Introduction to Sensors for Electrical and Mechanical Engineers  book cover
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Introduction to Sensors for Electrical and Mechanical Engineers




ISBN 9780367518219
Published August 17, 2020 by CRC Press
328 Pages 331 B/W Illustrations

 
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Book Description

Sensors are all around us. They are in phones, cars, planes, trains, robots, mils, lathes, packaging lines, chemical plants, power plants, etc. Modern technology could not exist without sensors. The sensors measure what we need to know and the control system then performs the desired actions. When an engineer builds any machine he or she needs to have basic understanding about sensors. Correct sensors need to be selected for the design right from the start. The designer needs to think about the ranges, required accuracy, sensor cost, wiring, correct installation and placement etc. Without the basic knowledge of sensors fundamental no machine can be built successfully today.

The objective of this book is to provide the basic knowledge to electrical and mechanical engineers, engineering students and hobbyist from the field of sensors to help them with the selection of “proper” sensors for their designs. No background knowledge in electrical engineering is required, all the necessary basics are provided. The book explains how a sensor works, in what ranges it can be used, with what accuracy etc. It also provides examples of industrial application for selected sensors.

The book covers all the major variables in mechanical engineering such as temperature, force, torque, pressure, humidity, position, speed, acceleration etc.

The approach is always as follows:

- Explain how the sensor works, what is the principle

- Explain in what ranges and with what accuracy it can work

- Describe its properties with charts, eventually equations

- Give examples of such sensors including application examples

Table of Contents

1 Measurement basics
1.1 General properties
1.2 Static properties
1.3 Dynamic properties
1.4 Uncertainty of measurement

2 Circuits for sensors
2.1 Voltage signal
2.2 Current signal
2.3 Bridge circuits
2.4 Difference amplifier
2.5 Instrumentation Amplifier

3 Temperature - contact
3.1 Resistive temperature detectors (RTD)
3.2 Thermistors
3.3 Circuits for RTD´s
3.4 Thermocouples
3.5 Temperature sensor placement

4 Temperature - non contact
4.1 Absorption in atmosphere and in materials
4.2 Materials for IR optics
4.3 Monochromatic pyrometers
4.4 Total radiation pyrometers
4.5 IR thermometers
4.6 Principles of correct use of IR thermometers

5 Force
5.1 Metallic strain gauges
5.2 Semiconductor strain gauges
5.3 Circuits for strain gauges
5.4 Strain gauge placement
5.5 Load cells and example applications

6 Torque
6.1 Torque dynamometer
6.2 Electronic torque sensors

7 Position
7.1 Resistive sensor
7.2 Inductive sensors
7.3 Capacitive sensors
7.4 Magnetic (Hall) sensors
7.5 Optical sensors
7.6 Incremental rotary encoders (IRC)
7.7 Absolute rotary encoders
7.8 Microwave position sensor (radar)
7.9 Interferometers
7.10 Proximity sensors

8 Speed and RPM
8.1 Electromagnetic - tachodynamo
8.2 Optoelectronic speed sensor
8.3 Inductive speed sensor
8.4 Hall speed sensor
8.5 Stroboscope

9 Acceleration
9.1 Piezoelectric acceleration sensor
9.2 Piezoresistive acceleration sensor
9.3 Acceleration sensors with measured displacement - general principle
9.4 Capacitive accelerometer
9.5 Optical accelerometer

10 Pressure
10.1 Calibration pressure gauges
10.2 Deformation manometers
10.3 Bolometric vacuum meter - PIRANI
10.4 Ionization pressure sensor
10.5 Placement of pressure sensors

11 Humidity
11.1 Dew-point hygrometer
11.2 Psychrometer
11.3 Hygrometer with dry electrolyte

12 Flow
12.1 Restriction flow meters
12.2 Rotameter
12.3 Turbine flowmeter
12.4 Wire anemometer
12.5 Ultrasonic flowmeter
12.6 Electromagnetic flowmeter
12.7 Coriolis flowmeter

13 Liquid level
13.1 Visual liquid level meter
13.2 Float
13.3 Hydro-static sensor
13.4 Bubbler
13.5 Electrical conductivity level sensor
13.6 Thermal conductivity level sensor
13.7 Radioisotope liquid level meter
13.8 Capacitive liquid level sensing
13.9 Ultrasonic liquid level meter
13.10 Radar liquid level meter
13.11 Vibrating level switches

14 Example labs
14.1 Temperature-contact - thermocouples
14.2 Temperature- non-contact - emissivity
14.3 Position - LVDT
14.3.1 Introduction
14.4 Position - proximity sensors - influence of material
14.5 Position - linear displacement sensors

References
Other recommended literature
Appendix
A Pt100, DIN/EN/IEC 60751, α = 0.00385
B Pt100, α = 0.00392
C Pt500
D Pt1000
E Ni120
F Cu10
G Thermocouple type J
H Thermocouple type K
I Thermocouple type T
J Thermocouple type E
K Thermocouple type R
L Thermocouple type S
M Material emissivity tables
Index

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Author(s)

Biography

Martin Novák presently works as a Professor at the Czech Technical University in Prague.