Understanding RC Phase Shift Oscillators
Dive into the world of RC phase shift oscillators, exploring the concepts of phase and phase shift in electronic circuits. Learn how cascading RC networks can achieve specific phase shifts, the role of impedance, and the practical applications of RC feedback networks in oscillator circuits. Discover how op-amps can be utilized in RC phase shift oscillator designs for precise frequency generation.
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Presentation Transcript
What is RC Phase Shift Oscillator? RC phase-shift oscillator circuit can be built with a resistor as well as a capacitor. This circuit offers the required phase shift with the feedback signal. They have outstanding frequency strength and can give a clean sine wave for an extensive range of loads. Preferably an easy RC network can be expected to include an o/p which directs the input with 90o.
If we cascade there RC network, we will get 180-degree phase shift.
RC Phase Angle Where: XCis the Capacitive Reactance of the capacitor, R is the Resistance of the resistor, and is the Frequency.
The total impedance of the circuit is, The r.m.s. value of the input voltage applied is say Vivolts. Hence the current is given by,
From the expression of current, it can be seen that current I leads input voltage by angle The output voltage is the drop in resistance R given by, The voltage across the capacitor is, The drop is in phase with current I while the drop Vclags current I by 90 i.e. I leads Vcby 90 . By using proper values of R and C, the angle is adjusted in practice equal to 60 .
RC Feedback Network The RC network is used in the feedback path. In the oscillator, the feedback network must introduce a phase shift of 180 to obtain a total phase shift around a loop as 360 .
RC Phase Shift Oscillator Using Op-amp R-C phase shift oscillator using op-amp uses an op-amp in inverting amplifier mode
Find the transfer function of the RC feedback network : Applying KVL to various loops we get,
Replacing j by s and writing the equations in the matrix form, Using the Crammer s rule to obtain I3
=2f f= /2 This is the frequency with which circuit oscillates,
At this frequency, The negative sign indicates a phase shift of 180 =2 f f= /2
Thus circuit will work as an oscillator which will produce a sinusoidal waveform if the gain is 29 and total phase shift around a loop is 360 . This satisfies the Barkhausen criterion for the oscillator. These oscillators are used over the audio frequency range i.e. about 20 Hz up to 100 kHz.
Advantages The advantages of R-C phase shift oscillator are, The circuit is simple to design. Can produce output over the audio frequency range. Produces sinusoidal output waveform. It is a fixed-frequency oscillator. Disadvantages By changing the values of R and C, the frequency of the oscillator can be changed. But the values of R and C of all three sections must be changed simultaneously to satisfy the oscillating conditions. But this is practically impossible. Hence the phase shift oscillator is considered as a fixed frequency oscillator, for all practical purposes. And the frequency stability is poor due to the changes in the values of various components, due to the effect of temperature, ageing etc.