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Comparative Analysis of PI and ADRC Control through CHIL Real Time Simulations of a DC-DC DAB into a Multi-Terminal MVDC/LVDC Distribution Network

Author

Listed:
  • Riccardo Chiumeo

    (Transmission and Distribution Technologies Department, Ricerca sul Sistema Energetico-RSE S.p.A., Via Rubattino 54, 20134 Milan, Italy)

  • Diego Raggini

    (Transmission and Distribution Technologies Department, Ricerca sul Sistema Energetico-RSE S.p.A., Via Rubattino 54, 20134 Milan, Italy)

  • Alessandro Veroni

    (Transmission and Distribution Technologies Department, Ricerca sul Sistema Energetico-RSE S.p.A., Via Rubattino 54, 20134 Milan, Italy)

  • Alessio Clerici

    (Transmission and Distribution Technologies Department, Ricerca sul Sistema Energetico-RSE S.p.A., Via Rubattino 54, 20134 Milan, Italy)

Abstract

This article presents a deep theoretical analysis of the Active Disturbance Rejection Control (ADRC) regulator for the control of first-order systems, directly compared to a “traditional” Proportional Integral (PI) regulator. To complete the theoretical study, ADRC and PI are implemented into the model of a single-phase Dual Active Bridge (DAB) converter to regulate the voltage of a Direct Current (DC) network. Facing different types of disturbances and DC network parameters variations, strengths and weaknesses of the two controllers are highlighted. ADRC and PI controls are discretized and implemented in Control Hardware In the Loop (CHIL) simulations of a single-phase DAB converter to regulate the voltage of a node of multi-terminal and multi-level DC network. By changing the DAB connection points along the MVDC network, the controlled system is stressed with different disturbances, extending the result of single-terminal network software simulations.

Suggested Citation

  • Riccardo Chiumeo & Diego Raggini & Alessandro Veroni & Alessio Clerici, 2022. "Comparative Analysis of PI and ADRC Control through CHIL Real Time Simulations of a DC-DC DAB into a Multi-Terminal MVDC/LVDC Distribution Network," Energies, MDPI, vol. 15(20), pages 1-32, October.
    • Handle: RePEc:gam:jeners:v:15:y:2022:i:20:p:7631-:d:943562
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    References listed on IDEAS

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    1. Hui Li & Shuang Li & Junwei Lu & Yue Qu & Chenmu Guo, 2019. "A Novel Strategy Based on Linear Active Disturbance Rejection Control for Harmonic Detection and Compensation in Low Voltage AC Microgrid," Energies, MDPI, vol. 12(20), pages 1-24, October.
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    Cited by:

    1. Saeed Golestan & Hessam Golmohamadi & Rakesh Sinha & Florin Iov & Birgitte Bak-Jensen, 2024. "Real-Time Simulation and Hardware-in-the-Loop Testing Based on OPAL-RT ePHASORSIM: A Review of Recent Advances and a Simple Validation in EV Charging Management Systems," Energies, MDPI, vol. 17(19), pages 1-25, September.
    2. Seung-Taek Lim & Ki-Yeon Lee & Dong-Ju Chae & Sung-Hun Lim, 2022. "Design of Mid-Point Ground with Resistors and Capacitors in Mono-Polar LVDC System," Energies, MDPI, vol. 15(22), pages 1-20, November.
    3. Ahmed Abdelhak Smadi & Farid Khoucha & Yassine Amirat & Abdeldjabar Benrabah & Mohamed Benbouzid, 2023. "Active Disturbance Rejection Control of an Interleaved High Gain DC-DC Boost Converter for Fuel Cell Applications," Energies, MDPI, vol. 16(3), pages 1-17, January.
    4. Hui-Yu Jin & Yang Chen, 2023. "First-Order Linear Active Disturbance Rejection Control for Turbofan Engines," Energies, MDPI, vol. 16(6), pages 1-17, March.

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