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Table of Contents
Preface; Contents; About the Author; 1: Data Acquisition; 1.1 Sensors, Signals, and Systems; 1.2 Sensor Classification; 1.3 Units of Measurements; References; 2: Transfer Functions; 2.1 Mathematical Models; 2.1.1 Concept; 2.1.2 Functional Approximations; 2.1.3 Linear Regression; 2.1.4 Polynomial Approximations; 2.1.5 Sensitivity; 2.1.6 Linear Piecewise Approximation; 2.1.7 Spline Interpolation; 2.1.8 Multidimensional Transfer Functions; 2.2 Calibration; 2.3 Computation of Parameters; 2.4 Computation of a Stimulus; 2.4.1 Use of Analytical Equation; 2.4.2 Use of Linear Piecewise Approximation
2.4.3 Iterative Computation of Stimulus (Newton Method)References; 3: Sensor Characteristics; 3.1 Sensors for Mobile Communication Devices; 3.1.1 Requirements to MCD Sensors; 3.1.2 Integration; 3.2 Span (Full-Scale Input); 3.3 Full-Scale Output; 3.4 Accuracy; 3.5 Calibration Error; 3.6 Hysteresis; 3.7 Nonlinearity; 3.8 Saturation; 3.9 Repeatability; 3.10 Dead Band; 3.11 Resolution; 3.12 Special Properties; 3.13 Output Impedance; 3.14 Output Format; 3.15 Excitation; 3.16 Dynamic Characteristics; 3.17 Dynamic Models of Sensor Elements; 3.17.1 Mechanical Elements; 3.17.2 Thermal Elements
3.17.3 Electrical Elements3.17.4 Analogies; 3.18 Environmental Factors; 3.19 Reliability; 3.19.1 MTTF; 3.19.2 Extreme Testing; 3.19.3 Accelerated Life Testing; 3.19.3.1 Environmental Acceleration; 3.19.3.2 HALT Testing; 3.19.3.3 FOAT Testing; 3.20 Application Characteristics; 3.21 Uncertainty; References; 4: Physical Principles of Sensing; 4.1 Electric Charges, Fields, and Potentials; 4.2 Capacitance; 4.2.1 Capacitor; 4.2.2 Dielectric Constant; 4.3 Magnetism; 4.3.1 Faraday Law; 4.3.2 Permanent Magnets; 4.3.3 Coil and Solenoid; 4.4 Induction; 4.4.1 Lenz Law; 4.4.2 Eddy Currents; 4.5 Resistance
4.5.1 Specific Resistivity4.5.2 Temperature Sensitivity of a Resistor; 4.5.3 Strain Sensitivity of a Resistor; 4.5.4 Moisture Sensitivity of a Resistor; 4.6 Piezoelectric Effect; 4.6.1 Ceramic Piezoelectric Materials; 4.6.2 Polymer Piezoelectric Films; 4.7 Pyroelectric Effect; 4.8 Hall Effect; 4.9 Thermoelectric Effects; 4.9.1 Seebeck Effect; 4.9.2 Peltier Effect; 4.10 Sound Waves; 4.11 Temperature and Thermal Properties of Materials; 4.11.1 Temperature Scales; 4.11.2 Thermal Expansion; 4.11.3 Heat Capacity; 4.12 Heat Transfer; 4.12.1 Thermal Conduction; 4.12.2 Thermal Convection
4.12.3 Thermal Radiation4.12.3.1 Emissivity; 4.12.3.2 Cavity Effect; References; 5: Optical Components of Sensors; 5.1 Light; 5.1.1 Energy of Light Quanta; 5.1.2 Light Polarization; 5.2 Light Scattering; 5.3 Geometrical Optics; 5.4 Radiometry; 5.5 Photometry; 5.6 Windows; 5.7 Mirrors; 5.7.1 Coated Mirrors; 5.7.2 Prismatic Mirrors; 5.8 Lenses; 5.8.1 Curved Surface Lenses; 5.8.2 Fresnel Lenses; 5.8.3 Flat Nanolenses; 5.9 Fiber Optics and Waveguides; 5.10 Optical Efficiency; 5.10.1 Lensing Effect; 5.10.2 Concentrators; 5.10.3 Coatings for Thermal Absorption; 5.10.4 Antireflective Coating (ARC)
2.4.3 Iterative Computation of Stimulus (Newton Method)References; 3: Sensor Characteristics; 3.1 Sensors for Mobile Communication Devices; 3.1.1 Requirements to MCD Sensors; 3.1.2 Integration; 3.2 Span (Full-Scale Input); 3.3 Full-Scale Output; 3.4 Accuracy; 3.5 Calibration Error; 3.6 Hysteresis; 3.7 Nonlinearity; 3.8 Saturation; 3.9 Repeatability; 3.10 Dead Band; 3.11 Resolution; 3.12 Special Properties; 3.13 Output Impedance; 3.14 Output Format; 3.15 Excitation; 3.16 Dynamic Characteristics; 3.17 Dynamic Models of Sensor Elements; 3.17.1 Mechanical Elements; 3.17.2 Thermal Elements
3.17.3 Electrical Elements3.17.4 Analogies; 3.18 Environmental Factors; 3.19 Reliability; 3.19.1 MTTF; 3.19.2 Extreme Testing; 3.19.3 Accelerated Life Testing; 3.19.3.1 Environmental Acceleration; 3.19.3.2 HALT Testing; 3.19.3.3 FOAT Testing; 3.20 Application Characteristics; 3.21 Uncertainty; References; 4: Physical Principles of Sensing; 4.1 Electric Charges, Fields, and Potentials; 4.2 Capacitance; 4.2.1 Capacitor; 4.2.2 Dielectric Constant; 4.3 Magnetism; 4.3.1 Faraday Law; 4.3.2 Permanent Magnets; 4.3.3 Coil and Solenoid; 4.4 Induction; 4.4.1 Lenz Law; 4.4.2 Eddy Currents; 4.5 Resistance
4.5.1 Specific Resistivity4.5.2 Temperature Sensitivity of a Resistor; 4.5.3 Strain Sensitivity of a Resistor; 4.5.4 Moisture Sensitivity of a Resistor; 4.6 Piezoelectric Effect; 4.6.1 Ceramic Piezoelectric Materials; 4.6.2 Polymer Piezoelectric Films; 4.7 Pyroelectric Effect; 4.8 Hall Effect; 4.9 Thermoelectric Effects; 4.9.1 Seebeck Effect; 4.9.2 Peltier Effect; 4.10 Sound Waves; 4.11 Temperature and Thermal Properties of Materials; 4.11.1 Temperature Scales; 4.11.2 Thermal Expansion; 4.11.3 Heat Capacity; 4.12 Heat Transfer; 4.12.1 Thermal Conduction; 4.12.2 Thermal Convection
4.12.3 Thermal Radiation4.12.3.1 Emissivity; 4.12.3.2 Cavity Effect; References; 5: Optical Components of Sensors; 5.1 Light; 5.1.1 Energy of Light Quanta; 5.1.2 Light Polarization; 5.2 Light Scattering; 5.3 Geometrical Optics; 5.4 Radiometry; 5.5 Photometry; 5.6 Windows; 5.7 Mirrors; 5.7.1 Coated Mirrors; 5.7.2 Prismatic Mirrors; 5.8 Lenses; 5.8.1 Curved Surface Lenses; 5.8.2 Fresnel Lenses; 5.8.3 Flat Nanolenses; 5.9 Fiber Optics and Waveguides; 5.10 Optical Efficiency; 5.10.1 Lensing Effect; 5.10.2 Concentrators; 5.10.3 Coatings for Thermal Absorption; 5.10.4 Antireflective Coating (ARC)