A PFC based EV battery charger using a bridgeless isolated SEPIC converter
B Singh, R Kushwaha - IEEE Transactions on Industry …, 2019 - ieeexplore.ieee.org
Conventional power factor correction (PFC) circuits in electric vehicle (EV) battery chargers
have the efficiency limitation due to high conduction loss associated with a diode bridge …
have the efficiency limitation due to high conduction loss associated with a diode bridge …
Bridgeless cuk PFC converter with soft switching in full input voltage and load range
A Shameli, M Maghsoudi… - IEEE Transactions on …, 2023 - ieeexplore.ieee.org
In this article, a new bridgeless Cuk power factor correction converter is presented. The
proposed converter is capable of providing full soft switching operation for all semiconductor …
proposed converter is capable of providing full soft switching operation for all semiconductor …
Development of a ZVT-PWM buck cascaded buck–boost PFC converter of 2 kW with the widest range of input voltage
T Bang, JW Park - IEEE Transactions on Industrial Electronics, 2017 - ieeexplore.ieee.org
This paper describes the development of a new buck cascaded buck-boost power factor
correction (PFC) converter of 2 kW with a soft-switching technique. For its wide range of …
correction (PFC) converter of 2 kW with a soft-switching technique. For its wide range of …
A soft-switching bridgeless AC–DC power factor correction converter
A new soft-switching, bridgeless power factor correction (PFC) boost converter is proposed
for power supply and battery charging applications. The converter operates in both pulse …
for power supply and battery charging applications. The converter operates in both pulse …
A hybrid resonant pulse-width modulation bridgeless AC–DC power factor correction converter
A hybrid resonant pulse-width modulation (PWM) bridgeless ac-dc power factor correction
(PFC) boost converter is proposed for application in power supplies and battery chargers …
(PFC) boost converter is proposed for application in power supplies and battery chargers …
ZCS bridgeless boost PFC rectifier using only two active switches
KSB Muhammad, DDC Lu - IEEE Transactions on Industrial …, 2014 - ieeexplore.ieee.org
Existing bridgeless boost (BLB) converter with soft switching utilize more than two active
switches and extra resonant networks. In this paper, a new zero-current-switching BLB …
switches and extra resonant networks. In this paper, a new zero-current-switching BLB …
A family of single-phase voltage-doubler high-power-factor SEPIC rectifiers operating in DCM
PJS Costa, CHI Font, TB Lazzarin - IEEE Transactions on …, 2016 - ieeexplore.ieee.org
This paper extends the voltage-doubler concept to the single-phase SEPIC rectifier in
discontinuous conduction mode and, as a consequence, novel rectifiers are proposed. A …
discontinuous conduction mode and, as a consequence, novel rectifiers are proposed. A …
A soft-switching step-down PFC converter with output voltage doubler and high power factor
F Hosseinabadi, E Adib - IEEE Transactions on Power …, 2018 - ieeexplore.ieee.org
In this paper, a new soft-switching bridgeless single-phase power factor correction (PFC)
converter is presented and analyzed. Employing an auxiliary switch, the input current dead …
converter is presented and analyzed. Employing an auxiliary switch, the input current dead …
A power quality improved bridgeless converter-based computer power supply
Poor power quality, slow dynamic response, high device stress, harmonic rich, periodically
dense, peaky, distorted input current are the major problems that are frequently encountered …
dense, peaky, distorted input current are the major problems that are frequently encountered …
Resonant bridgeless AC/DC rectifier with high switching frequency and inherent PFC capability
H Valipour, M Mahdavi… - IEEE Transactions on …, 2019 - ieeexplore.ieee.org
Boost-based converters are used in a variety of nonisolated step-up applications, such as
power factor correctors, because of their simplicity. The power density of these converters …
power factor correctors, because of their simplicity. The power density of these converters …