Results 11 to 20 of about 319 (264)
Machines, 2021 Model predictive current control (MPCC) has recently become a viable alternative for multiphase electric drives, because it easily exploits the inherent advantages of multi-phase machines. However, the prediction in MPCC requires a high number of voltage
João Serra +2 more
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Predictive deadbeat average model control for phase‐shifted full‐bridge DC/DC converter
IET Power Electronics, 2023 Digital current control method is the mainstream method for high‐power DC/DC converters. However, digital controllers require additional filters for noise suppression to ensure their proper operation in the complicated electromagnetic environment.
Yingda Zhu +4 more
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A Review on Predictive Control Technology for Switched Reluctance Motor System
World Electric Vehicle Journal, 2023 The significance of employing control strategies on a switched reluctance motor (SRM) is that they can reduce vibration noise and torque ripple. With the rapid development of digital system processors, predictive control (PC), as a modern control ...
Yiliang Zhu, Ming Yao, Xiaodong Sun
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An Improved Deadbeat Current Controller of PMSM Based on Bilinear Discretization
Machines, 2022 Based on the bilinear discretization mathematical model of permanent magnet synchronous motor (PMSM), an improved incremental deadbeat current prediction control algorithm is proposed.
Lei Zhao +7 more
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An Enhanced Deadbeat Predictive Current Control of SPMSM With Linear Disturbance Observer
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2022 Deadbeat predictive current control (DPCC) with a linear disturbance observer (LDO) in the surface-mounted permanent magnet synchronous machine (SPMSM) has been widely applied in many applications due to better dynamic response performance and easy implementation. However, the evaluated lumped disturbances caused by current measurement noises, inverter
Xin Yuan +5 more
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Performance Analysis of Current Control Strategies for Hybrid Stepper Motors
IEEE Open Journal of the Industrial Electronics Society, 2022 Hybrid stepper motors are widespread in industrial automation due to their robustness and high torque performance in low speed range, e.g. 3D printers, pick and place, and generally in many low power positioning applications.
Fabio Bernardi +5 more
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IET Power Electronics, 2023 Conventional deadbeat predictive current control (DBPCC) based on space vector modulation (SVM) shows quick dynamic responses and a good steady‐state performance in induction motor (IM) drives. However, the motor parameters change during operation due to
Haonan Zhang +3 more
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Overview of Predictive Control Technology for Permanent Magnet Synchronous Motor Systems
Applied Sciences, 2023 Permanent magnet synchronous motors (PMSMs) are commonly used in the automation industry. With the speedy development of digital system processors, predictive control as a modern control scheme has been applied to improve the dynamic performance and work
Jingyao Peng, Ming Yao
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IEEE Access, 2019 In some high-precision control applications, such as defense industry and computerized numerical control machine tools, fast and stable electromagnetic torque response is required to ensure the high dynamic performance of the system, while traditional PI
Xinhua Guo +5 more
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A Fast Response Robust Deadbeat Predictive Current Control for Permanent Magnet Synchronous Motor
Energies, 2021 Deadbeat predictive current control (DBPCC) has the characteristic of fast current response, but it is sensitive to motor parameters. Observer-based DBPCC can eliminate the steady state current tracking error when parameter mismatch exists.
Haowei Nie, Jiaqiang Yang, Rongfeng Deng
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