Chapter 9 Computer-Based Instrumentation...
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![Page 1: Chapter 9 Computer-Based Instrumentation Systemsengineering.snu.ac.kr/lecture_pdf/EE/Chapter09_SNU.pdf · Determine specifications for the elements of computer-based instrumentation](https://reader034.fdocuments.in/reader034/viewer/2022051508/5ab7d3897f8b9ad13d8bcf11/html5/thumbnails/1.jpg)
Chapter 9Computer-Based
Instrumentation Systems
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1. Operation of Computer-based Instrumentation system.
2. Possible Errors encountered in instrumentation systems.
3. Avoid common pitfalls such as ground loops, noise coupling, andloading when using sensors.
4. Determine specifications for the elements of computer-based instrumentation systems such as data-acquisition boards.
Goal
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Overview of Computer-Based Instrumentation
Analog Analog-to-Digital DigitalPhysical-to-Analog
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. . . when we need to measure the internal voltage of the sensor, we should specify a signal-conditioning amplifier having an input impedance that is much larger in magnitude than the Thévenin impedance of the sensor.
insensor
insensorinin ZZ
ZVZIV+
==
Model for Voltage Sensing
sensorinsensorin at ZZVV >>=
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. . . when we want to sense the current produced by a sensor, we need a current-to-voltage converter having a very small (ideally zero) input impedance magnitude.
Model for Current Sensing
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Variable Resistance Sensor
Generally Sensors have varying Impedance. To Get Reliable Data from Sensor, Very High Impedance Amplifier is Necessary
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Errors in Measurement Systems
trueError xxm −= %100Error %full
true ×−
=x
xxm
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1. Accuracy: Maximum expected difference in magnitude between measured and true values
Usually defined as a percentage of full-scale value
2. Precision: The ability to Repeat the Measurement of a constant measurand.
More precise measurements have less random error.
3. Resolution:The Smallest Increment discernible between measured values.
Higher resolution means smaller increments
Additional Terms for Sensing
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SIGNAL CONDITIONING
1. Amplification of the sensor signals
2. Conversion of Currents to Voltages
3. Supply of (ac or dc) Excitations to the sensors so changes in resistance, inductance, or capacitance are converted to changes in voltage
4. Filtering to eliminate noise or other unwanted signal components
Typical functions of Signal conditioners are:
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Single-Ended vs Differential Amplifiers
Signals from Sensor are very small Amplification is Necessary- Single Ended Amplifier : Grounded Signal : Two Wires- Differential Amplifier : Floating Signal : 3 Wires
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21 vvvd −=
( )21cm 21 vvv +=
Differential Signal
Differential Signal
Common Mode Signal
CMRR : Common Mode Rejection Ratio
cm
log 20CMRRAAd=
Instrumentation Amplifier has Large CMRR
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Ground Loops
+ + + + +
1. Many Electrical System Connected to Ground with Different Wires2. Ground Noise (such as 60Hz) swings
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Ground Loops
. . . in connecting a sensor to an amplifier with a single-ended input, we should select a floating sensor
Cableg RIVV1Sensorin −=
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Various Connections
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Noise
Electric field coupling of noise can be reduced by using shielded cables.Magnetically coupled noise is reduced by using coaxial or twisted-pair cables.
Noise due to Electric or Magnetic Coupling from Nearby Circuits
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DIGITAL SIGNAL PROCESSING
Analog-DigitalConverter
Digital-AnalogConverter
DSP
If a signal contains no components with frequencies higher than fH, the signal can be exactly reconstructed from its samples, provided that the sampling rate fs is selected to be more than twice fH.
ADC : Conversion of Signals from Analog to Digital Form
Hs ff 2> : Sampling Rate (frequency)
DAC : Conversion Digital form into Analog Signal
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DigitalDigital--toto--Analog Converter (DAC) Analog Converter (DAC) ]222[ 2
21
1n
nRout bbbVV −−− +++= L
output voltageanalog=outV
voltagereference=RVdbinary worbit -...21 nbbb n =
Rnout VNV2
= input DAC of equivalentnumber whole10 base −=N
nRout VV −=∆ 2 changeoutput smallest =∆ outV
voltagereference=RV wordin the bits ofnumber =n
RR VVV 9375.0]2222[ 4321max =+++= −−−−
RR VVV 9961.0]22222222[ 87654321max =+++++++= −−−−−−−−
4bit
8bit
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Generic DAC diagram Typical DAC Circuit
DAC CircuitDAC Circuit
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AnalogAnalog--toto--Digital Converters(ADCs)Digital Converters(ADCs)
R
innn V
Vbbb ≤+++ −−− 222 22
11 L
nRVV −=∆ 2
ageinput volt analog=inV voltagereference analog=RV
output digitalbit -...21 nbbb n =
= n
R
in
VVN 2INTRnin VNV
2=
Conversion Resolution
kN 2=32rms
∆=qN
The effect of finite word length can be modeled asadding quantization noise to the reconstructed signal.
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Generic ADC diagram
Data-acquisition timing diagram Read Operation at any time after the end-of-convert
Analog-to-digital conversion is a two-step process. First, the signal is sampled at uniformly spaced points in time. Second, the sample values are quantized so they can be represented by words of finite length.
Analog-to-Digital Conversion
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ADC CharacteristicsADC Characteristics
1. Analog Voltage Input : Signal Input to be Converted2. Power Supply3. Reference Voltage4. Digital Output
N output Lines Connected to Memory Bus5. Control Lines
SC : Start of ConversionEOC : End of ConversionRD : Read
6. Conversion Time
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Aliasing
Aliasing : Sampling Rate too Low, High frequency Componentappears to be those of Low frequency
Anti-aliasing filter removes High frequency component (Low Pass Filter or High Order Butterworth Low Pass filter)
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Successive approximation using Internal DAC
Parallel Feedback ADCParallel Feedback ADC
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DualDual--Slope ADCSlope ADC
Op amp integrator, comparator, counter. Commonly used in digital voltmeters.Typical timing diagram
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∫= dtVRC
V x1
1 xVTRC
V 111
=
∫−= dtVRC
VV R1
12 Rx tVRC
VTRC
V 1112 −=
Rx
x VTtV
1
=
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Basic Concept of a sample-and-hold circuit for use with the ADC.
Sampled signal is literally “held”during the ADC conversion
Sample and HoldSample and Hold
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ADC interfaced to Computer bus with Tri-state bufferAddress decoding by computer software.
MicroMicro--Processor Compatible ADCProcessor Compatible ADC
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FrequencyFrequency--based Convertersbased Converters
General diagram of a frequency-based analog-to digital converter.
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Common V-to-F Converteruseful in frequency-based ADCs.
Useful for generation of frequencyBy resistance or capacity.
LM331LM331 555 timer555 timer
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DAS HardwareDAS Hardware
Typical layout of a data-acquisition board for use in a personal computer expansion slot.
DATADATA--ACQUISITION SYSTEMSACQUISITION SYSTEMS
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Multi-position switch for selecting particular inputs to ADC
Analog MultiplexerAnalog Multiplexer
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DAS SoftwareDAS Software
Start ADC-Test EOC-Input
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Temperaturehistory
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DAS for TRIPDAS for TRIP
TRIP(TRIP(변태유기소성) : TRansformation Induced Plasticity
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t=0
t=t
L01
L02
dL
dl
∆L1 ∆L2
0102
12
LLLL
−∆−∆
=ε
● Power : 50 kW●Maximum temp. : 1500 oC●Maximum load : 90 kgf●Measure of disp. : LVDT &
Laser disp. Sensor● Cooling Method : Gas cooling (Ar)
변태소성측정장치
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