Difference between Series Resonance and Parallel Resonance
The difference between series resonance and parallel resonance can be understood from the table given below:
Basis of difference | Series Resonance | Parallel Resonance |
|---|---|---|
Definition | Series resonance occurs when a series circuit with a resistor, inductor, and capacitor cancels out the inductive and capacitive effects at a particular frequency. | Parallel resonance happens when a parallel circuit with the same components cancels out their effects at a specific supply frequency. |
Impedance | At series resonance, the impedance of the series LCR circuit reaches its minimum value. | At parallel resonance, the impedance of the parallel LCR circuit reaches its maximum value. |
Admittance | The series LCR circuit offers maximum admittance at series resonance. | The admittance of the parallel LCR circuit is at its minimum at parallel resonance. |
Current | Series resonance results in maximum current flow through the circuit. | Parallel resonance leads to minimum current flow in the circuit. |
Circuit Behaviour | At series resonance, the series LCR circuit behaves like an acceptor circuit. | At parallel resonance, the parallel LCR circuit behaves like a rejector circuit. |
Magnification | Series resonance magnifies the voltage in the circuit. | Parallel resonance magnifies the current in the circuit. |
Reactance | The reactances of the inductor and capacitor balance each other out, leading to a purely resistive behavior. | The reactances of the inductor and capacitor combine to create maximum opposition to current flow. |
Frequency Response | Series resonance has a narrow band of frequencies where resonance occurs, making it useful for tuning specific frequencies. | Parallel resonance has a wider band of frequencies where resonance occurs, suitable for broader applications like filter circuits and antennas. |
Voltage | Voltage across the circuit is at its maximum at resonance which leads to a surge in voltage. | Maximum current flows through the circuit at resonance which results in a surge in current. |
Quality Factor | For series resonance, the quality factor is given by: Q = ω₀L/R | For parallel resonance, the quality factor is given by: Q = R/ω₀L |
Application | Its applications include tuning, oscillator circuits, voltage amplifiers, and high-frequency filters. | Its application include current amplifiers, induction heating, filters, and radio-frequency amplifiers. |
Difference between Series Resonance and Parallel Resonance
Series resonance and parallel resonance are two phenomena that occur in electrical circuits containing inductors, capacitors, and resistors. They represent different ways in which circuits respond to an alternating current (AC) signal at a specific frequency.
In this article, we will understand the difference between Series resonance and parallel resonance in detail.
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