery to the Power System: Application of the HHA Algorithm