Verfügbarkeit: Mechatronic Systems Design

Mechatronic Systems Design: Methods, Models, Concepts

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Bibliographische Detailangaben
1. Verfasser:	Janschek, Klaus (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin Springer 2012
Schlagworte:	Systementwicklung Mechatronik
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXI, 805 S. Ill., graph. Darst.
ISBN:	9783642175305 9783642175312 3642175309

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adam_text	IMAGE 1 CONTENTS 1 INTRODUCTION 1 1.1 MECHATRONICS, MECHATRONIC SYSTEMS 2 1.2 SYSTEMS DESIGN 9 1.3 INTRODUCTORY EXAMPLES 17 1.3.1 TELESCOPE WITH ADAPTIVE OPTICS 17 1.3.2 OPTOMECHATRONIC REMOTE SENSING CAMERA 31 1.4 ABOUT THIS BOOK 37 BIBLIOGRAPHY FOR CHAPTER 1 44 2 ELEMENTS OF MODELING 47 2.1 SYSTEMS ENGINEERING CONTEXT 48 2.2 SYSTEM MODELING WITH STRUCTURED ANALYSIS 55 2.2.1 DEFINITIONS 56 2.2.2 ORDERING PRINCIPLES 57 2.2.3 MODELING ELEMENTS OF STRUCTURED ANALYSIS 58 2.2.4 EXAMPLE PRODUCT: AUTOFOCUS CAMERA 64 2.2.5 ALTERNATIVE MODELING METHODS 69 2.3 MODELING PARADIGMS FOR MECHATRONIC SYSTEMS 72 2.3.1 GENERALIZED POWER AND ENERGY 74 2.3.2 ENERGY-BASED MODELING: LAGRANGE FORMALISM 79 2.3.3 ENERGY-BASED MODELING: HAMILTON'S EQUATIONS 87 2.3.4 MULTI-PORT MODELING: KIRCHHOFF NETWORKS 89 2.3.5 MULTI-PORT MODELING: BOND GRAPHS 102 2.3.6 ENERGY / MULTI-PORT MODELING: PORT-HAMILTONIAN SYSTEMS 103 2.3.7 SIGNAL-COUPLED NETWORKS 106 2.3.8 MODEL CAUSALITY 112 2.3.9 MODULAR MODELING OF MECHATRONIC SYSTEMS 118 2.4 SYSTEMS OF DIFFERENTIAL-ALGEBRAIC EQUATIONS 131 2.4.1 INTRODUCTION TO DAE SYSTEMS 131 2.4.2 DAE INDEX TESTS 133 2.4.3 DAE INDEX REDUCTION 138 2.5 HYBRID SYSTEMS 140 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1007904747 DIGITALISIERT DURCH IMAGE 2 XVI CONTENTS 2.5.1 GENERAL STRUCTURE OF A HYBRID SYSTEM 140 2.5.2 HYBRID PHENOMENA 141 2.5.3 NET-STATE MODELS 144 2.6 LINEAR SYSTEM MODELS 148 2.6.1 LOCAL LINEARIZATION OF NONLINEAR STATE SPACE MODELS . 149 2.6.2 LOCAL LINEARIZATION OF NONLINEAR DAE SYSTEMS 153 2.6.3 LTI SYSTEMS: TRANSFER FUNCTION, FREQUENCY RESPONSE. 154 2.7 EXPERIMENTAL DETERMINATION OF THE FREQUENCY RESPONSE 160 2.7.1 GENERAL CONSIDERATIONS 160 2.7.2 METHODOLOGICAL APPROACH 161 2.7.3 FREQUENCY RESPONSES MEASUREMENT VIA NOISE EXCITATION 162 BIBLIOGRAPHY FOR CHAPTER 2 166 3 SIMULATION ISSUES 171 3.1 SYSTEMS ENGINEERING CONTEXT 172 3.2 ELEMENTS OF NUMERICAL INTEGRATION 173 3.2.1 NUMERICAL INTEGRATION OF DIFFERENTIAL EQUATIONS 173 3.2.2 CONCEPTS OF STABILITY 175 3.2.3 NUMERICAL STABILITY 177 3.3 STIFF SYSTEMS 181 3.4 WEAKLY-DAMPED SYSTEMS 185 3.5 HIGH-ORDER LINEAR SYSTEMS 188 3.5.1 GENERAL NUMERICAL INTEGRATION METHODS 188 3.5.2 SOLUTION VIA THE STATE TRANSITION MATRIX 189 3.5.3 ACCURACY OF THE SIMULATION SOLUTIONS 191 3.6 NUMERICAL INTEGRATION OF DAE SYSTEMS 194 3.6.1 EXPLICIT INTEGRATION METHODS 194 3.6.2 IMPLICIT INTEGRATION METHODS 196 3.6.3 SCALING FOR INDEX-2 SYSTEMS 199 3.6.4 CONSISTENT INITIAL VALUES 200 3.7 IMPLEMENTATION APPROACHES FOR SIMULATION OF HYBRID PHENOMENA 201 3.7.1 HANDLING DISCONTINUITIES 201 3.7.2 EVENT DETECTION 202 3.8 SIMULATION EXAMPLE: IDEAL PENDULUM 203 BIBLIOGRAPHY FOR CHAPTER 3 209 4 FUNCTIONAL REALIZATION: MULTIBODY DYNAMICS 211 4.1 SYSTEMS ENGINEERING CONTEXT 212 4.2 MULTIBODY SYSTEMS 213 4.3 PHYSICAL FUNDAMENTALS 216 IMAGE 3 CONTENTS XVII 4.3.1 KINEMATICS VS. DYNAMICS 216 4.3.2 RIGID BODIES 217 4.3.3 DEGREES OF FREEDOM AND CONSTRAINTS 223 4.4 MBS MODELS IN THE TIME DOMAIN 230 4.4.1 MODEL HIERARCHY FOR SYSTEMS DESIGN 230 4.4.2 MBS EQUATIONS OF MOTION 232 4.4.3 MBS STATE SPACE MODEL 237 4.5 NATURAL OSCILLATIONS 237 4.5.1 EIGENVALUE PROBLEM FOR CONSERVATIVE MULTIBODY SYSTEMS 237 4.5.2 EIGENMODES 239 4.5.3 DISSIPATIVE MULTIBODY SYSTEMS 245 4.6 RESPONSE CHARACTERISTICS IN THE FREQUENCY DOMAIN 249 4.7 MEASUREMENT AND ACTUATION LOCATIONS 258 4.7.1 GENERAL MULTIPLE-MASS OSCILLATOR 258 4.7.2 ZEROS OF A MULTIPLE-MASS OSCILLATOR 259 4.7.3 COLLOCATED MEASUREMENT AND ACTUATION 264 4.7.4 NON-COLLOCATED MEASUREMENT AND ACTUATION 266 4.7.5 ANTIRESONANCE 267 4.7.6 MIGRATION OF MBS ZEROS 268 BIBLIOGRAPHY FOR CHAPTER 4 275 FUNCTIONAL REALIZATION: THE GENERIC MECHATRONIC TRANSDUCER 277 5.1 SYSTEMS ENGINEERING CONTEXT 278 5.2 GENERAL GENERIC TRANSDUCER MODEL 280 5.2.1 SYSTEM CONFIGURATION 280 5.2.2 MODELING APPROACH 283 5.3 THE UNLOADED GENERIC TRANSDUCER 288 5.3.1 ENERGY-BASED MODEL 288 5.3.2 CONSTITUTIVE ELM TRANSDUCER EQUATIONS 300 5.3.3 ELM TWO-PORT MODEL 304 5.4 THE LOADED GENERIC TRANSDUCER 311 5.4.1 ENERGY-BASED MODEL 311 5.4.2 NONLINEAR EQUATIONS OF MOTION 311 5.4.3 EQUILIBRIUM POSITIONS: OPERATING POINTS 316 5.4.4 LINEAR SIGNAL-BASED TRANSDUCER MODEL 320 5.4.5 TRANSFER MATRIX 323 5.4.6 DISCUSSION OF THE RESPONSE CHARACTERISTICS 324 5.5 LOSSY TRANSDUCER 330 5.5.1 GENERAL TRANSDUCER BEHAVIOR 330 5.5.2 NONLINEAR MODEL: EQUILIBRIUM POSITIONS 333 IMAGE 4 XVIII CONTENTS 5.5.3 LINEAR SIGNAL-BASED MODEL 335 5.5.4 CONSTITUTIVE TWO-PORT EQUATIONS WITH DISSIPATIVE RESISTORS 337 5.5.5 LINEAR DYNAMIC ANALYSIS 338 5.5.6 GENERAL IMPEDANCE AND ADMITTANCE FEEDBACK 343 5.6 ELECTROMECHANICAL COUPLING FACTOR 350 5.6.1 GENERAL SIGNIFICANCE AND ATTRIBUTES 350 5.6.2 MODEL FOR CALCULATING ELM COUPLING FACTORS 352 5.6.3 DISCUSSION OF ELM COUPLING FACTORS 358 5.7 TRANSDUCERS WITH MULTIBODY LOADS 362 5.7.1 FREQUENCY RESPONSE 362 5.7.2 IMPEDANCE AND ADMITTANCE FEEDBACK 367 5.8 MECHATRONIC RESONATOR 370 5.9 MECHATRONIC OSCILLATING GENERATOR 373 5.10 SELF-SENSING ACTUATORS 376 5.10.1 PRINCIPLE OF OPERATION 376 5.10.2 SIGNAL-BASED SELF-SENSING SOLUTION APPROACH 378 5.10.3 ANALOG ELECTRICAL SELF-SENSING SOLUTIONS 379 BIBLIOGRAPHY FOR CHAPTER 5 385 6 FUNCTIONAL REALIZATION: ELECTROSTATIC TRANSDUCERS 389 6.1 SYSTEMS ENGINEERING CONTEXT 390 6.2 PHYSICAL FOUNDATIONS 391 6.3 GENERIC ELECTROSTATIC TRANSDUCER 394 6.3.1 SYSTEM CONFIGURATION 394 6.3.2 ELECTROSTATIC CONSTITUTIVE TRANSDUCER EQUATIONS 395 6.3.3 ELM TWO-PORT MODEL 399 6.3.4 LOADED ELECTROSTATIC TRANSDUCER 401 6.3.5 STRUCTURAL PRINCIPLES 403 6.4 TRANSDUCER WITH VARIABLE ELECTRODE SEPARATION AND VOLTAGE DRIVE 406 6.4.1 GENERAL DYNAMIC MODEL 406 6.4.2 INCREASING THE RANGE OF MOTION WITH SERIAL CAPACITORS 411 6.4.3 PASSIVE DAMPING WITH SERIAL RESISTANCE 413 6.5 TRANSDUCER WITH VARIABLE ELECTRODE SEPARATION AND CURRENT DRIVE 420 6.6 DIFFERENTIAL TRANSDUCERS 423 6.6.1 GENERIC TRANSDUCER CONFIGURATION 423 6.6.2 PUSH-PUSH CONTROL: MECHANICALLY SYMMETRIC CONFIGURATION 425 6.6.3 PUSH-PUSH CONTROL: TRANSVERSE COMB TRANSDUCER 426 IMAGE 5 CONTENTS XIX 6.6.4 PUSH-PULL CONTROL: ELECTROSTATIC BEARING 431 6.6.5 PUSH-PULL CONTROL: AXISYMMETRIC DOUBLE-COMB TRANSDUCER 435 6.7 TRANSDUCERS WITH CONSTANT ELECTRODE SEPARATION 437 6.7.1 GENERAL DYNAMIC MODEL 437 6.7.2 LONGITUDINAL COMB TRANSDUCER 440 6.7.3 COMB TRANSDUCER WITH LINEARLY STEPPED TEETH 444 BIBLIOGRAPHY FOR CHAPTER 6 446 FUNCTIONAL REALIZATION: PIEZOELECTRIC TRANSDUCER 449 7.1 SYSTEMS ENGINEERING CONTEXT 450 7.2 PHYSICAL FOUNDATIONS 451 7.3 GENERIC PIEZOELECTRIC TRANSDUCER 459 7.3.1 SYSTEM CONFIGURATION 459 7.3.2 CONSTITUTIVE PIEZOELECTRIC TRANSDUCER EQUATIONS 460 7.3.3 ELM TWO-PORT MODEL 462 7.3.4 LOADED PIEZOELECTRIC TRANSDUCER 463 7.3.5 STRUCTURAL PRINCIPLES 468 7.4 TRANSDUCERS WITH IMPEDANCE FEEDBACK 477 7.5 MECHANICAL RESONATORS 483 7.5.1 PROPORTIONAL OPERATION VS. RESONANT OPERATION 483 7.5.2 ULTRASONIC PIEZO MOTORS 484 BIBLIOGRAPHY FOR CHAPTER 7 490 FUNCTIONAL REALIZATION: ELECTROMAGNETICALLY-ACTING TRANSDUCERS 493 8.1 SYSTEMS ENGINEERING CONTEXT 494 8.2 PHYSICAL FOUNDATIONS 497 8.3 GENERIC EM TRANSDUCER: VARIABLE RELUCTANCE 507 8.3.1 SYSTEM CONFIGURATION 507 8.3.2 CONSTITUTIVE ELECTROMAGNETIC TRANSDUCER EQUATIONS 508 8.3.3 ELM TWO-PORT MODEL 512 8.3.4 LOADED ELECTROMAGNETIC (EM) TRANSDUCER 514 8.3.5 STRUCTURAL PRINCIPLES 517 8.3.6 EM TRANSDUCERS WITH VARIABLE WORKING AIR GAPS 524 8.3.7 DIFFERENTIAL EM TRANSDUCERS: MAGNETIC BEARINGS 539 8.3.8 EM TRANSDUCERS WITH CONSTANT WORKING AIR GAPS 546 8.3.9 RELUCTANCE STEPPER MOTOR 549 8.4 GENERIC ED TRANSDUCER: LORENTZ FORCE 558 8.4.1 SYSTEM CONFIGURATION 558 8.4.2 CONSTITUTIVE ELECTRODYNAMIC TRANSDUCER EQUATIONS 559 8.4.3 ELM TWO-PORT MODEL 562 IMAGE 6 XX CONTENTS 8.4.4 LOADED ELECTRODYNAMIC (ED) TRANSDUCER 563 8.4.5 STRUCTURAL PRINCIPLES 567 BIBLIOGRAPHY FOR CHAPTER 8 574 9 FUNCTIONAL REALIZATION: DIGITAL INFORMATION PROCESSING 575 9.1 SYSTEMS ENGINEERING CONTEXT 576 9.2 DEFINITIONS 578 9.2.1 REFERENCE CONFIGURATION 578 9.2.2 MODELING APPROACHES 579 9.3 SAMPLING 581 9.4 ALIASING 586 9.5 HOLD ELEMENT 589 9.6 SAMPLED PLANT FREQUENCY RESPONSE 593 9.7 ALIASING IN OSCILLATORY SYSTEMS 596 9.8 DIGITAL CONTROLLERS 601 9.9 TRANSFORMED FREQUENCY DOMAIN 604 9.10 SIGNAL CONVERSION 614 9.11 DIGITAL DATA COMMUNICATIONS 618 9.12 REAL-TIME ASPECTS 622 9.13 DESIGN CONSIDERATIONS 624 BIBLIOGRAPHY FOR CHAPTER 9 626 10 CONTROL THEORETICAL ASPECTS 629 10.1 SYSTEMS ENGINEERING CONTEXT 630 10.2 GENERAL DESIGN CONSIDERATIONS 631 10.3 MODELING UNCERTAINTIES 642 10.3.1 MBS PARAMETER UNCERTAINTIES 642 10.3.2 UNMODELED EIGENMODES 644 10.3.3 PARASITIC DYNAMICS 645 10.4 ROBUST STABILITY FOR MULTIBODY SYSTEMS 645 10.4.1 NYQUIST CRITERION IN INTERSECTION FORMULATION 645 10.4.2 STABILITY ANALYSIS WITH THE NICHOLS DIAGRAM 650 10.4.3 ROBUST STABILITY OF ELASTIC EIGENMODES 654 10.5 MANUAL CONTROLLER DESIGN IN THE FREQUENCY DOMAIN 656 10.5.1 ROBUST CONTROL STRATEGIES 656 10.5.2 GENERIC CONTROLLER TYPES FOR MULTIBODY SYSTEMS 659 10.5.3 TRANSIENT DYNAMICS UNDER UNITY FEEDBACK 666 10.5.4 CONTROL OF A SINGLE-MASS OSCILLATOR 668 10.5.5 COLLOCATED MBS CONTROL 674 10.5.6 NON-COLLOCATED MBS CONTROL 680 10.6 VIBRATION ISOLATION 686 10.6.1 PASSIVE VIBRATION ISOLATION 686 IMAGE 7 CONTENTS XXI 10.6.2 ACTIVE VIBRATION ISOLATION: THE SKYHOOK PRINCIPLE 688 10.6.3 ACTIVE PROOF MASS DAMPER 700 10.7 OBSERVABILITY AND CONTROLLABILITY ASPECTS 700 10.7.1 GENERAL PROPERTIES 700 10.7.2 MBS CONTROL IN RELATIVE COORDINATES 704 10.7.3 MEASUREMENT AND ACTUATION LOCATIONS AT OSCILLATION NODES 710 10.8 DIGITAL CONTROL 711 10.8.1 GENERAL DESIGN PROCESS 711 10.8.2 RIGID-BODY-DOMINATED SYSTEMS 714 10.8.3 SYSTEMS WITH UNMODELED EIGENMODES (SPILLOVER) 717 11.8.4 ALIASING IN DIGITAL CONTROLLERS 719 10.8.5 ALIASING OF MEASUREMENT NOISE 720 BIBLIOGRAPHY FOR CHAPTER 10 724 11 STOCHASTIC DYNAMIC ANALYSIS 727 11.1 SYSTEMS ENGINEERING CONTEXT 728 11.2 ELEMENTS OF STOCHASTIC SYSTEMS THEORY 730 11.2.1 RANDOM VARIABLES 730 11.2.2 STOCHASTIC TIME FUNCTIONS, RANDOM PROCESSES 736 11.2.3 LTI SYSTEMS WITH STOCHASTIC INPUTS 740 11.3 WHITE NOISE 742 11.4 COLORED NOISE 744 11.5 MODELING NOISE SOURCES 749 11.6 COVARIANCE ANALYSIS 754 BIBLIOGRAPHY FOR CHAPTER 11 763 12 DESIGN EVALUATION: SYSTEM BUDGETS 765 12.1 SYSTEMS ENGINEERING CONTEXT 766 12.2 PERFORMANCE METRICS: PERFORMANCE PARAMETERS 767 12.3 LINEAR BUDGETING OF METRICS 770 12.4 NONLINEAR BUDGETING OF METRICS 774 12.5 PRODUCT ACCURACY 779 12.6 BUDGETING HETEROGENEOUS METRICS 780 12.7 DESIGN OPTIMIZATION USING BUDGETS 784 12.8 DESIGN EXAMPLES 786 BIBLIOGRAPHY FOR CHAPTER 12 794 APPENDIX A 795 COVARIANCE FORMULAE 795 INDEX 799
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title	Mechatronic Systems Design Methods, Models, Concepts
title_auth	Mechatronic Systems Design Methods, Models, Concepts
title_exact_search	Mechatronic Systems Design Methods, Models, Concepts
title_full	Mechatronic Systems Design Methods, Models, Concepts Klaus Janschek. Translation by Kristof Richmond
title_fullStr	Mechatronic Systems Design Methods, Models, Concepts Klaus Janschek. Translation by Kristof Richmond
title_full_unstemmed	Mechatronic Systems Design Methods, Models, Concepts Klaus Janschek. Translation by Kristof Richmond
title_short	Mechatronic Systems Design
title_sort	mechatronic systems design methods models concepts
title_sub	Methods, Models, Concepts
topic	Systementwicklung (DE-588)4126945-7 gnd Mechatronik (DE-588)4238812-0 gnd
topic_facet	Systementwicklung Mechatronik
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3554134&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024583407&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT janschekklaus mechatronicsystemsdesignmethodsmodelsconcepts

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