Threshold Voltage when MOSFET Acts as Amplifier Solution

STEP 0: Pre-Calculation Summary
Formula Used
Threshold Voltage = Gate-Source Voltage-Effective Voltage
Vth = Vgs-Veff
This formula uses 3 Variables
Variables Used
Threshold Voltage - (Measured in Volt) - Threshold voltage, also known as the gate threshold voltage or simply Vth, is a critical parameter in the operation of field-effect transistors, which are fundamental components in modern electronics.
Gate-Source Voltage - (Measured in Volt) - Gate-source voltage is a critical parameter that affects the operation of an FET, and it is often used to control the device's behavior.
Effective Voltage - (Measured in Volt) - The effective voltage in a MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) is the voltage that determines the behavior of the device. It is also known as the gate-source voltage.
STEP 1: Convert Input(s) to Base Unit
Gate-Source Voltage: 4 Volt --> 4 Volt No Conversion Required
Effective Voltage: 1.7 Volt --> 1.7 Volt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Vth = Vgs-Veff --> 4-1.7
Evaluating ... ...
Vth = 2.3
STEP 3: Convert Result to Output's Unit
2.3 Volt --> No Conversion Required
FINAL ANSWER
2.3 Volt <-- Threshold Voltage
(Calculation completed in 00.004 seconds)

Credits

Created by Payal Priya
Birsa Institute of Technology (BIT), Sindri
Payal Priya has created this Calculator and 600+ more calculators!
Verified by Prahalad Singh
Jaipur Engineering College and Research Centre (JECRC), Jaipur
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20 Voltage Calculators

Conductance of Channel of MOSFET using Gate to Source Voltage
Go Conductance of Channel = Mobility of Electrons at Surface of Channel*Oxide Capacitance*Channel Width/Channel Length*(Gate-Source Voltage-Threshold Voltage)
Common Gate Output Voltage
Go Output Voltage = -(Transconductance*Critical Voltage)*((Load Resistance*Gate Resistance)/(Gate Resistance+Load Resistance))
Output Voltage at Drain Q1 of MOSFET given Common-Mode Signal
Go Drain Voltage Q1 = -Output Resistance*(Transconductance*Common Mode Input Signal)/(1+(2*Transconductance*Output Resistance))
Voltage across Gate and Source of MOSFET on Operation with Differential Input Voltage
Go Gate-Source Voltage = Threshold Voltage+sqrt((2*DC Bias Current)/(Process Transconductance Parameter*Aspect Ratio))
Source Input Voltage
Go Source Input Voltage = Input Voltage*(Input Amplifier Resistance/(Input Amplifier Resistance+Equivalent Source Resistance))
Input Gate-to-Source Voltage
Go Critical Voltage = (Input Amplifier Resistance/(Input Amplifier Resistance+Equivalent Source Resistance)) *Input Voltage
Output Voltage at Drain Q2 of MOSFET given Common-Mode Signal
Go Drain Voltage Q2 = -(Output Resistance/((1/Transconductance)+2*Output Resistance))*Common Mode Input Signal
Voltage across Gate and Source of MOSFET given Input Current
Go Gate-Source Voltage = Input Current/(Angular Frequency*(Source Gate Capacitance+Gate-Drain Capacitance))
Positive Voltage given Device Parameter in MOSFET
Go Input Current = Gate-Source Voltage*(Angular Frequency*(Source Gate Capacitance+Gate-Drain Capacitance))
Overdrive Voltage when MOSFET Acts as Amplifier with Load Resistance
Go Transconductance = Total Current/(Common Mode Input Signal-(2*Total Current*Output Resistance))
Incremental Voltage Signal of Differential Amplifier
Go Common Mode Input Signal = (Total Current/Transconductance)+(2*Total Current*Output Resistance)
Voltage at Drain Q1 of MOSFET
Go Output Voltage = -(Total Load Resistance of MOSFET/(2*Output Resistance))*Common Mode Input Signal
Voltage at Drain Q2 in MOSFET
Go Output Voltage = -(Total Load Resistance of MOSFET/(2*Output Resistance))*Common Mode Input Signal
Saturation Voltage of MOSFET
Go Drain and Source Saturation Voltage = Gate-Source Voltage-Threshold Voltage
Voltage across Gate to Source of MOSFET on Differential Input Voltage given Overdrive Voltage
Go Gate-Source Voltage = Threshold Voltage+1.4*Effective Voltage
Threshold Voltage when MOSFET Acts as Amplifier
Go Threshold Voltage = Gate-Source Voltage-Effective Voltage
Treshold Voltage of MOSFET
Go Threshold Voltage = Gate-Source Voltage-Effective Voltage
Overdrive Voltage
Go Overdrive Voltage = (2*Drain Current)/Transconductance
Output Voltage at Drain Q1 of MOSFET
Go Drain Voltage Q1 = -(Output Resistance*Total Current)
Output Voltage at Drain Q2 of MOSFET
Go Drain Voltage Q2 = -(Output Resistance*Total Current)

Threshold Voltage when MOSFET Acts as Amplifier Formula

Threshold Voltage = Gate-Source Voltage-Effective Voltage
Vth = Vgs-Veff

How MOSFET acts as an amplifier?

A small change in gate voltage produces a large change in drain current as in JFET. This fact makes MOSFET capable of raising the strength of a weak signal; thus acting as an amplifier. During the positive half-cycle of the signal, the positive voltage on the gate increases and produces the enhancement-mode.

How to Calculate Threshold Voltage when MOSFET Acts as Amplifier?

Threshold Voltage when MOSFET Acts as Amplifier calculator uses Threshold Voltage = Gate-Source Voltage-Effective Voltage to calculate the Threshold Voltage, The threshold voltage when MOSFET Acts as Amplifier is the gate-source voltage at which the MOSFET starts conducting and allows current to flow through its channel.It determines the input voltage level required to achieve the desired output current and voltage swing. Threshold Voltage is denoted by Vth symbol.

How to calculate Threshold Voltage when MOSFET Acts as Amplifier using this online calculator? To use this online calculator for Threshold Voltage when MOSFET Acts as Amplifier, enter Gate-Source Voltage (Vgs) & Effective Voltage (Veff) and hit the calculate button. Here is how the Threshold Voltage when MOSFET Acts as Amplifier calculation can be explained with given input values -> 2.3 = 4-1.7.

FAQ

What is Threshold Voltage when MOSFET Acts as Amplifier?
The threshold voltage when MOSFET Acts as Amplifier is the gate-source voltage at which the MOSFET starts conducting and allows current to flow through its channel.It determines the input voltage level required to achieve the desired output current and voltage swing and is represented as Vth = Vgs-Veff or Threshold Voltage = Gate-Source Voltage-Effective Voltage. Gate-source voltage is a critical parameter that affects the operation of an FET, and it is often used to control the device's behavior & The effective voltage in a MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) is the voltage that determines the behavior of the device. It is also known as the gate-source voltage.
How to calculate Threshold Voltage when MOSFET Acts as Amplifier?
The threshold voltage when MOSFET Acts as Amplifier is the gate-source voltage at which the MOSFET starts conducting and allows current to flow through its channel.It determines the input voltage level required to achieve the desired output current and voltage swing is calculated using Threshold Voltage = Gate-Source Voltage-Effective Voltage. To calculate Threshold Voltage when MOSFET Acts as Amplifier, you need Gate-Source Voltage (Vgs) & Effective Voltage (Veff). With our tool, you need to enter the respective value for Gate-Source Voltage & Effective Voltage 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 Threshold Voltage?
In this formula, Threshold Voltage uses Gate-Source Voltage & Effective Voltage. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Threshold Voltage = Gate-Source Voltage-Effective Voltage
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