Description

Book Synopsis

An introductory reference covering the devices, simulations and limitations in the control of servo systems

Linking theoretical material with real-world applications, this book provides a valuable introduction to motion system design. The book begins with an overview of classic theory, its advantages and limitations, before showing how classic limitations can be overcome with complete system simulation. The ability to efficiently vary system parameters (such as inertia, friction, dead-band, damping), and quickly determine their effect on performance, stability, efficiency, is also described. The author presents a detailed review of major component characteristics and limitations as they relate to system design and simulation.

The use of computer simulation throughout the book will familiarize the reader as to how this contributes to efficient system design, how it avoids potential design flaws and saves both time and expense throughout the design process.

Table of Contents

Acknowledgements xiii

1 Introduction 1

1.1 Targeted Readership 2

1.2 Motion System History 2

1.3 Suggested Library for Motion System Design 5

Reference 6

2 Control Theory Overview 7

2.1 Classic Differential/Integral Equation Approach 7

2.2 LaPlace Transform-the S Domain 10

2.3 The Transfer Function 13

2.4 Open versus Closed Loop Control 15

2.5 Stability 22

2.6 Basic Mechanical and Electrical Systems 23

2.7 Sampled Data Systems/Digital Control 28

References 34

3 System Components 35

3.1 Motors and Amplifiers 35

3.2 Gearheads 107

3.3 Leadscrews and Ballscrews 119

3.4 Belt and Pulley 126

3.5 Rack and Pinion 129

3.6 Clutches and Brakes 132

3.7 Servo Couplings 140

3.8 Feedback Devices 146

References 164

Additional Readings 165

4 System Design 167

4.1 Position, Velocity, Acceleration, Jerk, Resolution, Accuracy, Repeatability 167

4.2 Three Basic Loops – Current/Voltage, Velocity, Position 170

4.3 The Velocity Profile 182

4.4 Feed Forward 195

4.5 Inertia 200

4.6 Shaft Compliance 210

4.7 Compensation 216

4.8 Nonlinear Effects 224

4.9 The Eight Basic Building Blocks 230

References 253

5 System Examples – Design and Simulation 255

5.1 Linear Motor Drive 255

5.2 Print Cylinder Control 257

5.3 Conveyor System – Clutch/Brake Control 261

5.4 Bang-Bang Servo (Slack Loop System) 267

5.5 Wafer Spinner 272

Appendix 275

A.1 Brushless Motor Speed/Torque Curves 275

A.2 Inertia Calculation – Excel Program 277

A.3 Time Constants versus Viscous Damping Constant 277

A.4 Current Drive Review 279

A.5 Conversion Factors 285

A.6 Work and Power 286

A.7 I2R Losses 287

A.8 Copper Resistivity 290

Index 291

Electromechanical Motion Syste

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    A Hardback by Frederick G. Moritz

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      Publisher: John Wiley & Sons Inc
      Publication Date: 03/01/2014
      ISBN13: 9781119992745, 978-1119992745
      ISBN10: 1119992745
      Also in:
      Mechanical engineering Mechanical engineering and materials

      Description

      Book Synopsis

      An introductory reference covering the devices, simulations and limitations in the control of servo systems

      Linking theoretical material with real-world applications, this book provides a valuable introduction to motion system design. The book begins with an overview of classic theory, its advantages and limitations, before showing how classic limitations can be overcome with complete system simulation. The ability to efficiently vary system parameters (such as inertia, friction, dead-band, damping), and quickly determine their effect on performance, stability, efficiency, is also described. The author presents a detailed review of major component characteristics and limitations as they relate to system design and simulation.

      The use of computer simulation throughout the book will familiarize the reader as to how this contributes to efficient system design, how it avoids potential design flaws and saves both time and expense throughout the design process.

      Table of Contents

      Acknowledgements xiii

      1 Introduction 1

      1.1 Targeted Readership 2

      1.2 Motion System History 2

      1.3 Suggested Library for Motion System Design 5

      Reference 6

      2 Control Theory Overview 7

      2.1 Classic Differential/Integral Equation Approach 7

      2.2 LaPlace Transform-the S Domain 10

      2.3 The Transfer Function 13

      2.4 Open versus Closed Loop Control 15

      2.5 Stability 22

      2.6 Basic Mechanical and Electrical Systems 23

      2.7 Sampled Data Systems/Digital Control 28

      References 34

      3 System Components 35

      3.1 Motors and Amplifiers 35

      3.2 Gearheads 107

      3.3 Leadscrews and Ballscrews 119

      3.4 Belt and Pulley 126

      3.5 Rack and Pinion 129

      3.6 Clutches and Brakes 132

      3.7 Servo Couplings 140

      3.8 Feedback Devices 146

      References 164

      Additional Readings 165

      4 System Design 167

      4.1 Position, Velocity, Acceleration, Jerk, Resolution, Accuracy, Repeatability 167

      4.2 Three Basic Loops – Current/Voltage, Velocity, Position 170

      4.3 The Velocity Profile 182

      4.4 Feed Forward 195

      4.5 Inertia 200

      4.6 Shaft Compliance 210

      4.7 Compensation 216

      4.8 Nonlinear Effects 224

      4.9 The Eight Basic Building Blocks 230

      References 253

      5 System Examples – Design and Simulation 255

      5.1 Linear Motor Drive 255

      5.2 Print Cylinder Control 257

      5.3 Conveyor System – Clutch/Brake Control 261

      5.4 Bang-Bang Servo (Slack Loop System) 267

      5.5 Wafer Spinner 272

      Appendix 275

      A.1 Brushless Motor Speed/Torque Curves 275

      A.2 Inertia Calculation – Excel Program 277

      A.3 Time Constants versus Viscous Damping Constant 277

      A.4 Current Drive Review 279

      A.5 Conversion Factors 285

      A.6 Work and Power 286

      A.7 I2R Losses 287

      A.8 Copper Resistivity 290

      Index 291

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