TABLE OF CONTENTS 14 1 To characterize the steady-state behavior of a system through analysis of the system transfer function.
14 2 To evaluate the steady-state disturbance sensitivity of a system.
14 3 To understand the trade-off between transient and steady-state performance specifications in control system design.
14 4 To select gains of a proportional-integral-derivative controller based on open-loop system performance.
14 5 To design an appropriate cascade compensator based on steady-state and transient performance specifications.
In Chap. 1, it was pointed out that negative feedback is present in nearly all existing engineering systems. In control systems, which are introduced in this chapter, negative feedback is included intentionally as a means of obtaining a specified performance of the system.
Control is an action undertaken to obtain a desired behavior of a system, and it can be applied in an open-loop or a closed-loop configuration. In an open-loop system, shown schematically in Fig. 14.1, a process is controlled in a certain prescribed manner regardless of the actual state of the process. A washing machine performing a predefined sequence of operations without any information and with no concern regarding the results of its operation is an example of an open-loop control system.
In a closed-loop control system, shown in Fig. 14.2, the controller produces a control signal based on the difference between the desired and the actual process output. The washing machine previously considered as an open-loop system would operate in a closed-loop...
