A branch current reallocation based energy balancing strategy for the Modular multilevel matrix converter operating around equal frequency

Boran Fan; Kui Wang; Chunyang Gu; Pat Wheeler; Yongdong Li

doi:10.1109/IECON.2016.7792966

A branch current reallocation based energy balancing strategy for the Modular multilevel matrix converter operating around equal frequency

Boran Fan, Kui Wang, Chunyang Gu, Pat Wheeler, Yongdong Li

Department of Electrical and Electronic Engineering

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

7 Citations (Scopus)

Abstract

The Modular multilevel matrix converter (M3C) is a promising topology for medium-voltage, high-power applications. Due to the modular structure, it is scalable, produces high quality output waveforms and can be fault tolerant. However, the M3C suffers from capacitor-voltage fluctuation if the output frequency is similar to the input frequency. This problem could limit the circuit's application in the adjustable speed drives (ASD). This paper introduces a theoretical analysis in the phasor-domain to find the branch energy equilibrium point of the M3C when operating with equal input and output frequencies. On the basis of this equilibrium point, a branch current reallocation based energy balancing control method is proposed to equalize the energy stored in the nine converter branches. With this novel control method, the M3C can effectively overcome the capacitor voltage fluctuation without using balancing techniques based on common mode voltage or applying reactive power at the input side.

Original language	English
Title of host publication	Proceedings of the IECON 2016 - 42nd Annual Conference of the Industrial Electronics Society
Publisher	IEEE Computer Society
Pages	3111-3116
Number of pages	6
ISBN (Electronic)	9781509034741
DOIs	https://doi.org/10.1109/IECON.2016.7792966
Publication status	Published - 21 Dec 2016
Event	42nd Conference of the Industrial Electronics Society, IECON 2016 - Florence, Italy Duration: 24 Oct 2016 → 27 Oct 2016

Publication series

Name	IECON Proceedings (Industrial Electronics Conference)

Conference

Conference	42nd Conference of the Industrial Electronics Society, IECON 2016
Country/Territory	Italy
City	Florence
Period	24/10/16 → 27/10/16

Keywords

Energy and balancing control
Equal frequency
Modular multilevel matrix converter (M3C)

ASJC Scopus subject areas

Control and Systems Engineering
Electrical and Electronic Engineering

Access to Document

10.1109/IECON.2016.7792966

Cite this

Fan, B., Wang, K., Gu, C., Wheeler, P., & Li, Y. (2016). A branch current reallocation based energy balancing strategy for the Modular multilevel matrix converter operating around equal frequency. In Proceedings of the IECON 2016 - 42nd Annual Conference of the Industrial Electronics Society (pp. 3111-3116). Article 7792966 (IECON Proceedings (Industrial Electronics Conference)). IEEE Computer Society. https://doi.org/10.1109/IECON.2016.7792966

Fan, Boran ; Wang, Kui ; Gu, Chunyang et al. / A branch current reallocation based energy balancing strategy for the Modular multilevel matrix converter operating around equal frequency. Proceedings of the IECON 2016 - 42nd Annual Conference of the Industrial Electronics Society. IEEE Computer Society, 2016. pp. 3111-3116 (IECON Proceedings (Industrial Electronics Conference)).

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title = "A branch current reallocation based energy balancing strategy for the Modular multilevel matrix converter operating around equal frequency",

abstract = "The Modular multilevel matrix converter (M3C) is a promising topology for medium-voltage, high-power applications. Due to the modular structure, it is scalable, produces high quality output waveforms and can be fault tolerant. However, the M3C suffers from capacitor-voltage fluctuation if the output frequency is similar to the input frequency. This problem could limit the circuit's application in the adjustable speed drives (ASD). This paper introduces a theoretical analysis in the phasor-domain to find the branch energy equilibrium point of the M3C when operating with equal input and output frequencies. On the basis of this equilibrium point, a branch current reallocation based energy balancing control method is proposed to equalize the energy stored in the nine converter branches. With this novel control method, the M3C can effectively overcome the capacitor voltage fluctuation without using balancing techniques based on common mode voltage or applying reactive power at the input side.",

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author = "Boran Fan and Kui Wang and Chunyang Gu and Pat Wheeler and Yongdong Li",

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Fan, B, Wang, K, Gu, C, Wheeler, P & Li, Y 2016, A branch current reallocation based energy balancing strategy for the Modular multilevel matrix converter operating around equal frequency. in Proceedings of the IECON 2016 - 42nd Annual Conference of the Industrial Electronics Society., 7792966, IECON Proceedings (Industrial Electronics Conference), IEEE Computer Society, pp. 3111-3116, 42nd Conference of the Industrial Electronics Society, IECON 2016, Florence, Italy, 24/10/16. https://doi.org/10.1109/IECON.2016.7792966

A branch current reallocation based energy balancing strategy for the Modular multilevel matrix converter operating around equal frequency. / Fan, Boran; Wang, Kui; Gu, Chunyang et al.
Proceedings of the IECON 2016 - 42nd Annual Conference of the Industrial Electronics Society. IEEE Computer Society, 2016. p. 3111-3116 7792966 (IECON Proceedings (Industrial Electronics Conference)).

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

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AU - Gu, Chunyang

AU - Wheeler, Pat

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PY - 2016/12/21

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N2 - The Modular multilevel matrix converter (M3C) is a promising topology for medium-voltage, high-power applications. Due to the modular structure, it is scalable, produces high quality output waveforms and can be fault tolerant. However, the M3C suffers from capacitor-voltage fluctuation if the output frequency is similar to the input frequency. This problem could limit the circuit's application in the adjustable speed drives (ASD). This paper introduces a theoretical analysis in the phasor-domain to find the branch energy equilibrium point of the M3C when operating with equal input and output frequencies. On the basis of this equilibrium point, a branch current reallocation based energy balancing control method is proposed to equalize the energy stored in the nine converter branches. With this novel control method, the M3C can effectively overcome the capacitor voltage fluctuation without using balancing techniques based on common mode voltage or applying reactive power at the input side.

AB - The Modular multilevel matrix converter (M3C) is a promising topology for medium-voltage, high-power applications. Due to the modular structure, it is scalable, produces high quality output waveforms and can be fault tolerant. However, the M3C suffers from capacitor-voltage fluctuation if the output frequency is similar to the input frequency. This problem could limit the circuit's application in the adjustable speed drives (ASD). This paper introduces a theoretical analysis in the phasor-domain to find the branch energy equilibrium point of the M3C when operating with equal input and output frequencies. On the basis of this equilibrium point, a branch current reallocation based energy balancing control method is proposed to equalize the energy stored in the nine converter branches. With this novel control method, the M3C can effectively overcome the capacitor voltage fluctuation without using balancing techniques based on common mode voltage or applying reactive power at the input side.

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Fan B, Wang K, Gu C, Wheeler P, Li Y. A branch current reallocation based energy balancing strategy for the Modular multilevel matrix converter operating around equal frequency. In Proceedings of the IECON 2016 - 42nd Annual Conference of the Industrial Electronics Society. IEEE Computer Society. 2016. p. 3111-3116. 7792966. (IECON Proceedings (Industrial Electronics Conference)). doi: 10.1109/IECON.2016.7792966

A branch current reallocation based energy balancing strategy for the Modular multilevel matrix converter operating around equal frequency

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Keywords

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