• Title/Summary/Keyword: Voltage angle control

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Voltage Angle Control of an IPMSM for Electric Vehicle Drives (전기자동차 구동을 위한 IPMSM의 전압각 제어)

  • Ko, Tae-Hoon;Kim, Sang-Hoon
    • The Transactions of the Korean Institute of Power Electronics
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    • v.22 no.5
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    • pp.397-403
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    • 2017
  • This paper studies the voltage angle control of interior permanent magnet synchronous motors (IPMSMs). For voltage angle control, the optimum voltage angle trajectory according to the operating speed is researched while the voltage and current limit conditions are considered. Through research, two different optimum voltage angle trajectories that depend on the design of IPMSMs were found. The IPMSM drive based on a voltage angle control that follows such trajectory is proposed. Unlike the conventional voltage angle control method, which is applied only in the flux-weakening region, the proposed voltage angle control can be implemented in all operation ranges from low to high speed. The proposed method is verified by experiments using a DSC controller for 800 W IPMSM.

Voltage Angle Control of Surface Permanent Magnet Synchronous Motor for Low-Cost Applications

  • Lee, Kwang-Woon;Kim, Guechol
    • Journal of IKEEE
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    • v.22 no.3
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    • pp.716-722
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    • 2018
  • This paper presents a voltage angle control strategy for surface permanent magnet synchronous motor (SPMSM) drives used in low-cost applications, wherein a current vector control is not employed. In the proposed method, the current vector control scheme, which requires high precision phase-current sensing units and a fast calculation capability of a motor drive controller, is replaced with the voltage angle controller. The proposed voltage angle controller calculates a d-axis voltage command to make the d-axis current zero by using a simple equation obtained from the voltage equation of SPMSM. The proposed method shows performance similar to the current vector controlled SPMSM drive during steady-states and its structure is very simple and thus it can be easily implemented with a low-cost microcontroller. The effectiveness of the proposed method is verified through simulations and experiments.

Initial Firing Angle Control of Parallel Multi-Pulse Thyristor Dual Converter for Urban Railway Power Substations

  • Kim, Sung-An;Han, Sung-Wo;Cho, Yun-Hyun
    • Journal of Electrical Engineering and Technology
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    • v.12 no.2
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    • pp.674-682
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    • 2017
  • This paper presents an optimal initial firing angle control based on the energy consumption and regenerative energy of a parallel multi-pulse thyristor dual converter for urban railway power substations. To prevent short circuiting the thyristor dual converter, a hysteresis band for maintaining a zero-current discontinuous section (ZCDS) is essential during mode changes. During conversion from the ZCDS to forward or reverse mode, the DC trolley voltage can be stabilized by selecting the optimal initial firing angle without an overshoot and slow response. However, the optimal initial firing angle is different depending on the line impedance of each converter. Therefore, the control algorithm for tracking the optimal initial firing angle is proposed to eliminate the overshoot and slow response of DC trolley voltage. Simulations and experiments show that the proposed algorithm yields the fastest DC voltage control performance in the transient state by tracking the optimal firing angle.

A DTC-PWM Control Scheme of PMSM using an Approximated Voltage Function of Voltage Vector (전압벡터의 근사 전압함수를 이용한 PMSM의 DTC-PWM 제어방식)

  • Kwak, YunChang;Lee, Dong-Hee
    • The Transactions of the Korean Institute of Power Electronics
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    • v.20 no.5
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    • pp.421-428
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    • 2015
  • An advanced direct torque control (DTC) with pulse width modulation (PWM) method is presented in this paper. The duty ratio calculation of the selected voltage vector is based on the voltage functions of the selected voltage vector according to the sector angle. The proposed DTC uses a conventional DTC scheme with six sector divisions and switching rules. However, the winding voltages are supplied by the PWM approach. Furthermore, the duty ratio of the switching voltage vector is determined by the flux, torque error, and motor speed. The base voltage that shall determine the duty ratio can be calculated by approximate voltage functions according to the voltage angle. For the calculation of base voltages, second-order quadratic functions are used to express the output voltage of the selected voltage vector according to voltage angle. The coefficients for the second-order quadratic functions are selected by the voltage vector, which is determined by the switching rules of the DTC. In addition, the voltage functions are calculated by the coefficients and voltage angle between the voltage vector and rotor position. The switching voltages from the calculated duty ratio can supply the proper torque and flux to reduce the ripple and error. The proposed control scheme is verified through practical experimental comparisons.

Output Voltage Control Method of a Switched Reluctance Generator using Turn-off Angle Control (소호각 제어를 이용한 Switched Reluctance Generator의 출력 전압 제어)

  • 김영조;전형우;김영석
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.50 no.7
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    • pp.356-363
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    • 2001
  • A SRG (Switched Reluctance Generator) has many advantages such as high efficiency, low cost, high-speed capability and robustness compared with other of machine. But the control methods that have been adopted for SRGs are complicated. This paper proposes a simple control method using the PID controller which only controls turn-off angles while keeping turn-on angles of SRG constant. In order to keep the output voltage constant, the turn-off angle for load variations is controlled by using linearity between the generated current and turn-off angle since the reference generated current can be led through the voltage errors between the reference and the actual voltage. The suggested control method enhances the robustness of this system and simplifies the hardware and software by using only the voltage and the speed sensors. The proposed method is verified by experiments.

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Sensorless Control of PWM Converter Using Extended Kalman Filter (확장 칼만 필터를 이용한 PWM 컨버터 센서리스 제어기법)

  • 허승민;강구배;남광희
    • Proceedings of the KIPE Conference
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    • 1999.07a
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    • pp.671-674
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    • 1999
  • In the PWM converter, PLL(Phase Locked Loop) is usually used as a tool which senses the angle of input voltage. This is sensitive to nois and needs additional hardware. In this work, we propose a sensorless control scheme of PWM converter using EKF(Extended Kalman Filter). EKF estimates a phase angle of input voltage from nonlinear state equation using measured phase currents. We control power factor and DC-link voltage utilizing the estimated phase angle. We demonstrate the effectiveness of the proposed estimation algorithm through simulations.

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Output Voltage Control Method of Switched Reluctance Generator using the Turn-off Angle Control

  • Kim Young-Jo;Choi Jung-Soo;Kim Young-Seok
    • Proceedings of the KIPE Conference
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    • 2001.10a
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    • pp.414-417
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    • 2001
  • SRG (Switched Reluctance Generator) have many advantages such as high efficiency, low cost, high-speed capability and robustness compared with characteristics of other machines. However, the control methods that have been adopted for SRGs are complicated. This paper proposes a simple control method using PID controller that only controls turn-off angles while keeping turn-on angles of SRG constant. The linear characteristics between the generated current and the turn-off angle can be used to control the turn-off angle for load variations. Since the reference current for generation can be produced from an error between the reference and the real voltage, it can be controlled to keep the output voltage constant. The proposed control method enhances the robustness of this system and simplifies the hardware and software by using only the voltage and speed sensors. The proposed method is verified by experimental results.

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A novel Control scheme for SRM drives (SRM구동을 위한 새로운 제어방식)

  • 안진우;박한웅;황영문
    • The Transactions of the Korean Institute of Electrical Engineers
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    • v.45 no.4
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    • pp.526-529
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    • 1996
  • A novel control scheme for a Switched Reluctance Motor(SRM) drive is described. To increase torque, and to commutate easily, flat-topped phase current and fixed switching angle control is proposed. The conditions for flat-topped phase current are analyzed. It is achieved by voltage control with fixed switching angle. The proposed control system was tested to verify this suggestion. (author). refs., figs., tab.

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A Study on Voltage and Switching Angle for Maximum Torque/Efficiency and Minimum Torque Ripple of SRM by using SIMULINK$^\textregistered$

  • Cha, Hyun-Rok;Seo, Jong-Yun;Yang, Hyong-yeol;Kim, Kwang-Heon;Lim, Young-Cheol;Jang, Do-Hyun
    • Journal of Power Electronics
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    • v.1 no.1
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    • pp.56-64
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    • 2001
  • This paper presents the switching angle and voltage for maximizing the torque or efficiency and minimizing torque ripple of an 8/6, SRM. The approximate analysis and computer simulation determine the switching angle and voltage by using SIMULINK$^\textregistered$. This is performed as a function of the speed and torque required by the load. From the results, new three facts can be known: First, the maximum torque depends on voltage and speed depends on switching angle. The others, the maximum efficiency and minimum torque ripple relay on switching angle. We control the switching angle and voltage of and asymmetrical inverter for the SRM with one-chip micro controller.

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Fuzzy logic based advance angle control for low voltage SRM (저전압 SR모터의 퍼지로직 기반 전상각 제어)

  • Kim, Kyu-Dong;Shin, Doo-Jin;Huh, Sung-Jae;Huh, Uk-Youl
    • Proceedings of the KIEE Conference
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    • 2001.11c
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    • pp.22-25
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    • 2001
  • In this paper, a fuzzy advance angle control method is described to drive an industrial low voltage SRM (Switched Reluctance Motor) for 10kW forklift truck. SRM has a highly non-linear characteristic that is due to change the rotor and stator. And low voltage SRM is designed that its phase resistance and phase inductance is very low to inject high current into the phase windings. In this reason, the proper current control is necessary to drive the low voltage SRM efficiently. SRM has positive torque at increasing inductance region and negative torque at decreasing inductance region. Due to this reason, the current has to be built up in the increasing phase inductance part as soon as possible. Therefore, the phase switch must be turned on before the phase inductance increases, and this angle is called as the advance angle. Also, the phase current has to be dropped before the phase inductance decreases. Fuzzy logic is a flexible and general-purposed method of implementing non-linear functions and as such it is useful in control applications. Consequently, we designed a fuzzy advance angle controller to control the phase current appropriately.

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