Intro -- Contents -- Preface -- Chapter 1 -- 1.1 Motivation -- 1.2 Definition of Sensor and Actuator -- 1.3 The Domain of Physical Phenomena -- 1.4 Classification of Sensors and Actuators -- 1.4.1 Regarding the Energy Source -- 1.4.2 Regarding the Signal Conditioning -- 1.4.3 Regarding Reference Value -- 1.4.4 Regarding Complexity -- 1.5 Datasheets -- 1.5.1 Transfer Function -- 1.5.2 Sensitivity -- 1.5.3 Range -- 1.5.4 Accuracy -- 1.5.5 Precision -- 1.5.6 Hysteresis -- 1.5.7 Nonlinearity -- 1.5.8 Noise -- 1.5.9 Resolution -- 1.5.10 Bandwidth -- 1.5.11 Repeatability -- 1.5.12 Dead Zone
1.5.13 Saturation -- 1.6 Questions -- Chapter 2 -- 2.1 Introduction -- 2.2 Manufacture -- 2.2.1 Introduction -- 2.2.2 Use of Silicon -- 2.2.3 Creation of a silicon dioxide layer by thermal oxidation -- 2.2.4 Chemical Deposition by Vapor -- 2.2.5 Photolithography -- 2.2.6 Bulk Microfabrication -- 2.2.7 Superficial Microfabrication -- 2.3 Application Examples -- 2.4 Questions -- Chapter 3 -- 3.1 Introduction -- 3.2 Force, Electric Field, and Voltage -- 3.3 Concept of Capacity -- 3.4 Capacitive Displacement Sensor -- 3.5 Capacitive Acceleration Sensor -- 3.6 Angular Velocity Sensor (Gyroscope)
3.7 Capacitive Fingerprint Sensor -- 3.8 Electrostatic Loudspeaker -- 3.9 Electrostatic MEMS Actuator -- 3.10 Questions -- Chapter 4 -- 4.1 Introduction -- 4.2 Definition of Electric Resistance -- 4.3 Potentiometric Displacement Sensors -- 4.4 Dependence of Resistivity with Temperature and Moisture -- 4.5 Resistive Temperature Detector -- 4.6 Thermistor -- 4.7 Integrated Temperature Sensor -- 4.8 Dependence of Resistivity with Deformation -- 4.9 Strain Gauge -- 4.10 Questions -- Chapter 5 -- 5.1 Magnetic Properties of Materials -- 5.2 Concept of Magnetic Field -- 5.3 Magnetic Force
5.4 Stepper Motor -- 5.4.1 Introduction -- 5.4.2 Permanent Magnet Motor -- 5.4.3 Variable Reluctance Motor -- 5.4.4 Hybrid Motor -- 5.4.5 Specifications of Stepper Motors -- 5.5 Hall Effect -- 5.6 Displacement Sensor using the Hall Effect -- 5.7 Magnetoresistance -- 5.8 Magnetostriction -- 5.9 Magnetostrictive Torque Sensor -- 5.10 Inductive linear displacement Sensor of variable Air Gap -- 5.11 Linear Variable Differential Transformer (LVDT) -- 5.12 Angular Displacement Sensor (Microsyn) -- 5.13 Magnetic Resonance Imaging -- 5.13.1 Introduction -- 5.13.2 Magnetic Resonance
5.13.3 Excitation and Relaxation -- 5.13.4 Detection -- 5.13.5 Image Construction -- 5.13.6 System -- 5.14 Questions -- Chapter 6 -- 6.1 Piezoelectric effect -- 6.2 Accelerometer -- 6.2.1 Configurations -- 6.2.2 Signal Conditioning -- 6.3 Piezoelectric Temperature Sensor -- 6.4 Acoustic Waves -- 6.5 Ultrasound Transducers -- 6.6 Measuring Distance Using Ultrasound (Sonography, SONAR, etc...) -- 6.6.1 Introduction -- 6.6.2 Determining the Distance from the Flight Time -- 6.6.3 Echography -- 6.7 Fluid Actuators -- 6.7.1 Introduction -- 6.7.2 Most Used Quantities -- 6.7.3 Hydraulic Circuit
Sensors And Actuators
Sensores e Atuadores
2022
1 Online-Ressource (403 Seiten)
Campusweiter Zugriff (Universität Hannover) - Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots
6.7.4 Pneumatic Circuit
Buch
Elektronische Ressource
Englisch , Portugiesisch
SLUB | 1995
Springer Verlag | 2014
|AIAA | 2009
|SLUB | 1994
Tema Archiv | 1983