A Synchronverter-Based Magnitude Phase-Locked Loop

Pietro Lorenzetti; Florian Reissner; George Weiss

doi:10.1109/TCST.2024.3433228

A Synchronverter-Based Magnitude Phase-Locked Loop

Pietro Lorenzetti^*, Florian Reissner, George Weiss

^*Corresponding author for this work

School of Electrical Engineering

Université de Lorraine

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

1 Scopus citations

Abstract

A magnitude phase-locked loop (MPLL) is a system that synchronizes its output signal in frequency, phase, and magnitude with the dominant sinusoidal component of its input signal. We propose a novel MPLL design based on the model of a synchronverter [i.e., an inverter that behaves toward the power grid like a synchronous generator (SG)]. The synchronverter model is detached from its usual three-phase power electronics environment and transformed into a (single phase) MPLL with a wide pull-in range and great noise rejection properties. We prove synchronization under reasonable conditions. Extensive simulation results are provided to validate its performance and to compare it with existing solutions.

Original language	English
Pages (from-to)	32-47
Number of pages	16
Journal	IEEE Transactions on Control Systems Technology
Volume	33
Issue number	1
DOIs	https://doi.org/10.1109/TCST.2024.3433228
State	Published - 2025

Funding

Funders	Funder number
Israel Science Foundation	2802/21
European Commission	861398

Keywords

Magnitude phase-locked loop (MPLL)
pendulum equation
singular perturbations
synchronization
synchronverter
virtual synchronous machine

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10.1109/TCST.2024.3433228

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AB - A magnitude phase-locked loop (MPLL) is a system that synchronizes its output signal in frequency, phase, and magnitude with the dominant sinusoidal component of its input signal. We propose a novel MPLL design based on the model of a synchronverter [i.e., an inverter that behaves toward the power grid like a synchronous generator (SG)]. The synchronverter model is detached from its usual three-phase power electronics environment and transformed into a (single phase) MPLL with a wide pull-in range and great noise rejection properties. We prove synchronization under reasonable conditions. Extensive simulation results are provided to validate its performance and to compare it with existing solutions.

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A Synchronverter-Based Magnitude Phase-Locked Loop

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