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线性控制系统工程 英文PDF|Epub|txt|kindle电子书版本网盘下载
- (美)Morris Driels著 著
- 出版社: 北京:清华大学出版社
- ISBN:7302041415
- 出版时间:2000
- 标注页数:628页
- 文件大小:24MB
- 文件页数:642页
- 主题词:线性控制系统-系统工程-高等学校-教材-英文
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图书目录
MODULE 1 INTRODUCTION TO FEEDBACK CONTROL1
MODULE 2 TRANSFER FUNCTIONS AND BLOCK DIAGRAM ALGEBRA22
Transfer Functions22
Block Diagram Algebra23
MODULE 3 FIRST-ORDER SYSTEMS37
Impulse Response39
Step Response40
Ramp Response41
Harmonic Response41
First-Order Feedback Systems43
Complex-Plane Representation:Poles and Zeros45
Poles and Zeros of First-Order Systems46
Dominant Poles47
MODULE 4 SECOND-ORDER SYSTEMS57
Second-Order Electrical System63
Step Response64
MODULE 5 SECOND-ORDER SYSTEM TIME-DOMAIN RESPONSE75
Ramp Response75
Harmonic Response76
Relationship between System Poles and Transient Response78
Time-Domain Performance Specifications81
MODULE 6 SECOND-ORDER SYSTEMS: DISTURBANCE REJECTION AND RATE FEEDBACK93
Open-and Closed-Loop Disturbance Rejection96
Effect of Velocity Feedback99
MODULE 7 HIGHER-ORDER SYSTEMS111
Reduction to Lower-Order Systems111
Third-Order Systems112
Effect of a Closed-Loop Zero114
Occurrence of Closed-Loop Zeros117
MODULE 8 SYSTEM TYPE: STEADY-STATE ERRORS125
Impulse Input127
Step Input128
Ramp Input129
Acceleration Input130
Non-Unity-Feedback Control Systems132
MODULE 9 ROUTH’S METHOD, ROOT LOCUS: MAGNITUDE AND PHASE EQUATIONS145
Routh’s Stability Criterion145
Root Locus Method: Magnitude and Phase Equations148
MODULE 10 RULES FOR PLOTTING THE ROOT LOCUS173
MODULE 11 SYSTEM DESIGN USING THE ROOT LOCUS199
MultiLoop System199
System Design in the Complex Plane202
Performance Requirements as Complex-Plane Constraints203
Steady-State Error204
Desirable Areas of Complex Plane for “Good” Response205
MODULE 12 FREQUENCY RESPONSE AND NYQUIST DIAGRAMS223
Frequency Response224
Nyquist Diagrams from Transfer Functions225
MODULE 13 NYQUIST STABILITY CRITERION241
Conformal Mapping: Cauchy’s Theorem241
Application to Stability245
Some Comments on Nyquist Stability252
Alternative Approach to Nyquist Stability Criterion254
MODULE 14 NYQUIST ANALYSIS AND RELATIVE STABILITY272
Conditional Stability272
Gain and Phase Margins274
MODULE 15 BODE DIAGRAMS289
Bode Diagrams of Simple Transfer Functions289
Bode Diagrams of Compound Transfer Functions293
Elemental Bode Diagrams297
MODULE 16 BODE ANALYSIS, STABILITY, AND GAIN AND PHASE MARGINS319
Conditional Stability319
Gain and Phase Margins in the Bode Diagram321
System Type and Steady-State Error from Bode Diagrams323
Further Discussion of Gain and Phase Margins326
MODULE 17 TIME RESPONSE FROM FREQUENCY RESPONSE341
Bode Diagram from the Root Locus341
Closed-Loop Time Response from Open-Loop Phase Margin344
Time Response of Higher-Order Systems346
MODULE 18 FREQUENCY-DOMAIN SPECIFICATIONS AND CLOSED-LOOP FREQUENCY RESPONSE361
Frequency-Domain Specifications361
Closed-Loop Frequency Response from Nyquist Diagram365
Closed-Loop Frequency Response from Bode Diagram371
Gain for a Desired Mp from the Nyquist Diagram374
Gain For a Desired Mp from the Nichols Chart377
Non-Unity-Feedback Gain Systems377
MODULE 19 PHASE LEAD COMPENSATION396
Multiple-Design Constraints396
Transfer Function of Phase Lead Element399
Phase Lead Compensation Process402
Comments on the Applicability and Results of Phase Lead Compensation409
MODULE 20 PHASE LAG AND LEAD-LAG COMPENSATION431
Transfer Function of Phase Lag Element431
Phase Lag Compensation Process433
Comments on Phase Lag Compensation435
Lead-Lag Compensation436
Transfer Function of a Lead-Lag Element438
Lead-Lag Compensation Process440
MODULE 21 MULTIMODE CONTROLLERS463
Proportional Control464
Proportional-Plus-Integral Control466
Proportional-Plus-Derivative Control468
Proportional-Plus-Integral-Plus-Derivative Control471
MODULE 22 STATE-SPACE SYSTEM DESCRIPTIONS487
State-Space Form Equations from Transfer Functions492
Transfer Funoi?on from State-Space Form495
Transformation of State Variable and Invariability of System Eigenvectors496
Canonical Forms and Decoupled Systems497
Relationship between Eigenvalues and System Poles500
MODULE 23 STATE-SPACE SYSTEM RESPONSE, CONTROLLABILITY,AND OBSERVABILITY515
Direct Numerical Solution of the State Equation515
Solution Using State Transition Matrix516
Solution Using Laplace Transforms518
System Stability518
Controllability and Observability519
MODULE 24 STATE-SPACE CONTROLLER DESIGN531
Direct Calculation of Gains by Comparison with Characteristic Equation532
Pole Placement via Control Canonical Form of State Equations534
Pole Placement via Ackermann’s Formula539
MODULE 25 STATE-SPACE OBSERVER DESIGN550
Observer Synthesis550
Compensator Design555
MODULE 26 WAVE ENERGY ABSORBTION DEVICE569
MODULE 27 MISSILE ATTITUDE CONTROLLER574
MODULE 28 ROBOTIC HAND DESIGN582
MODULE 29 PUMPED STORAGE FLOW CONTROL SYSTEM589
MODULE 30 SHIP STEERING CONTROL SYSTEM597
MODULE 31 CRUISE MISSILE ALTITUDE CONTROL SYSTEM605
MODULE 32 MACHINE TOOL POWER DRIVE SYSTEM WITH FLEXIBILITY613
APPENDIX 1 REVIEW OF LAPLACE TRANSFORMS AND THEIR USE IN SOLVING DIFFERENTIAL EQUATIONS620
Linear Properties620
Shifting Theorem620
Time Differentials621
Final-Value Theorem622
Inverse Transforms622
Solving Linear Differential Equations622
Index625