Structure and Synthesis of PID Controllers [Paperback]

In many industrial applications, the existing constraints mandate the use of controllers of low and fixed order while typically, modern methods of optimal control produce high-order controllers. The authors seek to start to bridge the resultant gap and present a novel methodology for the design of low-order controllers such as those of the P, PI and PID types. Written in a self-contained and tutorial fashion, this book first develops a fundamental result, generalizing a classical stability theorem  the HermiteBiehler Theorem  and then applies it to designing controllers that are widely used in industry. It contains material on:

current techniques for PID controller design;

stabilization of linear time-invariant plants using PID controllers;

optimal design with PID controllers;

robust and non-fragile PID controller design;

stabilization of first-order systems with time delay;

constant-gain stabilization with desired damping

constant-gain stabilization of discrete-time plants.

In many industrial applications, the existing constraints mandate the use of controllers of low and fixed order while typically, modern methods of optimal control produce high-order controllers. Structure and Synthesis of PID Controllers seeks to start to bridge the resultant gap and presents a novel methodology for the design of low-order controllers such as those of the P, PI and PID types. Written in a self-contained and tutorial fashion, this research monograph first develops a fundamental result, generalizing a classical stability theorem  the HermiteBiehler Theorem  and then applies it to designing controllers that are widely used in industry. It contains material on:

current techniques for PID controller design;

generalization of the Hermiteló„