Coordinated Design of Multiple Robust FACTS Damping Controllers: A BMI-Based Sequential Approach With Multi-Model Systems

Author

Jingchao Deng ; Can Li ; Xiao-Ping Zhang

Author_Institution

State Grid Jibei Electr. Power Co. Ltd., Beijing, China

Volume

30

Issue

6

fYear

2015

fDate

Nov. 2015

Firstpage

3150

Lastpage

3159

Abstract

This paper presents the coordinated design of multiple FACTS supplementary damping controllers to improve system small-signal stability. A BMI-based multi-objective multi-model system approach is formulated to solve the robust damping control problem. Two-step method is proposed to determine controller variables. Regional pole placement and control effort optimization are set as the control objectives. An SVC and a TCSC damping controller are designed sequentially with minimized decoupling effort. Selection of the feedback signals for the FACTS damping controllers is realized by evaluating the modal residues of each feedback signal to the system input. To cover multiple inter-area oscillation modes, wide-area decentralized control methodology is proposed and remote feedback signals are selected. Real-time simulation is carried out on real-time digital simulator (RTDS) to test the performance of the proposed controller. The results show that the FACTS damping controllers are feasible and able to increase system damping to a satisfactory level under different system operating points.

Keywords

damping; flexible AC transmission systems; optimisation; power system stability; real-time systems; robust control; static VAr compensators; thyristor convertors; BMI-based multi-objective multi-model system approach; FACTS damping controllers; FACTS supplementary damping controllers; RTDS; SVC; TCSC damping controller; control effort optimization; inter-area oscillation modes; modal residues; real-time digital simulator; regional pole placement; remote feedback signals; robust damping control problem; system operating points; system small-signal stability; wide-area decentralized control methodology; Damping; Flexible AC transmission systems; Optimization; Power system dynamics; Robustness; ${rm H}_{2}$; ${rm H}_{infty}$ ; BMI; LMI; RTDS; SVC; TCSC; coordinated design; inter-area oscillations; multi-model system; multi-objective; robust damping control; sequential design;

fLanguage

English

Journal_Title

Power Systems, IEEE Transactions on

Publisher

ieee

ISSN

0885-8950

Type

jour

DOI

10.1109/TPWRS.2015.2392153

Filename

7024187