Advanced Single-Phase DSC-Based PLLs

Saeed Golestan; Josep M. Guerrero; Juan C. Vasquez; Abdullah M. Abusorrah; Yusuf Al-Turki

doi:10.1109/TPEL.2018.2856931

Advanced Single-Phase DSC-Based PLLs

Saeed Golestan^*, Josep M. Guerrero, Juan C. Vasquez, Abdullah M. Abusorrah, Yusuf Al-Turki

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

33 Citations (Scopus)

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Abstract

In three-phase systems, using the delayed signal cancelation (DSC) operators is one of the most popular approaches for designing advanced phase-locked loops (PLLs), particularly for applications where a high disturbance rejection ability is demanded. In single-phase systems, however, they have not received a considerable attention. The aim of this paper is to develop advanced DSC-based PLLs for single-phase applications. To this end, three PLLs are designed and presented. The first is based on adaptive DSC operators, and the other two are based on nonadaptive operators. The design aspects of these PLLs are discussed in detail, and their performances are evaluated using experimental results.

Original language	English
Article number	8412605
Journal	IEEE Transactions on Power Electronics
Volume	34
Issue number	4
Pages (from-to)	3226-3238
Number of pages	13
ISSN	0885-8993
DOIs	https://doi.org/10.1109/TPEL.2018.2856931
Publication status	Published - 1 Apr 2019

Keywords

Delayed signal cancelation (DSC)
filters
frequency estimation
phase detection
phase-locked loop (PLL)
single-phase systems
synchronization

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10.1109/TPEL.2018.2856931

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title = "Advanced Single-Phase DSC-Based PLLs",

abstract = "In three-phase systems, using the delayed signal cancelation (DSC) operators is one of the most popular approaches for designing advanced phase-locked loops (PLLs), particularly for applications where a high disturbance rejection ability is demanded. In single-phase systems, however, they have not received a considerable attention. The aim of this paper is to develop advanced DSC-based PLLs for single-phase applications. To this end, three PLLs are designed and presented. The first is based on adaptive DSC operators, and the other two are based on nonadaptive operators. The design aspects of these PLLs are discussed in detail, and their performances are evaluated using experimental results.",

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AU - Golestan, Saeed

AU - Guerrero, Josep M.

AU - Vasquez, Juan C.

AU - Abusorrah, Abdullah M.

AU - Al-Turki, Yusuf

PY - 2019/4/1

Y1 - 2019/4/1

N2 - In three-phase systems, using the delayed signal cancelation (DSC) operators is one of the most popular approaches for designing advanced phase-locked loops (PLLs), particularly for applications where a high disturbance rejection ability is demanded. In single-phase systems, however, they have not received a considerable attention. The aim of this paper is to develop advanced DSC-based PLLs for single-phase applications. To this end, three PLLs are designed and presented. The first is based on adaptive DSC operators, and the other two are based on nonadaptive operators. The design aspects of these PLLs are discussed in detail, and their performances are evaluated using experimental results.

AB - In three-phase systems, using the delayed signal cancelation (DSC) operators is one of the most popular approaches for designing advanced phase-locked loops (PLLs), particularly for applications where a high disturbance rejection ability is demanded. In single-phase systems, however, they have not received a considerable attention. The aim of this paper is to develop advanced DSC-based PLLs for single-phase applications. To this end, three PLLs are designed and presented. The first is based on adaptive DSC operators, and the other two are based on nonadaptive operators. The design aspects of these PLLs are discussed in detail, and their performances are evaluated using experimental results.

KW - Delayed signal cancelation (DSC)

KW - filters

KW - frequency estimation

KW - phase detection

KW - phase-locked loop (PLL)

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Advanced Single-Phase DSC-Based PLLs

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