Add to ORKGIn order to suppress the voltage stress of semiconductor devices, and solve the reverse recovery problem of diodes by decreasing the duty cycle of switches, impedance source converters could be consider as a solution. In this paper an impedance network is applied to the secondary side of a phase-shifted full-bridge converter in order to reduce the voltage stress of rectifier diodes. The proposed impedance network involves coupled inductors and capacitors that provide a new rectifier configuration for the converter. Operational principles of the proposed converter along with its theoretical analysis is investigated, and finally simulation results is provided by Pspice to verify the performance of the converter.Postprint (published version
An improved high step-down DC-DC converter for charging the batteries in an electric vehicle applica...
This paper proposes the switched impedance source converter (SZSC) or switched quasi impedance sourc...
Grid-level power converters based on conventional architectures do not achieve very high efficiencie...
In order to suppress the voltage stress of semiconductor devices, and solve the reverse recovery pro...
This paper introduces a family of DC-DC converters based on impedance source DC-DC converters. The ...
A single-stage symmetrical high voltage gain half-bridge (HB) DC-AC converter is proposed in this pa...
This paper proposes a solution to complement the insufficient voltage gain and voltage stress distri...
High voltage conversion gain DC-DC power converters are essential for many applications, such as pow...
In this article, two high step-down bridgeless power factor correction rectifiers based on the switc...
Impedance networks cover the entire of electric power conversion from dc (converter, rectifier), ac ...
© 2014 IEEE. Impedance networks cover the entire of electric power conversion from dc (converter, re...
Impedance networks cover the entire of electric power conversion from dc (converter, rectifier), ac ...
The use of coupled inductors in impedance source inverters improves the voltage gain performance at ...
This paper proposes a technique for switch current stress reduction in a Switched Inductor DC-DC Boo...
With the rapid development of photovoltaic systems, high step-up dc–dc converters draw significant a...
An improved high step-down DC-DC converter for charging the batteries in an electric vehicle applica...
This paper proposes the switched impedance source converter (SZSC) or switched quasi impedance sourc...
Grid-level power converters based on conventional architectures do not achieve very high efficiencie...
In order to suppress the voltage stress of semiconductor devices, and solve the reverse recovery pro...
This paper introduces a family of DC-DC converters based on impedance source DC-DC converters. The ...
A single-stage symmetrical high voltage gain half-bridge (HB) DC-AC converter is proposed in this pa...
This paper proposes a solution to complement the insufficient voltage gain and voltage stress distri...
High voltage conversion gain DC-DC power converters are essential for many applications, such as pow...
In this article, two high step-down bridgeless power factor correction rectifiers based on the switc...
Impedance networks cover the entire of electric power conversion from dc (converter, rectifier), ac ...
© 2014 IEEE. Impedance networks cover the entire of electric power conversion from dc (converter, re...
Impedance networks cover the entire of electric power conversion from dc (converter, rectifier), ac ...
The use of coupled inductors in impedance source inverters improves the voltage gain performance at ...
This paper proposes a technique for switch current stress reduction in a Switched Inductor DC-DC Boo...
With the rapid development of photovoltaic systems, high step-up dc–dc converters draw significant a...
An improved high step-down DC-DC converter for charging the batteries in an electric vehicle applica...
This paper proposes the switched impedance source converter (SZSC) or switched quasi impedance sourc...
Grid-level power converters based on conventional architectures do not achieve very high efficiencie...