Add to ORKGA new switching dc-to-dc converter is synthesized which consist of the least number of storage elements (inductive and capacitive) and switches, and yet truly emulates the ideally desired dc-to-dc transformer having both input and output currents as pure dc quantities with no ripple. This result was facilitated by implementation of a new concept termed integrated magnetics, which leads in some special switching structures to the integration of otherwise independent and separate magnetic components (inductors and transformers) into a single magnetic circuit
Two topics are presented which advance the use of magnetic devices in switched-mode power converters...
converter is a critical part. The input voltage of the converter decreases while the output power in...
The two-inductor boost converter presents significant advantages over other boost topologies but req...
A new switching dc-to-dc converter is synthesized which consists of the least number of storage elem...
A low output ripple and noise converter is achieved by employing a zero-voltage switch (ZVS), an int...
Full-bridge phase-shifted converters sometimes add external resonant inductors to achieve zero-volta...
Abstract—A new integrated magnetic full wave dc/dc converter1 that provides flexible transformer des...
This paper proposes a family of magnetic coupling nonisolated bidirectional DC-DC converters, which ...
An integrated magnetic (IM) transformer is proposed for a phase shifted full bridge (PSFB) converter...
The isolated two-inductor boost converter with an auxiliary transformer has been previously proposed...
A two-inductor boost converter topology has conduction loss and transformer utilization advantages i...
In the past the majority of power processing applications have been centered around a very few stand...
A switched-capacitor-based (SC) step-up dc converter is proposed. It contains no inductors and trans...
A zero-voltage switching (ZVS) two-inductor boost converter with an integrated magnetic structure ha...
Part I: Novel soft-switching converters combine the functions of loss-less soft-switching for all sw...
Two topics are presented which advance the use of magnetic devices in switched-mode power converters...
converter is a critical part. The input voltage of the converter decreases while the output power in...
The two-inductor boost converter presents significant advantages over other boost topologies but req...
A new switching dc-to-dc converter is synthesized which consists of the least number of storage elem...
A low output ripple and noise converter is achieved by employing a zero-voltage switch (ZVS), an int...
Full-bridge phase-shifted converters sometimes add external resonant inductors to achieve zero-volta...
Abstract—A new integrated magnetic full wave dc/dc converter1 that provides flexible transformer des...
This paper proposes a family of magnetic coupling nonisolated bidirectional DC-DC converters, which ...
An integrated magnetic (IM) transformer is proposed for a phase shifted full bridge (PSFB) converter...
The isolated two-inductor boost converter with an auxiliary transformer has been previously proposed...
A two-inductor boost converter topology has conduction loss and transformer utilization advantages i...
In the past the majority of power processing applications have been centered around a very few stand...
A switched-capacitor-based (SC) step-up dc converter is proposed. It contains no inductors and trans...
A zero-voltage switching (ZVS) two-inductor boost converter with an integrated magnetic structure ha...
Part I: Novel soft-switching converters combine the functions of loss-less soft-switching for all sw...
Two topics are presented which advance the use of magnetic devices in switched-mode power converters...
converter is a critical part. The input voltage of the converter decreases while the output power in...
The two-inductor boost converter presents significant advantages over other boost topologies but req...