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RISS 인기검색어
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- 저자 : Shi Jingkui (검색결과 5 건)
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DC Bus Voltage Stabilization Control Considering Power Loss of the Full-Quadrant Operated Inverter
Shi Jingkui,Huang Wenxin,Zheng Xinxin,Li Qiyue 대한전기학회 2021 Journal of Electrical Engineering & Technology Vol.16 No.6
This paper proposed a DC bus voltage stabilization control strategy of the full-quadrant operated three-phase grid-connected inverter, of which the reactive current is not 0. The strategy considers the power loss of the switches caused by both active and reactive current, which would aff ect the dynamic performance of voltage loop. In this condition, the power loss can be seen as a disturbance of the voltage loop so it should be taken into consideration in the design process. Besides, the voltage loop is the outer loop of the active current loop. The active and reactive current are coupled because of the coordinate transformation. As a result, the interference of the reactive current would aff ect the DC bus voltage through current coupling. The proposed control strategy considers the power loss and designs the outer voltage loop. Also the decoupling current controller based on complex vectors is discussed. With the proposed DC bus voltage stabilization strategy, the inverter can realize good dynamic and static performances. The control principle is analyzed in detail. The design of the control loops are discussed. The infl uences of the reactive current on the DC voltage and active current are analyzed. Finally, the simulation and experimental results verify the theoretical analysis.
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High-Performance Complex Controller for High-Power Converters with Low Pulse Ratios
Jingkui Shi,Jie Shen,Bo Qu,Hongwu She,Zhuohui Tan 전력전자학회 2015 ICPE(ISPE)논문집 Vol.2015 No.6
For high-power converters with low pulse ratios (e.g. 80 Hz load frequency with 600Hz carrier frequency for a 27 MVA Variable Frequency Drive), the current control loop design has been a challenge due to the large signal delay and potentially higher-order plant (LCL filter between the converter and machines). The stability issue and cross-coupling effect is a problem in such application. In this paper, a complex current controller with excellent dynamic performance is proposed. The design is done by using the “double-sided frequency modeling” methodology. The stability, decoupling-effect, dynamic response and the robustness of the control loop are analyzed, which provides a design guideline for such applications. The performance of the proposed strategy and the improved state feedback method are compared. And finally simulation results are presented to validate the controller design and analysis.
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Bo Qu,Jingkui Shi,Hongwu She,Jie Shen,Stefan Schroeder,Zhuohui Tan,Kunlun Chen,Jianmei Zhang,Yulong Li,Fan Zhang,Richard Zhang 전력전자학회 2015 ICPE(ISPE)논문집 Vol.2015 No.6
In this paper, control strategies of a 22 MW / 27 MVA machine test bench using pumpback topology are introduced. The current loop design at extremely low pulse ratios (e.g. 600 Hz carrier frequency / 80 Hz load frequency) is developed. The system stability and dynamic response are analyzed. The challenges for high-power machine control with a sine filter and a transformer connected between the voltage-source-inverter and the machine are listed and solutions are given. Afterwards, some specific test modes are introduced as well. Finally, the control strategy is validated with the motor test at the customer site.
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Position Sensorless Vector Control of the Brushless Synchronous Motor
Hongwu She,Bo Qu,Jingkui Shi,Zhuohui Tan,Jie Shen 전력전자학회 2015 ICPE(ISPE)논문집 Vol.2015 No.6
The position sensorless vector control scheme for the brushless excited synchronous motor based on the IGCT converter is presented in this paper. Since the instantaneous excitation current cannot be directly measured in this application, an adaptive rotor position and speed observer, which does not rely on the explicit estimation of the excitation current, is developed for the brushless excited synchronous motor. The roughly estimation of the excitation current is based on the average model of the excitation machine and the rotating rectification diode. The control algorithms are implemented and validated in a 2*27MVA motor pump-back test bench.
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Current Decoupling Scheme of Three-Phase Inverter with Complex Coefficient Controller
Zheng Xinxin,Xu Jianjun,Shi Jingkui,Huang Wenxin,Li Qiyue 대한전기학회 2022 Journal of Electrical Engineering & Technology Vol.17 No.6
In the control of three-phase system, AC signals are always changed into DC signals by synchronous coordinate transformation. A decoupling control scheme in the dq synchronous reference frame (SRF) is proposed to realize active and reactive current decoupling of three-phase inverter. The complex vector control model is established in SRF. Diff erent from the model established in static reference frame, the SRF control model can refl ect the coupling characteristic of the active and reactive current. As a result, the PI controller with complex coeffi cient can be applied to realize current decoupling. In this paper, the coupling characteristic of three-phase system is analyzed. A novel complex PI controller design method is proposed based on the SRF control model and the coeffi cients are calculated. And its implementation in the control loop is given. Compared with existing PI controllers with real or complex coeffi cients, the proposed complex PI controller can realize completely the decoupling of the active and reactive current in three-phase system. Besides, the control scheme can make current loop fulfi ll the expected symmetrical bandwidth, so as to realize a higher eff ective set-off frequency. As a result, the inverter can achieve well dynamic performance. Finally, the simulation and experimental results are given to verify the theoretical analysis.
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