Fixed switching frequency control using trapezoidal current mode to achieve ZVS in three-level DC-DC converters
Generally, the variable switching frequency method is used to operate power converters in triangular current mode (TCM) or near critical conduction mode (CRM) to achieve zero-voltage switching (ZVS). However, this approach faces significant challenges: high peak inductor current, and complex control...
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sg-ntu-dr.10356-1827782025-02-25T02:33:43Z Fixed switching frequency control using trapezoidal current mode to achieve ZVS in three-level DC-DC converters Yao, Zhigang He, Xinyu Liu, Muyang Liu, Jingrui Xiao, Ziheng Tang, Yi School of Electrical and Electronic Engineering Energy Research Institute @ NTU (ERI@N) Engineering Near critical conduction mode Trapezoidal current mode Generally, the variable switching frequency method is used to operate power converters in triangular current mode (TCM) or near critical conduction mode (CRM) to achieve zero-voltage switching (ZVS). However, this approach faces significant challenges: high peak inductor current, and complex controller design due to varied digital delays in variable frequency operation. To address these challenges, this article proposes a novel fixed switching frequency control method using trapezoidal current mode (TZCM) to mitigate the inductor peak current while realizing ZVS for three-level dc-dc converters. A relationship between the average inductor current and the two duty cycles is modeled to determine the appropriate trapezoidal current shape in near-CRM. By simultaneously adjusting two duty cycles and alternating them within each switching period, ZVS is successfully achieved at a fixed switching frequency. Compared with traditional methods, the proposed method not only improves the converter efficiency, especially at light loads, but also pioneers a fixed frequency scheme for achieving ZVS applicable to all three-level dc-dc converters. The proposed control is experimentally validated on a 2 kW prototype, achieving an efficiency of 99.12%. This work was supported in part by the National Natural Science Foundation of China under Grant 52107210, and in part by Chengdu Guojia Electrical Engineering Company Ltd. under Grant NEEC-2022-B15. 2025-02-25T02:33:42Z 2025-02-25T02:33:42Z 2024 Journal Article Yao, Z., He, X., Liu, M., Liu, J., Xiao, Z. & Tang, Y. (2024). Fixed switching frequency control using trapezoidal current mode to achieve ZVS in three-level DC-DC converters. IEEE Transactions On Industrial Electronics, 3454707-. https://dx.doi.org/10.1109/TIE.2024.3454707 0278-0046 https://hdl.handle.net/10356/182778 10.1109/TIE.2024.3454707 2-s2.0-85205520527 3454707 en IEEE Transactions on Industrial Electronics © 2024 IEEE. All rights reserved. |
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Engineering Near critical conduction mode Trapezoidal current mode Yao, Zhigang He, Xinyu Liu, Muyang Liu, Jingrui Xiao, Ziheng Tang, Yi Fixed switching frequency control using trapezoidal current mode to achieve ZVS in three-level DC-DC converters |
| description |
Generally, the variable switching frequency method is used to operate power converters in triangular current mode (TCM) or near critical conduction mode (CRM) to achieve zero-voltage switching (ZVS). However, this approach faces significant challenges: high peak inductor current, and complex controller design due to varied digital delays in variable frequency operation. To address these challenges, this article proposes a novel fixed switching frequency control method using trapezoidal current mode (TZCM) to mitigate the inductor peak current while realizing ZVS for three-level dc-dc converters. A relationship between the average inductor current and the two duty cycles is modeled to determine the appropriate trapezoidal current shape in near-CRM. By simultaneously adjusting two duty cycles and alternating them within each switching period, ZVS is successfully achieved at a fixed switching frequency. Compared with traditional methods, the proposed method not only improves the converter efficiency, especially at light loads, but also pioneers a fixed frequency scheme for achieving ZVS applicable to all three-level dc-dc converters. The proposed control is experimentally validated on a 2 kW prototype, achieving an efficiency of 99.12%. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Yao, Zhigang He, Xinyu Liu, Muyang Liu, Jingrui Xiao, Ziheng Tang, Yi |
| format |
Article |
| author |
Yao, Zhigang He, Xinyu Liu, Muyang Liu, Jingrui Xiao, Ziheng Tang, Yi |
| author_sort |
Yao, Zhigang |
| title |
Fixed switching frequency control using trapezoidal current mode to achieve ZVS in three-level DC-DC converters |
| title_short |
Fixed switching frequency control using trapezoidal current mode to achieve ZVS in three-level DC-DC converters |
| title_full |
Fixed switching frequency control using trapezoidal current mode to achieve ZVS in three-level DC-DC converters |
| title_fullStr |
Fixed switching frequency control using trapezoidal current mode to achieve ZVS in three-level DC-DC converters |
| title_full_unstemmed |
Fixed switching frequency control using trapezoidal current mode to achieve ZVS in three-level DC-DC converters |
| title_sort |
fixed switching frequency control using trapezoidal current mode to achieve zvs in three-level dc-dc converters |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182778 |
| _version_ |
1825619644825731072 |