Single Component of Drain Voltage given Transconductance Calculator

✖Transconductance is the ratio of the change in current at the output terminal to the change in the voltage at the input terminal of an active device.ⓘ Transconductance [G_m]			+10% -10%
✖Input voltage is the voltage supplied to the device.ⓘ Input Voltage [V_in]			+10% -10%
✖Load Resistance is the external resistance or impedance that is connected to the output of a circuit or device, and it is used to extract power or signal from the circuit.ⓘ Load Resistance [R_L]			+10% -10%

✖Total Instantaneous Drain Voltage is the voltage that falls across the gate-source terminal of the transistor.ⓘ Single Component of Drain Voltage given Transconductance [V_DS]

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Single Component of Drain Voltage given Transconductance

Formula

`"V"_{"DS"} = -"G"_{"m"}*"V"_{"in"}*"R"_{"L"}`

Example

`"-17.2V"=-"1.72mS"*"2.50V"*"4kΩ"`

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Single Component of Drain Voltage given Transconductance Solution

STEP 0: Pre-Calculation Summary

Formula Used

Total Instantaneous Drain Voltage = -Transconductance*Input Voltage*Load Resistance
V_DS = -G_m*V_in*R_L
This formula uses 4 Variables

Variables Used

Total Instantaneous Drain Voltage - (Measured in Volt) - Total Instantaneous Drain Voltage is the voltage that falls across the gate-source terminal of the transistor.
Transconductance - (Measured in Siemens) - Transconductance is the ratio of the change in current at the output terminal to the change in the voltage at the input terminal of an active device.
Input Voltage - (Measured in Volt) - Input voltage is the voltage supplied to the device.
Load Resistance - (Measured in Ohm) - Load Resistance is the external resistance or impedance that is connected to the output of a circuit or device, and it is used to extract power or signal from the circuit.

STEP 1: Convert Input(s) to Base Unit

Transconductance: 1.72 Millisiemens --> 0.00172 Siemens (Check conversion here)
Input Voltage: 2.5 Volt --> 2.5 Volt No Conversion Required
Load Resistance: 4 Kilohm --> 4000 Ohm (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_DS = -G_m*V_in*R_L --> -0.00172*2.5*4000

Evaluating ... ...

V_DS = -17.2

STEP 3: Convert Result to Output's Unit

-17.2 Volt --> No Conversion Required

FINAL ANSWER

-17.2 Volt <-- Total Instantaneous Drain Voltage

(Calculation completed in 00.020 seconds)

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Created by Payal Priya

Birsa Institute of Technology (BIT), Sindri

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Jaipur Engineering College and Research Centre (JECRC), Jaipur

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< 12 Voltage Calculators

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Go Input Voltage = Base Current/((1/Input Resistance)+Complex Frequency Variable*(Collector-Base Junction Capacitance+Base–Emitter Junction Capacitance))

Voltage across Collector-Emitter of BJT Amplifier

Go Collector-Emitter Voltage = Supply Voltage-Load Resistance*Saturation Current*e^(Base-Emitter Voltage/Threshold Voltage)

Finite Input Voltage of BJT at Unity Gain Frequency

Go Input Voltage = Base Current*(1/Input Resistance+1/Collector-Base Junction Capacitance+1/Emitter-Base Capacitance)

Single Component of Drain Voltage given Transconductance

Go Total Instantaneous Drain Voltage = -Transconductance*Input Voltage*Load Resistance

Voltage between Gate and Source

Go Gate to Source Voltage = Input Voltage/(1+Transconductance*Resistance)

Output Voltage given Transconductance

Go Output Voltage = -(Transconductance*Load Resistance*Input Voltage)

Small Signal Input Voltage given Transconductance

Go Small Signal = Input Voltage*(1/(1+Transconductance*Resistance))

Output Voltage of BJT Amplifier

Go Output Voltage = Supply Voltage-Drain Current*Load Resistance

Single Component of Drain Voltage

Go Total Instantaneous Drain Voltage = (-Change in Drain Current*Load Resistance)

Collector to Emitter Voltage at Saturation

Go Collector-Emitter Voltage = Base-Emitter Voltage-Base-Collector Voltage

Total Instantaneous Gate-to-Source Voltage

Go Gate to Source Voltage = Small Signal+Voltage Across Oxide

Supply Voltage at Maximum Power Dissipation

Go Supply Voltage = (pi*Power)/2

Single Component of Drain Voltage given Transconductance Formula

Total Instantaneous Drain Voltage = -Transconductance*Input Voltage*Load Resistance
V_DS = -G_m*V_in*R_L

What is drain source?

The drain-source is the source through which the carriers enter the channel. Conventionally, current entering the channel at S is designated by I_s. drain (D), through which the carriers leave the channel. Conventionally, the current entering the channel at D is designated by I_D. Drain-to-source voltage is V_DS.

How to Calculate Single Component of Drain Voltage given Transconductance?

Single Component of Drain Voltage given Transconductance calculator uses Total Instantaneous Drain Voltage = -Transconductance*Input Voltage*Load Resistance to calculate the Total Instantaneous Drain Voltage, The Single component of drain voltage given transconductance is the voltage supported by the n− drift region and the p-base region with a triangular electric field distribution. Total Instantaneous Drain Voltage is denoted by V_DS symbol.

How to calculate Single Component of Drain Voltage given Transconductance using this online calculator? To use this online calculator for Single Component of Drain Voltage given Transconductance, enter Transconductance (G_m), Input Voltage (V_in) & Load Resistance (R_L) and hit the calculate button. Here is how the Single Component of Drain Voltage given Transconductance calculation can be explained with given input values -> -17.2 = -0.00172*2.5*4000.

FAQ

What is Single Component of Drain Voltage given Transconductance?

The Single component of drain voltage given transconductance is the voltage supported by the n− drift region and the p-base region with a triangular electric field distribution and is represented as V_DS = -G_m*V_in*R_L or Total Instantaneous Drain Voltage = -Transconductance*Input Voltage*Load Resistance. Transconductance is the ratio of the change in current at the output terminal to the change in the voltage at the input terminal of an active device, Input voltage is the voltage supplied to the device & Load Resistance is the external resistance or impedance that is connected to the output of a circuit or device, and it is used to extract power or signal from the circuit.

How to calculate Single Component of Drain Voltage given Transconductance?

The Single component of drain voltage given transconductance is the voltage supported by the n− drift region and the p-base region with a triangular electric field distribution is calculated using Total Instantaneous Drain Voltage = -Transconductance*Input Voltage*Load Resistance. To calculate Single Component of Drain Voltage given Transconductance, you need Transconductance (G_m), Input Voltage (V_in) & Load Resistance (R_L). With our tool, you need to enter the respective value for Transconductance, Input Voltage & Load 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 Total Instantaneous Drain Voltage?

In this formula, Total Instantaneous Drain Voltage uses Transconductance, Input Voltage & Load Resistance. We can use 1 other way(s) to calculate the same, which is/are as follows -

Total Instantaneous Drain Voltage = (-Change in Drain Current*Load Resistance)

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