Book contents
- Frontmatter
- Contents
- Preface
- 1 Introduction
- 2 Mathematical Preliminaries
- 3 Dynamic Response
- 4 State-Space Representation
- 5 Analysis of Single-Loop Control Systems
- 6 Design and Tuning of Single-Loop Control Systems
- 7 Stability of Closed-Loop Systems
- 8 Frequency-Response Analysis
- 9 Design of State-Space Systems
- 10 Multiloop Systems
- MATLAB Tutorial Sessions
- Homework Problems
- References
- Index
5 - Analysis of Single-Loop Control Systems
Published online by Cambridge University Press: 05 June 2012
- Frontmatter
- Contents
- Preface
- 1 Introduction
- 2 Mathematical Preliminaries
- 3 Dynamic Response
- 4 State-Space Representation
- 5 Analysis of Single-Loop Control Systems
- 6 Design and Tuning of Single-Loop Control Systems
- 7 Stability of Closed-Loop Systems
- 8 Frequency-Response Analysis
- 9 Design of State-Space Systems
- 10 Multiloop Systems
- MATLAB Tutorial Sessions
- Homework Problems
- References
- Index
Summary
We now finally launch into the material on controllers. State-space representation is more abstract, and it helps to understand controllers in the classical sense first. We will come back to state-space controller design later. The introduction stays with the basics. Our primary focus is to learn how to design and tune a classical proportional–integra–derivative (PID) controller. Before that, we first need to know how to set up a problem and derive the closed-loop characteristic equation.
What Are We Up to?
Introducing the basic PID control schemes
Deriving the closed-loop transfer function of a system and understanding its properties
PID controllers
We use a simple liquid-level controller to illustrate the concept of a classic feedback control system. In this example (Fig. 5.1), we monitor the liquid level in a vessel and use the information to adjust the opening of an effluent valve to keep the liquid level at some user-specified value (the set point or reference). In this case, the liquid level is both the measured variable and the controlled variable – they are the same in a SISO system. In this respect, the controlled variable is also the output variable of the SISO system. A system refers to the process that we need to control plus the controller and accompanying accessories, such as sensors and actuators.
- Type
- Chapter
- Information
- Process ControlA First Course with MATLAB, pp. 83 - 107Publisher: Cambridge University PressPrint publication year: 2002