Sensors. Chapter 3. Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.1
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1 Sensors Chapter 3 Introduction Describing Sensor Performance Temperature Sensors Light Sensors Force Sensors Displacement Sensors Motion Sensors Sound Sensors Sensor Interfacing Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.1
2 Introduction 3.1 To be useful, systems must interact with their environment. To do this they use sensors and actuators Sensors and actuators are examples of transducers A transducer is a device that converts one physical quantity into another examples include: a mercury-in-glass thermometer (converts temperature into displacement of a column of mercury) a microphone (converts sound into an electrical signal). We will look at sensors in this lecture and at actuators in the next lecture Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.2
3 Almost any physical property of a material that changes in response to some excitation can be used to produce a sensor widely used sensors include those that are: resistive inductive capacitive piezoelectric photoresistive elastic thermal. in this lecture we will look at several examples Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.3
4 Describing Sensor Performance 3.2 Range maximum and minimum values that can be measured Resolution or discrimination smallest discernible change in the measured value Error difference between the measured and actual values random errors systematic errors Accuracy, inaccuracy, uncertainty accuracy is a measure of the maximum expected error Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.4
5 Precision a measure of the lack of random errors (scatter) Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.5
6 Linearity maximum deviation from a straight-line response normally expressed as a percentage of the full-scale value Sensitivity a measure of the change produced at the output for a given change in the quantity being measured Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.6
7 Temperature sensors 3.3 Resistive thermometers typical devices use platinum wire (such a device is called a platinum resistance thermometers or PRT) linear but has poor sensitivity A typical PRT element A sheathed PRT Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.7
8 Thermistors use materials with a high thermal coefficient of resistance sensitive but highly non-linear A typical disc thermistor A threaded thermistor Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.8
9 pn junctions a semiconductor device with the properties of a diode (we will consider semiconductors and diodes later) inexpensive, linear and easy to use limited temperature range (perhaps -50 C to 150 C) due to nature of semiconductor material pn-junction sensor Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.9
10 Light Sensors Photovoltaic light falling on a pn-junction can be used to generate electricity from light energy (as in a solar cell) small devices used as sensors are called photodiodes fast acting, but the voltage produced is not linearly related to light intensity A typical photodiode 3.4 Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.10
11 Photoconductive such devices do not produce electricity, but simply change their resistance photodiode (as described earlier) can be used in this way to produce a linear device phototransistors act like photodiodes but with greater sensitivity light-dependent resistors (LDRs) are slow, but respond like the human eye A light-dependent resistor (LDR) Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.11
12 Force Sensors 3.5 Strain gauge stretching in one direction increases the resistance of the device, while stretching in the other direction has little effect can be bonded to a surface to measure strain used within load cells and pressure sensors Direction of sensitivity A strain gauge Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.12
13 Displacement Sensors 3.6 Potentiometers resistive potentiometers are one of the most widely used forms of position sensor can be angular or linear consists of a length of resistive material with a sliding contact onto the resistive track when used as a position transducer a potential is placed across the two end terminals, the voltage on the sliding contact is then proportional to its position an inexpensive and easy to use sensor Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.13
14 Inductive proximity sensors coil inductance is greatly affected by the presence of ferromagnetic materials here the proximity of a ferromagnetic plate is determined by measuring the inductance of a coil we will look at inductance in later lectures Inductive proximity sensors Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.14
15 Switches simplest form of digital displacement sensor many forms: lever or push-rod operated microswitches; float switches; pressure switches; etc. A limit switch A float switch Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.15
16 Opto-switches consist of a light source and a light sensor within a single unit 2 common forms are the reflective and slotted types A reflective opto-switch A slotted opto-switch Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.16
17 Absolute position encoders a pattern of light and dark strips is printed on to a strip and is detected by a sensor that moves along it the pattern takes the form of a series of lines as shown below it is arranged so that the combination is unique at each point sensor is an array of photodiodes Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.17
18 Incremental position encoder uses a single line that alternates black/white two slightly offset sensors produce outputs as shown below detects motion in either direction, pulses are counted to determine absolute position (which must be initially reset) Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.18
19 Other counting techniques several methods use counting to determine position two examples are given below Inductive sensor Opto-switch sensor Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.19
20 Motion Sensors 3.7 Motion sensors measure quantities such as velocity and acceleration can be obtained by differentiating displacement differentiation tends to amplify high-frequency noise Alternatively can be measured directly some sensors give velocity directly e.g. measuring frequency of pulses in the counting techniques described earlier gives speed rather than position some sensors give acceleration directly e.g. accelerometers usually measure the force on a mass Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.20
21 Sound Sensors 3.8 Microphones a number of forms are available e.g. carbon (resistive), capacitive, piezoelectric and moving-coil microphones moving-coil devices use a magnet and a coil attached to a diaphragm we will discuss electromagnetism later Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.21
22 Sensor Interfacing 3.9 Resistive devices can be very simple e.g. in a potentiometer, with a fixed voltage across the outer terminals, the voltage on the third is directly related to position where the resistance of the device changes with the quantity being measured, this change can be converted into a voltage signal using a potential divider as shown the output of this arrangement is not linearly related to the change in resistance Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.22
23 Switches switch interfacing is also simple can use a single resistor as below to produce a voltage output all mechanical switches suffer from switch bounce Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.23
24 Capacitive and inductive sensors sensors that change their capacitance or inductance in response to external influences normally require the use of alternating current (AC) circuitry such circuits need not be complicated we will consider AC circuits in later lectures Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.24
25 Key Points A wide range of sensors is available Some sensors produce an output voltage related to the measured quantity and therefore supply power Other devices simply change their physical properties Some sensors produce an output that is linearly related to the quantity being measured, others do not Interfacing may be required to produce signals in the correct form Storey: Electrical & Electronic Systems Pearson Education Limited 2004 OHT 3.25
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