Sliding-mode control of phase angle in single-stage resonant inverter using unified phase-shifted modulation

Junfeng Liu; C. D. Xu; Jun Zeng; K. W.Eric Cheng

doi:10.1109/EENG.2016.7845990

Sliding-mode control of phase angle in single-stage resonant inverter using unified phase-shifted modulation

Junfeng Liu
, C. D. Xu
, Jun Zeng
, K. W.Eric Cheng

Research output: Chapter in book / Conference proceeding › Conference article published in proceeding or book › Academic research › peer-review

1 Citation (Scopus)

Abstract

In the view of the outstanding advantage, high frequency AC (HFAC) power distribution system (PDS) has already an extensive application from telecommunication system to electric vehicle. Resonant inverter as the high frequency power source provides fixed frequency output for point of load (POL). The controller designed with ever increasing frequency becomes more complicated, because the robustness and dynamic performance will deteriorate so as to greatly affect the stability of resonant converters. A sliding mode controller of phase angle is proposed for full-bridge series-parallel resonant inverter with unified phase-shift-modulation (PSM). The proposed nonlinear controller can effectively cooperate with the conventional controller of output magnitude to improve system robustness and dynamic performance. Furthermore, a simulation prototype is implemented for performance evaluation with a rated output power of 120W and operation frequency of 25 kHz.

Original language	English
Title of host publication	2016 International Symposium on Electrical Engineering, ISEE 2016
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781509058839
DOIs	https://doi.org/10.1109/EENG.2016.7845990
Publication status	Published - 7 Feb 2017
Event	2016 International Symposium on Electrical Engineering, ISEE 2016 - Hong Kong, Hong Kong Duration: 14 Dec 2016 → …

Publication series

Name	2016 International Symposium on Electrical Engineering, ISEE 2016

Conference

Conference	2016 International Symposium on Electrical Engineering, ISEE 2016
Country/Territory	Hong Kong
City	Hong Kong
Period	14/12/16 → …

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

high frequency
resonant inverter
sliding mode control

ASJC Scopus subject areas

Control and Optimization
Electrical and Electronic Engineering
Energy Engineering and Power Technology
Renewable Energy, Sustainability and the Environment

More information

10.1109/EENG.2016.7845990

Cite this

Liu, J., Xu, C. D., Zeng, J., & Cheng, K. W. E. (2017). Sliding-mode control of phase angle in single-stage resonant inverter using unified phase-shifted modulation. In 2016 International Symposium on Electrical Engineering, ISEE 2016 Article 7845990 (2016 International Symposium on Electrical Engineering, ISEE 2016). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/EENG.2016.7845990

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title = "Sliding-mode control of phase angle in single-stage resonant inverter using unified phase-shifted modulation",

abstract = "In the view of the outstanding advantage, high frequency AC (HFAC) power distribution system (PDS) has already an extensive application from telecommunication system to electric vehicle. Resonant inverter as the high frequency power source provides fixed frequency output for point of load (POL). The controller designed with ever increasing frequency becomes more complicated, because the robustness and dynamic performance will deteriorate so as to greatly affect the stability of resonant converters. A sliding mode controller of phase angle is proposed for full-bridge series-parallel resonant inverter with unified phase-shift-modulation (PSM). The proposed nonlinear controller can effectively cooperate with the conventional controller of output magnitude to improve system robustness and dynamic performance. Furthermore, a simulation prototype is implemented for performance evaluation with a rated output power of 120W and operation frequency of 25 kHz.",

keywords = "high frequency, resonant inverter, sliding mode control",

author = "Junfeng Liu and Xu, \{C. D.\} and Jun Zeng and Cheng, \{K. W.Eric\}",

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doi = "10.1109/EENG.2016.7845990",

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publisher = "Institute of Electrical and Electronics Engineers Inc.",

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Liu, J, Xu, CD, Zeng, J & Cheng, KWE 2017, Sliding-mode control of phase angle in single-stage resonant inverter using unified phase-shifted modulation. in 2016 International Symposium on Electrical Engineering, ISEE 2016., 7845990, 2016 International Symposium on Electrical Engineering, ISEE 2016, Institute of Electrical and Electronics Engineers Inc., 2016 International Symposium on Electrical Engineering, ISEE 2016, Hong Kong, Hong Kong, 14/12/16. https://doi.org/10.1109/EENG.2016.7845990

Sliding-mode control of phase angle in single-stage resonant inverter using unified phase-shifted modulation. / Liu, Junfeng; Xu, C. D.; Zeng, Jun et al.
2016 International Symposium on Electrical Engineering, ISEE 2016. Institute of Electrical and Electronics Engineers Inc., 2017. 7845990 (2016 International Symposium on Electrical Engineering, ISEE 2016).

Research output: Chapter in book / Conference proceeding › Conference article published in proceeding or book › Academic research › peer-review

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AU - Cheng, K. W.Eric

PY - 2017/2/7

Y1 - 2017/2/7

N2 - In the view of the outstanding advantage, high frequency AC (HFAC) power distribution system (PDS) has already an extensive application from telecommunication system to electric vehicle. Resonant inverter as the high frequency power source provides fixed frequency output for point of load (POL). The controller designed with ever increasing frequency becomes more complicated, because the robustness and dynamic performance will deteriorate so as to greatly affect the stability of resonant converters. A sliding mode controller of phase angle is proposed for full-bridge series-parallel resonant inverter with unified phase-shift-modulation (PSM). The proposed nonlinear controller can effectively cooperate with the conventional controller of output magnitude to improve system robustness and dynamic performance. Furthermore, a simulation prototype is implemented for performance evaluation with a rated output power of 120W and operation frequency of 25 kHz.

AB - In the view of the outstanding advantage, high frequency AC (HFAC) power distribution system (PDS) has already an extensive application from telecommunication system to electric vehicle. Resonant inverter as the high frequency power source provides fixed frequency output for point of load (POL). The controller designed with ever increasing frequency becomes more complicated, because the robustness and dynamic performance will deteriorate so as to greatly affect the stability of resonant converters. A sliding mode controller of phase angle is proposed for full-bridge series-parallel resonant inverter with unified phase-shift-modulation (PSM). The proposed nonlinear controller can effectively cooperate with the conventional controller of output magnitude to improve system robustness and dynamic performance. Furthermore, a simulation prototype is implemented for performance evaluation with a rated output power of 120W and operation frequency of 25 kHz.

KW - high frequency

KW - resonant inverter

KW - sliding mode control

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DO - 10.1109/EENG.2016.7845990

M3 - Conference article published in proceeding or book

AN - SCOPUS:85015239681

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BT - 2016 International Symposium on Electrical Engineering, ISEE 2016

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ER -

Liu J, Xu CD, Zeng J, Cheng KWE. Sliding-mode control of phase angle in single-stage resonant inverter using unified phase-shifted modulation. In 2016 International Symposium on Electrical Engineering, ISEE 2016. Institute of Electrical and Electronics Engineers Inc. 2017. 7845990. (2016 International Symposium on Electrical Engineering, ISEE 2016). doi: 10.1109/EENG.2016.7845990

Sliding-mode control of phase angle in single-stage resonant inverter using unified phase-shifted modulation

Abstract

Publication series

Conference

UN SDGs

Keywords

ASJC Scopus subject areas

More information

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