Proportional current sharing based on periodic dynamic event-driven H∞ consensus in DC microgrids with power coupling
Although the proportional current sharing has been widely studied, the heterogeneous characteristic of the different interfaced converters and power coupling terms among distributed generators (DGs) are rarely considered. Therefore, this paper proposes a secondary H∞ consensus method with a periodic...
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sg-ntu-dr.10356-1651092023-03-17T15:39:23Z Proportional current sharing based on periodic dynamic event-driven H∞ consensus in DC microgrids with power coupling Wang, Rui Sun, Qiuye Liu, Lei Zhang, Li Wang, Peng Zhang, Huaguang School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Current Sharing Event-Driven Communication Although the proportional current sharing has been widely studied, the heterogeneous characteristic of the different interfaced converters and power coupling terms among distributed generators (DGs) are rarely considered. Therefore, this paper proposes a secondary H∞ consensus method with a periodic dynamic event-driven scheme for dc microgrids with power coupling to accomplish the precise proportional current-sharing. It is useful for reducing carbon. First, a generalized converter is constructed through equivalent transformation between rectifier and boost converter. Moreover, the heterogeneous characteristic of the interfaced converters regarding different DGs, such as wind and solar generators, is embedded into controller design. Furthermore, the standard linear heterogeneous multi-agent system with power coupling term is built. On this basis, the problem of proportional current sharing is modified into the output consistency problem of multi-agent systems. Furthermore, the H∞ consensus approach is proposed to accomplish the precise proportional current sharing. Meanwhile, to shorten communication bandwidth, the periodic dynamic event-driven communication strategy is designed. Compared with traditional event-driven communication schemes, a lower communication frequency has been obtained through the proposed communication scheme. In addition, this communication scheme not only avoids Zeno-behavior, but also acquires the smallest sampling time interval. Finally, effectiveness of the proposed approach is verified by two test systems. Published version This work is supported by National Key Research and Development Program of China (2018YFA0702200), and National Natural Science Foundation of China (62073065). 2023-03-13T06:10:52Z 2023-03-13T06:10:52Z 2022 Journal Article Wang, R., Sun, Q., Liu, L., Zhang, L., Wang, P. & Zhang, H. (2022). Proportional current sharing based on periodic dynamic event-driven H∞ consensus in DC microgrids with power coupling. CSEE Journal of Power and Energy Systems, 8(6), 1558-1568. https://dx.doi.org/10.17775/CSEEJPES.2021.08310 2096-0042 https://hdl.handle.net/10356/165109 10.17775/CSEEJPES.2021.08310 2-s2.0-85144165060 6 8 1558 1568 en CSEE Journal of Power and Energy Systems © 2021 CSEE. Published by Chinese Society for Electrical Engineering. This is an open-access article distributed under the terms of the Creative Commons Attribution License. application/pdf |
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Engineering::Electrical and electronic engineering Current Sharing Event-Driven Communication Wang, Rui Sun, Qiuye Liu, Lei Zhang, Li Wang, Peng Zhang, Huaguang Proportional current sharing based on periodic dynamic event-driven H∞ consensus in DC microgrids with power coupling |
| description |
Although the proportional current sharing has been widely studied, the heterogeneous characteristic of the different interfaced converters and power coupling terms among distributed generators (DGs) are rarely considered. Therefore, this paper proposes a secondary H∞ consensus method with a periodic dynamic event-driven scheme for dc microgrids with power coupling to accomplish the precise proportional current-sharing. It is useful for reducing carbon. First, a generalized converter is constructed through equivalent transformation between rectifier and boost converter. Moreover, the heterogeneous characteristic of the interfaced converters regarding different DGs, such as wind and solar generators, is embedded into controller design. Furthermore, the standard linear heterogeneous multi-agent system with power coupling term is built. On this basis, the problem of proportional current sharing is modified into the output consistency problem of multi-agent systems. Furthermore, the H∞ consensus approach is proposed to accomplish the precise proportional current sharing. Meanwhile, to shorten communication bandwidth, the periodic dynamic event-driven communication strategy is designed. Compared with traditional event-driven communication schemes, a lower communication frequency has been obtained through the proposed communication scheme. In addition, this communication scheme not only avoids Zeno-behavior, but also acquires the smallest sampling time interval. Finally, effectiveness of the proposed approach is verified by two test systems. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Wang, Rui Sun, Qiuye Liu, Lei Zhang, Li Wang, Peng Zhang, Huaguang |
| format |
Article |
| author |
Wang, Rui Sun, Qiuye Liu, Lei Zhang, Li Wang, Peng Zhang, Huaguang |
| author_sort |
Wang, Rui |
| title |
Proportional current sharing based on periodic dynamic event-driven H∞ consensus in DC microgrids with power coupling |
| title_short |
Proportional current sharing based on periodic dynamic event-driven H∞ consensus in DC microgrids with power coupling |
| title_full |
Proportional current sharing based on periodic dynamic event-driven H∞ consensus in DC microgrids with power coupling |
| title_fullStr |
Proportional current sharing based on periodic dynamic event-driven H∞ consensus in DC microgrids with power coupling |
| title_full_unstemmed |
Proportional current sharing based on periodic dynamic event-driven H∞ consensus in DC microgrids with power coupling |
| title_sort |
proportional current sharing based on periodic dynamic event-driven h∞ consensus in dc microgrids with power coupling |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/165109 |
| _version_ |
1761781238168813568 |