Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback...
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Transcript of Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback...
![Page 1: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/1.jpg)
Chapter 31
Applications of Op-Amps
![Page 2: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/2.jpg)
2
Comparators• Op-amp as a Comparator
– No negative feedback– Output saturates with very small + or – input
![Page 3: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/3.jpg)
3
Comparators• Comparator
– Non-linear device
– vout has two discrete values, ±VSAT
– vout = +VSAT if + input is greater than – input
– vout = –VSAT if – input is greater than + input
![Page 4: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/4.jpg)
4
Comparators• A comparator circuit: Sine wave in,
square wave out
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Comparators• Input sine wave• Output square wave
Vout = ±VSAT
• +VSAT (determined by VCC) when sinusoid is +
• –VSAT (determined by VEE) when sinusoid is –
___-
___-
+
- vout
741
VCC
VEE
![Page 6: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/6.jpg)
6
Comparators• Compare input waveform to reference
• Reference can be ground or dc source
• Can compare two waveforms
• Specialized comparator IC’s also available
• Detects when waveform reaches given level
![Page 7: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/7.jpg)
7
Comparators• Zero-Crossing Detector
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8
Voltage Summing Amplifier
• Circuit
![Page 9: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/9.jpg)
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Voltage Summing Amplifier
• Inverse sum321F IIII ++=
ff RIV −=out
i
F
R
R
![Page 10: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/10.jpg)
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Voltage Summing Amplifier
• Multiplies each input by
⎟⎟⎠
⎞⎜⎜⎝
⎛++−= 3
32
21
1
VR
RV
R
RV
R
RV FFFout
![Page 11: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/11.jpg)
11
Integrators and Differentiators• In general
• Using resistors and capacitors– Integrators– Differentiators
-
+___-
vout
vin
ZF
Z1
in1
Fout v
Z
Zv −=
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12
Integrators and Differentiators
• Voltage across capacitor
• Current through capacitor
0
0
1( ) ( )
( )
t
C
CC
v t i t dt VC
dvi t C
dt
= +
=
∫
![Page 13: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/13.jpg)
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Integrators and Differentiators• Op-amp Integrator
01 0
1 0
1( ) ( )
1( ) ( )
t
C in
t
out in
v t v t dt VRC
v t v t dtRC
= +
=
∫
∫
-
+___-
vout
C
R1vin
0 Vi i = 0
![Page 14: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/14.jpg)
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+ -
Integrators and Differentiators• Op-amp
differentiator
• Circuit inherently unstable
( ) inout F
dvv t R C
dt=−
-
+___-
vout
Cin
RF
vin
i
i
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Integrators and Differentiators• Stable op-amp differentiator
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16
Instrumentation Amplifiers• Op-amp in differential amplifier
configuration
• Noise suppression
• High CMRR
• Reasonable gain
• IC instrumentation amps
![Page 17: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/17.jpg)
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Instrumentation Amplifiers• An op-amp instrumentation amp circuit
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Instrumentation Amplifiers• Measurement of very small voltages
• Transducer– Converts a physical change into an electrical
change
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Instrumentation Amplifiers• Strain gage
– Converts force into ∆R– ∆R is milliohms– Use bridge circuit
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Instrumentation Amplifiers• Strain gage example
– Thin metal foil (resistor) on plastic backing– Glued to metal bar– Bar subjected to tension and compression
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Instrumentation Amplifiers• Strain gage example
– Tension• Resistance of strain gage is R + ∆R
– Compression• Resistance of strain gage is R – ∆R
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Active Filters
• Basic filter types– Passive elements, gain < 1– Low-pass– High-pass– Bandpass– Band reject
![Page 23: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/23.jpg)
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Active Filters
• With op-amps/active filters– Gain can be ≥ 1– Filter response closer to ideal
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Active Filters• Low-pass (RF = R1)
• Add resistor for gain > 1
11
1
1
1
1( )
1
Cout C in in
C
Z j Cv v v v
R Z Rj C
TF jj RC
ω
ω
ωω
= = =+ +
=+
-
+
___-
vout
C
RF = R1
I = 0
0 VR1
vin
![Page 25: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/25.jpg)
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Active Filters
• High-pass (RF = R1)
• Add resistor for gain > 1
-
+
___-
vout
RF = R1
I = 0
0 V
R1
vin
C
1 1
11
1
1
1
( )1
out R in inC
R Rv v v v
R Z Rj C
RCTF j
j RC
ω
ωω
= = =+ +
=+
![Page 26: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/26.jpg)
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Active Filters• dc gain
– Easily achieved– Not used much due to gain-bandwidth product
• Example– GBWP = 106, Gain = 10– Cutoff for filter (HP or LP) only 105
![Page 27: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/27.jpg)
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Active Filters• Bandpass• Wideband
– Cascade HP and LP active filters– LP must have higher cutoff frequency– HP and LP cutoff frequencies far apart
• Narrowband– Can use single op-amp
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Active Filters• Narrowband BP
circuit
01
0.11251
0.1591
Rf
RC R
BWRC
= +
=
-
+
___-
vout
2R
R1
C
C
___-
vin
R
![Page 29: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/29.jpg)
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Active Filters• Active notch filter
– Cascade narrowband BP filter– Adder circuit– Result is 1 – (frequency response of BP filter)– Frequency at resonant frequency of BP filter
will be eliminated
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Voltage Regulation• Voltage regulator
– Constant voltage to load– Specified current range– Specified input voltage range– Zener diode regulator
• Inefficient• Dissipates power
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Voltage Regulation• Types of regulators
– Fixed voltage regulator– Variable voltage regulator– Switching regulator
• Specialized IC regulators– For different voltages, e.g. +5 V, –5 V, +12 V,
–12 V, +15 V, –15 V, etc.
![Page 32: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/32.jpg)
32
Voltage Regulation• Line Regulation
– Small output change with change in input
RL
___-
Regulatedoutput
Voltageregulator
Unregulatedinput
% 100%out
in
vline regulation
v
Δ= ×
Δ
![Page 33: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/33.jpg)
33
Voltage Regulation• Load regulation
– Small output voltage change with smaller RL
– VNL = no-load voltage (open-circuit load)– VFL = full-load voltage (specified by manufacturer)
% 100%NL FL
FL
V Vload regulation
V
−= ×
![Page 34: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/34.jpg)
34
Voltage Regulation
• Circuit to increase efficiency of Zener regulator with an op-amp
+
-
Q1Unregulatedinput RD
R1
R2
vout
+
-___-
vin
+
-
![Page 35: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/35.jpg)
35
Voltage Regulation
• Three-terminal IC regulators– 7800 series,
positive voltage– 7900 series,
negative voltage
![Page 36: Chapter 31 Applications of Op-Amps. 2 Comparators Op-amp as a Comparator –No negative feedback –Output saturates with very small + or – input.](https://reader035.fdocuments.in/reader035/viewer/2022062216/56649da25503460f94a8ead0/html5/thumbnails/36.jpg)
36
Voltage Regulation
• 5 V output, 7805
• 12 V output, 7812
• –5 V output, 7905
• –12 V output, 7912RL
___-
Vout=12 V
μA7812
Unregulatedinput
+
-
+
-
___-
IN OUT
COM
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37
Voltage Regulation• Ripple
• Greatly reduced by IC regulator
Vr(in) = input ripple voltage
Vr(out) = output ripple voltage
[ ] ( )
( )
20 log r in
dBr out
Vripple rejection
V=