Isolated Bidirectional Full-Bridge DC–DC Converter With a Flyback Snubber. Tsai-Fu Wu,Yung-Chu Chen,Jeng-Gung Yang,Chia-Ling Kuo. Power Electronics, IEEE Transactions on . 2010Tsai-Fu W, Yung-Chu Chen, Jeng-Gung Yang, et al. Isolated bidirectional full-bridge DC-DC converter with a fly...
This paper presents a novel isolated full-bridge dc/dc converter with bidirectional communication capability. The transformer in the proposed converter is utilized as an isolation interface for transferring both energy and data. Power delivery and forward data transfer are conducted simultaneously by modif...
This reference design provides specification, block diagram and PCB layout data of 300W isolated DC-DC converter which is small size and suitable for consumer applications.
This paper presents a comparison of half bridgeand full bridge isolated, soft-switched, DC-DC converters forElectrolysis application. An electrolyser is a part of renewableenergy system which generates hydrogen from water electrolysisthat used in fuel cells. A DC-DC converter is required to couple...
In this paper, to solve this problem, an isolated LC series resonant transformer full bridge DC-DC converter is taken as research object, a phase-shift control strategy which could realize zero voltage turn-on and decrease the turn-off current of the power devices to decrease switching loss ...
Bidirectional isolated dc-dc converters, conversion efficiency, dual-active-bridge configuration, SiC-MOSFET modules About CPSS TPEACPSS Transactions on Power Electronics and Applications (CPSS TPEA) is sponsored and published by China...
This paper focused on the full-bridge isolated DC/DC converter, which is a part of transformerless AC traction drive system in railway application. Firstly, the phenomenon of reactive power existing in the adopted DC-DC was comprehensive... N Hou,W Song 被引量: 22发表: 2015年 A contribution...
I was referring to 600-W Phase-Shifted Full-Bridge (PHSB) Converter using UCC28950 (www.ti.com/.../sluub02a.pdf), I found that this EVM board needs another two 0-20Vdc power source for generating VBIAS and VBIAS2. For production approach, Do we n...
From the above table, we can briefly summarize the tradeoffs in using a full-bridge vs. half-bridge DC-DC converter topology. The full-bridge topology can access higher output power than a half-bridge topology; for the two to be equal you might need to use parallel FETs in the half-brid...
Figure 5. Push-pull converter. Full-bridge configurations are generally used for power outputs over 1kW (Figure 6). They allow use of the transformer in two quadrants of the BH magnetization characteristic, rather than one as in the forward and flyback circuits (Figure 7). Also, the input-...