Increasing decentralized energy production challenges the distribution grid [1],[2], and, in
many countries, power generation and consumption are spatially separated, meaning that …

This paper introduces a digital adaptive control method for a bidirectional dc/dc
charger/discharger, which is the core element for reliable and efficient energy storage …

The paper discusses two approaches to multiphase nonisolated dc–dc converter design. An
approach based on independent phases is directly compared to an approach using coupled …

Fast dc chargers are the key enablers for the massive rollout of electric vehicles due to the
reduced charging time. On the other hand, the rapid growth in battery technology with …

In this paper, a bidirectional, nonisolated dc-dc converter with several interleaved phases of
multilevel modules for dual low-voltage automotive power systems is presented. Instead of …

Power electronics is a key technology for the efficient conversion, control, and conditioning
of electric energy from the source to the load. In this paper, the potential of power electronics …

In this paper, a novel phase-shedding control scheme for multiphase interleaved dc-dc
converters is proposed to improve the light load efficiency. The proposed phase-shedding …

Many electric vehicle (EV) powertrains use a boost-type dc–dc converter to step-up the
battery voltage for optimization and improving vehicle performance. The converter allows …

This letter proposes a time-optimal digital controller for the phase shedding (PS) in
multiphase buck converters. PS is an established technique to improve the efficiency of …

Interleaved converters with coupled inductors are widely used to share load current in high
power applications. It offers high equivalent switching frequency and reduced output current …