Effective Inductance in Hartley Oscillator Solution

STEP 0: Pre-Calculation Summary
Formula Used
Effective Inductance of Hartley Oscillator = Inductance 1 of Hartley Oscillator+Inductance 2 of Hartley Oscillator
Leff(hartley) = L1+L2
This formula uses 3 Variables
Variables Used
Effective Inductance of Hartley Oscillator - (Measured in Henry) - Effective Inductance of Hartley Oscillator is equivalent inductance value that represents the combined effect of multiple inductors in a circuit.
Inductance 1 of Hartley Oscillator - (Measured in Henry) - Inductance 1 of Hartley Oscillator the value of inductor 1 connected in series with inductor 2 to form tuned LC tank circuit.
Inductance 2 of Hartley Oscillator - (Measured in Henry) - Inductance 2 of Hartley Oscillator the value of inductor 2 connected in series with inductor 1 to form tuned LC tank circuit.
STEP 1: Convert Input(s) to Base Unit
Inductance 1 of Hartley Oscillator: 10 Henry --> 10 Henry No Conversion Required
Inductance 2 of Hartley Oscillator: 20 Henry --> 20 Henry No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Leff(hartley) = L1+L2 --> 10+20
Evaluating ... ...
Leff(hartley) = 30
STEP 3: Convert Result to Output's Unit
30 Henry --> No Conversion Required
FINAL ANSWER
30 Henry <-- Effective Inductance of Hartley Oscillator
(Calculation completed in 00.004 seconds)

Credits

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Vellore Institute of Technology (VIT), Vellore
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8 Radio Frequency Range Calculators

Low Pulse Width Time in Schmitt Trigger Oscillator
Go Low Pulse Width Time of Schmitt Oscillator = Resistance of Schmitt Oscillator*Capacitance of Schmitt Oscillator*ln(Rising Voltage of Schmitt Oscillator/Falling Voltage of Schmitt Oscillator)
Effective Capacitance in Colpitts Oscillator
Go Effective Capacitance of Colpitts Oscillator = (Capacitance 1 of Colpitts Oscillator*Capacitance 2 of Colpitts Oscillator)/(Capacitance 1 of Colpitts Oscillator+Capacitance 2 of Colpitts Oscillator)
Frequency of Oscillation in Colpitts Oscillator
Go Frequency of Colpitts Oscillator = 1/(2*pi*sqrt(Effective Inductance of Colpitts Oscillator*Effective Capacitance of Colpitts Oscillator))
Frequency of Oscillation in Hartley Oscillator
Go Frequency of Hartley Oscillator = 1/(2*pi*sqrt(Effective Inductance of Hartley Oscillator*Capacitance of Hartley Oscillator))
Frequency of Oscillation in Schmitt Trigger Oscillator
Go Frequency of Schmitt Oscillator = Hysteresis Constant of Schmitt Oscillator/(Resistance of Schmitt Oscillator*Capacitance of Schmitt Oscillator)
Schmitt Trigger Oscillator Hysteresis Constant
Go Hysteresis Constant of Schmitt Oscillator = 0.5/(ln(Rising Voltage of Schmitt Oscillator/Falling Voltage of Schmitt Oscillator))
Effective Inductance in Hartley Oscillator
Go Effective Inductance of Hartley Oscillator = Inductance 1 of Hartley Oscillator+Inductance 2 of Hartley Oscillator
Voltage Gain of Op-Amp in Hartley Oscillator
Go Voltage Gain of Hartley Oscillator = Inductance 1 of Hartley Oscillator/Inductance 2 of Hartley Oscillator

Effective Inductance in Hartley Oscillator Formula

Effective Inductance of Hartley Oscillator = Inductance 1 of Hartley Oscillator+Inductance 2 of Hartley Oscillator
Leff(hartley) = L1+L2

What Principle is used in the working of Hartley Oscillator?

The Hartley oscillator uses the principle of using a frequency multiplier circuit to generate high frequencies from a low-frequency input. The circuit comprises a tank circuit with a capacitor and inductor, and a voltage-controlled oscillator that generates a high-frequency output from the input frequency. This principle allows the Hartley oscillator to produce a wide range of frequencies with high accuracy and stability.

How to Calculate Effective Inductance in Hartley Oscillator?

Effective Inductance in Hartley Oscillator calculator uses Effective Inductance of Hartley Oscillator = Inductance 1 of Hartley Oscillator+Inductance 2 of Hartley Oscillator to calculate the Effective Inductance of Hartley Oscillator, Effective Inductance in Hartley Oscillator refers to the equivalent inductance seen by the oscillator circuit due to the configuration of the inductor and capacitors in the feedback network. Effective Inductance of Hartley Oscillator is denoted by Leff(hartley) symbol.

How to calculate Effective Inductance in Hartley Oscillator using this online calculator? To use this online calculator for Effective Inductance in Hartley Oscillator, enter Inductance 1 of Hartley Oscillator (L1) & Inductance 2 of Hartley Oscillator (L2) and hit the calculate button. Here is how the Effective Inductance in Hartley Oscillator calculation can be explained with given input values -> 30 = 10+20.

FAQ

What is Effective Inductance in Hartley Oscillator?
Effective Inductance in Hartley Oscillator refers to the equivalent inductance seen by the oscillator circuit due to the configuration of the inductor and capacitors in the feedback network and is represented as Leff(hartley) = L1+L2 or Effective Inductance of Hartley Oscillator = Inductance 1 of Hartley Oscillator+Inductance 2 of Hartley Oscillator. Inductance 1 of Hartley Oscillator the value of inductor 1 connected in series with inductor 2 to form tuned LC tank circuit & Inductance 2 of Hartley Oscillator the value of inductor 2 connected in series with inductor 1 to form tuned LC tank circuit.
How to calculate Effective Inductance in Hartley Oscillator?
Effective Inductance in Hartley Oscillator refers to the equivalent inductance seen by the oscillator circuit due to the configuration of the inductor and capacitors in the feedback network is calculated using Effective Inductance of Hartley Oscillator = Inductance 1 of Hartley Oscillator+Inductance 2 of Hartley Oscillator. To calculate Effective Inductance in Hartley Oscillator, you need Inductance 1 of Hartley Oscillator (L1) & Inductance 2 of Hartley Oscillator (L2). With our tool, you need to enter the respective value for Inductance 1 of Hartley Oscillator & Inductance 2 of Hartley Oscillator and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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