Title :
Damping of Inter-area Oscillations by WAM Based Supplementary Controller
Author :
Hu, Zhijian ; Milanovic, J.V.
Abstract :
The paper demonstrates the possibility to enhance the damping of inter-area oscillations using wide area measurement (WAM) based adaptive supervisory controller (ASC).. A damping controller based on the mixed-sensitivity linear matrix inequality (LMI) approach with pole-placement restriction is designed. The ASC uses the input information from conveniently located phase measurement units (PMU) in the system and dispatches supplementary control signals to the available local controllers. Different input signals to the ASC, i.e., frequency and active power generators are used and corresponding ASC performances compared. The design of the ASC is explained in detail and its performance validated by frequency and time domain simulations on a 4- machine 2-area test system.
Keywords :
adaptive control; frequency-domain analysis; linear matrix inequalities; oscillations; phase measurement; power system control; power system measurement; time-domain analysis; active power generators; adaptive supervisory controller; frequency domain simulations; frequency generators; inter-area oscillations damping; mixed-sensitivity linear matrix inequality approach; phase measurement units; pole-placement restriction; time domain simulations; wide area measurement; Adaptive control; Control systems; Damping; Frequency; Linear matrix inequalities; Phase measurement; Phasor measurement units; Power generation; Programmable control; Wide area measurements; Adaptive supervisory controller (ASC); H-infinity control; LMI; PMUs; WAMs; inter-area oscillations; mixed-sensitivity approach;
Conference_Titel :
Power Engineering Society General Meeting, 2007. IEEE
Conference_Location :
Tampa, FL
Print_ISBN :
1-4244-1296-X
Electronic_ISBN :
1932-5517
DOI :
10.1109/PES.2007.386095
