32.7:

RLC Series Circuits: Impedance

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RLC Series Circuits: Impedance

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April 30, 2023

When current flow is opposed in a DC or AC circuit, it is referred to as resistance or impedance, respectively. Impedance plays a key role in determining the performance of AC circuits. It is represented by Z, which is a combination of resistance and reactance, and depends upon the angular frequency, measured in ohms.

Thus, the magnitude of the impedance is given by the following equation,

Equation1

and the phase angle is given by the following equation.

Equation2

If the inductive reactance in an RLC circuit is greater than the capacitive reactance, the phase angle will point in a positive direction. If it is reversed, the circuit's phase angle will be negative.

An RLC circuit is analogous to the wheel of a car driven over a corrugated road. The regularly spaced bumps in the road drive the wheel up and down; in the same way, a voltage source increases and decreases. The shock absorber of the car acts like the resistance of the RLC circuit, damping and limiting the amplitude of the oscillation. Energy within the wheel system goes back and forth between kinetic and potential energy stored in the car spring, analogous to the shift between a maximum current, with energy stored in an inductor, and no current, with energy stored in the electric field of a capacitor. The amplitude of the wheel’s motion is at a maximum if the bumps in the road are hit at the resonant frequency.

The concept of impedance has several applications, such as bioelectrical impedance analysis (BIA), transmission lines, and electronic filters. In BIA, the impedance of the human body is measured to estimate how much fat muscle the body stores. The measured impedance is low if the body has more water, which indicates that the body has more muscles because water is mostly stored in the muscles in the human body. In contrast, a high measured impedance suggests more fat in the body.