Part ��Fundamentals of Measurement Systems

Chapter 1Basic Concepts of Measurement Technologies

1.1Introduction

1.1.1Measurement, metrology, and testing

1.1.2Classification of measurements

1��1��3Structure of measurement system

1��2Measurement uncertainty

1��2��1The concept of uncertainty

1��2��2Measurement uncertainty sources

1��3Measurement errors

1��3��1Errors

1��3��2Systematic errors

1��3��3Random errors

1��4Statistical analysis of measurements

1��4��1Mean and median

1��4��2Standard deviation and variance

1��4��3Standard error of the mean

1��4��4Rogue data points

1��4��5Aggregation of measurement system errors

1��5Mathematical regression techniques

1��5��1Linear least squares regression

1��5��2Polynomial least squares regression

1��6Summary

Exercises and Problems

Chapter 2Signal Analysis

2��1Classification of signals

2��1��1Deterministic signals

2��1��2Random signals

2��1��3Continuous��time signals and discrete��time signals

2��1��4Typical signals

2��2Fourier series of periodic signals

2��2��1Fourier trigonometric series

2��2��2Exponential Fourier series

2��2��3Frequency spectra of periodic signals

2��3Fourier transforms

2��3��1Fourier transforms of aperiodic signals

2��3��2Fourier transforms of periodic signals

2��3��3Properties of Fourier transforms

2��4Random signals description

2��4��1Characteristic parameters for random process

2��4��2Correlation analysis

2��4��3Power density spectrum

2��5Summary

Exercises and Problems

Chapter 3Signal Conditioning

3��1Introduction of signal conditioning

3��1��1Filtering

3��1��2Amplifying

3��1��3Isolation

3��1��4Modulation

3��2Filtering

3��2��1Simple low��pass filters

3��2��2Simple high��pass filters

3��2��3Simple band��pass filters

3��2��4Simple band��elimination or band��reject or notch filters

3.2.5Design of passive filter

3��3Modulation

3��3��1Amplitude modulation

3��3��2Angle modulation

3��3��3Matlab Codes

3.4Summary

Exercises and Problems

Chapter 4Basic Characteristics of Measurement Systems

4��1Measurement systems and linear systems

4��1��1Basic requirements of measurement systems

4��1��2Linear systems and main characteristics

4��1��3Transmission characteristics of measurement systems

4��2Static characteristics of a measurement system

4��2��1Sensitivity

4��2��2Linearity

4��2��3Hysteresis

4��2��4Repeatability

4��2��5Accuracy

4��2��6Drift and stability

4��2��7Resolution

4��2��8Calibration

4��3Dynamic characteristics of a measurement system

4��3��1Mathematical description of dynamic characteristics

4��3��2First��order measurement system

4��3��3Second��order measurement system

4��3��4Calibration of dynamic characteristics of systems

4��4Conditions of distortionless measurement

4��5Summary

Exercises and Problems

Chapter 5Outline of Sensor Technologies

5��1Basic concepts of sensors

5��1��1Definition and composition of sensors

5��1��2Function of sensors

5��1��3Classification of sensors

5��1��4Basic characteristics of sensors

5��2Sensor calibration

5��2��1Fundamental concepts

5��2��2Basic methods

5��2��3Calibration system

5��3Principles of instrument selection

5��3��1Characteristics of sensors

5��3��2The environment of measurement

5��3��3Cost and maintenance

5��4Applications and development trends of sensor

5��4��1Main applications

5��4��2Development trends

5��5Summary

Exercises and Problems

Part ��Traditional Sensors and Applications

Chapter 6Resistance Strain Sensors

6��1Overview of resistive sensors

6��2Working principle of resistance strain sensor

6��2��1Resistance strain effect

6��2��2Piezoresistive effect

6��3Resistance strain gauges

6��3��1Structure and materials of resistance strain gauges

6��3��2Main characteristics of resistance strain gauges

6��4Key problems of resistance strain gauge engineering application

6��4��1Pasting process of strain gauges

6��4��2Measurement circuits

6��4��3Temperature error and compensation

6.5Summary

Exercises and Problems

Chapter 7Inductive Sensors

7��1Introduction

7��2Self��inductance inductive sensors

7��2��1The single��coil linear variable��reluctance sensors

7��2��2The variable��differential reluctance sensor

7��2��3Variable��reluctance tachogenerators

7��3Mutual inductance sensors�� LVDT

7��4Eddy currents

7��5Advantages/disadvantages of inductive sensors

7��6Applications of the inductive sensors

7��6��1Inductive proximity switch

7��6��2LVDT pressure sensor

7��6��3Flaw detection sensors

7��7Summary

Exercises and Problems

Chapter 8Capacitive Sensors

8��1Basic principle of the capacitive sensors

8��2Measuring displacement and velocity by changing overlapped

area and gap distance of capacitive sensors

8��2��1Using the change of the overlapped area between the

two plates

8��2��2Using the change in distance between the plates

8��2��3Capacitance bridge circuit

8��2��4Coaxial cylindrical capacitive sensor

8��3Variable permittivity capacitive sensors

8��4Measuring circuits of capacitive sensors

8��4��1Equivalent circuit of capacitive sensors

8��4��2Frequency modulation circuits

8��5Characteristics and application of capacitive sensors

8��5��1Characteristics of capacitive sensors

8��5��2Engineering application cases of capacitive sensors

8.6Summary

Exercises and Problems

Chapter 9Piezoelectric Sensors

9��1Piezoelectric effect

9��1��1Piezoelectric effect

9��1��2Piezoelectric materials

9��2Measure circuit

9��2��1Theory and model

9��2��2Signal conditioning circuit

9��3Piezoelectric sensors

9��3��1Accelerometers

9��3��2Force sensors

9��3��3Pressure sensors

9��4Application

9��4��1Principle of damping factor measurement

9��4��2Measurement system

9.5Summary

Exercises and Problems

Chapter 10Magnetoelectric Sensors