PIDR Sliding Mode Current Control with Online Inductance Estimator for VSC-MVDC System Converter Stations under Unbalanced Grid Voltage Conditions

PIDR Sliding Mode Current Control with Online Inductance Estimator for VSC-MVDC System Converter Stations under Unbalanced Grid Voltage Conditions

This study aims to present a novel proportional-integral-derivative-resonant law-based sliding mode current control strategy with online inductance estimator (PIDR-SMCC-OIE) for voltage source converter medium voltage direct current (VSC-MVDC) system converter stations under unbalanced grid voltage...

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Bibliographic Details
Published in:Energies (Basel) Vol. 11; no. 10; p. 2599
Main Authors: Yang, Weipeng, Zhang, Hang, Li, Jungang, Zhang, Aimin, Zhou, Yunhong, Wang, Jianhua
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-10-2018
Subjects:
Alternative energy sources
Controllers
Converters
current control
Electric potential
grid voltage unbalance
Inductance
online inductance estimator
Parameter uncertainty
proportional-integral-derivative-resonant control
Renewable resources
Sliding mode control
Unbalance
Voltage
VSC-MVDC
China
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Summary:This study aims to present a novel proportional-integral-derivative-resonant law-based sliding mode current control strategy with online inductance estimator (PIDR-SMCC-OIE) for voltage source converter medium voltage direct current (VSC-MVDC) system converter stations under unbalanced grid voltage conditions. A generalized current reference calculation method, by which the ratio of the amplitude of the active power ripple to that of the reactive power ripple can be continuously controlled without current distortion is presented. A dynamic model of the current control errors in the positive sequence synchronous reference frame is developed, and a PIDR law-based sliding mode current controller is designed, where derivatives of the current references are obtained by simple algebraic operations. An OIE adopting the dynamic filtering method and gradient algorithm is proposed to further improve system robustness. In this OIE, the converter pole voltages are obtained by computation utilizing the gate signals of the switching devices and the DC bus voltage, so that no additional voltage sensors are needed. To verify effectiveness of the PIDR-SMCC-OIE strategy, simulation studies on a two-terminal VSC-MVDC system are conducted in PSCAD/EMTDC. The results show it can provide satisfactory performance over a wide range of operating conditions.
ISSN:1996-1073
1996-1073
DOI:10.3390/en11102599