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How do you calculate the resonant frequency for the given frequncy range?
To calculate the resonant frequency within a given range, you would typically determine the resonant frequency by finding the frequency at which the impedance is at its minimum, or by solving the resonance equation for the specific components in your circuit or system. This can involve using formulas or simulation tools to analyze the behavior of the circuit at different frequencies within the specified range.
What is meant by tank circuit in hartley oscillator?
it is the circuit that is responsible for producing oscillation.In hartley it is two inductors connected in series and a capacitor parallel to this series connection.Without tank oscillator tends to act as as an amplifier.
How do you determine the frequency of a capacitor?
A capacitor alone doesn't have a frequency. The combinationof a capacitor and an inductor (coil) has.-- Read the value of capacitance printed on the capacitor, or measure it. Call it ' C '.-- Read the value of inductance printed on the coil, or measure it. Call it ' L '.The resonant frequency of the combination of those two components isF = 1 / (2 pi) sqrt(L C)
What are the characteristics of a circuit with a capacitor and inductor in parallel?
A circuit with a capacitor and inductor in parallel has the characteristics of resonating at a specific frequency, allowing for energy storage and exchange between the two components. This type of circuit can exhibit high impedance at the resonant frequency, leading to unique filtering and tuning capabilities.
What is the significance of the current in an LC circuit and how does it affect the overall behavior of the circuit?
The current in an LC circuit is significant because it creates oscillations between the inductor and capacitor, leading to the circuit's resonant frequency. This current affects the overall behavior by determining the rate at which energy is exchanged between the inductor and capacitor, influencing the amplitude and frequency of the oscillations in the circuit.
How do you calculate the resonant frequency for the given frequncy range?
To calculate the resonant frequency within a given range, you would typically determine the resonant frequency by finding the frequency at which the impedance is at its minimum, or by solving the resonance equation for the specific components in your circuit or system. This can involve using formulas or simulation tools to analyze the behavior of the circuit at different frequencies within the specified range.
What happens in a circuit at resonant frequency?
what is resonant frequency
At a frequency below the resonant frequency parallel circuit is?
A parallel resonant circuit has low impedance, when non resonant; however the impedance rises sharply, as the circuit comes to resonance.
Why a parallel resonant circuit is called as rejecter circuit?
As a parallel resonance circuit only functions on resonant frequency, this type of circuit is also known as an Rejecter Circuit because at resonance, the impedance of the circuit is at its maximum thereby suppressing or rejecting the current whose frequency is equal to its resonant frequency.
How do you decrease resonant frequency of a series-tuned circuit?
To decrease the resonant frequency of any tuned circuit, increase the inductance and/or increase the capacitance.
Does resonant frequency of RLC series circuit depends on Resistance?
No, the resonant frequency of a RLC series circuit is only dependant on L and C. R will be the impedance of the circuit at resonance.
What do you mean by resonant in power electronics?
Resonant in electronics circuit refer to tuning if the resonant condition arise it means the frequency where does the resonant arise is resonant frequency and the gain is highest on that particular frequency. it is widely used in receiver circuits.
Why does the resistance in a series resonant circuit have no bearing on the resonant frequency?
Series resonance occurs when a circuit's inductive reactance is equal to its capacitive reactance. The resistance of the circuit is irrelevant.WebRep currentVote noRating noWeight
Condition of resonance in RLC circuit?
XL=Xc is the resonance condition for an RLC circuit
What does a resonators do in a electric circuit?
A resonator is a circuit that responds to a narrow range of frequencies. A typical resonator is a tuned circuit containing an inductor and a capacitor in series or parallel. A series connected tuned circuit has zero impedance at the resonant frequency, while a parallel tuned circuit has infinite impedance at the resonant frequency. The resonant frequency in both cases depends on the inductance times the capacitance: F = 1 / (2.pi.sqrt(LC)) If the inductance is in Henrys and the capacitance in Farads, the answer is in Hz.
Can a series resonant circuit oscillate as a parallel resonant circuit does?
yes
Series resonance circuit is also known as acceptor circuit why?
Because the series resonant circuit has the lowest possible impedance at resonance frequency, thus allowing the AC current to circulate through it. At resonance frequency, XC=XL and XL-XC = 0. Therefore, the only electrical characteristic left in the circuit to oppose current is the internal resistance of the two components. Hence, at resonance frequency, Z = R. Note: This effect is probably better seen with vectors. Clarification: Resonant circuits come in two flavors, series and parallel. Series resonant circuits do have an impedance equal to zero at the resonant frequency. This characteristic makes series resonant circuits especially well suited to be used as basic pass-band filters (acceptors). However, parallel circuits present their maximum impedance at the resonant frequency, which makes them ideal for tuning purposes.
