Phase Shift Circuits
Applications of Operational Amplifiers in Tamil
Phase Shift Circuit
- The phase shift circuits produce phase shifts that depend on the frequency and maintain a constant gain.
- These circuits are also called constant-delay filters or all-pass filters.
- That constant delay refers to the fact the time difference between input and output remains constant when frequency is changed over arrange of operating frequencies.
- This is called all-pass because normally a constant gain is maintained for all the frequencies within the operating range. The two types of circuits, for lagging phase angles and leading phase angles.
Phase Shift Circuit
Phase-lag circuit:
- Phase log circuit is constructed using an op-amp, connected in both inverting and non inverting modes. To analyze the circuit operation, it is assumed that the input voltage v1 drives a simple inverting amplifier with inverting input applied at(-)terminal of op-amp and a non inverting amplifier with a low-pass filter.
- It is also assumed that inverting gain is -1 and non-inverting gain after the low-pass circuit is
1 + Rf / R1 = 1 + 1 = 2 Since Rf = R1.
Phase Log Circuit
Bode plot of Phase lag Circuit
For this circuit, it can be written as
and the relationship between output and input can be expressed by
Bode plot of Phase lag Circuit
- The relationship is complex as defined a e equation it has both magnitude and phase. Since the numerator and denominator are complex conjugates, their magnitudes are identical and the overall phase angle equals the angle of numerator less the angle of denominator.
Phase-Lead circuit:
Phase Lead Circuit
Bode plot of Phase lead Circuit
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