Enhanced Single-phase Phase Locked Loop based on Complex-Coefficient Filter

Samir Gautam; Weidong  Xiao; Hafiz Ahmed; Dylan Dah-Chuan Lu

doi:10.1109/TIM.2022.3147891

Enhanced Single-phase Phase Locked Loop based on Complex-Coefficient Filter

Samir Gautam, Weidong Xiao, Hafiz Ahmed, Dylan Dah-Chuan Lu

School of Computer Science & Engineering

University of Technology, Sydney

Research output: Contribution to journal › Article › peer-review

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Abstract

Complex coefficient filters (CCFs) are widely used for phase-locked loop (PLL) in three-phase power systems, while its usage is largely sparse in the single-phase domain. Single-phase CCF-PLLs so far reported in the literature do not yield satisfactory performances at off-nominal frequency conditions, which is a crucial PLL attribute. Whether they are a suitable filtering technique of choice for single-phase PLL is yet to be formally documented in a methodological way. In this regard, this article derives an enhanced version of the single-phase CCF-PLL (ECCF-PLL), which is able to provide accurate estimation of grid parameters in dynamically changing grid frequency environment. The proposed ECCF-PLL is then numerically and experimentally compared with few other single-phase PLLs to gauge its efficacy and suitability. The test shows the advantage of harmonic robustness from ECCF-PLL, which is specifically useful in a weak grid

Original language	English
Article number	9001408
Journal	IEEE Transactions on Instrumentation and Measurement
Volume	71
Early online date	31 Jan 2022
DOIs	https://doi.org/10.1109/TIM.2022.3147891
Publication status	Published - 2022

Keywords

Complex coefficient filter (CCF)
grid interconnection
phase locked loop (PLL)
single-phase system
synchronization

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10.1109/TIM.2022.3147891

Enhanced_Single-phase_Phase_Locked_Loop_based_on_Complex-Coefficient_FilterAccepted author manuscript, 65.9 MB

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title = "Enhanced Single-phase Phase Locked Loop based on Complex-Coefficient Filter",

abstract = "Complex coefficient filters (CCFs) are widely used for phase-locked loop (PLL) in three-phase power systems, while its usage is largely sparse in the single-phase domain. Single-phase CCF-PLLs so far reported in the literature do not yield satisfactory performances at off-nominal frequency conditions, which is a crucial PLL attribute. Whether they are a suitable filtering technique of choice for single-phase PLL is yet to be formally documented in a methodological way. In this regard, this article derives an enhanced version of the single-phase CCF-PLL (ECCF-PLL), which is able to provide accurate estimation of grid parameters in dynamically changing grid frequency environment. The proposed ECCF-PLL is then numerically and experimentally compared with few other single-phase PLLs to gauge its efficacy and suitability. The test shows the advantage of harmonic robustness from ECCF-PLL, which is specifically useful in a weak grid",

keywords = "Complex coefficient filter (CCF), grid interconnection, phase locked loop (PLL), single-phase system, synchronization",

author = "Samir Gautam and Weidong Xiao and Hafiz Ahmed and Lu, \{Dylan Dah-Chuan\}",

year = "2022",

doi = "10.1109/TIM.2022.3147891",

language = "English",

volume = "71",

journal = "IEEE Transactions on Instrumentation and Measurement ",

issn = "1557-9662",

publisher = "IEEE",

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TY - JOUR

T1 - Enhanced Single-phase Phase Locked Loop based on Complex-Coefficient Filter

AU - Gautam, Samir

AU - Xiao, Weidong

AU - Ahmed, Hafiz

AU - Lu, Dylan Dah-Chuan

PY - 2022

Y1 - 2022

N2 - Complex coefficient filters (CCFs) are widely used for phase-locked loop (PLL) in three-phase power systems, while its usage is largely sparse in the single-phase domain. Single-phase CCF-PLLs so far reported in the literature do not yield satisfactory performances at off-nominal frequency conditions, which is a crucial PLL attribute. Whether they are a suitable filtering technique of choice for single-phase PLL is yet to be formally documented in a methodological way. In this regard, this article derives an enhanced version of the single-phase CCF-PLL (ECCF-PLL), which is able to provide accurate estimation of grid parameters in dynamically changing grid frequency environment. The proposed ECCF-PLL is then numerically and experimentally compared with few other single-phase PLLs to gauge its efficacy and suitability. The test shows the advantage of harmonic robustness from ECCF-PLL, which is specifically useful in a weak grid

AB - Complex coefficient filters (CCFs) are widely used for phase-locked loop (PLL) in three-phase power systems, while its usage is largely sparse in the single-phase domain. Single-phase CCF-PLLs so far reported in the literature do not yield satisfactory performances at off-nominal frequency conditions, which is a crucial PLL attribute. Whether they are a suitable filtering technique of choice for single-phase PLL is yet to be formally documented in a methodological way. In this regard, this article derives an enhanced version of the single-phase CCF-PLL (ECCF-PLL), which is able to provide accurate estimation of grid parameters in dynamically changing grid frequency environment. The proposed ECCF-PLL is then numerically and experimentally compared with few other single-phase PLLs to gauge its efficacy and suitability. The test shows the advantage of harmonic robustness from ECCF-PLL, which is specifically useful in a weak grid

KW - Complex coefficient filter (CCF)

KW - grid interconnection

KW - phase locked loop (PLL)

KW - single-phase system

KW - synchronization

U2 - 10.1109/TIM.2022.3147891

DO - 10.1109/TIM.2022.3147891

M3 - Article

SN - 1557-9662

VL - 71

JO - IEEE Transactions on Instrumentation and Measurement

JF - IEEE Transactions on Instrumentation and Measurement

M1 - 9001408

ER -

Enhanced Single-phase Phase Locked Loop based on Complex-Coefficient Filter

Abstract

Keywords

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