Frequency Response and Bode Plot of an RC circuit

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1 month ago

In this electrical engineering tutorial we explain how to derive a frequency response and a Bode plot of an RC (resistor-capacitor) circuit. As it will be explained in this tutorial, the RC circuit constitutes a low-pass filter. The YouTube tutorial is given below.

Consider the RC circuit shown below. The circuit consists of the resistor with the resistance of , voltage source, and the capacitor with the capacitance of . The input and output voltages are denoted by and .

We first need to derive a transfer function of this circuit from the input to the output voltages. To derive the transfer function, we use the impedance approach. We transform the circuit shown above in the complex domain. The resistor and capacitor are replaced by the corresponding impedances, and the voltages are replaced by the Laplace transforms of voltages. The transformed circuit is shown below.

In the figure above, the impedance is the impedance of the resistor. This impedance is given by

(1)

The impedance is the impedance of the capacitor. This impedance is given by

(2)

The Laplace transform of is denoted by . The Laplace transform of is denoted by .

By using the Ohm’s law in the complex Laplace domain, we obtain

(3)

where for notation simplicity, we drop out the dependence of variables on . From the last equation, we have

(4)

From the last equation, we obtain

(5)

By substituting the impedances in the last equation, we obtain

(6)

Frequency Response Derivation

Let us denote the transfer function by

(7)

The frequency response consists of the magnitude and phase response. By substituting in (7), where is the angular frequency and is the imaginary unit, we have