PCHD-Based Passivity Control of VSC-HVDC Connected Large Wind Farm
Authors
Xinming Fan, Lin Guan, Chengjun Xia, Jianming He, Xiaolin Li, Shukai Xu
Abstract
Concentrated integration of large scale wind power demands stronger robustness of VSC-HVDC transmission. Based on PCHD (Port Controled Hamiltonian with Dissipation) equation, the PCHD model of voltage source converter (VSC) in abc frame and d-q rotating frame are built and the strict passivity of VSC is proved. Desired energy function is constructed and used as Lyapunov function by assigning link matrix and damping matrix. Impact from VSC equivalent dc resistance is eliminated by additional damping matrix. The IDA-PB (Interconnection and Damping Assignment Passivity-based) controller is designed based on desired equilibrium point and state variable. With different operation conditions, VSC-HVDC and its control system are simulated by software PSCAD/EMTDC, the results show the proposed control strategy has good performance and strong robustness.
Citation
- Journal: Energy and Power Engineering
- Year: 2013
- Volume: 05
- Issue: 04
- Pages: 1209–1214
- Publisher: Scientific Research Publishing, Inc.
- DOI: 10.4236/epe.2013.54b229
BibTeX
@article{Fan_2013,
title={{PCHD-Based Passivity Control of VSC-HVDC Connected Large Wind Farm}},
volume={05},
ISSN={1947-3818},
DOI={10.4236/epe.2013.54b229},
number={04},
journal={Energy and Power Engineering},
publisher={Scientific Research Publishing, Inc.},
author={Fan, Xinming and Guan, Lin and Xia, Chengjun and He, Jianming and Li, Xiaolin and Xu, Shukai},
year={2013},
pages={1209--1214}
}