• Title/Summary/Keyword: direct vector control

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Direct Stator Flux Vector Control Strategy for IPMSM using a Full-order State Observer

  • Yuan, Qingwei;Zeng, Zhiyong;Zhao, Rongxiang
    • Journal of Electrical Engineering and Technology
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    • v.12 no.1
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    • pp.236-248
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    • 2017
  • A direct stator flux vector control scheme in discrete-time domain is proposed in this paper for the interior permanent magnet synchronous motor (IPMSM) drive to remove the proportional-integral (PI) controller from the direct torque control (DTC) scheme applied to IPMSM and to obtain faster dynamic response and lower torque ripple output. The output of speed outer loop is used as the desired torque angle instead of the desired torque in the proposed scheme. The desired stator flux vector in dq coordinate is calculated with a given amplitude. The state-space equations in discrete-time for IPMSM are established, the actual stator flux vector is estimated in deadbeat manner by a full-order state observer, and then the closed-loop control is achieved by the pole placement. The stator flux error vector is utilized to calculate the reference stator voltage vector. Extracting the angle position and amplitude from the estimated stator flux vector and estimating the output torque are eliminated for the direct feedback control of the stator flux vector. The proposed scheme is comparatively investigated with a PI-SVM DTC scheme by experiment results. Experimental results show the feasibility and advantages of the proposed control scheme.

Characteristic Experiment for Direct Vector Control of Linear Induction Motor (선형유도전동기(LIM)의 직접벡터제어 특성 실험)

  • Kwon, Byung-Il;Lee, Sang-Woo;Park, Seung-Chan
    • Proceedings of the KIEE Conference
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    • 1996.07a
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    • pp.25-27
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    • 1996
  • Instantaneous thrust control of linear induction motor(LIM) is needed to control its speed and position more accurately. In the vector control of LIM, it is hard to calculate flux angle exactly because of end effects of LIM. So in this paper direct vector control method is utilized to control speed of LIM. The airgap magnetic flux angle measured by hall sensors is transferred directly into coordinate transformer. As a result, some experimental values of direct vector control using DSP are shown.

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Implemention of a DTIF Controller for Robust Drive of a 3 Phase Induction Motor in High-Speed Elevator (고속 엘리베이터에서 3상 유도전동기의 강건한 구동을 위한 DTIF 제어기의 구현)

  • 김동진;강창수;한완옥
    • The Proceedings of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.9 no.3
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    • pp.88-96
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    • 1995
  • High speed elevator requires precise drive included in zero speed at start/stop drive for the high stability and controllability. The vector control techniques, which have been used for the precise operation of induction motor, can be divided into two classes; The indirect vector control by slip frequency and the direct vector control by field orientation. The existing direct vector control technique has a robustness against the change of motor parameter and the existing indirect vector control technique has a strength of control ability in the wide speed range comparatively. This study presents the DTIF (Direct Torque Indirect Flux) controller which has robust movement in the transition state and in about zero and low speed using the control technique in which torque is controlled by the direct vector technique and flux is controled by indirect vector technique. The proposed system is verified by simulation and experiment for driving 3 phase induction motor. The process of transition which is from about zero speed and low speed to high speed is compared and measured to specification of phase voltage, phase current and DC link current. It is verified that DTIF controller show robust and stable speed variation.

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Voltage Vector Selection Area of the Direct Torque Control for Permanent Magnet Synchronous Motor

  • Li, Yaohua;Ma, Jian;Yu, Qiang;Liu, Jingyu
    • Journal of international Conference on Electrical Machines and Systems
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    • v.1 no.2
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    • pp.23-29
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    • 2012
  • The control of stator flux, torque angle, excitation torque, reluctance torque and total torque of the direct torque control (DTC) for a permanent magnet synchronous motor (PMSM) are studied in this paper. Simplified expressions to represent the changes of these variables due to the application of a voltage vector are given. Finally, a voltage vector selection area and the implementation of a voltage vector selection strategy are proposed.

Robust Direct Vector Control of Induction Motor for Variation of stator Resistance (고정자 저항의 변동에 강인한 유도전동기의 직접 벡터제어)

  • Jung, Jong-Jin;Kim, Jin-Kyu;Lee, Deuk-Kee;Kim, Heung-Geun
    • Proceedings of the KIEE Conference
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    • 1998.07f
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    • pp.2002-2004
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    • 1998
  • In this paper, the compensation algorithm of the stator resistance which is essential to improving the performance of the direct vector control system is proposed. This paper focuses on the improvement in the torque response of the direct vector control in a constant speed region. The conventional compensation algorithms are analyzed and a new method is developed to compensate the stator resistance in the direct vector control system. In addition, the effect of the variation of the stator resistance on the drive performance is analyzed for the vector control. The proposed algorithm is very simple to implement that does not require the modifications on the motor model or additional interrupts of the controller. Also, the value of the stator resistance can be obtained in real-time through the measurement of the terminal voltage and current. From the simulation and experimental results, the validity of the proposed scheme is confirmed.

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Intelligent Control for Torque Ripple Minimization in Combined Vector and Direct Controls for High Performance of IM Drive

  • Boulghasoul, Zakaria;Elbacha, Abdelhadi;Elwarraki, Elmostafa
    • Journal of Electrical Engineering and Technology
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    • v.7 no.4
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    • pp.546-557
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    • 2012
  • In Conventional Combined Vector and Direct Controls (VC-DTC) of induction motor, stator current is very rich in harmonic components. It leads to high torque ripple of induction motor in high and low speed region. To solve this problem, a control method based on the concept of fuzzy logic approach is used. The control scheme proposed uses stator current error as variable. Through the fuzzy logic controller rules, the choice of voltage space vector is optimized and then torque and speed are controlled successfully with a less ripple level in torque response, which improve the system's performance. Simulation results trough MATLAB/SIMULINK${(R)}$ software gave results that justify the claims.

Direct Vector Control of Induction Machine by High Frequency Current Injection (고주파 전류주입에 의한 유도전동기의 직접 벡터제어)

  • Yong, Sung-Il;Sul, Seung-Ki
    • Proceedings of the KIEE Conference
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    • 1993.11a
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    • pp.103-105
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    • 1993
  • This paper proposed a new direct vector control scheme using high frequency current injection. This scheme has some attractive features such as using no flux sensor or speed sensor, robustness of parameter variation, capability of accurate vector control at very low speed. Compared to other direct vector control scheme, this scheme doesn't depends on phase delay and difference of magnitude of estimated flux, rotor resistance and all inductances except stator resistance. These features are proved by computer simulation and experimental results.

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Rotor Time Constant Estimation for Induction Motor Direct Vector Control (유도전동기 직접벡터제어를 위한 회전자 시정수 추정)

  • Bae Sang-Jun;Choi Jong-Woo;Kim Heung-Geun;Lee Hong-Hee;Chun Tae-Won
    • The Transactions of the Korean Institute of Power Electronics
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    • v.9 no.5
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    • pp.413-419
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    • 2004
  • In the induction motor direct vector control system using the Gopinath model flux observer, the deterioration of the dynamic response due to the detuned rotor time constant is investigated. To solve this problem, the on line estimation algorithm of the rotor time constant using model reference adaptive control is proposed. The effect of the motor parameter variation on the rotor time constant estimation is analyzed through experiment. The estimation error due to the parameter variation converges within 5%. Thus applying the proposed algorithm to the Gopinath model flux observer, the robust direct vector control system of the induction motor to the parameter variation can be implemented.

A new vector control performance for induction motor with SVPWM (공간전압 벡터제어를 통한 유도전동기의 새로운 벡터제어성능연구)

  • Byun, Yeun-Sub;Jang, Dong-Uk
    • Proceedings of the KIEE Conference
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    • 2001.07d
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    • pp.2246-2248
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    • 2001
  • This paper presents a new vector control scheme for induction motor. An exact knowledge of the rotor flux position is essential for a high-performance vector control. The position of the rotor flux is measured in the direct schemes and estimated in the indirect schemes. Since the estimation of the flux position requires a priori knowledge of the induction motor parameters, the indirect schemes are machine parameter dependent. The rotor and stator resistance among the parameters change with temperature. Variations in the parameters of induction machine cause deterioration of both the steady state and dynamic operation of the induction motor drive. Several methods have presented to minimize the consequences of parameter sensitivity in indirect scheme. In this paper, new estimation scheme of rotor flux position is presented to eliminate sensitivity due to variation in the resistance. The simulation is executed to verify the proposed vector control performance and to compare its performance with that of indirect and direct vector control.

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Time Delay Compensation for Output Voltage Vector Selection in Direct Torque Control of Induction Machine (유도전동기의 직접토크제어 시스템에서 출력전압벡터선정을 위한 시간지연의 보상)

  • 최병태;박철우;권우현
    • Journal of Institute of Control, Robotics and Systems
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    • v.9 no.8
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    • pp.632-639
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    • 2003
  • This paper proposes a simple compensation scheme for the time delay caused by measurement, calculation and selection of voltage vector in Direct Torque Control (DTC) of an induction motor. In general scheme, it is difficult to know the exact delay time, furthermore the delay time can be varied by program routines for calculation and processing of measured data. In this proposed scheme, by applying voltage vector at the beginning of next sampling period, a fixed delay time is achieved and its compensation becomes much simpler. Furthermore, with the simple compensation algorithm, an improved performance can be achieved by shortening sampling period. Experimental results prove the feasibility of the proposed scheme in induction motor control.