ELECTRIC CIRCUITS ECSE-2010 Spring 2003 Class 10
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Transcript of ELECTRIC CIRCUITS ECSE-2010 Spring 2003 Class 10
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ELECTRIC CIRCUITSECSE-2010
Spring 2003 Class 10
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ASSIGNMENTS DUE• Today (Tuesday/Wednesday):
• Will do Experiment #4 in Class (EP-4)• Activity 10-2 (There is no 10-1)
• Thursday:• Experiment #2 Report is Due• Will do Computer Project #1 in Class (CP-1)• Will spend second hour reviewing for Exam I
• Next Monday:• Exam I, 7-9, DCC 308• Homework #4 Due• Experiment #3 Report Due• Activities 12-1, 12-2 (In Class)
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OPEN SHOP HOURS
• Wednesdays:• 9 – 11 am = Prof. Nagy• 12 – 2 pm = Prof. Millard• 2 - 4 pm = Prof. Jennings
• Thursdays:• 9 - 10 am = Prof. Millard
• JEC 4104:
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REVIEW• Real Operational Amplifiers:
• Rin ~ 10 M; (Very Large)
• Rout ~ 100 ohms; (Very Small)
• Gain = A ~ 105; (Very Large)
• vout Can Never be Greater than VDC
• Building Blocks for Electronic Circuits
• Model Real Op Amp with Ideal Op Amp:• Rin = Infinite
• Rout = 0
• Gain = Infinite• Good Model for Almost All Op Amp Circuits
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EXAMPLE OF REAL OP AMP
pv
nv
outv
DCV
DCV
Note Pin Layout
1,5 Used for Offsets
We will not UseNon-Inverting Input
Inverting Input
Pin 8 not connected
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REAL OP AMP MODEL
pv
nv
inv
inR
outR
outv
inAv
in p nv v v out DCv can never be greater than V
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Fig. 10.1 The 741 op-amp circuit. Q11, Q12, and R5 generate a reference bias current, IREF, Q10, Q9, and Q8 bias the input stage, which is
composed of Q1 to Q7. The second gain stage is composed f Q16 and Q17 with Q13 acting as active load. The class AB output stage is
formed by Q14 and Q20 with biasing devices Q18 and Q19 and an input buffer Q23. Transistors Q15, Q21, Q24, and Q22 serve to protect the
amplifier against output short circuit and are normally off.
TYPICAL 741 OP AMP CIRCUIT
From Sedra and Smith
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IDEAL OP AMP
pv
nv
outv
pi 0
ni 0
out DCv can never be greater than V
DCUsually do not show V
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REVIEW
• Ideal Op Amps:• ip = in = 0; Ideal Op Amp draws no current
• vout can never be greater than Vdc
• vout = + VDC if vp > vn
• vout = - VDC if vp < vn
• Comparator
• Can Model Most Real Op Amps with Ideal Op Amp:• Actual behavior will only vary slightly
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REVIEW
• Op Amp with Negative Feedback:• Any circuit connection between vout and vn
• Creates Virtual Short at input to Op Amp
• ip = in = 0 AND vn = vp
• Output can be finite• Output determined by other circuit
elements• Find Output using Circuit Analysis• Look at Effects of Real Op Amps Later
(usually using PSpice)
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IDEAL OP AMP WITH NEGATIVE FEEDBACK
pv
nv
outv
pi
ni
in p nv v v 0 with Negative Feedback p ni i 0 Always
inv
Negative Feedback
Virtual Short
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REAL OP AMP WITH NEGATIVE FEEDBACK
pv
nv
inv
inR
outR
outv
inAvin p nv v v
p n
in
i i 0 Always
v 0 with Negative Feedback
Negative Feedback
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ISOLATION AMPLIFIER
invoutv
out n p inv v v v
p n
p n
Virtual Short
i i 0
v v
pi
nv
pv
ni
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NON-INVERTING VOLTAGE AMPLIFIER
inv
outv
Fout in
1
Rv 1 v
R
1R
FR
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INVERTING VOLTAGE AMPLIFIER
inv
outv
1R
FR
Fout in
1
Rv v
R
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SUMMING AMPLIFIER
2v
1v1R
2R
FR
outv
F F1 2
1 2
R Rv v
R R
Fi
1i2i
11
1
vi
R
22
2
vi
R
F 1 2i i i
0
out F Fv 0 i R
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DIFFERENTIAL AMPLIFIERS
Can Use Op Amps to Eliminate Undesired Signals
Often have a Signal we want to Amplify, but
which contains some "Common-Mode" voltage
Example is 60 Hz adding to an Audio Signal
Want to Ampl
ify the Audio, but not the 60 Hz
Will Explore this with Activity 10-2
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ACTIVITY 10-2
1v
2v
1RFR
outv
A
F 1 Fout 2 1
1 1
R R RShow that v v v
R R
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ACTIVITY 10-2
1v
2v
1RFR
outv
A
1 2out 2 F F 2 F
1
(v v )v v i R v R
R
F 1i i
1i
1 21
1
v vi
R
2v
1 F Fout 2 1
1 1
R R Rv v v
R R
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ACTIVITY 10-2
B
sv
cv
1R
2R
3R
FR
outv
outFind v
Common Mode
Signal
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ACTIVITY 10-2
B
sv
cv
1R
2R
3R
FR
outv1v
2v
Common Mode
Signal
1 c sv v v
32 c
2 3
Rv ( )v
R R
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ACTIVITY 10-2
• Part b): vout in Circuit B
3 cF 1 Fout s c
1 2 3 1
3 F 1 F Fc s
1 2 3 1 1
Use Equation from a):
R vR R R v (v v )
R R R R
R (R R ) R R v v
R (R R ) R R
1 c s
32 c
2 3
v v v
Rv v ; voltage divider
R R
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ACTIVITY 10-2
B
sv
cv
1R
2R
3R
FR
outv
F 1 3 2Let R KR ; R KR
out sShow that v Kv
1v
2v
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ACTIVITY 10-2
• Part c): RF = KR1; R3 = KR2
F
1
3 F 1 2 1 1
1 2 3 1 2 2
out c s s
RK
R
R (R R ) KR (KR R )
R (R R ) R (R KR )
K (K 1) K
1 Kv K K v K v K v
Common Mode is Rejected!
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REAL OP AMPS
• On Thursday, we will explore what happens when we use Real Op Amps rather than Ideal Op Amps
• Will start Computer Project 1 where we will use the Circuit Model for an Op Amp and use finite Rin, non-zero Rout and finite Gain, A
• Will Spend Second Hour Reviewing for Exam I
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EXPERIMENT #4
• Let’s Look at 741 Op Amp Circuit:• 741 is a Very Common Op Amp; Cheap, Good• Will Build a Non-Inverting Voltage Amplifier• Gain ~ 2 • Must Provide + 5 V, - 5 V to Amplifier• Use E3631A Power Supply• Use + 25 V, Common to get + 5 V• Use - 25 V, Common to get - 5 V• Adjust Separately• Remember this! We will use it often
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EXPERIMENT #4, PARTS 1 & 2
outv
sv
10 k10 k
5 V
5 VFunction Generator
Oscilloscope
F
1
R1 2
R
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EXPERIMENT #4• Will Use Oscilloscope:
• Tremendous Instrument• Does Great and Wonderful Things• Make Sure Probe Attenuation Factor = 1• Learn to Use the Functions
• Will Use Function Generator:• Rs for FG = 50 ohms
• Digital Voltage Readout on FG is Always Wrong when Output is plugged into Scope!
• Digital Voltage Readout on FG assumes it is plugged into something with Req = 50 ohms
• Always Measure Voltage Output of FG on Scope
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741 LAYOUT
pv
nv
outv
DCV
DCV
Note Pin Layout
Used for Offsets
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EXPERIMENT #4
1 2 3 4
5678
Note Indentation Op Amp Pin Layout
pvnv
outvDCV
DCV
For 741
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EXPERIMENT #4
1 2 3 4
8 7 6 5
1 2 3 4
5678
Straddle Seam
in Protoboard
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EXPERIMENT #4 Connect Output of FG to Both Scope and Circuit
Use BNC Tee to do this
Use Channel 1 on Scope for Input
Always want to look at Input
Connect Output of Circuit to Channel 2
Make sure that P
robe Attenuation Factor 1
Push Channel 1 and Channel 2 buttons to check
Also connect SYNC from FG to EXT TRIG on Scope
This will synchronize the scope to the FG Signal
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EXPERIMENT #4, PARTS 1 & 2
Apply 1 kHz Triangle waveform to Circuit from FG
Push Button for Triangle Waveform
Push Frequency Button; Adjust to 1 kHz
Set Amplitude 1 Volt, Peak to Peak as
Measured on Scope (do not
out
s
measure on FG)
Observe Input and Output Waveforms
Increase Amplitude until you observe Distortion
v Measure the Voltage Gain, , with no Distortion
v
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EXPERIMENT #4, PARTS 3-5
curR 100 k
svoutv
10 k 10 k
5 V
5 V
invini
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EXPERIMENT #4, PARTS 3,4,5cur
cur
s,RMS
Add 100k Resistor to Circuit, R
Measure R accurately using MM
Set FG for Sinusoidal Waveform, f 1 kHz
Adjust Amplitude for No Distortion
Measure v using MM (Set to read AC Volts)
in, RMS s cur in,RMS in,RMS
in,RMSin
in,RMS
out
Measure v v R i ; Calculate i
v Calculate Input Resistance of Op Amp R
i
Determine R of Op Amp using method of Exp #3
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EXPERIMENT 4, PART 5
sv
100 k iR
10 k
10 k
oR
PotR
in v
inAv
outi
out,RMSoutout
out out,RMS
vvR
i i
outv
Find Thevenin Equivalent Circuit
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EXPERIMENT 4, PART 5
oc,RMSv
T outR R of Amplifier Ckt
PotRout,RMSv
out,RMSi
Thevenin Equivalent Circuit
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EXPERIMENT 4, PART 5
sv
100 k
10 k
10 kiR
in v oR
inAv
PotRoc,RMSv
out,RMSi 0
out,RMS out,RMS oc,RMSWhen i 0, v v
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EXPERIMENT 4, PART 5
out
s
out
out,RMS oc,RMS
Open Circuit Output (i 0)
May have to reduce v to make sure
v is undistorted
(Observe on Scope)
Measure v v with MM
(Could also measure with Scope)
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EXPERIMENT 4, PART 5
Pot out,RMS oc,RMS
out,RMS Pot
out,RMSout,RMS
Pot
out,RMS oc,RMS out,RMS out
out
Connect 10 k Pot
Choose R such that v .9v
Measure v and R accurately with MM
vCalculate i
R
v v i R
Calculate R
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EXPERIMENT 4, PART 5
oc,RMSv
T outR R of Amplifier Ckt
PotRout,RMSv
out,RMSi
out,RMS oc,RMS out,RMS outv v i R
out,RMSMeasure v with MM
PotChoose a Value for R
PotMeasure R with MM
out,RMSout,RMS
Pot
vCalculate i
R
outCalculate R