Add to ORKGPhase modulated full bridge topology has emerged as the most suitable choice for high power, high voltage SMPS applications requiring high power densities. Its distinguishing features are zero voltage switching (ZVS) and constant frequency operation. In this paper, the various factors affecting the ZVS characteristics of this new topology are discussed in detail and design procedures for each of these components are developed. The concept of ZVS LIMIT is introduced. The various trade-offs involved in the design are brought out. A full-fledged 560 W/250 kHz off-line SMPS, using the phase modulation concept is designed and developed. The simulated and experimental results are presented in detail
The technique of zero voltage switching in modern power conversion is explored. Several ZVS topologi...
Abstract—The analysis and design of a zero voltage switching (ZVS) full bridge dc/dc converter topol...
Pulse density modulation (PDM) is an advanced technique for maximum efficiency point tracking of wir...
Phase modulated full bridge topology has emerged as the most suitable choice for high power, high vo...
This paper presents a comprehensive study of a full bridge (FB) zero-current switched (ZCS) PWM conv...
This paper presents a comprehensive study of a full bridge (FB) zero-current switched (ZCS) PWM conv...
This Application Note will highlight the design considerations incurred in a high frequency power su...
A new full-bridge circuit which can achieve zero voltage switching (ZVS) for all the primary side sw...
Pulse-width modulated (PWM) full-bridge boost converters are used in applications where the output v...
Full bridge dc/de converter topology is extensively applied in medium to high power conversion. In a...
This paper presents the detailed analysis of a full bridge zero current switched (FB-ZCS) PWM conver...
This paper presents the detailed analysis of a full bridge zero current switched (FB-ZCS) PWM conver...
This paper presents a high frequency design approach for improving efficiency over a wide load range...
ing zero current, hence zero power switching. And while true, two obvious concerns can in1pede the q...
Abstract- In comparison to forward-converters bridge topologies make use of parasitic components for...
The technique of zero voltage switching in modern power conversion is explored. Several ZVS topologi...
Abstract—The analysis and design of a zero voltage switching (ZVS) full bridge dc/dc converter topol...
Pulse density modulation (PDM) is an advanced technique for maximum efficiency point tracking of wir...
Phase modulated full bridge topology has emerged as the most suitable choice for high power, high vo...
This paper presents a comprehensive study of a full bridge (FB) zero-current switched (ZCS) PWM conv...
This paper presents a comprehensive study of a full bridge (FB) zero-current switched (ZCS) PWM conv...
This Application Note will highlight the design considerations incurred in a high frequency power su...
A new full-bridge circuit which can achieve zero voltage switching (ZVS) for all the primary side sw...
Pulse-width modulated (PWM) full-bridge boost converters are used in applications where the output v...
Full bridge dc/de converter topology is extensively applied in medium to high power conversion. In a...
This paper presents the detailed analysis of a full bridge zero current switched (FB-ZCS) PWM conver...
This paper presents the detailed analysis of a full bridge zero current switched (FB-ZCS) PWM conver...
This paper presents a high frequency design approach for improving efficiency over a wide load range...
ing zero current, hence zero power switching. And while true, two obvious concerns can in1pede the q...
Abstract- In comparison to forward-converters bridge topologies make use of parasitic components for...
The technique of zero voltage switching in modern power conversion is explored. Several ZVS topologi...
Abstract—The analysis and design of a zero voltage switching (ZVS) full bridge dc/dc converter topol...
Pulse density modulation (PDM) is an advanced technique for maximum efficiency point tracking of wir...