Thibaut Harzig scite author profile

Thibaut Harzig

4Publications

4Citation Statements Received

232Citation Statements Given

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226

Affiliations

Electric Power Research Institute, University of Pittsburgh

Publications

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System Frequency Dynamic Response of a Novel, Self-Synchronizing Inverter in a High Renewable Penetration Grid

Perenyi

Alqatamin

Harzig

et al. 2020

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In this thesis, a controller achieving current tracking objective without knowledge of the grid parameters is developed. An estimated rotating reference frame (γδ-frame) is utilized. Within the control scheme, adaptive compensation terms facilitate the current tracking objective and, simultaneously, accounts for the unavailable grid voltage magnitude, grid frequency, and grid phase, hence eliminating the need for an additional measurement and feedback system for synchronization, such as a Phase-Locked Loop (PLL). System frequency behavior using the controller in a high-renewable (low-inertia) grid indicates that the monitored performance metrics are significantly improved when compared to PLL-controlled, inverter-dominated grids. v Table of Contents Acknowledgements .

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Finite Control Set Model Predictive Control of a Photovoltaic Differential Power Processing System

Harzig

Grainger

2022

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Symmetrical Component Model for a Transformerless, Grid-Tied Current Controlled Inverter under Unbalanced Conditions

Harzig

Hassan

Grainger

2019

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Design of a Grid-Forming, Multi-Loop Control Scheme for Parallel Connected Three-Phase Quasi-Z-Source Inverters

Emes

Harzig

Grainger

2020

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The quasi-Z-source inverter has been the subject of numerous power electronics publications since its invention in the early 2000s. While often applied as an interface for renewable energies such as wind and PV, there is a lack of literature where the qZSI functions in a grid-forming role. The goal of this work is to design and implement a control scheme for a 3phase qZSI in order to enable it to operate in a grid-forming role. The qZSI is analyzed in great detail and compared to a conventional voltage source inverter scheme that is commonly used in renewable energy interfaces. Literature is presented to demonstrate the need for current programed mode (CPM) control for the dc side of the qZSI, and the control scheme is compared to a common control scheme used for boost converters. Then, recent literature is presented to support why the universal droop control (UDC) scheme was chosen for the ac-side control for this work. After contextualizing the design of the overall qZSI control scheme, the final control scheme is presented, which utilizes CPM indirect control on the dc-side, and UDC on the ac side. The stability and dynamic response of the system is analyzed in detail for the chosen gains and component values. Through PLECS simulations, the qZSI system presented in this work demonstrated its ability to operate in a grid-forming role and potentially superior performance when compared to conventional VSI systems. While a much more optimized design approach is needed for both the qZSI and VSI to truly compare the two systems, this work demonstrates that the qZSI is more than v capable of operating in a grid-forming role. It handles large step changes in load and input voltage with quick rise times and good damping, and exhibits quick and stable responses when operating in parallel with other inverters. This work concludes with some considerations for future work on this topic. vi

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Thibaut Harzig

System Frequency Dynamic Response of a Novel, Self-Synchronizing Inverter in a High Renewable Penetration Grid

Finite Control Set Model Predictive Control of a Photovoltaic Differential Power Processing System

Symmetrical Component Model for a Transformerless, Grid-Tied Current Controlled Inverter under Unbalanced Conditions

Design of a Grid-Forming, Multi-Loop Control Scheme for Parallel Connected Three-Phase Quasi-Z-Source Inverters

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