Linear Active Disturbance Rejection Control Strategy with Known Disturbance Compensation for Voltage-Controlled Inverter

Li, Yang; Qi, Rong; Dai, Ming‐Zhe; Zhang, Xi; Zhao, Yuhong

doi:10.3390/electronics10101137

Cited by 2 publications

(1 citation statement)

References 33 publications

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“…It enables the control structure with two degrees of freedom (2DOF), one of which is used to regulate the tracking performance and the other to compensate for the uncertainty/disturbance [8]. The disturbance estimation techniques, such as the disturbance observer [9], the uncertain disturbance estimator [10] and the extended state observer (ESO) in active disturbance rejection control (ADRC) [11], have been successfully applied in different fields, including three-phase inverter [12] and single-phase inverter systems [13]. As a fundamental part of ADRC, the ESO estimates the generalized disturbances, which lump together both unknown dynamics and disturbance, and only requires consideration of the system's relative degree instead of the accurate model [7].…”

Section: Introductionmentioning

confidence: 99%

SRFPI-LADRC Based Control Strategy for Off-Grid Single-Phase Inverter: Design, Analysis, and Verification

Lin

Zhu

et al. 2023

Electronics

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Linear active disturbance rejection control (LADRC) has been extensively used in various areas due to its excellent disturbance suppression capability. When LADRC is applied to a single-phase inverter for tracking a sinusoidal reference signal, there is an inherent tracking inaccuracy problem. The steady-state error can be removed with the synchronous reference frame proportional-integral (SRFPI) control, which generates two orthogonal signals. In this paper, a modified control method based on compound SRFPI and LADRC for an off-grid single-phase inverter is put forward, where both of the two output signals of SRFPI are employed as the reference signals of LADRC. Furthermore, a selective harmonic compensation (HC) method is performed by paralleling multiple SRFPI controllers to further reduce the selective harmonic components. Detailed theoretical analyses including system stability, robustness, performance of voltage tracking error and disturbance rejection are presented, which indicate that this organic combination fuses the merits of both SRFPI and LADRC without complicating the control design. Additionally, contrast experiments are conducted to demonstrate its effectiveness and superiority. These findings demonstrate that the system realizes a slight voltage tracking error and steady-state error, rapid dynamic response, and low total harmonic distortion (THD), especially under highly nonlinear load conditions.

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Section: Introductionmentioning

confidence: 99%

SRFPI-LADRC Based Control Strategy for Off-Grid Single-Phase Inverter: Design, Analysis, and Verification

Lin

Zhu

et al. 2023

Electronics

View full text Add to dashboard Cite

show abstract

Linear Active Disturbance Rejection Control Strategy with Known Disturbance Compensation for Voltage-Controlled Inverter

Cited by 2 publications

References 33 publications

SRFPI-LADRC Based Control Strategy for Off-Grid Single-Phase Inverter: Design, Analysis, and Verification

SRFPI-LADRC Based Control Strategy for Off-Grid Single-Phase Inverter: Design, Analysis, and Verification

Composite control of single-phase inverter based on SRFPI and reduced-order LADRC

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