Familiarizes electricians with relay ladder logic, and then transitions to programmable logic controllers for similar installations. A new chapter covers heat and enclosures including information on the creation of heat in electronic devices and how it can be dissipated. Distributed by Prentice Hall. Annotation copyrighted by Book News, Inc., Portland, OR.
The book Control Theory Fundamentals was compiled from the materials of a popular series of industrial seminars in control theory. The principal objective of the seminar was to present the fundamentals of control theory in a way accessible to practising engineers whose principal area of expertise often lay elsewhere. In addition to providing a resource for those attending the seminar, the book will be of interest to the wider audience of students and engineers who need to apply control theory in the course of their studies or work. The book provides a readable introduction to control of both continuous time and discrete time systems. The first four chapters of the book cover classical methods using transfer functions, while the remaining chapters cover analysis and design using state space methods. Worked examples are included to illustrate key topics in each section. The book contains five appendices; a review of matrix algebra, reference tables of Laplace and z transforms, supporting Matlab scripts, and a case study in controller design using state space methods.
Design Fundamentals for Low-Voltage Distribution and Control provides practical guidelinesfor all aspects of this vital topic. Linking theoretical principles with real hardware designs,the book will help engineers meet safety and regulatory standards, reduce redesign costs,shorten product development and testing cycles, and develop more reliable, efficientequipment.This outstanding reference highlights the determination of reactance and resistances of conductors... discusses heat transfer problems in industrial apparatus . .. and considers shortcircuit and ground fault calculations as well as temperature rise and forces occurring underfault conditions.Design Fundamentals for Low-Voltage Distribution and Control applies thermodynamicprinciples to electrical equipment, including coverage of heat transfer equations, calculationexamples for conductor sizes, and insulation. It provides empirical models to show howhigher order theoretical equations can be practically approximated . . . and includes samplecalculations for magnet size, circuit breakers, fault current, arc interruption, and other propertiesand equipment.In addition, the book compares design requirements for both U.S. and European equipment.Featuring numerous equations, graphs, tables, test procedures, and diagrams, Design Fundamentalsfor Low-Voltage Distribution and Control is an invaluable practical guide for electricaland electronics, design, project, and power engineers involved with the design andapplication of electrical apparatus; and graduate students of electrical engineering, powerengineering, and electro technology.
This class-tested book gives you a familiarity with electricity and electronics as used in the modern world of measurement and control. Integral to the text are procedures performed to make safe and successful measurements of electrical quantities. It will give you a measurement vocabulary along with an understanding of digital and analog meters, bridges, power supplies, solid state circuitry, oscilloscopes, and analog to digital conversions. This book is about behavior, not design, and thus lends itself to an easy-to-understand format over absolute technical perfection. And where possible, applications are used to illustrate the topics being explained. The text uses a minimum of mathematics and where algebraic concepts are utilized there is sufficient explanation of the operation, so you may see the solution without actually performing the mathematical operations. This book is student centered. It has been developed from course materials successfully used by the author in both a college setting and when presented as short course study classes by ISA. These materials have been successful because of the insistence on practicality and solicitation of student suggestions for improvements. Basic Electricity and Electronics for Control will enhance student success in any industrial or technical school setting where basic technician training is to take place.
There is a large gap between what you learn in college and the practical knowhow demanded in the working environment, running and maintaining electrical equipment and control circuits. Practical Troubleshooting of Electrical Equipment and Control Circuits focuses on the hands-on knowledge and rules-of-thumb that will help engineers and employers by increasing knowledge and skills, leading to improved equipment productivity and reduced maintenance costs. Practical Troubleshooting of Electrical Equipment and Control Circuits will help engineers and technicians to identify, prevent and fix common electrical equipment and control circuits. The emphasis is on practical issues that go beyond typical electrical principles, providing a tool-kit of skills in solving electrical problems, ranging from control circuits to motors and variable speed drives. The examples in the book are designed to be applicable to any facility. - Discover the practical knowhow and rules-of-thumb they don't teach you in the classroom - Diagnose electrical problems 'right first time' - Reduce downtime
Real-world engineering problems are rarely, if ever, neatly divided into mechanical, electrical, chemical, civil, and other categories. Engineers from all disciplines eventually encounter computer and electronic controls and instrumentation, which require at least a basic knowledge of electrical and other engineering specialties, as well as associa
A hard copy companion to the eLearning course that serves as a practical guide to the principles and characteristics of controls, and how to apply them in the use, selection, specification and design of controls systems.
Chapter one reviews the electrical fundamentals that are necessary to understand their operation. Chapters two through four discuss inputs, logic devices and output devices commonly used in industrial applications. Chapter five explains the schematic symbols and logic used to read and create ladder logic diagrams. Chapter six introduces programable controllers and shows how they are used to simplify and improve control systems. Chapter seven discusses industrial temperature control systems.
This textbook provides an overivew of electric motor control for industrial automation, identifiying key concepts and stressing real-world applications, procedures, and operations. Mathematical operations are simplified, and problems are solved by basic applications. In addition to motor control, co
