Power system load frequency control using noise-tolerable PID feedback

This paper presents a new PID (proportional, integral and differential) control scheme based on the feedback of averaged derivatives to realize a noise-tolerable differential control with its application to the load frequency control in the power system. It is well known that the LFC (load frequency control) is exposed to the quite noisy environment. The noisy environment has made it difficult to adopt the differential feedback loop since the derivatives of the signals deteriorated by high frequency noise causes the system instability. This paper proposed a new PID control scheme adopting averaged derivative of the signal as the differential feedback signal in order to remove the effects of high frequency noise. This study deals with an application of the average differential feedback to the LFC problem in the power systems. The proposed control scheme has been tested for the load frequency control of power systems