The Design and Dynamic Control of a Unified Power Flow Controller with a Novel Algorithm for Obtaining the Least Harmonic Distortion

Nkembi, Armel Asongu; Delmonte, Nicola; Cova, Paolo; Hoang, Minh Long

doi:10.3390/electronics13050877

Electronics

2024

DOI: 10.3390/electronics13050877

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The Design and Dynamic Control of a Unified Power Flow Controller with a Novel Algorithm for Obtaining the Least Harmonic Distortion

Armel Asongu Nkembi,

Nicola Delmonte,

Paolo Cova

et al.

Abstract: This study investigates the control and dynamic operation of the Unified Power Flow Controller made of shunt and series converters, a Static Synchronous Compensator, and a Static Synchronous Series Compensator, respectively, connected back-to-back through a common DC-link capacitor. The model of a 48-pulse Voltage Source Converter is constructed from a three-level Neutral Point Clamped converter, which allows the total harmonic distortion to be reduced. An optimal conduction angle tracking system of the three-… Show more

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Cited by 2 publications

References 25 publications

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An RFCSO-based grid stability enhancement by integrating solar photovoltaic systems with multilevel unified power flow controllers

Indukuri,

Singh,

Vijaya Kumar

2024

Energy Storage and Saving

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An RFCSO-based grid stability enhancement by integrating solar photovoltaic systems with multilevel unified power flow controllers

Indukuri,

Singh,

Vijaya Kumar

2024

Energy Storage and Saving

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A Novel Linear-Based Closed-Loop Control and Analysis of Solid-State Transformer

Cavdar,

Ozcira Ozkilic

2024

Electronics

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In this paper, a new linear-based closed-loop control method for a Solid-State Transformer (SST) has been proposed. In this new control method, individual current and voltage loops for each of the power conversion stages (AC-DC, DC-DC, DC-AC) are implemented. The feedback between the input and output control signals for each loop is achieved through the voltage on the DC link capacitors and the current transferred between the converters. This enables the SST to be controlled easily in a linear-based closed-loop manner without the need for complex computations. In order to evaluate the performance analysis of the proposed control system, a simulation of an SST with approximately 10 kVA apparent power was performed. Based on the obtained simulation results, the response time of the proposed control method for dynamic load variations was proved to be in the range of 40 milliseconds, and it has been observed that this method allows electrical power to be transferred from the load to the grid. The power factor value of SST under inductive load is measured to be approximately 99%, and the overall system efficiency is 96% and above, indicating that this proposed new control method has very high performance.

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The Design and Dynamic Control of a Unified Power Flow Controller with a Novel Algorithm for Obtaining the Least Harmonic Distortion

Cited by 2 publications

References 25 publications

An RFCSO-based grid stability enhancement by integrating solar photovoltaic systems with multilevel unified power flow controllers

An RFCSO-based grid stability enhancement by integrating solar photovoltaic systems with multilevel unified power flow controllers

A Novel Linear-Based Closed-Loop Control and Analysis of Solid-State Transformer

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