Modern sensor engineering
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Description
Book Introduction
Learn the basics and applications of sensors at the same time!
An Introduction to Sensor Engineering: Learning About Various Detection Technologies
『Modern Sensor Engineering』 covers the physical principles of sensors and the operating principles of various sensors according to input signals.
By providing an easy-to-understand explanation of sensor theory through rich visual aids and friendly explanations, it helps undergraduate students and sensor designers learning sensor engineering for the first time to gain a deeper understanding of sensors.
In addition, you will have the pleasure of broadly exploring future sensor technology through examples of various sensing technologies encountered in everyday life, such as mobile devices.
An Introduction to Sensor Engineering: Learning About Various Detection Technologies
『Modern Sensor Engineering』 covers the physical principles of sensors and the operating principles of various sensors according to input signals.
By providing an easy-to-understand explanation of sensor theory through rich visual aids and friendly explanations, it helps undergraduate students and sensor designers learning sensor engineering for the first time to gain a deeper understanding of sensors.
In addition, you will have the pleasure of broadly exploring future sensor technology through examples of various sensing technologies encountered in everyday life, such as mobile devices.
- You can preview some of the book's contents.
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index
CHAPTER 01 Data Collection
1.1 Sensors, signals, and systems
1.2 Sensor Classification
1.3 Units of measurement
CHAPTER 02 Transfer Function
2.1 Mathematical model
2.2 Sensor Calibration
2.3 Parameter calculation
2.4 Stimulus calculation
CHAPTER 03 Sensor Characteristics
3.1 Sensors for Mobile Communication Devices
3.2 Span and full scale input/output
3.3 Accuracy
3.4 Calibration error
3.5 Hysteresis error
3.6 Nonlinearity error
3.7 Repeatability Error
3.8 Dead zone and resolution
3.9 Special Attributes
3.10 Output Impedance
3.11 Output Format
3.12 Here
3.13 Dynamic characteristics
3.14 Dynamic model of sensor elements
3.15 Environmental factors
3.16 Reliability
3.17 Application Characteristics
3.18 Uncertainty
CHAPTER 04 Physical Principles of Sensing
4.1 Electric field and potential
4.2 Capacitance
4.3 Magnetism
4.4 Induction
4.5 Resistance
4.6 Piezoelectric effect
4.7 Super-effect
4.8 Hall effect
4.9 Thermoelectric effect
4.10 Sound waves
4.11 Temperature and thermal properties of materials
4.12 Heat Transfer
CHAPTER 05 Optical Components of Sensors
5.1 Light
5.2 Scattering of light
5.3 Geometrical Optics
5.4 Radiation Measurement
5.5 Optical Measurement
5.6 window
5.7 Mirror
5.8 lens
5.9 Optical Fibers and Waveguides
5.10 Optical Efficiency
CHAPTER 06 INTERFACE ELECTRONIC CIRCUIT
6.1 Signal Processor
6.2 Connecting the Sensor
6.3 Here circuit
6.4 Analog-to-digital converter
6.5 Integrated Interface
6.6 Data Transfer
6.7 Noise in sensors and circuits
6.8 Batteries for low-power sensors
6.9 Energy Harvesting
CHAPTER 07 Human Sensors
7.1 Ultrasonic sensor
7.2 Microwave motion detector
7.3 Micropower impulse radar
7.4 Ground Penetrating Radar
7.5 Linear Optical Sensor (PSD)
7.6 Electrostatic occupancy detector
7.7 Frictional charge detector
7.8 Photoelectric motion detector
7.9 Optical detection sensor
7.10 Pressure-Gradient Sensor
7.11 2D pointing device
7.12 Gesture Detection
7.13 Tactile Sensor
CHAPTER 8 Existence, Displacement, and Level
8.1 Potentiometric sensor
8.2 Piezoresistive sensor
8.3 Static Sensor
8.4 Inductive and Magnetic Sensors
8.5 Optical Sensor
8.6 Thickness Sensor and Height Sensor
CHAPTER 9 Speed and Acceleration
9.1 Normal speed sensor
9.2 Inertial Rotation Sensor
9.3 Inertial linear sensors (accelerometers)
CHAPTER 10 FORCES AND STRAIN
10.1 Basic Concepts of Force
10.2 Strain Gauges
10.3 Pressure-sensitive film
10.4 Piezoelectric force sensor
10.5 Piezoelectric Cable
10.6 Optical force sensor
CHAPTER 11 PRESSURE SENSOR
11.1 Basic Concepts of Pressure
11.2 Units of pressure
11.3 Mercury pressure sensor
11.4 Bellows, membranes, and thin plates
11.5 Piezoresistive sensor
11.6 Static Sensor
11.7 VRP sensor
11.8 Photoelectric pressure sensor
11.9 Indirect pressure sensor
11.10 Vacuum Sensor
CHAPTER 12 FLOW SENSOR
12.1 Basic Concepts of Fluid Dynamics
12.2 Pressure gradient technique
12.3 Heat transfer sensor
12.4 Ultrasonic Sensor
12.5 Electromagnetic Sensors
12.6 Breeze Sensor
12.7 Coriolis mass flow sensor
12.8 Force Sensor
12.9 Cantilever MEMS Sensor
12.10 Dust and Smoke Detectors
CHAPTER 13 Mike
13.1 Microphone Characteristics
13.2 Resistive microphone
13.3 Condenser Microphone
13.4 Electret (semi-electric) microphone
13.5 optical microphone
13.6 Piezoelectric microphone
13.7 dynamic microphone
CHAPTER 14 Humidity and Moisture Sensors
14.1 Humidity
14.2 Moisture Sensor
14.3 Capacitive moisture sensor
14.4 Resistive moisture sensor
14.5 Thermal Conductivity Sensor
14.6 Optical hygrometer
14.7 Vibrating hygrometer
14.8 Soil moisture meter
CHAPTER 15 PHOTODETERGENTS
15.1 Principles of Quantum Detectors
15.2 Photodiode
15.3 Phototransistor
15.4 Optical Register
15.5 Cooling Sensor
15.6 Visible light image sensor
15.7 UV detector
15.8 Thermal radiation detector
CHAPTER 16 Ionizing Radiation Detectors
16.1 Scintillation detector
16.2 Ionization detector
16.3 Cloud Chamber and Bubble Chamber
CHAPTER 17 TEMPERATURE SENSOR
17.1 Bonding with objects
17.2 Temperature reference point
17.3 Resistance Temperature Sensor
17.4 Ceramic thermistor
17.5 Silicon and Germanium Thermistors
17.6 Semiconductor pn junction sensor
17.7 Silicon PTC Temperature Sensor
17.8 Thermoelectric Sensor
17.9 Optical Temperature Sensor
17.10 Acoustic Temperature Sensor
17.11 Piezoelectric Temperature Sensor
CHAPTER 18 CHEMICAL AND BIOLOGICAL SENSORS
18.1 Overview
18.2 History
18.3 Characteristics of chemical sensors
18.4 Electrical and Electrochemical Sensors
18.5 Photoionization detector
18.6 Physical Converter
18.7 Spectrometer
18.8 Thermal Sensor
18.9 Optical Converter
18.10 Multi-Sensor Array
18.11 Specific Issues
CHAPTER 19 MATERIALS AND MANUFACTURING TECHNOLOGY
19.1 Material
19.2 Nanomaterials
19.3 Surface treatment
19.4 Microelectromechanical Systems (MEMS)
1.1 Sensors, signals, and systems
1.2 Sensor Classification
1.3 Units of measurement
CHAPTER 02 Transfer Function
2.1 Mathematical model
2.2 Sensor Calibration
2.3 Parameter calculation
2.4 Stimulus calculation
CHAPTER 03 Sensor Characteristics
3.1 Sensors for Mobile Communication Devices
3.2 Span and full scale input/output
3.3 Accuracy
3.4 Calibration error
3.5 Hysteresis error
3.6 Nonlinearity error
3.7 Repeatability Error
3.8 Dead zone and resolution
3.9 Special Attributes
3.10 Output Impedance
3.11 Output Format
3.12 Here
3.13 Dynamic characteristics
3.14 Dynamic model of sensor elements
3.15 Environmental factors
3.16 Reliability
3.17 Application Characteristics
3.18 Uncertainty
CHAPTER 04 Physical Principles of Sensing
4.1 Electric field and potential
4.2 Capacitance
4.3 Magnetism
4.4 Induction
4.5 Resistance
4.6 Piezoelectric effect
4.7 Super-effect
4.8 Hall effect
4.9 Thermoelectric effect
4.10 Sound waves
4.11 Temperature and thermal properties of materials
4.12 Heat Transfer
CHAPTER 05 Optical Components of Sensors
5.1 Light
5.2 Scattering of light
5.3 Geometrical Optics
5.4 Radiation Measurement
5.5 Optical Measurement
5.6 window
5.7 Mirror
5.8 lens
5.9 Optical Fibers and Waveguides
5.10 Optical Efficiency
CHAPTER 06 INTERFACE ELECTRONIC CIRCUIT
6.1 Signal Processor
6.2 Connecting the Sensor
6.3 Here circuit
6.4 Analog-to-digital converter
6.5 Integrated Interface
6.6 Data Transfer
6.7 Noise in sensors and circuits
6.8 Batteries for low-power sensors
6.9 Energy Harvesting
CHAPTER 07 Human Sensors
7.1 Ultrasonic sensor
7.2 Microwave motion detector
7.3 Micropower impulse radar
7.4 Ground Penetrating Radar
7.5 Linear Optical Sensor (PSD)
7.6 Electrostatic occupancy detector
7.7 Frictional charge detector
7.8 Photoelectric motion detector
7.9 Optical detection sensor
7.10 Pressure-Gradient Sensor
7.11 2D pointing device
7.12 Gesture Detection
7.13 Tactile Sensor
CHAPTER 8 Existence, Displacement, and Level
8.1 Potentiometric sensor
8.2 Piezoresistive sensor
8.3 Static Sensor
8.4 Inductive and Magnetic Sensors
8.5 Optical Sensor
8.6 Thickness Sensor and Height Sensor
CHAPTER 9 Speed and Acceleration
9.1 Normal speed sensor
9.2 Inertial Rotation Sensor
9.3 Inertial linear sensors (accelerometers)
CHAPTER 10 FORCES AND STRAIN
10.1 Basic Concepts of Force
10.2 Strain Gauges
10.3 Pressure-sensitive film
10.4 Piezoelectric force sensor
10.5 Piezoelectric Cable
10.6 Optical force sensor
CHAPTER 11 PRESSURE SENSOR
11.1 Basic Concepts of Pressure
11.2 Units of pressure
11.3 Mercury pressure sensor
11.4 Bellows, membranes, and thin plates
11.5 Piezoresistive sensor
11.6 Static Sensor
11.7 VRP sensor
11.8 Photoelectric pressure sensor
11.9 Indirect pressure sensor
11.10 Vacuum Sensor
CHAPTER 12 FLOW SENSOR
12.1 Basic Concepts of Fluid Dynamics
12.2 Pressure gradient technique
12.3 Heat transfer sensor
12.4 Ultrasonic Sensor
12.5 Electromagnetic Sensors
12.6 Breeze Sensor
12.7 Coriolis mass flow sensor
12.8 Force Sensor
12.9 Cantilever MEMS Sensor
12.10 Dust and Smoke Detectors
CHAPTER 13 Mike
13.1 Microphone Characteristics
13.2 Resistive microphone
13.3 Condenser Microphone
13.4 Electret (semi-electric) microphone
13.5 optical microphone
13.6 Piezoelectric microphone
13.7 dynamic microphone
CHAPTER 14 Humidity and Moisture Sensors
14.1 Humidity
14.2 Moisture Sensor
14.3 Capacitive moisture sensor
14.4 Resistive moisture sensor
14.5 Thermal Conductivity Sensor
14.6 Optical hygrometer
14.7 Vibrating hygrometer
14.8 Soil moisture meter
CHAPTER 15 PHOTODETERGENTS
15.1 Principles of Quantum Detectors
15.2 Photodiode
15.3 Phototransistor
15.4 Optical Register
15.5 Cooling Sensor
15.6 Visible light image sensor
15.7 UV detector
15.8 Thermal radiation detector
CHAPTER 16 Ionizing Radiation Detectors
16.1 Scintillation detector
16.2 Ionization detector
16.3 Cloud Chamber and Bubble Chamber
CHAPTER 17 TEMPERATURE SENSOR
17.1 Bonding with objects
17.2 Temperature reference point
17.3 Resistance Temperature Sensor
17.4 Ceramic thermistor
17.5 Silicon and Germanium Thermistors
17.6 Semiconductor pn junction sensor
17.7 Silicon PTC Temperature Sensor
17.8 Thermoelectric Sensor
17.9 Optical Temperature Sensor
17.10 Acoustic Temperature Sensor
17.11 Piezoelectric Temperature Sensor
CHAPTER 18 CHEMICAL AND BIOLOGICAL SENSORS
18.1 Overview
18.2 History
18.3 Characteristics of chemical sensors
18.4 Electrical and Electrochemical Sensors
18.5 Photoionization detector
18.6 Physical Converter
18.7 Spectrometer
18.8 Thermal Sensor
18.9 Optical Converter
18.10 Multi-Sensor Array
18.11 Specific Issues
CHAPTER 19 MATERIALS AND MANUFACTURING TECHNOLOGY
19.1 Material
19.2 Nanomaterials
19.3 Surface treatment
19.4 Microelectromechanical Systems (MEMS)
Publisher's Review
ㆍThe table of contents has been divided into sections for efficient learning.
ㆍWe provide specific and diverse examples based on practicality.
ㆍProvides various pictures and tables to help intuitive understanding.
ㆍWe provide a highlight box that summarizes the main concepts of the text.
ㆍWe provide specific and diverse examples based on practicality.
ㆍProvides various pictures and tables to help intuitive understanding.
ㆍWe provide a highlight box that summarizes the main concepts of the text.
GOODS SPECIFICS
- Publication date: August 27, 2021
- Page count, weight, size: 688 pages | 188*257*35mm
- ISBN13: 9791156645566
- ISBN10: 1156645565
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