Running DFT-Based PLL Algorithm for Frequency, Phase, and Amplitude Tracking in Aircraft Electrical Systems

Phase-locked loop (PLL) algorithms are commonly used to track sinusoidal components in currents and voltage signals in three-phase power systems. Despite the simplicity of those algorithms, problems arise when signals have variable frequency or amplitude, or are polluted with harmonic content and me...

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Published in	IEEE transactions on industrial electronics (1982) Vol. 58; no. 3; pp. 1027 - 1035
Main Authors	Cupertino, Francesco, Lavopa, Elisabetta, Zanchetta, Pericle, Sumner, Mark, Salvatore, Luigi
Format	Journal Article
Language	English
Published	New York IEEE 01.03.2011 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Active filters Aircraft Aircraft components aircraft power systems Algorithms Amplitudes Discrete Fourier transforms discrete Fourier transforms (DFTs) Electric potential Electric power generation Estimates Fourier transforms Frequency estimation Phase estimation Phase locked loops phase-locked loops (PLLs) Pollution Power system harmonics Power system measurements Resonant frequency Tracking loops Voltage
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ISSN	0278-0046 1557-9948
DOI	10.1109/TIE.2010.2048293

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Abstract	Phase-locked loop (PLL) algorithms are commonly used to track sinusoidal components in currents and voltage signals in three-phase power systems. Despite the simplicity of those algorithms, problems arise when signals have variable frequency or amplitude, or are polluted with harmonic content and measurement noise, as can be found in aircraft ac power systems where the fundamental frequency can vary in the range 360-900 Hz. To improve the quality of phase and frequency estimates in such power systems, a novel PLL scheme based on a real-time implementation of the discrete Fourier transform (DFT) is presented in this paper. The DFT algorithm calculates the amplitudes of three consecutive components in the frequency domain. These components are used to determine an error signal which is minimized by a proportional-integral loop filter in order to estimate the fundamental frequency. The integral of the estimated frequency is the estimated phase of the fundamental component, and this is fed back to the DFT algorithm. The proposed algorithm can therefore be considered to be a PLL in which phase detection is performed via a DFT-based algorithm. A comparison has been made of the performances of a standard PLL and the proposed DFT-PLL using computer simulations and through experiments.
AbstractList	Phase-locked loop (PLL) algorithms are commonly used to track sinusoidal components in currents and voltage signals in three-phase power systems. Despite the simplicity of those algorithms, problems arise when signals have variable frequency or amplitude, or are polluted with harmonic content and measurement noise, as can be found in aircraft ac power systems where the fundamental frequency can vary in the range 360-900 Hz. To improve the quality of phase and frequency estimates in such power systems, a novel PLL scheme based on a real-time implementation of the discrete Fourier transform (DFT) is presented in this paper. The DFT algorithm calculates the amplitudes of three consecutive components in the frequency domain. These components are used to determine an error signal which is minimized by a proportional-integral loop filter in order to estimate the fundamental frequency. The integral of the estimated frequency is the estimated phase of the fundamental component, and this is fed back to the DFT algorithm. The proposed algorithm can therefore be considered to be a PLL in which phase detection is performed via a DFT-based algorithm. A comparison has been made of the performances of a standard PLL and the proposed DFT-PLL using computer simulations and through experiments.
Author	Lavopa, Elisabetta Cupertino, Francesco Sumner, Mark Zanchetta, Pericle Salvatore, Luigi
Author_xml	– sequence: 1 givenname: Francesco surname: Cupertino fullname: Cupertino, Francesco email: cupertino@poliba.it organization: Tech. Univ. of Bari, Bari, Italy – sequence: 2 givenname: Elisabetta surname: Lavopa fullname: Lavopa, Elisabetta email: eexell@nottingham.ac.uk organization: Univ. of Nottingham, Nottingham, UK – sequence: 3 givenname: Pericle surname: Zanchetta fullname: Zanchetta, Pericle organization: Univ. of Nottingham, Nottingham, UK – sequence: 4 givenname: Mark surname: Sumner fullname: Sumner, Mark organization: Univ. of Nottingham, Nottingham, UK – sequence: 5 givenname: Luigi surname: Salvatore fullname: Salvatore, Luigi organization: Tech. Univ. of Bari, Bari, Italy
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SubjectTerms	Active filters Aircraft Aircraft components aircraft power systems Algorithms Amplitudes Discrete Fourier transforms discrete Fourier transforms (DFTs) Electric potential Electric power generation Estimates Fourier transforms Frequency estimation Phase estimation Phase locked loops phase-locked loops (PLLs) Pollution Power system harmonics Power system measurements Resonant frequency Tracking loops Voltage
Title	Running DFT-Based PLL Algorithm for Frequency, Phase, and Amplitude Tracking in Aircraft Electrical Systems
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