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Control Systems Engineering, 5th Edition

by Nise, Norman S., California State Polytechnic Univ., Pomona

Publisher: John Wiley & Sons

Publishing Date: 2007/12/10

eText ISBN-10

0-470-28221-5

eText ISBN-13

978-0-470-28221-2

Print ISBN-10

0-471-79475-9

Print ISBN-13

978-0-471-79475-2

Table of Contents

1. INTRODUCTION, 1

1.1. Introduction, 2

1.2. A History of Control Systems, 4

1.3. System Configurations, 8

1.4. Analysis and Design Objectives, 10

Introduction to a Case Study, 12

1.5. The Design Process, 15

1.6. Computer-Aided Design, 20

1.7. The Control Systems Engineer, 22

Review Questions, 23

Progressive Analysis and Design Problems, 28

Bibliography, 29

2. MODELING IN THE FREQUENCY DOMAIN, 31

2.1. Introduction, 32

2.2. Laplace Transform Review, 32

2.3. The Transfer Function, 42

2.4. Electrical Network Transfer Functions, 45

2.5. Translational Mechanical System Transfer Functions, 59

2.6. Rotational Mechanical System Transfer Functions, 66

2.7. Transfer Functions for Systems with Gears, 71

2.8. Electromechanical System Transfer Functions, 75

2.9. Electric Circuit Analogs, 81

2.10. Nonlinearities, 84

2.11. Linearization, 85

Case Studies, 90

Review Questions, 93

Progressive Analysis and Design Problems, 105

Cyber Exploration Laboratory, 106

Bibliography, 109

3. MODELING IN THE TIME DOMAIN, 111

3.1. Introduction, 112

3.2. Some Observations, 112

3.3. The General State-Space Representation, 116

3.4. Applying the State-Space Representation, 118

3.5. Converting a Transfer Function to State Space, 126

3.6. Converting from State Space to a Transfer Function, 133

3.7. Linearization, 135

Case Studies, 138

Review Questions, 143

Progressive Analysis and Design Problems, 149

Cyber Exploration Laboratory, 150

Bibliography, 151

4. TIME RESPONSE, 153

4.1. Introduction, 154

4.2. Poles, Zeros, and System Response, 154

4.3. First-Order Systems, 157

4.4. Second-Order Systems: Introduction, 160

4.5. The General Second-Order System, 165

4.6. Underdamped Second-Order Systems, 168

4.7. System Response with Additional Poles, 177

4.8. System Response with Zeros, 181

4.9. Effects of Nonlinearities upon Time Response, 187

4.10. Laplace Transform Solution of State Equations, 190

4.11. Time Domain Solution of State Equations, 193

Case Studies, 198

Review Questions, 205

Design Problems, 215

Progressive Analysis and Design Problems, 217

Cyber Exploration Laboratory, 218

Bibliography, 221

5. REDUCTION OF MULTIPLE SUBSYSTEMS, 223

5.1. Introduction, 224

5.2. Block Diagrams, 224

5.3. Analysis and Design of Feedback Systems, 233

5.4. Signal-Flow Graphs, 236

5.5. Mason’s Rule, 239

5.6. Signal-Flow Graphs of State Equations, 242

5.7. Alternative Representations in State Space, 244

5.8. Similarity Transformations, 254

Case Studies, 262

Review Questions, 269

Design Problems, 283

Progressive Analysis and Design Problems, 284

Cyber Exploration Laboratory, 285

Bibliography, 286

6. STABILITY, 287

6.1. Introduction, 288

6.2. Routh-Hurwitz Criterion, 291

6.3. Routh-Hurwitz Criterion: Special Cases, 294

6.4. Routh-Hurwitz Criterion: Additional Examples, 300

6.5. Stability in State Space, 306

Case Studies, 309

Review Questions, 311

Design Problems, 317

Progressive Analysis and Design Problems, 319

Cyber Exploration Laboratory, 320

Bibliography, 321

7. STEADY-STATE ERRORS, 323

7.1. Introduction, 324

7.2. Steady-State Error for Unity Feedback Systems, 327

7.3. Static Error Constants and System Type, 333

7.4. Steady-State Error Specifications, 337

7.5. Steady-State Error for Disturbances, 339

7.6. Steady-State Error for Nonunity Feedback Systems, 341

7.7. Sensitivity, 345

7.8. Steady-State Error for Systems in State Space, 348

Case Studies, 352

Review Questions, 356

Design Problems, 365

Progressive Analysis and Design Problems, 367

Cyber Exploration Laboratory, 368

Bibliography, 369

8. ROOT LOCUS TECHNIQUES, 370

8.1. Introduction, 371

8.2. Defining the Root Locus, 375

8.3. Properties of the Root Locus, 378

8.4. Sketching the Root Locus, 381

8.5. Refining the Sketch, 386

8.6. An Example, 395

8.7. Transient Response Design via Gain Adjustment, 399

8.8. Generalized Root Locus, 404

8.9. Root Locus for Positive-Feedback Systems, 405

8.10. Pole Sensitivity, 408

Case Studies, 410

Review Questions, 416

Design Problems, 427

Progressive Analysis and Design Problems, 430

Cyber Exploration Laboratory, 432

Bibliography, 433

9. DESIGN VIA ROOT LOCUS, 435

9.1. Introduction, 436

9.2. Improving Steady-State Error via Cascade Compensation, 439

9.3. Improving Transient Response via Cascade Compensation, 449

9.4. Improving Steady-State Error and Transient Response, 463

9.5. Feedback Compensation, 476

9.6. Physical Realization of Compensation, 485

Case Studies, 490

Review Questions, 496

Design Problems, 503

Progressive Analysis and Design Problems, 510

Cyber Exploration Laboratory, 510

Bibliography, 512

10. FREQUENCY RESPONSE TECHNIQUES, 513

10.1. Introduction, 514

10.2. Asymptotic Approximations: Bode Plots, 520

10.3. Introduction to the Nyquist Criterion, 539

10.4. Sketching the Nyquist Diagram, 544

10.5. Stability via the Nyquist Diagram, 549

10.6. Gain Margin and Phase Margin via the Nyquist Diagram, 553

10.7. Stability, Gain Margin, and Phase Margin via Bode Plots, 556

10.8. Relation between Closed-Loop Transient and Closed-Loop Frequency Responses, 559

10.9. Relation between Closed- and Open-Loop Frequency Responses, 563

10.10. Relation between Closed-Loop Transient and Open-Loop Frequency Responses, 569

10.11. Steady-State Error Characteristics from Frequency Response, 573

10.12. Systems with Time Delay, 577

10.13. Obtaining Transfer Functions Experimentally, 581

Case Study, 585

Review Questions, 589

Progressive Analysis and Design Problems, 599

Cyber Exploration Laboratory, 600

Bibliography, 601

11. DESIGN VIA FREQUENCY RESPONSE, 602

11.1. Introduction, 603

11.2. Transient Response via Gain Adjustment, 604

11.3. Lag Compensation, 607

11.4. Lead Compensation, 612

11.5. Lag-Lead Compensation, 618

Case Studies, 622

Review Questions, 625

Design Problems, 629

Progressive Analysis and Design Problems, 631

Cyber Exploration Laboratory, 632

Bibliography, 633

12. DESIGN VIA STATE SPACE, 635

12.1. Introduction, 636

12.2. Controller Design, 637

12.3. Controllability, 643

12.4. Alternative Approaches to Controller Design, 648

12.5. Observer Design, 653

12.6. Observability, 660

12.7. Alternative Approaches to Observer Design, 664

12.8. Steady-State Error Design via Integral Control, 671

Case Study, 674

Review Questions, 681

Design Problems, 686

Progressive Analysis and Design Problems, 689

Cyber Exploration Laboratory, 689

Bibliography, 690

13. DIGITAL CONTROL SYSTEMS, 692

13.1. Introduction, 693

13.2. Modeling the Digital Computer, 696

13.3. The z-Transform, 699

13.4. Transfer Functions, 704

13.5. Block Diagram Reduction, 708

13.6. Stability, 711

13.7. Steady-State Errors, 718

13.8. Transient Response on the z-Plane, 722

13.9. Gain Design on the z-Plane, 724

13.10. Cascade Compensation via the s-Plane, 728

13.11. Implementing the Digital Compensator, 731

Case Studies, 734

Review Questions, 740

Design Problems, 744

Progressive Analysis and Design Problems, 746

Cyber Exploration Laboratory, 747

Bibliography, 748

Appendix A. List of Symbols, 750

Appendix B. MATLAB Tutorial, 754

Appendix C. MATLAB’s Simulink Tutorial, 807

Answers to Selected Problems, 839

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