Implementation of bidirectional resonant DC transformer in hybrid AC/DC micro-grid
As a reliable device for voltage regulation and isolation, a line frequency transformer is commonly connected in series with bidirectional converter (BIC) to interlink the ac and dc networks of hybrid ac/dc microgrid. However, it may not be suitable for the applications where weight and space occupa...
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sg-ntu-dr.10356-1513302021-06-15T06:15:57Z Implementation of bidirectional resonant DC transformer in hybrid AC/DC micro-grid Huang, Jingjing Xiao, Jianfang Wen, Changyun Wang, Peng Zhang, Aimin School of Electrical and Electronic Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Electrical and electronic engineering CLLC Conversion Gain As a reliable device for voltage regulation and isolation, a line frequency transformer is commonly connected in series with bidirectional converter (BIC) to interlink the ac and dc networks of hybrid ac/dc microgrid. However, it may not be suitable for the applications where weight and space occupation are of important concerns such as hybrid ac/dc microgrid. In this paper, bidirectional resonant dc transformer (BRDT) is proposed to replace the conventional bulky transformer for bus voltage matching and galvanic isolation. In order to simplify systematic coordination with BIC and central controller, BRDT is designed as an ideal transformer with simple open-loop scheme. 50% duty ratio scheme is implemented as it has been proven to be better than the phase-shift scheme in order to ensure BRDT conversion efficiency. A generalized model for various BRDT topologies, including CLLC, CLL, and LLC high frequency transformer (HFT), is established for analysis. The impacts induced by the transformer leakage, magnetizing inductances, and extra resonant capacitors are considered when designing the HFT. The conversion gain of the designed BRDT has also been analyzed in the full power range. Lab-scale prototypes for BRDT and hybrid ac/dc microgrid have been developed for experimental verifications. The performances of BRDT and system in both steady and transient states have been confirmed. This work was supported in part by the National Natural Science Foundation of China under Grant 51507138, in part by the Young Talent fund of University Association for Science and Technology in Shaanxi, China under Grant 20160117, and in part by the China Scholarship Council. Paper no. TSG-00959-2017. 2021-06-15T06:15:57Z 2021-06-15T06:15:57Z 2019 Journal Article Huang, J., Xiao, J., Wen, C., Wang, P. & Zhang, A. (2019). Implementation of bidirectional resonant DC transformer in hybrid AC/DC micro-grid. IEEE Transactions On Smart Grid, 10(2), 1532-1542. https://dx.doi.org/10.1109/TSG.2017.2771822 1949-3053 0000-0001-5083-0457 0000-0001-8971-6408 0000-0001-9530-360X 0000-0003-1731-2660 https://hdl.handle.net/10356/151330 10.1109/TSG.2017.2771822 2-s2.0-85033661533 2 10 1532 1542 en IEEE Transactions on Smart Grid © 2017 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering CLLC Conversion Gain Huang, Jingjing Xiao, Jianfang Wen, Changyun Wang, Peng Zhang, Aimin Implementation of bidirectional resonant DC transformer in hybrid AC/DC micro-grid |
| description |
As a reliable device for voltage regulation and isolation, a line frequency transformer is commonly connected in series with bidirectional converter (BIC) to interlink the ac and dc networks of hybrid ac/dc microgrid. However, it may not be suitable for the applications where weight and space occupation are of important concerns such as hybrid ac/dc microgrid. In this paper, bidirectional resonant dc transformer (BRDT) is proposed to replace the conventional bulky transformer for bus voltage matching and galvanic isolation. In order to simplify systematic coordination with BIC and central controller, BRDT is designed as an ideal transformer with simple open-loop scheme. 50% duty ratio scheme is implemented as it has been proven to be better than the phase-shift scheme in order to ensure BRDT conversion efficiency. A generalized model for various BRDT topologies, including CLLC, CLL, and LLC high frequency transformer (HFT), is established for analysis. The impacts induced by the transformer leakage, magnetizing inductances, and extra resonant capacitors are considered when designing the HFT. The conversion gain of the designed BRDT has also been analyzed in the full power range. Lab-scale prototypes for BRDT and hybrid ac/dc microgrid have been developed for experimental verifications. The performances of BRDT and system in both steady and transient states have been confirmed. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Huang, Jingjing Xiao, Jianfang Wen, Changyun Wang, Peng Zhang, Aimin |
| format |
Article |
| author |
Huang, Jingjing Xiao, Jianfang Wen, Changyun Wang, Peng Zhang, Aimin |
| author_sort |
Huang, Jingjing |
| title |
Implementation of bidirectional resonant DC transformer in hybrid AC/DC micro-grid |
| title_short |
Implementation of bidirectional resonant DC transformer in hybrid AC/DC micro-grid |
| title_full |
Implementation of bidirectional resonant DC transformer in hybrid AC/DC micro-grid |
| title_fullStr |
Implementation of bidirectional resonant DC transformer in hybrid AC/DC micro-grid |
| title_full_unstemmed |
Implementation of bidirectional resonant DC transformer in hybrid AC/DC micro-grid |
| title_sort |
implementation of bidirectional resonant dc transformer in hybrid ac/dc micro-grid |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151330 |
| _version_ |
1703971170607431680 |