Control system components by desai pdf

Skip to content. Toggle navigation. Author : B. Control Systems Components. Get Books. Control System Components. The book is designed for undergraduate courses in control systems for electrical engineering, electronics and instrumentation, electronics and communication, instrumentation and control, and computer science and engineering courses.

Control systems are found in a wide variety of areas, including chemical processing, aerospace, manufacturing, and automotive engineering. Beyond the controller, sensors and actuators are the most important components of the control system, and students, regardless of their chosen engineering field, need to understand the fundamentals of how these components work, how to properly select them, and how to integrate them into an overall system.

In Sensors and Actuators: Control System Instrumentation, bestselling author and expert Clarence de Silva outlines the fundamentals, analytical concepts, modeling and design issues, technical details, and practical applications of these devices. This text begins with a general introduction to control and various types of control systems, followed by component interconnection, signal conditioning, and performance specification and analysis.

The author then systematically describes important types, characteristics, and operating principles of analog sensors, digital transducers, stepper motors, continuous-drive actuators, and mechanical transmission components, progressing from basic to more advanced concepts. Throughout the book, convenient snapshot windows summarize important and advanced theory and concepts, accompanied by numerous examples, exercises, case studies, and end-of-chapter problems.

Ideally suited to both senior undergraduate and first-year graduate courses, Sensors and Actuators: Control System Instrumentation builds a firm foundation for future work in control and can be easily followed by students from almost any engineering discipline.

Marrying an academic examination of control system technology with a reference that practicing engineers and technicians can include in their personal libraries, this carefully-balanced study covers the terminology, concepts, principles, procedures, and computations used by engineers and technicians to analyse, select, specify, design, and maintain control systems.

Applied Control System Design examines several methods for building up systems models based on real experimental data from typical industrial processes and incorporating system identification techniques.

The text takes a comparative approach to the models derived in this way judging their suitability for use in different systems and under different operational circumstances. A broad spectrum of control methods including various forms of filtering, feedback and feedforward control is applied to the models and the guidelines derived from the closed-loop responses are then composed into a concrete self-tested recipe to serve as a check-list for industrial engineers or control designers.

System identification and control design are given equal weight in model derivation and testing to reflect their equality of importance in the proper design and optimization of high-performance control systems. Applied Control System Design will be of interest to academic researchers for its comparison of different systems models and their response to different control methods and will assist graduate students in learning the practical necessities of advanced control system design.

The consistent reference to real systems coupled with self-learning tools will assist control practitioners who wish to keep up to date with the latest control design ideas. Advances in computer technology and sensor development have led to increasingly successful control operations. In order to maximize future potential it is vital for academics and practitioners in the field to have an international forum for discussion and evaluation of the latest developments.

The IFAC Symposia on intelligent components and instruments provide this opportunity and the latest in the series gives rise to this invaluable publication which provides an authoritative assessment of the present state and future directions of these key technologies. This book is intended to serve a wide variety of users.

This updated third edition provides the detailed background necessary to understand how to meet important new safety regulations and reliability engineering topics. Professional control system designers will learn to properly evaluate control system components, various system architectures, how to better communicate with vendors, and how to increase accuracy of life-cycle cost estimates.

The book is also an excellent text for college courses due to its detailed explanations, practical presentation, and discussion of the difference between theory and real-world application. It provides a basic foundation of material, including probability, statistics, reliability theory definitions, and basic reliability modeling techniques, as well as advanced topics relevant to safety instrumented and control systems.

Each chapter contains exercises to assist the reader in applying the theories presented with their practical implementation. Although a large number of books dealing with the theory of control engineering are available, most of them do not deal with the varied range of components used in modern control systems. This book is an attempt to fill this need. It comprehensively covers many typical components of primary interest to the control-system engineer.

A number of different types of electrical, electromechanical, electronic, hydraulic and pneumatic control devices, which form integral parts of open-loop and closed-loop control systems, have been presented to enable the students to understand all the types of control systems or equipment that they may encounter in different fields of industry.

This book is especially designed to cater to the need of a one-semester course in Control System Components, particularly for the undergraduate students of Instrumentation and Control Engineering. It will also be a highly useful text for the students of Electrical Engineering and Mechanical Engineering during their study of the theory of Control Engineering. This book will teach them about the components required to build practical control systems.

Key Features Provides, in a clearly understandable form, a basic yet comprehensive introduction to the components used in control systems. Profusely illustrated text helps the student gain a basic understanding of component behaviour.