Description |
1 online resource |
Contents |
Intro -- Title Page -- Copyright -- Table of Contents -- Preface -- Chapter 1: Introduction -- 1.1 Components of a Motion Control System -- References -- Chapter 2: Motion Profile -- 2.1 Kinematics: Basic Concepts -- 2.2 Common Motion Profiles -- 2.3 Multiaxis Motion -- Problems -- References -- Chapter 3: Drive-Train Design -- 3.1 Inertia and Torque Reflection -- 3.2 Inertia Ratio -- 3.3 Transmission Mechanisms -- 3.4 Torque Required for the Motion -- 3.5 Motor Torque-Speed Curves -- 3.6 Motor Sizing Process -- 3.7 Motor Selection for Direct Drive -- 3.8 Motor and Transmission Selection -- 3.9 Gearboxes -- 3.10 Servo Motor and Gearhead Selection -- 3.11 AC Induction Motor and Gearbox Selection -- 3.12 Motor, Gearbox, and Transmission Mechanism Selection -- Problems -- References -- Chapter 4: Electric Motors -- 4.1 Underlying Concepts -- 4.2 Rotating Magnetic Field -- 4.3 AC Servo Motors -- 4.4 AC Induction Motors -- 4.5 Mathematical Models -- Problems -- References -- Chapter 5: Sensors and Control Devices -- 5.1 Optical Encoders -- 5.2 Detection Sensors -- 5.3 Pilot Control Devices -- 5.4 Control Devices for AC Induction Motors -- Problems -- References -- Chapter 6: AC Drives -- 6.1 Drive Electronics -- 6.2 Basic Control Structures -- 6.3 Inner Loop -- 6.4 Simulation Models of Controllers -- 6.5 Tuning -- Problems -- References -- Chapter 7: Motion Controller Programming and Applications -- 7.1 Move Modes -- 7.2 Programming -- 7.3 Single-Axis Motion -- 7.4 Multiaxis Motion -- Problems -- References -- Appendix A: Overview of Control Theory -- A.1 System Configurations -- A.2 Analysis Tools -- A.3 Transient Response -- A.4 Steady-State Errors -- References -- Index -- End User License Agreement |
Summary |
Motion control is widely used in all types of industries including packaging, assembly, textile, paper, printing, food processing, wood products, machinery, electronics and semiconductor manufacturing. Industrial motion control applications use specialized equipment and require system design and integration. To design such systems, engineers need to be familiar with industrial motion control products; be able to bring together control theory, kinematics, dynamics, electronics, simulation, programming and machine design; apply interdisciplinary knowledge; and deal with practical application issues. The book is intended to be an introduction to the topic for senior level undergraduate mechanical and electrical engineering students. It should also be resource for system design engineers, mechanical engineers, electrical engineers, project managers, industrial engineers, manufacturing engineers, product managers, field engineers, and programmers in industry |
Audience |
Scholarly & Professional John Wiley & Sons, Incorporated |
Subject |
Automatic control.
|
|
Manufacturing processes -- Automation.
|
|
Motion control devices.
|
|
Automatic control.
|
|
Manufacturing processes -- Automation.
|
|
Motion control devices.
|
Form |
Electronic book
|
ISBN |
1118350812 |
|
1118403142 |
|
1118403150 |
|
1118403207 |
|
9781118350812 |
|
9781118403143 |
|
9781118403150 |
|
9781118403204 |
|