Data-Driven Modeling of Zero Voltage Switching of Non-Resonant DAB Converters under TPS Modulation

Xinze Li; Fanfan Lin; Josep Pou; Suvajit Mukherjee; Jiaxin Dong

doi:10.1109/APEC43580.2023.10131519

Data-Driven Modeling of Zero Voltage Switching of Non-Resonant DAB Converters under TPS Modulation

Xinze Li, Fanfan Lin, Josep Pou, Suvajit Mukherjee, Jiaxin Dong

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

DAB converters under triple phase shift (TPS) modulation can broaden the zero voltage switching (ZVS) range to improve efficiency and noise robustness. Conventionally, the piecewise approach and harmonic approach are two commonly used approaches to build analytical models for ZVS conditions under this modulation strategy. However, both two approaches fail to achieve good modeling accuracy as well as low computational cost simultaneously due to heavy human dependence. To solve this problem, this digest proposes a data-driven modeling approach for ZVS analysis (DM-ZVS) for non-resonant DAB converters under the TPS modulation strategy. The data-driven modeling process is conducted with the random forest algorithm automatically using ZVS performance data from simulation tools, greatly mitigating human dependence to improve accuracy and computational efficiency. With the trained data-driven classification model of ZVS, the optimal TPS modulation parameters can be found to ensure the full ZVS range. A design case is given, and 1 kW hardware experiments comprehensively validate the feasibility of the proposed DM-ZVS.

Original language	English
Title of host publication	APEC 2023 - 38th Annual IEEE Applied Power Electronics Conference and Exposition
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	1379-1383
Number of pages	5
ISBN (Electronic)	9781665475396
DOIs	https://doi.org/10.1109/APEC43580.2023.10131519
Publication status	Published - 2023
Externally published	Yes
Event	38th Annual IEEE Applied Power Electronics Conference and Exposition, APEC 2023 - Orlando, United States Duration: Mar 19 2023 → Mar 23 2023

Publication series

Name	Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC
Volume	2023-March

Conference

Conference	38th Annual IEEE Applied Power Electronics Conference and Exposition, APEC 2023
Country/Territory	United States
City	Orlando
Period	3/19/23 → 3/23/23

Bibliographical note

Publisher Copyright:
© 2023 IEEE.

ASJC Scopus Subject Areas

Electrical and Electronic Engineering

Keywords

artificial intelligence
data-driven
efficiency
modeling
triple phase shift modulation
zero voltage switching

Access to Document

10.1109/APEC43580.2023.10131519

Cite this

Li, X., Lin, F., Pou, J., Mukherjee, S., & Dong, J. (2023). Data-Driven Modeling of Zero Voltage Switching of Non-Resonant DAB Converters under TPS Modulation. In APEC 2023 - 38th Annual IEEE Applied Power Electronics Conference and Exposition (pp. 1379-1383). (Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC; Vol. 2023-March). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/APEC43580.2023.10131519

Li, Xinze ; Lin, Fanfan ; Pou, Josep et al. / Data-Driven Modeling of Zero Voltage Switching of Non-Resonant DAB Converters under TPS Modulation. APEC 2023 - 38th Annual IEEE Applied Power Electronics Conference and Exposition. Institute of Electrical and Electronics Engineers Inc., 2023. pp. 1379-1383 (Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC).

@inproceedings{9e654247a54540e2996ffc303caf9c42,

title = "Data-Driven Modeling of Zero Voltage Switching of Non-Resonant DAB Converters under TPS Modulation",

abstract = "DAB converters under triple phase shift (TPS) modulation can broaden the zero voltage switching (ZVS) range to improve efficiency and noise robustness. Conventionally, the piecewise approach and harmonic approach are two commonly used approaches to build analytical models for ZVS conditions under this modulation strategy. However, both two approaches fail to achieve good modeling accuracy as well as low computational cost simultaneously due to heavy human dependence. To solve this problem, this digest proposes a data-driven modeling approach for ZVS analysis (DM-ZVS) for non-resonant DAB converters under the TPS modulation strategy. The data-driven modeling process is conducted with the random forest algorithm automatically using ZVS performance data from simulation tools, greatly mitigating human dependence to improve accuracy and computational efficiency. With the trained data-driven classification model of ZVS, the optimal TPS modulation parameters can be found to ensure the full ZVS range. A design case is given, and 1 kW hardware experiments comprehensively validate the feasibility of the proposed DM-ZVS.",

keywords = "artificial intelligence, data-driven, efficiency, modeling, triple phase shift modulation, zero voltage switching",

author = "Xinze Li and Fanfan Lin and Josep Pou and Suvajit Mukherjee and Jiaxin Dong",

note = "Publisher Copyright: {\textcopyright} 2023 IEEE.; 38th Annual IEEE Applied Power Electronics Conference and Exposition, APEC 2023 ; Conference date: 19-03-2023 Through 23-03-2023",

year = "2023",

doi = "10.1109/APEC43580.2023.10131519",

language = "English",

series = "Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC",

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Li, X, Lin, F, Pou, J, Mukherjee, S & Dong, J 2023, Data-Driven Modeling of Zero Voltage Switching of Non-Resonant DAB Converters under TPS Modulation. in APEC 2023 - 38th Annual IEEE Applied Power Electronics Conference and Exposition. Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC, vol. 2023-March, Institute of Electrical and Electronics Engineers Inc., pp. 1379-1383, 38th Annual IEEE Applied Power Electronics Conference and Exposition, APEC 2023, Orlando, United States, 3/19/23. https://doi.org/10.1109/APEC43580.2023.10131519

Data-Driven Modeling of Zero Voltage Switching of Non-Resonant DAB Converters under TPS Modulation. / Li, Xinze; Lin, Fanfan; Pou, Josep et al.
APEC 2023 - 38th Annual IEEE Applied Power Electronics Conference and Exposition. Institute of Electrical and Electronics Engineers Inc., 2023. p. 1379-1383 (Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC; Vol. 2023-March).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - Data-Driven Modeling of Zero Voltage Switching of Non-Resonant DAB Converters under TPS Modulation

AU - Li, Xinze

AU - Lin, Fanfan

AU - Pou, Josep

AU - Mukherjee, Suvajit

AU - Dong, Jiaxin

PY - 2023

Y1 - 2023

N2 - DAB converters under triple phase shift (TPS) modulation can broaden the zero voltage switching (ZVS) range to improve efficiency and noise robustness. Conventionally, the piecewise approach and harmonic approach are two commonly used approaches to build analytical models for ZVS conditions under this modulation strategy. However, both two approaches fail to achieve good modeling accuracy as well as low computational cost simultaneously due to heavy human dependence. To solve this problem, this digest proposes a data-driven modeling approach for ZVS analysis (DM-ZVS) for non-resonant DAB converters under the TPS modulation strategy. The data-driven modeling process is conducted with the random forest algorithm automatically using ZVS performance data from simulation tools, greatly mitigating human dependence to improve accuracy and computational efficiency. With the trained data-driven classification model of ZVS, the optimal TPS modulation parameters can be found to ensure the full ZVS range. A design case is given, and 1 kW hardware experiments comprehensively validate the feasibility of the proposed DM-ZVS.

AB - DAB converters under triple phase shift (TPS) modulation can broaden the zero voltage switching (ZVS) range to improve efficiency and noise robustness. Conventionally, the piecewise approach and harmonic approach are two commonly used approaches to build analytical models for ZVS conditions under this modulation strategy. However, both two approaches fail to achieve good modeling accuracy as well as low computational cost simultaneously due to heavy human dependence. To solve this problem, this digest proposes a data-driven modeling approach for ZVS analysis (DM-ZVS) for non-resonant DAB converters under the TPS modulation strategy. The data-driven modeling process is conducted with the random forest algorithm automatically using ZVS performance data from simulation tools, greatly mitigating human dependence to improve accuracy and computational efficiency. With the trained data-driven classification model of ZVS, the optimal TPS modulation parameters can be found to ensure the full ZVS range. A design case is given, and 1 kW hardware experiments comprehensively validate the feasibility of the proposed DM-ZVS.

KW - artificial intelligence

KW - data-driven

KW - efficiency

KW - modeling

KW - triple phase shift modulation

KW - zero voltage switching

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T3 - Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC

SP - 1379

EP - 1383

BT - APEC 2023 - 38th Annual IEEE Applied Power Electronics Conference and Exposition

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 38th Annual IEEE Applied Power Electronics Conference and Exposition, APEC 2023

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ER -

Li X, Lin F, Pou J, Mukherjee S, Dong J. Data-Driven Modeling of Zero Voltage Switching of Non-Resonant DAB Converters under TPS Modulation. In APEC 2023 - 38th Annual IEEE Applied Power Electronics Conference and Exposition. Institute of Electrical and Electronics Engineers Inc. 2023. p. 1379-1383. (Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC). doi: 10.1109/APEC43580.2023.10131519

Data-Driven Modeling of Zero Voltage Switching of Non-Resonant DAB Converters under TPS Modulation

Abstract

Publication series

Conference

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

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Cite this