signal conditioning - kmuttinc.kmutt.ac.th/course/inc223/lecture 10 signal conditioning 1_60.pdf ·...
TRANSCRIPT
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Signal Conditioning
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Chapter Objective
• To understand the important of signal conditioning circuits
• To design the signal conditioner circuits and
make the signals from sensors/transducers
suitable for the next stage, i.e. Control
System
• To understand the standard signals for industrial
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Standard Signal for Industrial Process
• Electrical:
current 4-20 mA,
voltage 1-5 Volt
• Mechanical: 3-15 psi
Normally, sensors/transducers didn’t provide direct
these standard signals. Therefore, an interfacing
circuit is required between sensors/transducers
and standard industrial instrument.
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• Signal conditioning circuits are dealing with the output signals from sensors/transducers in such a way to make these signals appropriate for the next stage such as a control system and data acquisition system.
• Signal conditioning circuits can include amplification, attenuation, filtering , signal converting , isolation , etc.
Sensors/
Transducers
Control
SystemsSignal
Conditioner
Transmission Transmission
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Basic idea
1. Convert the sensor output to voltage. (In case of a long distance transmission or bad environment, recommend to use current or frequency(digital) transmission )).
2. Remove unwanted signals(Filtering)
3. Modify the signal range (either increase or decrease) to obtain the maximum accuracy for the further processing i.e. try to match with the input range of A/D converter to maximize the resolution.
4. Additional Requirement: Signal Isolation(Sensor-Control): Magnetic isolation(Transformer) or Optical isolation(LED and photodectector)
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Common Signal Conditioning
• Voltage to Voltage:
-Inverting Amp
-Non-inverting Amp
-Summing and Subtracting Amp
-Difference Amp
-Instrumentation Amplifier(IA)
-Zero and Span adjustment
• Voltage to Current and Current to Voltage
• Voltage to Frequency and Frequency to Voltage
• Optoisolation Circuit
• Filtering: Passive and Active
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Instrumentation Amplifier(IA)
• IA is dedicated differential amplifier.
• It is optimized for a signal conditioning for low-level signals in large
amounts of noises.
• Gain is adjustable by a single resistor.
• Finite, accurate and stable gain, usually between 1 and 1000.
• Extremely high input impedance.
• Extremely low output impedance
• Extremely high CMRR(Common Mode Rejection Ratio).
• CMRR is the ratio of the gain of the amplifier for differential-mode
signals (signals that are different between the two inputs) to the gain
of the amplifier for common-mode signals (signals that are the same
at both inputs).
vd
vcm
ACMRR
A
outvd
VA
V V
( ) / 2
outvcm
VA
V V
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• 2 Stages configuration:input stage and unity-gain difference amplifier stage
- Input stage(voltage follower configuration): allows high input impedance to both input and the gain is set by only one resistor.+ eliminate common-mode signal
- Unity-gain difference amplifier stage:
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• Voltage at point 1 is equal to V1 and voltage at point 2 is equal to
V2(no potential difference between op-amp input ).
• V1-2=V1-V2 and IRgain=(V1-V2)/Rgain
• V3-4= IRgain*(Rgain+2R) , substitute IRgain
• Since second stage is unity gain difference(resistors are the same,
all R) , the output voltage is the same as V3-4..
)2
1)(( 12
gain
outR
RVVV
2( ) 1V
gain
RA overall gain
R
Note. Difference amplifier with adjustable gain(without R2 and R1, difference amp will be normal
high gain op-amp or comparator(output is saturated at either negative or positive level ) )
22 1
1
( )( )o
RV V V
R
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IA applications
• IA is normally used to amplify the small signals obtained form the transducers
such as strain-gauge where there are common-mode noises picking up to the
transmission line.
• Applications for an instrumentation amplifier are small differential voltage
measurements, i.e. bridge outputs, strain gauge outputs, or any low level
transducer.
• The common mode noise can be eliminated by IA.( high CMRR).
Strain gauge amplifier circuit:
IA
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IA applications
Thermocouple output to A/D converter:
Reference: http://www.intersil.com/
IA
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IA applications
RTD output to A/D converter:
Reference: http://www.intersil.com/
IA
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Zero and Span adjustment
Ein
VOUT
m=slope=Rf/Ri
b=offset=(Rf/Ros)Vos
Zero adjust
Ein
VOUTm=slope=Rf/Ri
Span adjust
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Zero and Span adjustment
• Rf and Ri adjust the span(gain-slope)
• ±Vos adjust the zero(offset)
+
_
Rf
VOUT1= -(mx+b)
Ri
Ros
R
+
_
R±Vos
Ein
VOUT2= (mx+b)
Inverting Summing Amp
Inverting Amp
os
os
f
in
i
f
OUT VR
RE
R
RV 2
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Example 1
• Design the zero and span converter using OP-AMP 741
and supply ±5V to convert Ein (-0.25 V to 0.25 V) to Vout
(0 V to 5 V)
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Solution
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Solution
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Example 2
• Design a signal conditioning circuit to measure the speed of motor using
RE.0444 NV B C1X20 CA IP44 11X30 (DC Tachogenerator) as sensor
(Datasheet is given below). The motor speed to be measured is between 0 to 200 revolution per minute( rpm ). The desired output voltage is 0 to 5 V
for connecting to an analog input port of microcontroller.
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Homework
• Design the zero and span converter using OP-AMP 741 working with power supplies ±5 V to convert Ein (2 V to 4 V) to
Vout (0 V to 5 V). Students must use standard resistor values
in the design.
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Standard Variable Resistors
Standard Fixed Value Resistors