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Wien-Bridge Oscillator Circuits

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Title: Wein Bridge Oscillators Author: Engineering Department Last modified by: pribeiro Created Date: 4/29/2002 5:46:14 PM Document presentation format – PowerPoint PPT presentation

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Title: Wien-Bridge Oscillator Circuits


1
Wien-Bridge Oscillator Circuits
2
Why Look At the Wien-Bridge?
  • It generates an oscillatory output signal without
    having any input source

3
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

4
Basics About the Wien-Bridge
  • Amplifies the signal with the two negative
    feedback resistors

5
Modification to Circuit
6
Analysis
  • The loop gain can be found by doing a voltage
    division

7
Analysis
  • The two RC Networks must have equal resistors and
    capacitors

8
Analysis
Need to find the Gain over the whole Circuit
Vo/Vs
Solve G equation for V1 and substitute in for
above equ.
9
Analysis
We now have an equation for the overall circuit
gain
Simplifying and substituting jw for s
10
Analysis
If G 3, oscillations occur If G lt 3,
oscillations attenuate If G gt 3, oscillation
amplify
11
G 3
G 2.9
G 3.05
12
Ideal vs. Non-Ideal Op-Amp
  • Red is the ideal op-amp.
  • Green is the 741 op-amp.

13
Making the Oscillations Steady
  • Add a diode network to keep circuit around G 3
  • If G 3, diodes are off

14
Making the Oscillations Steady
  • When output voltage is positive, D1 turns on and
    R9 is switched in parallel causing G to drop

15
Making the Oscillations Steady
  • When output voltage is negative, D2 turns on and
    R9 is switched in parallel causing G to drop

16
Results of Diode Network
  • With the use of diodes, the non-ideal op-amp can
    produce steady oscillations.

17
Frequency Analysis
  • By changing the resistor and capacitor values in
    the positive feedback network, the output
    frequency can be changed.

18
Frequency Analysis
Fast Fourier Transform of Simulation
19
Frequency Analysis
  • Due to limitations of the op-amp, frequencies
    above 1MHz are unachievable.

20
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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