wein bridge oscillators {by viresh g. roll no.10}
TRANSCRIPT
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Wien-Bridge Oscillator
By Mr. Viresh Vilas GawadeBhavans college
T.Y.BscRoll no.10
Saturday, December 12th 2011
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Outline Basics about the wein bridge Modification to the circuits Analysis Making the oscillations Frequency analysis Conclusions Reference
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Basics About the Wien-Bridge Uses two RC
networks connected to the positive terminal to form a frequency selective feedback network
Causes Oscillations to Occur
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Basics About the Wien-Bridge Amplifies the
signal with the two negative feedback resistors
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Modification to Circuit
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Analysis The loop gain
can be found by doing a voltage division
Vo s( ) V1 s( )Z 2 s( )
Z 1 s( ) Z 2 s( )
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Analysis The two RC
Networks must have equal resistors and capacitors
Z1 s( ) R1
s C
Z2 s( )
R1
s C
R1
s C
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Analysis
Operational amplifier gain
GV1 s( )
Vs s( )1
R2
R1
Vo s( ) V1 s( )Z 2 s( )
Z 1 s( ) Z 2 s( )
Need to find the Gain over the whole Circuit: Vo/Vs
Vo s( ) G V s s( )s R C
s2R2 C
2 3 s R C 1
Solve G equation for V1 and substitute in for above equ.
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Analysis
T s( )Vo s( )
V s s( )
s R C G
s2R2 C
2 3 s R C 1
We now have an equation for the overall circuit gain
T j j R C G
1 2R2 C
2 3 j R C
Simplifying and substituting jw for s
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Analysis
In order to have a phase shift of zero,
1 2R2 C
2 0
This happens at RC When RC, T(j) simplifies to:
T j G
3
If G = 3, oscillations occur
If G < 3, oscillations attenuate
If G > 3, oscillation amplify
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Time
0s 0.2ms 0.4ms 0.6ms 0.8ms 1.0msV(R5:2)
-4.0V
0V
4.0V
G = 3
Time
0s 0.2ms 0.4ms 0.6ms 0.8ms 1.0msV(R5:2)
-4.0V
0V
4.0V
G = 2.9
Time
0s 100us 200us 300us 400us 500us 600usV(R5:2)
-20V
0V
20V
G = 3.05
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Making the Oscillations Steady
Add a diode network to keep circuit around G = 3
If G = 3, diodes are off
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Making the Oscillations Steady
When output voltage is positive, D1 turns on and R9 is switched in parallel causing G to drop
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Making the Oscillations Steady
When output voltage is negative, D2 turns on and R9 is switched in parallel causing G to drop
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Results of Diode Network
Time
0s 0.2ms 0.4ms 0.6ms 0.8ms 1.0msV(D2:2)
-4.0V
0V
4.0V
With the use of diodes, the non-ideal op-amp can produce steady oscillations.
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Frequency Analysis By changing the resistor and
capacitor values in the positive feedback network, the output frequency can be changed.
R 10k C 1nF
1
R C 1 10
5rad
sec
f
2 f 15.915kHz
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Frequency Analysis
Frequency
0Hz 10KHz 20KHz 30KHz 40KHzV(D2:2)
0V
2.0V
4.0V(15.000K,2.0539)
Fast Fourier Transform of Simulation
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Frequency Analysis Due to limitations of the op-
amp, frequencies above 1MHz are unachievable.
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Conclusions No Input Signal yet Produces
Output Oscillations Can Output a Large Range of
Frequencies With Proper Configuration,
Oscillations can go on indefinitely
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Reference www.circuitstoday.com www.ecircuitcenter.com/circuits/op
wien www.jensign.com/wien www.sciencelabequipments.net/
wein-bridge-oscillator
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Thank You.