• Title/Summary/Keyword: Single-frame current regulator

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Compensation of Neutral Point Deviation under Generalized 3-Phase Imbalance in 3-level NPC

  • Jung, Kyungsub;Suh, Yongsug
    • Journal of Power Electronics
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    • v.18 no.6
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    • pp.1866-1878
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    • 2018
  • This paper presents a neutral point deviation and ripple compensation control method for application to 3-level NPC converters. The neutral point deviation and its harmonic components are analyzed with a focus on the average current flowing through the neutral point of the dc-link. This paper also proposes a control scheme to compensate for the neutral point deviation and dominant harmonic components under generalized unbalanced grid operating conditions. The positive and negative sequence components of the pole voltages and ac input currents are employed to accurately explain the behavior of 3-level NPC converters. Simulation and experimental results are presented to verify the validity of the proposed method.

A Study on Current Ripple Reduction Due to Offset Error and Dead-time Effect of Single-phase Grid-connected Inverters Based on PR Controller (비례공진 제어기를 이용한 단상 계통연계형 인버터의 데드타임 영향과 옵셋 오차로 인한 전류맥동 저감에 관한 연구)

  • Seong, Ui-Seok;Hwang, Seon-Hwan
    • The Transactions of the Korean Institute of Power Electronics
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    • v.20 no.3
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    • pp.201-208
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    • 2015
  • The effects of dead-time and offset error, which cause output current distortion in single-phase grid-connected inverters are investigated this paper. Offset error is typically generated by measuring phase current, including the voltage unbalance of analog devices and non-ideal characteristics in current measurement paths. Dead-time inevitably occurs during generation of the gate signal for controlling power semiconductor switches. Hence, the performance of the grid-connected inverter is significantly degraded because of the current ripples. The current and voltage, including ripple components on the synchronous reference frame and stationary reference frame, are analyzed in detail. An algorithm, which has the proportional resonant controller, is also proposed to reduce current ripple components in the synchronous PI current regulator. As a result, computational complexity of the proposed algorithm is greatly simplified, and the magnitude of the current ripples is significantly decreased. The simulation and experimental results are presented to verify the usefulness of the proposed current ripple reduction algorithm.

Fault-Tolerant Control of Five-Phase Induction Motor Under Single-Phase Open

  • Kong, Wubin;Huang, Jin;Kang, Min;Li, Bingnan;Zhao, Lihang
    • Journal of Electrical Engineering and Technology
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    • v.9 no.3
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    • pp.899-907
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    • 2014
  • This paper deals with fault-tolerant control of five-phase induction motor (IM) drives under single-phase open. By exploiting a decoupled model for five-phase IM under fault, the indirect field-oriented control ensures that electromagnetic torque oscillations are reduced by particular magnitude ratio currents. The control techniques are developed by the third harmonic current injection, in order to improve electromagnetic torque density. Furthermore, Proportional Resonant (PR) regulator is adopted to realize excellent current tracking performance in the phase frame, compared with Proportional Integral (PI) and hysteresis regulators. The analysis and experimental results confirm the validity of fault-tolerant control under single-phase open.

An Improved Control Strategy Using a PI-Resonant Controller for an Unbalanced Stand-Alone Doubly-Fed Induction Generator

  • Phan, Van-Tung;Lee, Hong-Hee;Chun, Tae-Won
    • Journal of Power Electronics
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    • v.10 no.2
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    • pp.194-202
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    • 2010
  • The main cause of degradation in an unbalanced stand-alone doubly-fed induction generator (DFIG) system is negative sequence components that exist in the generated stator voltages. To eliminate these components, a hybrid current controller composed of a proportional-integral controller and a resonant regulator is developed in this paper. The proposed controller is applied to the rotor-side converter of a DFIG system for the purpose of compensating the negative stator voltage sequences. The proposed current controller is implemented in a single positive rotating reference frame and therefore the controller can directly regulate both the positive and negative sequence components without the need for sequential decomposition of the measured rotor currents. In terms of compensation capability and accuracy, simulations and experimental results demonstrated the excellent performance of the proposed control method when compared to conventional vector control schemes.