Hysteresis band current controller based field-oriented control for an induction motor driven by a direct matrix converter

Zhang, Jianwei; Li, Li; Dorrell, David G.

doi:10.1109/iecon.2017.8216798

Cited by 14 publications

(10 citation statements)

References 18 publications

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“…In HBCC as a control method, in order for generating switching signals, actual compensation current and reference compensation current are combined on a hysteresis band. With this non-linear current controlling technique, the continuous tracking of the output current of the inverter within a certain band is ensured [32].…”

Section: Hysteresis Band Current Control (Hbcc)mentioning

confidence: 99%

Performing reactive power compensation of three-phase induction motor by using parallel active power filter

Karaman

Gündoğdu

Cebecı

2020

International Advanced Researches and Engineering Journal

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Nowadays, the problem of power quality increases day by day. Harmonic current and reactive power are the important factors disturbing the power quality. The induction motors draw both harmonic current and reactive power from the grid. Reactive power and harmonic current lead to heat losses and decrease in the efficiency of the transmission lines. Passive and active filter applications have been used to solve these problems. There are some disadvantages of passive filters. Large physical dimensions and resonance with load can be shown as examples for these disadvantages. Therefore, the application areas of Active Power Filter (APF) are rapidly developing due to the fact that they can be applied together with harmonic and reactive power compensation as appropriate control methods. This paper proposes a MATLAB/Simulink simulation to perform power factor correction and reactive power compensation of three-phase induction motor by using three-phase Parallel Active Power Filter (PAPF). In order to generate PAPF’s reference currents the Sine Multiplication Technique (SMT) is used. Simulation studies are presented to be able to assess the performances under different motor operating conditions. The proposed hysteresis controller based PAPF filter makes the power factor up to 1 and the reactive power compensation of the three-phase induction motor.

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Section: Hysteresis Band Current Control (Hbcc)mentioning

confidence: 99%

Performing reactive power compensation of three-phase induction motor by using parallel active power filter

Karaman

Gündoğdu

Cebecı

2020

International Advanced Researches and Engineering Journal

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“…The field-oriented control (FOC) allows a natural decoupling between the speed and flux amplitude. However, the parameter variations and the high operation speed cause loss decoupling [12][13][14].…”

Section: Introductionmentioning

confidence: 99%

Feedback linearization associated to a sliding mode controller for an operating with unity power factor of induction motor fed by matrix converter

Dendouga

2020

SN Appl. Sci.

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In order to achieve a high performance and to ensure an operation with a unit power factor with respect to imposed reference signals, the input-output feedback linearization technique with a sliding mode controller was proposed to control the induction motor fed by matrix converter drive system. In addition, the direct space vector modulation strategy is adopted to control the matrix converter to minimize the switching losses. On the other hand, a damped input filter has been used to reduce the harmonic total distortion rate injected to the grid. Moreover, the topology and the optimization method for parameter calculation of the input filter are also clarified. The robustness of the proposed control strategy for the drive system was tested and validated by a simulation study.Keywords Damped RLC input filter · Direct space vector modulation · Feedback linearization · Matrix converter fed induction motor drive system · Sliding mode controller · Unity power factor operation * Abdelhakim Dendouga, hakimdendouga@yahoo.fr |

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“…In academia, many control techniques have been researched for MCs [5,6]. These mainly include the Venturini method [7,8], space vector modulation [9,10], direct torque control [11,12], hysteresis control [13,14], and model predictive control (MPC) [15][16][17][18]. The performance comparison of these control techniques is summarized in Table 2.…”

Section: Introductionmentioning

confidence: 99%

Sequential Model Predictive Control of Three-Phase Direct Matrix Converter

Zhang

Norambuena

et al. 2019

Energies

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The matrix converter (MC) is a promising converter that performs the direct AC-to-AC conversion. Model predictive control (MPC) is a simple and powerful tool for power electronic converters, including the MC. However, weighting factor design and heavy computational burden impose significant challenges for this control strategy. This paper investigates the generalized sequential MPC (SMPC) for a three-phase direct MC. In this control strategy, each control objective has an individual cost function and these cost functions are evaluated sequentially based on priority. The complex weighting factor design process is not required. Compared with the standard MPC, the computation burden is reduced because only the pre-selected switch states are evaluated in the second and subsequent sequential cost functions. In addition, the prediction model computation for the following cost functions is also reduced. Specifying the priority for control objectives can be achieved. A comparative study with traditional MPC is carried out both in simulation and an experiment. Comparable control performance to the traditional MPC is achieved. This controller is suitable for the MC because of the reduced computational burden. Simulation and experimental results verify the effectiveness of the proposed strategy.

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Hysteresis band current controller based field-oriented control for an induction motor driven by a direct matrix converter

Cited by 14 publications

References 18 publications

Performing reactive power compensation of three-phase induction motor by using parallel active power filter

Performing reactive power compensation of three-phase induction motor by using parallel active power filter

Feedback linearization associated to a sliding mode controller for an operating with unity power factor of induction motor fed by matrix converter

Sequential Model Predictive Control of Three-Phase Direct Matrix Converter

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