Dual-sequence current controllers of voltage source converters (VSCs) feature two separate rotating reference frames (RRFs), commonly named dq frames, and rely on techniques that isolate the positive and negative sequences of three-phase measurements. One of these techniques is the delayed signal cancellation (DSC). It is performed in the stationary reference frame (SRF), also known as αβ frame. The DSC combines old values of one axis with new values of the other axis of the SRF. The results are, then, transformed into the RRFs for use in the current controller. This filtering process introduces an extra layer of complexity for dual-sequence current controllers, which could otherwise operate solely in the RRFs. This paper introduces a frequency adaptive DSC method that operates directly in the RRF. Moreover, an averaging of two of the proposed DSC filters with contiguous integer delays is employed for reducing discretization errors caused by grid frequency excursions. A formal proof of the equivalence between the αβ and dq DSC methods is presented. Furthermore, computer simulations of a case study support the interpretation of the results.

Dual Sequence Controller with Delayed Signal Cancellation in the Rotating Reference Frame / Dos Santos Mota, Daniel; Alves, Erick Fernando; Tedeschi, Elisabetta. - (2021), pp. 1-8. (Intervento presentato al convegno COMPEL 2021 tenutosi a Cartagena, Colombia nel 2nd-5th November 2021) [10.1109/COMPEL52922.2021.9646023].

Dual Sequence Controller with Delayed Signal Cancellation in the Rotating Reference Frame

Tedeschi, Elisabetta
Ultimo
2021-01-01

Abstract

Dual-sequence current controllers of voltage source converters (VSCs) feature two separate rotating reference frames (RRFs), commonly named dq frames, and rely on techniques that isolate the positive and negative sequences of three-phase measurements. One of these techniques is the delayed signal cancellation (DSC). It is performed in the stationary reference frame (SRF), also known as αβ frame. The DSC combines old values of one axis with new values of the other axis of the SRF. The results are, then, transformed into the RRFs for use in the current controller. This filtering process introduces an extra layer of complexity for dual-sequence current controllers, which could otherwise operate solely in the RRFs. This paper introduces a frequency adaptive DSC method that operates directly in the RRF. Moreover, an averaging of two of the proposed DSC filters with contiguous integer delays is employed for reducing discretization errors caused by grid frequency excursions. A formal proof of the equivalence between the αβ and dq DSC methods is presented. Furthermore, computer simulations of a case study support the interpretation of the results.
2021
2021 IEEE 22nd Workshop on Control and Modelling of Power Electronics
Piscataway, New Jersey, United States
Institute of Electrical and Electronics Engineers Inc.
978-1-6654-3635-9
978-1-6654-3636-6
Dos Santos Mota, Daniel; Alves, Erick Fernando; Tedeschi, Elisabetta
Dual Sequence Controller with Delayed Signal Cancellation in the Rotating Reference Frame / Dos Santos Mota, Daniel; Alves, Erick Fernando; Tedeschi, Elisabetta. - (2021), pp. 1-8. (Intervento presentato al convegno COMPEL 2021 tenutosi a Cartagena, Colombia nel 2nd-5th November 2021) [10.1109/COMPEL52922.2021.9646023].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/335682
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