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Output voltage in terms of the transconductance Solution

STEP 0: Pre-Calculation Summary
Formula Used
output_voltage = -(MOSFET Transconductance*Load Resistance*Finite input voltage)
Vo = -(gm*Rc*vπ)
This formula uses 3 Variables
Variables Used
MOSFET Transconductance - MOSFET Transconductance is the change in the drain current divided by the small change in the gate/source voltage with a constant drain/source voltage. (Measured in Microsiemens)
Load Resistance - Load resistance is the cumulative resistance of a circuit, as seen by the voltage, current, or power source driving that circuit. (Measured in Ohm)
Finite input voltage - Finite input voltage is a finite voltage supplied to the circuit, the finite input voltage is a supply voltage in the system. (Measured in Volt)
STEP 1: Convert Input(s) to Base Unit
MOSFET Transconductance: 0.25 Microsiemens --> 2.5E-07 Siemens (Check conversion here)
Load Resistance: 950 Ohm --> 950 Ohm No Conversion Required
Finite input voltage: 12 Volt --> 12 Volt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Vo = -(gm*Rc*vπ) --> -(2.5E-07*950*12)
Evaluating ... ...
Vo = -0.00285
STEP 3: Convert Result to Output's Unit
-0.00285 Volt --> No Conversion Required
FINAL ANSWER
-0.00285 Volt <-- Output voltage
(Calculation completed in 00.015 seconds)

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overall_voltage_gain = Common-base current gain.*(1/Total resistance in the emitter+1/Load resistance)/(Signal Resistance+Emitter Resistance) Go
Overall voltage gain of the amplifier
overall_voltage_gain = (1/Load resistance of MOSFET+1/Load resistance)/(Signal Resistance+1/MOSFET transconductance parameter) Go
Overall voltage gain of the source follower
overall_voltage_gain = Load resistance/(Load resistance+1/MOSFET Transconductance) Go
Output voltage in terms of the transconductance
output_voltage = -(MOSFET Transconductance*Load Resistance*Finite input voltage) Go
Voltage gain of the buffer amplifier
voltage_gain_amplifier = Load resistance/(Load resistance+Emitter Resistance) Go
Voltage gain of the common-drain amplifier
voltage_gain = Input resistance/(Load resistance+1/MOSFET Transconductance) Go
Voltage gain of the CS amplifier
voltage_gain_amplifier = MOSFET Transconductance*Load resistance of MOSFET Go
Input resistance of the common-collector amplifier
resistance_input = Input voltage/Signal current in the base Go
Output resistance of the common-drain amplifier
resistance_output = 1/MOSFET Transconductance Go
Input resistance of the MOSFETs transconductance
resistance_input = 1/MOSFET Transconductance Go

Output voltage in terms of the transconductance Formula

output_voltage = -(MOSFET Transconductance*Load Resistance*Finite input voltage)
Vo = -(gm*Rc*vπ)

How a junction transistor works?

Now suppose we use three layers of silicon in our sandwich instead of two. We can either make a p-n-p sandwich (with a slice of n-type silicon as the filling between two slices of p-type) or an n-p-n sandwich (with the p-type in between the two slabs of n-type). If we join electrical contacts to all three layers of the sandwich, we can make a component that will either amplify a current or switch it on or off—in other words, a transistor.

How to Calculate Output voltage in terms of the transconductance?

Output voltage in terms of the transconductance calculator uses output_voltage = -(MOSFET Transconductance*Load Resistance*Finite input voltage) to calculate the Output voltage, The output voltage in terms of the transconductance formula is defined as the product of the MOSFET transconductance, the load resistance of BJT, and the finite input voltage. Output voltage and is denoted by Vo symbol.

How to calculate Output voltage in terms of the transconductance using this online calculator? To use this online calculator for Output voltage in terms of the transconductance, enter MOSFET Transconductance (gm), Load Resistance (Rc) and Finite input voltage (vπ) and hit the calculate button. Here is how the Output voltage in terms of the transconductance calculation can be explained with given input values -> -0.00285 = -(2.5E-07*950*12).

FAQ

What is Output voltage in terms of the transconductance?
The output voltage in terms of the transconductance formula is defined as the product of the MOSFET transconductance, the load resistance of BJT, and the finite input voltage and is represented as Vo = -(gm*Rc*vπ) or output_voltage = -(MOSFET Transconductance*Load Resistance*Finite input voltage). MOSFET Transconductance is the change in the drain current divided by the small change in the gate/source voltage with a constant drain/source voltage, Load resistance is the cumulative resistance of a circuit, as seen by the voltage, current, or power source driving that circuit and Finite input voltage is a finite voltage supplied to the circuit, the finite input voltage is a supply voltage in the system.
How to calculate Output voltage in terms of the transconductance?
The output voltage in terms of the transconductance formula is defined as the product of the MOSFET transconductance, the load resistance of BJT, and the finite input voltage is calculated using output_voltage = -(MOSFET Transconductance*Load Resistance*Finite input voltage). To calculate Output voltage in terms of the transconductance, you need MOSFET Transconductance (gm), Load Resistance (Rc) and Finite input voltage (vπ). With our tool, you need to enter the respective value for MOSFET Transconductance, Load Resistance and Finite input 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 Output voltage?
In this formula, Output voltage uses MOSFET Transconductance, Load Resistance and Finite input voltage. We can use 10 other way(s) to calculate the same, which is/are as follows -
  • resistance_input = 1/MOSFET Transconductance
  • voltage_gain_amplifier = MOSFET Transconductance*Load resistance of MOSFET
  • overall_voltage_gain = (1/Load resistance of MOSFET+1/Load resistance)/(Signal Resistance+1/MOSFET transconductance parameter)
  • overall_voltage_gain = Common-base current gain.*(1/Total resistance in the emitter+1/Load resistance)/(Signal Resistance+Emitter Resistance)
  • output_voltage = -(MOSFET Transconductance*Load Resistance*Finite input voltage)
  • voltage_gain = Input resistance/(Load resistance+1/MOSFET Transconductance)
  • resistance_output = 1/MOSFET Transconductance
  • overall_voltage_gain = Load resistance/(Load resistance+1/MOSFET Transconductance)
  • resistance_input = Input voltage/Signal current in the base
  • voltage_gain_amplifier = Load resistance/(Load resistance+Emitter Resistance)
Where is the Output voltage in terms of the transconductance calculator used?
Among many, Output voltage in terms of the transconductance calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
{FormulaExamplesList}
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