HiL Platform for Synchronous Reference Frame Impedance Measurement and Stability Assessment of Three-Phase Power Electronics Systems
As the penetration rate of renewable generation has risen in the last decades, power electronics converters are becoming more and more dominant in modern electrical power systems. Three-phase grid-connected converters provide an interface between the utility grid and distributed power sources such a...
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my.uniten.dspace-344572024-10-14T11:19:55Z HiL Platform for Synchronous Reference Frame Impedance Measurement and Stability Assessment of Three-Phase Power Electronics Systems Peng Q. Yang J. Guenter S. Buticchi G. Tan N.M.L. Wheeler P. 57804706700 57216421778 56333447200 6507708268 24537965000 7101693838 current control Delay compensation grid-connected converters more electric aircraft Electric impedance measurement More electric aircraft Power converters System stability Delay compensation Grid-connected converters Hardware in the loops Impedance measurement Measurement assessment Measurements of More electric aircraft Synchronous reference frame Three phase Three phasis Power electronics As the penetration rate of renewable generation has risen in the last decades, power electronics converters are becoming more and more dominant in modern electrical power systems. Three-phase grid-connected converters provide an interface between the utility grid and distributed power sources such as photovoltaic (PV), wind turbines, energy storage systems, etc. Synchronization of these converters are always achieved through Synchronous Reference Frame (SRF). Thus, impedance-based stability analysis under SRF becomes a powerful tool to assess the system stability and optimize the converter design. However, precise measurement of the system impedance can be a difficult task in practice, particularly for high-capacity converters. In this paper, a hardware-in-the-loop (HiL) platform is proposed for measurement of the SRF impedance. Consequently, the impedance of an Active Front End (AFE) converter is measured and compared with the analytical small-signal model. The results show that measurement with the proposed HiL setup provides a powerful and accurate solution for impedance measurement that precludes the need for complete hardware testing. � 2023 The Korean Institute of Power Electronics. Final 2024-10-14T03:19:55Z 2024-10-14T03:19:55Z 2023 Conference Paper 10.23919/ICPE2023-ECCEAsia54778.2023.10213752 2-s2.0-85170643773 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85170643773&doi=10.23919%2fICPE2023-ECCEAsia54778.2023.10213752&partnerID=40&md5=2a87336a7d5951a4fcb9dda6c1889f09 https://irepository.uniten.edu.my/handle/123456789/34457 2099 2104 Institute of Electrical and Electronics Engineers Inc. Scopus |
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current control Delay compensation grid-connected converters more electric aircraft Electric impedance measurement More electric aircraft Power converters System stability Delay compensation Grid-connected converters Hardware in the loops Impedance measurement Measurement assessment Measurements of More electric aircraft Synchronous reference frame Three phase Three phasis Power electronics |
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current control Delay compensation grid-connected converters more electric aircraft Electric impedance measurement More electric aircraft Power converters System stability Delay compensation Grid-connected converters Hardware in the loops Impedance measurement Measurement assessment Measurements of More electric aircraft Synchronous reference frame Three phase Three phasis Power electronics Peng Q. Yang J. Guenter S. Buticchi G. Tan N.M.L. Wheeler P. HiL Platform for Synchronous Reference Frame Impedance Measurement and Stability Assessment of Three-Phase Power Electronics Systems |
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As the penetration rate of renewable generation has risen in the last decades, power electronics converters are becoming more and more dominant in modern electrical power systems. Three-phase grid-connected converters provide an interface between the utility grid and distributed power sources such as photovoltaic (PV), wind turbines, energy storage systems, etc. Synchronization of these converters are always achieved through Synchronous Reference Frame (SRF). Thus, impedance-based stability analysis under SRF becomes a powerful tool to assess the system stability and optimize the converter design. However, precise measurement of the system impedance can be a difficult task in practice, particularly for high-capacity converters. In this paper, a hardware-in-the-loop (HiL) platform is proposed for measurement of the SRF impedance. Consequently, the impedance of an Active Front End (AFE) converter is measured and compared with the analytical small-signal model. The results show that measurement with the proposed HiL setup provides a powerful and accurate solution for impedance measurement that precludes the need for complete hardware testing. � 2023 The Korean Institute of Power Electronics. |
author2 |
57804706700 |
author_facet |
57804706700 Peng Q. Yang J. Guenter S. Buticchi G. Tan N.M.L. Wheeler P. |
format |
Conference Paper |
author |
Peng Q. Yang J. Guenter S. Buticchi G. Tan N.M.L. Wheeler P. |
author_sort |
Peng Q. |
title |
HiL Platform for Synchronous Reference Frame Impedance Measurement and Stability Assessment of Three-Phase Power Electronics Systems |
title_short |
HiL Platform for Synchronous Reference Frame Impedance Measurement and Stability Assessment of Three-Phase Power Electronics Systems |
title_full |
HiL Platform for Synchronous Reference Frame Impedance Measurement and Stability Assessment of Three-Phase Power Electronics Systems |
title_fullStr |
HiL Platform for Synchronous Reference Frame Impedance Measurement and Stability Assessment of Three-Phase Power Electronics Systems |
title_full_unstemmed |
HiL Platform for Synchronous Reference Frame Impedance Measurement and Stability Assessment of Three-Phase Power Electronics Systems |
title_sort |
hil platform for synchronous reference frame impedance measurement and stability assessment of three-phase power electronics systems |
publisher |
Institute of Electrical and Electronics Engineers Inc. |
publishDate |
2024 |
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1814061181290151936 |