Verfügbarkeit: Introduction to microsystem technology

Introduction to microsystem technology: a guide for students

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Bibliographische Detailangaben
1. Verfasser:	Gerlach, Gerald (VerfasserIn)
Format:	Buch
Sprache:	English German
Veröffentlicht:	Chichester, England Wiley 2008
Schriftenreihe:	Wiley microsystem and nanotechnology series
Schlagworte:	Microélectronique Microelectromechanical systems > Design and construction System design Microelectronics Mikrosystemtechnik MEMS
Online-Zugang:	Publisher description Table of contents only Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XXIII, 351 S. Ill., graph. Darst.
ISBN:	9780470058619 0470058617

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adam_text	Contents Preface xi List of Symbols xv List of Abbreviations xxi 1 Introduction 1 1.1 What is a Microsystem? 3 1.2 Microelectronics and Microsystem Technology 6 1.3 Areas of Application and Trends of Development 8 1.4 Example: Yaw Rate Sensor 9 1.4.1 Structure and Function 10 1.4.2 Function Components and Elements 10 Exercises 15 References 15 2 Scaling and Similarity 17 2.1 Scaling 17 2.2 Similarity and Dimensionless Numbers 22 Exercises 25 References 26 3 Materials 27 3.1 Overview 27 3.2 Single Crystalline Silicon 29 3.2.1 Description of the Orientation of Planes and Directions in a Crystal 31 3.2.2 Surface Characteristics at Different Orientations 37 3.2.3 Anisotropie Elastic Characteristics 38 3.2.4 Mechanical Strength 41 3.2.5 Silicon Wafer 44 3.3 Glasses 47 3.3.1 General Characteristics of Glass 47 3.3.2 Visco-elastic Behavior 49 3.3.3 Glasses in Microsystem Technology 52 3.4 Polymers 53 vi CONTENTS 3.4.1 Thermoplastic Materials in Microsystem Technology 54 3.4.2 Photoresists 55 3.5 Thin Films 58 3.5.1 Silicon Dioxide, Silicon Nitride 61 3.5.2 Conducting Layers 62 3.5.3 Polysilicon Layers 63 3.6 Comparison of Material Characteristics 63 Exercises 64 References 64 67 67 72 72 77 78 78 79 81 82 83 83 83 84 85 86 88 89 92 93 93 94 94 97 97 97 98 100 103 105 112 114 114 117 119 120 121 4 Microfabrication 4.1 Overview 4.2 Cleanliness During Production 4.2.1 Clean Room Technology 4.2.2 Wafer Cleaning 4.3 Lithography 4.3.1 Principle 4.3.2 Lithographic Process 4.3.3 Minimum Structurable Line Width 4.3.4 Double-sided Lithography 4.3.5 Lithography in Structures with Deep Profiles 4.4 Thin-film Formation 4.4.1 Overview 4.4.2 Layer Conformity 4.4.3 Thermal Oxidation 4.4.4 Evaporation 4.4.5 Sputtering 4.4.6 Chemical Vapor Deposition 4.4.7 Comparison 4.5 Layer Patterning 4.5.1 Basics 4.5.2 Wet Etching 4.5.3 Dry Etching 4.5.4 Lift-off Process 4.6 Anisotropie Wet Chemical Deep Etching 4.6.1 Principle 4.6.2 Anisotropie Etching Solutions 4.6.3 Etch Rates 4.6.4 Etch Stop Techniques 4.6.5 Etch Figures 4.6.6 Design of Etch Masks 4.7 Doping 4.7.1 Diffusion 4.7.2 Ion Implantation 4.7.3 Comparison of Doping Techniques 4.8 Bonding Techniques 4.8.1 Eutectic Bonding CONTENTS vii 4.8.2 Anodic Bonding 121 4.8.3 Silicon Direct Bonding 122 4.8.4 Comparison of Bonding Techniques 123 4.9 Insulation Techniques 124 4.9.1 SIMOX Technique 124 4.9.2 BESOI Technique 125 4.9.3 Smart-cut Technique 127 4.10 Surface Micromachining 128 4.10.1 Principle 128 4.10.2 Production of Hollow Spaces 130 4.10.3 Adhesion of Movable Structures 133 4.10.4 Comparison of Bulk and Surface Micromachining 135 4.11 Near-surface Micromachining 136 4.11.1 Principle 136 4.11.2 Techniques 137 4.12 HÄRMST 139 4.12.1 Definition 139 4.12.2 LIGA Technique 139 4.13 Miniaturized Classical Techniques 141 4.13.1 Micro Injection Molding 142 4.13.2 Micro Hot Embossing 145 4.13.3 Micro Cutting 146 4.14 Selection of Microtechnical Manufacturing Techniques 148 Exercises 151 References 153 Packaging 155 5.1 Tasks and Requirements 155 5.1.1 Tasks 155 5.1.2 Packaging for Reliability 159 5.2 Functions of Packaging 159 5.2.1 Mechanical Links 159 5.2.2 Electrical Connections 164 5.2.3 Heat Dissipation 165 5.2.4 Encapsulation and Packaging 166 Exercises 170 References 170 Function and Form Elements in Microsystem Technology 171 6.1 Mechanical Elements 171 6.1.1 Sensitivity in Surface Normal Direction 174 6.1.2 Transverse Sensitivity 176 6.1.3 Eigenfrequency 177 6.1.4 Damping 177 6.1.5 Quality Factor 179 6.1.6 Amplitude Response 179 6.1.7 Stress at the Fixation Point 180 vüi CONTENTS 6.2 Fluidic Elements 184 6.2.1 Parameters and Model Systems 184 6.2.2 Element Types 187 6.2.3 Fluidic Interfaces 189 6.2.4 Design of Microfluidic Elements and Components 190 6.3 Thermal Elements 194 6.3.1 Thermal-electric Analogies 194 6.3.2 Basic Equations for Heat Transport 195 6.3.3 Equivalent Circuits 199 Exercises 203 References 205 7 Sensors and Actuators 207 7.1 Reversible and Parametric Transducers 208 7.1.1 Reversible Transducers 208 7.1.2 Parametric Transducers 214 7.1.3 Stationary Reversible Transducers 216 7.2 Transducers for Sensors and Actuators 218 7.2.1 Electrostatic Transducers 219 7.2.2 Piezoelectric Transducers 224 7.2.3 Electrodynamic Transducers 228 7.2.4 Thermomechanical Transducers 231 7.2.5 Piezoresistive Transducers 238 Exercises 247 References 254 8 Design of Microsystems 255 8.1 Design Methods and Tools 255 8.2 Systems with Lumped Parameters 261 8.2.1 Behavioral Description of Electromechanical Systems 261 8.2.2 Analysis of the Static Behavior of Electromechanical Systems 261 8.2.3 Analysis of Electromechanical Systems for Harmonic Loads 264 8.2.4 Transient Analysis of Electromechanical Systems 267 8.3 Systems with Distributed Parameters 269 8.3.1 Behavioral Description Based on Analytical Models 269 8.3.2 Numerical Methods Based on the Finite Element Method 272 8.3.3 Macro-modelling of Complex Systems by Order Reduction 273 References 282 9 Effect of Technological Processes on Microsystem Properties 283 9.1 Parameter-based Microsystem Design 283 9.2 Robust Microsystem Design 286 Exercises 293 Reference 293 10 The Future of Microsystems 295 10.1 Status and Trends in Microsystem Technology 295 10.2 Microoptical Applications 300 CONTENTS ix 10.2.1 Displays and Light Modulators 300 10.2.2 Infrared Sensor Arrays 301 10.2.3 Spectrometers 307 10.3 Probe Tips 307 10.4 RF Microsystems 310 10.5 Actuators 312 10.6 Microfluidic Systems 316 10.6.1 Micropumps and Microvalves 317 10.6.2 InkJet Print Heads 318 10.7 Chemical, Biological and Medical Systems 319 10.7.1 Microreactors 319 10.7.2 Lab on a Chip 320 10.8 Energy Harvesting and Wireless Communications 320 10.9 Micro Fuel Cells 326 References 329 Appendix A Physical Constants 331 Appendix В Coordinate Transformation 333 B.I Elastic Coefficients 334 B.2 Piezoresistive Coefficients 336 References 338 Appendix С Properties of Silicon Dioxide and Silicon Nitride Layers 339 References 340 Appendix D Nomenclature of Thin-film Processes 341 Reference 342 Appendix E Adhesion of Surface Micromechanical Structures 343 E.I Capillary Forces 343 E.2 Critical Length of Cantilever Springs 344 Reference 345 Index 347
adam_txt	Contents Preface xi List of Symbols xv List of Abbreviations xxi 1 Introduction 1 1.1 What is a Microsystem? 3 1.2 Microelectronics and Microsystem Technology 6 1.3 Areas of Application and Trends of Development 8 1.4 Example: Yaw Rate Sensor 9 1.4.1 Structure and Function 10 1.4.2 Function Components and Elements 10 Exercises 15 References 15 2 Scaling and Similarity 17 2.1 Scaling 17 2.2 Similarity and Dimensionless Numbers 22 Exercises 25 References 26 3 Materials 27 3.1 Overview 27 3.2 Single Crystalline Silicon 29 3.2.1 Description of the Orientation of Planes and Directions in a Crystal 31 3.2.2 Surface Characteristics at Different Orientations 37 3.2.3 Anisotropie Elastic Characteristics 38 3.2.4 Mechanical Strength 41 3.2.5 Silicon Wafer 44 3.3 Glasses 47 3.3.1 General Characteristics of Glass 47 3.3.2 Visco-elastic Behavior 49 3.3.3 Glasses in Microsystem Technology 52 3.4 Polymers 53 vi CONTENTS 3.4.1 Thermoplastic Materials in Microsystem Technology 54 3.4.2 Photoresists 55 3.5 Thin Films 58 3.5.1 Silicon Dioxide, Silicon Nitride 61 3.5.2 Conducting Layers 62 3.5.3 Polysilicon Layers 63 3.6 Comparison of Material Characteristics 63 Exercises 64 References 64 67 67 72 72 77 78 78 79 81 82 83 83 83 84 85 86 88 89 92 93 93 94 94 97 97 97 98 100 103 105 112 114 114 117 119 120 121 4 Microfabrication 4.1 Overview 4.2 Cleanliness During Production 4.2.1 Clean Room Technology 4.2.2 Wafer Cleaning 4.3 Lithography 4.3.1 Principle 4.3.2 Lithographic Process 4.3.3 Minimum Structurable Line Width 4.3.4 Double-sided Lithography 4.3.5 Lithography in Structures with Deep Profiles 4.4 Thin-film Formation 4.4.1 Overview 4.4.2 Layer Conformity 4.4.3 Thermal Oxidation 4.4.4 Evaporation 4.4.5 Sputtering 4.4.6 Chemical Vapor Deposition 4.4.7 Comparison 4.5 Layer Patterning 4.5.1 Basics 4.5.2 Wet Etching 4.5.3 Dry Etching 4.5.4 Lift-off Process 4.6 Anisotropie Wet Chemical Deep Etching 4.6.1 Principle 4.6.2 Anisotropie Etching Solutions 4.6.3 Etch Rates 4.6.4 Etch Stop Techniques 4.6.5 Etch Figures 4.6.6 Design of Etch Masks 4.7 Doping 4.7.1 Diffusion 4.7.2 Ion Implantation 4.7.3 Comparison of Doping Techniques 4.8 Bonding Techniques 4.8.1 Eutectic Bonding CONTENTS vii 4.8.2 Anodic Bonding 121 4.8.3 Silicon Direct Bonding 122 4.8.4 Comparison of Bonding Techniques 123 4.9 Insulation Techniques 124 4.9.1 SIMOX Technique 124 4.9.2 BESOI Technique 125 4.9.3 Smart-cut Technique 127 4.10 Surface Micromachining 128 4.10.1 Principle 128 4.10.2 Production of Hollow Spaces 130 4.10.3 Adhesion of Movable Structures 133 4.10.4 Comparison of Bulk and Surface Micromachining 135 4.11 Near-surface Micromachining 136 4.11.1 Principle 136 4.11.2 Techniques 137 4.12 HÄRMST 139 4.12.1 Definition 139 4.12.2 LIGA Technique 139 4.13 Miniaturized Classical Techniques 141 4.13.1 Micro Injection Molding 142 4.13.2 Micro Hot Embossing 145 4.13.3 Micro Cutting 146 4.14 Selection of Microtechnical Manufacturing Techniques 148 Exercises 151 References 153 Packaging 155 5.1 Tasks and Requirements 155 5.1.1 Tasks 155 5.1.2 Packaging for Reliability 159 5.2 Functions of Packaging 159 5.2.1 Mechanical Links 159 5.2.2 Electrical Connections 164 5.2.3 Heat Dissipation 165 5.2.4 Encapsulation and Packaging 166 Exercises 170 References 170 Function and Form Elements in Microsystem Technology 171 6.1 Mechanical Elements 171 6.1.1 Sensitivity in Surface Normal Direction 174 6.1.2 Transverse Sensitivity 176 6.1.3 Eigenfrequency 177 6.1.4 Damping 177 6.1.5 Quality Factor 179 6.1.6 Amplitude Response 179 6.1.7 Stress at the Fixation Point 180 vüi CONTENTS 6.2 Fluidic Elements 184 6.2.1 Parameters and Model Systems 184 6.2.2 Element Types 187 6.2.3 Fluidic Interfaces 189 6.2.4 Design of Microfluidic Elements and Components 190 6.3 Thermal Elements 194 6.3.1 Thermal-electric Analogies 194 6.3.2 Basic Equations for Heat Transport 195 6.3.3 Equivalent Circuits 199 Exercises 203 References 205 7 Sensors and Actuators 207 7.1 Reversible and Parametric Transducers 208 7.1.1 Reversible Transducers 208 7.1.2 Parametric Transducers 214 7.1.3 Stationary Reversible Transducers 216 7.2 Transducers for Sensors and Actuators 218 7.2.1 Electrostatic Transducers 219 7.2.2 Piezoelectric Transducers 224 7.2.3 Electrodynamic Transducers 228 7.2.4 Thermomechanical Transducers 231 7.2.5 Piezoresistive Transducers 238 Exercises 247 References 254 8 Design of Microsystems 255 8.1 Design Methods and Tools 255 8.2 Systems with Lumped Parameters 261 8.2.1 Behavioral Description of Electromechanical Systems 261 8.2.2 Analysis of the Static Behavior of Electromechanical Systems 261 8.2.3 Analysis of Electromechanical Systems for Harmonic Loads 264 8.2.4 Transient Analysis of Electromechanical Systems 267 8.3 Systems with Distributed Parameters 269 8.3.1 Behavioral Description Based on Analytical Models 269 8.3.2 Numerical Methods Based on the Finite Element Method 272 8.3.3 Macro-modelling of Complex Systems by Order Reduction 273 References 282 9 Effect of Technological Processes on Microsystem Properties 283 9.1 Parameter-based Microsystem Design 283 9.2 Robust Microsystem Design 286 Exercises 293 Reference 293 10 The Future of Microsystems 295 10.1 Status and Trends in Microsystem Technology 295 10.2 Microoptical Applications 300 CONTENTS ix 10.2.1 Displays and Light Modulators 300 10.2.2 Infrared Sensor Arrays 301 10.2.3 Spectrometers 307 10.3 Probe Tips 307 10.4 RF Microsystems 310 10.5 Actuators 312 10.6 Microfluidic Systems 316 10.6.1 Micropumps and Microvalves 317 10.6.2 InkJet Print Heads 318 10.7 Chemical, Biological and Medical Systems 319 10.7.1 Microreactors 319 10.7.2 Lab on a Chip 320 10.8 Energy Harvesting and Wireless Communications 320 10.9 Micro Fuel Cells 326 References 329 Appendix A Physical Constants 331 Appendix В Coordinate Transformation 333 B.I Elastic Coefficients 334 B.2 Piezoresistive Coefficients 336 References 338 Appendix С Properties of Silicon Dioxide and Silicon Nitride Layers 339 References 340 Appendix D Nomenclature of Thin-film Processes 341 Reference 342 Appendix E Adhesion of Surface Micromechanical Structures 343 E.I Capillary Forces 343 E.2 Critical Length of Cantilever Springs 344 Reference 345 Index 347
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spelling	Gerlach, Gerald Verfasser (DE-588)112280021 aut Einführung in die Mikrosystemtechnik Introduction to microsystem technology a guide for students Gerald Gerlach ; Wolfram Dötzel. Translated by Dörte Müller Chichester, England Wiley 2008 XXIII, 351 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wiley microsystem and nanotechnology series Includes bibliographical references and index Microélectronique ram Microelectromechanical systems Design and construction System design Microelectronics Mikrosystemtechnik (DE-588)4221617-5 gnd rswk-swf MEMS (DE-588)4824724-8 gnd rswk-swf MEMS (DE-588)4824724-8 s Mikrosystemtechnik (DE-588)4221617-5 s DE-604 Dötzel, Wolfram 1941-2023 Sonstige (DE-588)108263193 oth http://www.loc.gov/catdir/enhancements/fy0806/2007050172-d.html Publisher description http://www.loc.gov/catdir/enhancements/fy0806/2007050172-t.html Table of contents only Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016738150&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
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title	Introduction to microsystem technology a guide for students
title_alt	Einführung in die Mikrosystemtechnik
title_auth	Introduction to microsystem technology a guide for students
title_exact_search	Introduction to microsystem technology a guide for students
title_exact_search_txtP	Introduction to microsystem technology a guide for students
title_full	Introduction to microsystem technology a guide for students Gerald Gerlach ; Wolfram Dötzel. Translated by Dörte Müller
title_fullStr	Introduction to microsystem technology a guide for students Gerald Gerlach ; Wolfram Dötzel. Translated by Dörte Müller
title_full_unstemmed	Introduction to microsystem technology a guide for students Gerald Gerlach ; Wolfram Dötzel. Translated by Dörte Müller
title_short	Introduction to microsystem technology
title_sort	introduction to microsystem technology a guide for students
title_sub	a guide for students
topic	Microélectronique ram Microelectromechanical systems Design and construction System design Microelectronics Mikrosystemtechnik (DE-588)4221617-5 gnd MEMS (DE-588)4824724-8 gnd
topic_facet	Microélectronique Microelectromechanical systems Design and construction System design Microelectronics Mikrosystemtechnik MEMS
url	http://www.loc.gov/catdir/enhancements/fy0806/2007050172-d.html http://www.loc.gov/catdir/enhancements/fy0806/2007050172-t.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016738150&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT gerlachgerald einfuhrungindiemikrosystemtechnik AT dotzelwolfram einfuhrungindiemikrosystemtechnik AT gerlachgerald introductiontomicrosystemtechnologyaguideforstudents AT dotzelwolfram introductiontomicrosystemtechnologyaguideforstudents

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