Cut-off Frequency using Maximum Frequency Calculator

✖Maximum Frequency of Oscillations is defined as the practical upper bound for useful circuit operation with MESFET.ⓘ Maximum Frequency of Oscillations [f_m]			+10% -10%
✖Drain Resistance is the ratio of change in drain to source voltage to corresponding change in drain current for a constant gate to source voltage.ⓘ Drain Resistance [R_d]			+10% -10%
✖Source Resistance is a measure of how much this source opposes the load from drawing current from it.ⓘ Source Resistance [R_s]			+10% -10%
✖Gate Metallization Resistance is defined as the resistance of metallization of a FET gate stripe that has effect of placing a non-linear resistance in series with the gate junction.ⓘ Gate Metallization Resistance [R_g]			+10% -10%
✖Input Resistance is defined as the total internal resistance as experienced by MESFET.ⓘ Input Resistance [R_i]			+10% -10%

✖Cut-off Frequency is defined as corner frequency is a boundary in system's frequency response at which energy flowing through system begins to be reduced rather than passing through.ⓘ Cut-off Frequency using Maximum Frequency [f_co]

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Cut-off Frequency using Maximum Frequency Solution

STEP 0: Pre-Calculation Summary

Formula Used

Cut-off Frequency = (2*Maximum Frequency of Oscillations)/(sqrt(Drain Resistance/(Source Resistance+Gate Metallization Resistance+Input Resistance)))
f_co = (2*f_m)/(sqrt(R_d/(R_s+R_g+R_i)))
This formula uses 1 Functions, 6 Variables

Functions Used

sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)

Variables Used

Cut-off Frequency - (Measured in Hertz) - Cut-off Frequency is defined as corner frequency is a boundary in system's frequency response at which energy flowing through system begins to be reduced rather than passing through.
Maximum Frequency of Oscillations - (Measured in Hertz) - Maximum Frequency of Oscillations is defined as the practical upper bound for useful circuit operation with MESFET.
Drain Resistance - (Measured in Ohm) - Drain Resistance is the ratio of change in drain to source voltage to corresponding change in drain current for a constant gate to source voltage.
Source Resistance - (Measured in Ohm) - Source Resistance is a measure of how much this source opposes the load from drawing current from it.
Gate Metallization Resistance - (Measured in Ohm) - Gate Metallization Resistance is defined as the resistance of metallization of a FET gate stripe that has effect of placing a non-linear resistance in series with the gate junction.
Input Resistance - (Measured in Ohm) - Input Resistance is defined as the total internal resistance as experienced by MESFET.

STEP 1: Convert Input(s) to Base Unit

Maximum Frequency of Oscillations: 65 Hertz --> 65 Hertz No Conversion Required
Drain Resistance: 450 Ohm --> 450 Ohm No Conversion Required
Source Resistance: 5.75 Ohm --> 5.75 Ohm No Conversion Required
Gate Metallization Resistance: 2.8 Ohm --> 2.8 Ohm No Conversion Required
Input Resistance: 15.5 Ohm --> 15.5 Ohm No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

f_co = (2*f_m)/(sqrt(R_d/(R_s+R_g+R_i))) --> (2*65)/(sqrt(450/(5.75+2.8+15.5)))

Evaluating ... ...

f_co = 30.0534708662928

STEP 3: Convert Result to Output's Unit

30.0534708662928 Hertz --> No Conversion Required

FINAL ANSWER

30.0534708662928 ≈ 30.05347 Hertz <-- Cut-off Frequency

(Calculation completed in 00.004 seconds)

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< MESFET Characteristics Calculators

Gate Source Capacitance

LaTeX Go Gate Source Capacitance = Transconductance/(2*pi*Cut-off Frequency)

Transconductance in MESFET

LaTeX Go Transconductance = 2*Gate Source Capacitance*pi*Cut-off Frequency

Gate Length of MESFET

LaTeX Go Gate Length = Saturated Drift Velocity/(4*pi*Cut-off Frequency)

Cut-off Frequency

LaTeX Go Cut-off Frequency = Saturated Drift Velocity/(4*pi*Gate Length)

Cut-off Frequency using Maximum Frequency Formula

LaTeX Go

Cut-off Frequency = (2*Maximum Frequency of Oscillations)/(sqrt(Drain Resistance/(Source Resistance+Gate Metallization Resistance+Input Resistance)))
f_co = (2*f_m)/(sqrt(R_d/(R_s+R_g+R_i)))

What is significance of High Frequency response of MESFET?

The maximum frequency of oscillation is a parameter that characterizes The high-frequency performance of the MESFET represents the frequency at which the device's intrinsic feedback capacitances and resistances limit its performance. The output resistance, on the other hand, represents the resistance seen by the MESFET's drain terminal when it is operating as an amplifier.

How to Calculate Cut-off Frequency using Maximum Frequency?

Cut-off Frequency using Maximum Frequency calculator uses Cut-off Frequency = (2*Maximum Frequency of Oscillations)/(sqrt(Drain Resistance/(Source Resistance+Gate Metallization Resistance+Input Resistance))) to calculate the Cut-off Frequency, The Cut-off Frequency using Maximum Frequency formula is defined as the frequency at which the small-signal voltage gain of the device drops to 0.707 or -3 dB of its maximum value. Cut-off Frequency is denoted by f_co symbol.

How to calculate Cut-off Frequency using Maximum Frequency using this online calculator? To use this online calculator for Cut-off Frequency using Maximum Frequency, enter Maximum Frequency of Oscillations (f_m), Drain Resistance (R_d), Source Resistance (R_s), Gate Metallization Resistance (R_g) & Input Resistance (R_i) and hit the calculate button. Here is how the Cut-off Frequency using Maximum Frequency calculation can be explained with given input values -> 30.05347 = (2*65)/(sqrt(450/(5.75+2.8+15.5))).

FAQ

What is Cut-off Frequency using Maximum Frequency?

The Cut-off Frequency using Maximum Frequency formula is defined as the frequency at which the small-signal voltage gain of the device drops to 0.707 or -3 dB of its maximum value and is represented as f_co = (2*f_m)/(sqrt(R_d/(R_s+R_g+R_i))) or Cut-off Frequency = (2*Maximum Frequency of Oscillations)/(sqrt(Drain Resistance/(Source Resistance+Gate Metallization Resistance+Input Resistance))). Maximum Frequency of Oscillations is defined as the practical upper bound for useful circuit operation with MESFET, Drain Resistance is the ratio of change in drain to source voltage to corresponding change in drain current for a constant gate to source voltage, Source Resistance is a measure of how much this source opposes the load from drawing current from it, Gate Metallization Resistance is defined as the resistance of metallization of a FET gate stripe that has effect of placing a non-linear resistance in series with the gate junction & Input Resistance is defined as the total internal resistance as experienced by MESFET.

How to calculate Cut-off Frequency using Maximum Frequency?

The Cut-off Frequency using Maximum Frequency formula is defined as the frequency at which the small-signal voltage gain of the device drops to 0.707 or -3 dB of its maximum value is calculated using Cut-off Frequency = (2*Maximum Frequency of Oscillations)/(sqrt(Drain Resistance/(Source Resistance+Gate Metallization Resistance+Input Resistance))). To calculate Cut-off Frequency using Maximum Frequency, you need Maximum Frequency of Oscillations (f_m), Drain Resistance (R_d), Source Resistance (R_s), Gate Metallization Resistance (R_g) & Input Resistance (R_i). With our tool, you need to enter the respective value for Maximum Frequency of Oscillations, Drain Resistance, Source Resistance, Gate Metallization Resistance & Input Resistance and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Cut-off Frequency?

In this formula, Cut-off Frequency uses Maximum Frequency of Oscillations, Drain Resistance, Source Resistance, Gate Metallization Resistance & Input Resistance. We can use 2 other way(s) to calculate the same, which is/are as follows -

Cut-off Frequency = Saturated Drift Velocity/(4*pi*Gate Length)
Cut-off Frequency = Transconductance/(2*pi*Gate Source Capacitance)

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