Question
Download Solution PDFRC network shown in figure can provide a maximum theoretical phase shift of:
Answer (Detailed Solution Below)
Detailed Solution
Download Solution PDFExplanation:
The given circuit consists of three RC networks connected in cascade.
In a passive RC circuit, when the input is connected to a capacitor and the output voltage is taken across a resistor, then the circuit is known as a high pass RC circuit.
Frequency Domain Analysis:
The output voltage is calculated using the voltage division rule as:
\({{V}_{o}}\left( jω \right)=V_i(jω)× \frac{R}{\frac{{1}}{jω C}+R}\)
\({{V}_{o}}\left( jω \right)=V_i(jω )× \frac{Rjω}{1+Rjω}\)
\(\frac{V_0}{V_1}=\frac{Rjω}{1 \ + \ Rjω}\)
Putting s = jω
\(\frac{V_0}{V_1}=\frac{Rs}{1 \ + \ Rs}\)
Taking phase shift of above equation:
∠ϕ = 90° - tan-1(Rs) ---(1)
A single high pass RC circuit provides a phase shift of less than 90° at a non-zero frequency.
For maximum theoretical phase shift put R = 0 in the equation (1):
∠ϕ = 90°
Hence for three RC high pass networks connected in cascade, the total phase shift would be:
∠ϕ = 90° × 3 = 270°
Last updated on May 8, 2025
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