Results 1 to 10 of about 328 (258)

Adaptive Deadbeat Predictive Current Control for PMSM With Feed Forward Method [PDF]

open access: yesIEEE Access, 2021
The steady-state error and torque ripple caused by the mismatch or variation of parameters in the deadbeat predictive current control of permanent magnet synchronous motor are presented in this paper.
Kaixuan Yin   +4 more
doaj   +4 more sources

Enhanced Robust Deadbeat Predictive Current Control for PMSM Drives [PDF]

open access: yesIEEE Access, 2019
In permanent-magnet synchronous machine (PMSM) applications, traditional deadbeat predictive current control (DPCC) utilizes the PMSM model to evaluate the expected voltage vector and applies it to the inverter through space vector pulse width modulation
Xin Yuan, Shuo Zhang, Chengning Zhang
doaj   +3 more sources

An improved deadbeat predictive current control for induction motor drives

open access: yesIET Power Electronics, 2023
Deadbeat predictive current control (DPCC) has been widely studied in induction motor drives due to its simple concept, quick response and excellent steady‐state performance.
Xing Wang, Yongchang Zhang, Haitao Yang
doaj   +2 more sources

Deadbeat Predictive Current Control for Circulating Currents Reduction in a Modular Multilevel Converter Based Rail Power Conditioner

open access: yesApplied Sciences, 2020
This paper presents a deadbeat predictive current control methodology to reduce the circulating currents in a modular multilevel converter (MMC) when it operates as a rail power conditioner (RPC) in a conventional railway system-based V/V connection. For
Mohamed Tanta   +5 more
doaj   +3 more sources

A Computationally Efficient Model Predictive Control of Six-Phase Induction Machines Based on Deadbeat Control

open access: yesMachines, 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
doaj   +3 more sources

Deadbeat predictive current control of PMSM drives with an adaptive flux‐weakening controller [PDF]

open access: yesIET Power Electronics, 2022
In practical application, the motor speed may need to be greater than the rated speed, so field‐weakening control is required. However, the conventional flux‐weakening control requires much tuning work, because multiple PI controllers are used.
Shengwen Fan   +4 more
doaj   +2 more sources

Current-Controller-Free Self-Commissioning Scheme for Deadbeat Predictive Control in Parametric Uncertain SPMSM [PDF]

open access: yesIEEE Access, 2021
Deadbeat predictive control (DBPC) requires accurate model parameters in its application, therefore it is difficult to use DBPC for surface mounted permanent magnet synchronous motor (SPMSM) with uncertain motor parameters.
Jiang Long   +4 more
doaj   +2 more sources

Sliding Mode Predictive Current Control of Permanent Magnet Synchronous Motor With Cascaded Variable Rate Sliding Mode Speed Controller

open access: yesIEEE Access, 2022
To solve the problem that the conventional vector control system of permanent magnet synchronous motor is susceptible to motor parameters and load disturbances, a sliding mode predictive current control strategy of permanent magnet synchronous motor with
Limin Hou, Jianhua Ma, Wei Wang
doaj   +1 more source

Hybrid Prediction-Based Deadbeat Control for a High-Performance Shunt Active Power Filter

open access: yesIEEE Access, 2023
This paper proposes a hybrid current predictive deadbeat tracking control method to address the problem that a conventional deadbeat current tracking control has evolved into a deadbeat control in the digital implementation process.
Lili Zhou, Zhen Zhou, Jia Qi, Wei Han
doaj   +1 more source

Generalised predictive current‐mode control of passive front‐end boost‐type converters

open access: yesIET Power Electronics, 2021
In this work, an average current‐mode control strategy based on a generalised predictive control formulation for passive front‐end three‐phase boost‐type converters is proposed.
M. G. Judewicz   +4 more
doaj   +1 more source

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