Overall Adaptive Controller Design of PMSG Under Whole Wind Speed Range: A Perturbation Compensation Based Approach

Chen, Jian; Duan, Wenyong; Yang, Xiaodong; Lan-hong, Zhang; Shan, Yi Xian; Yang, Bo; Shu, Hongchun; An, Na; Yu, Tao

doi:10.3390/pr7100732

Cited by 5 publications

(3 citation statements)

References 50 publications

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“…And when the wind speed fluctuates up and down at the switching point, it cause frequent switching of the control modes, which would cause oscillation of the unit and affect the safety and reliability. The literature [7] proposes an adaptive overall control strategy for a permanent‐magnet synchronous generator (PMSG)‐based wind energy conversion system (WECS) over the entire wind speed range, which achieves the control objective without knowledge of the complete state information and accurate system model. However, this control strategy required the addition of new observers, making the system more complex.…”

Section: Introductionmentioning

confidence: 99%

Switching‐angle‐based hybrid modulation method of full wind speed and low carrier wave ratio for direct‐drive permanent‐magnet wind power generation system

Cheng,

Xu,

et al. 2024

The Journal of Engineering

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A switching‐angle‐based hybrid modulation method of full wind speed and low carrier wave ratio for direct‐drive permanent‐magnet wind power generation system is proposed here, which order to improve the control performance of wind turbines in the full wind speed range. The combination manner of the proposed method is based on the harmonic distortion rate of the stator current, a modulation mode with a higher carrier wave ratio is adopted within the maximum switching frequency allowed by the system, the switching angle from optimized synchronous modulation also is introduced. In order to solve the problem of current impact caused by switching different modulation modes, the switching strategy between different modulation modes is developed from the perspective of harmonic current. And the sectors are redivided for the problem of sudden change in carrier wave ratio during switching, which improve the control effect of permanent‐magnet synchronous wind generator when changing the modulations modes. Finally, the feasibility and correctness of the proposed method are verified by theoretical analysis and simulation.

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Section: Introductionmentioning

confidence: 99%

Switching‐angle‐based hybrid modulation method of full wind speed and low carrier wave ratio for direct‐drive permanent‐magnet wind power generation system

Cheng,

Xu,

et al. 2024

The Journal of Engineering

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“…A model predictive controller design method is proposed for Maximum Power Point Tracking (MPPT) systems based on the DPMSG [12]. The adaptive overall control in the whole wind speed range increases the robustness of the DPMSG-based WPS [13]. The modeling and control methods of the DPMSG-based WPS are compared and analyzed, and the direction of future research is demonstrated in [14].…”

Section: Introductionmentioning

confidence: 99%

Disturbance-Suppression Method of Direct-Driven PMSG-Based Wind Power System in Microgrids

Xu,

Xiu,

et al. 2023

Processes

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In order to solve the current fluctuation problem in microgrids, a suppression method called the Direct-driven Permanent Magnet Synchronous Generator (DPMSG)-based Wind Power System (WPS) based on an adaptive enhanced moving average filter algorithm is proposed. Firstly, the mathematical model of the WPS is established. On this basis, the suppression method under unbalanced conditions is derived by the instantaneous power equation to ensure the stable operation of the microgrid. In order to improve the dynamic compensation capability of the DPMSG-based WPS, an enhanced moving average filtering algorithm with frequency adaptability is proposed. The positive and negative sequence components are obtained in the dq frame by this filtering algorithm. Subsequently, the angular frequency of the microgrid is obtained according to the changing phase, which realizes the high-performance control of the WPS and avoids the complicated parameter adjustment of traditional methods. The correctness of this method is verified by the simulation results. The DPMSG-based WPS with the proposed method can improve the stability of the microgrid.

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“…This DC voltage control system for the DC-link requires voltage sensors to obtain information about the voltage. Energy storage units, such as condensers and batteries, are used to manage the load when a tension and disturbance emerges [9][10][11]. The use of these energy storage units restricts the unified power quality conditioner's (UPQC's) ability to compensate because energy storage capacities are limited.…”

Section: Introductionmentioning

confidence: 99%

Solar PV Sustained Quasi Z-Source Network-Based Unified Power Quality Conditioner for Enhancement of Power Quality

Muthuvel

Vijayakumar²

2020

Energies

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In this article, a Quasi Z-source inverter (QZSI)-based unified power quality conditioner (UPQC) backed by the solar photovoltaic (SPV) is presented in order to enhance power quality. The UPQC consists of converters connected in parallel and series. The active power filters (APFs) connected in parallel and series is one of the versatile custom power circuitries to reduce current and voltage instabilities. The main functions of QZSI can increase the variable direct current (DC) voltage to any given alternating current (AC) output voltage, reduce the necessary elements, and alleviate harmonic content. The UPQC’s compensation function primarily relies on the control system used for the generation of reference current and voltage. The enhanced second order generalized integrator (ESOGI) is used in this proposed system to extract the reference current of QZSI-UPQC. The proposed UPQC uses the SPV system, which has an energy storage unit to offset long-term current and voltage disruptions and fulfill the active power demands of the grid. The experimental results confirm that the proposed SPV-supported QZSI-UPQC generates sinusoidal grid currents of about 1.2% of total harmonic distortion (THD), thus increasing the power efficiency of the interconnected SPV power distribution network.

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Overall Adaptive Controller Design of PMSG Under Whole Wind Speed Range: A Perturbation Compensation Based Approach

Cited by 5 publications

References 50 publications

Switching‐angle‐based hybrid modulation method of full wind speed and low carrier wave ratio for direct‐drive permanent‐magnet wind power generation system

Switching‐angle‐based hybrid modulation method of full wind speed and low carrier wave ratio for direct‐drive permanent‐magnet wind power generation system

Disturbance-Suppression Method of Direct-Driven PMSG-Based Wind Power System in Microgrids

Solar PV Sustained Quasi Z-Source Network-Based Unified Power Quality Conditioner for Enhancement of Power Quality

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