Litcius/Paper detail

A Third-Order MAF Based QT1-PLL That is Robust Against Harmonically Distorted Grid Voltage With Frequency Deviation

Mohamed Mellouli, Mahmoud Hamouda, Jaleleddine Ben Hadj Slama, Kamal Al‐Haddad

2021IEEE Transactions on Energy Conversion41 citationsDOI

Abstract

The quasi-type-l phase-locked loop (QT1-PLL) is a grid synchronization technique that has become very popular in recent years thanks to its attractive performance such as easy implementation, fast dynamic response, and good accuracy in steady-state operation. However, it is still vulnerable to operation under harmonically distorted grid voltages with frequency drift. This paper proposes a novel QT1-PLL based synchronization algorithm that makes an appropriate combination of two filters’ types: an in-loop third-order moving average filter (MAF) with a reduced window width, and a simplified second-order fast delayed signal cancellation (FDSC) based prefiltering stage. The proposed PLL is named third-order MAF based QT1-PLL (TQT1-PLL). Though both TQT1-PLL's filters do not need any adaptive algorithm, it is able to reject non-triplen odd-harmonics and the fundamental frequency negative sequence (FFNS) even under grid frequency drift. Its correct operation is confirmed through numerical simulations and real-time implementation on a digital signal processor (DSP). Moreover, the obtained results confirm its ability to reduce the ripple in the estimated frequency and phase under distorted grid voltages and off-nominal frequency operation. Authors show also through an analytical development that the topology of the proposed TQT1-PLL can be extended to enable the rejection of the DC-offset.

Topics & Concepts

Phase-locked loopHarmonicsPLL multibitControl theory (sociology)Frequency deviationRippleComputer scienceFrequency gridGridFundamental frequencyVoltageAutomatic frequency controlElectronic engineeringLow-pass filterFrequency multiplierSynchronization (alternating current)Filter (signal processing)Topology (electrical circuits)Bandwidth (computing)EngineeringMathematicsPhysicsElectrical engineeringTelecommunicationsJitterAcousticsControl (management)Computer visionArtificial intelligenceGeometryMicrogrid Control and OptimizationIslanding Detection in Power SystemsPower Systems and Renewable Energy