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Thermal voltage of Diode equation Solution

STEP 0: Pre-Calculation Summary
Formula Used
voltage = [BoltZ]*Temperature/[Charge-e]
V = [BoltZ]*T/[Charge-e]
This formula uses 3 Constants, 1 Functions, 1 Variables
Constants Used
e - Napier's constant Value Taken As 2.71828182845904523536028747135266249
[Charge-e] - Charge of electron Value Taken As 1.60217662E-19
[BoltZ] - Boltzmann constant Value Taken As 1.38064852E-23
Functions Used
C - Binomial coefficient function, C(n,k)
Variables Used
Temperature - Temperature is the degree or intensity of heat present in a substance or object. (Measured in Kelvin)
STEP 1: Convert Input(s) to Base Unit
Temperature: 85 Kelvin --> 85 Kelvin No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
V = [BoltZ]*T/[Charge-e] --> [BoltZ]*85/[Charge-e]
Evaluating ... ...
V = 0.00732473079029202
STEP 3: Convert Result to Output's Unit
0.00732473079029202 Volt --> No Conversion Required
FINAL ANSWER
0.00732473079029202 Volt <-- Voltage
(Calculation completed in 00.004 seconds)

10+ Basic Electronics Calculators

Conductivity in semiconductors in terms of mobility of electrons and holes
conductivity = Concentration of electrons in the conduction band*[Charge-e]*Mobility of holes+Majority carrier electron concentration*[Charge-e]*Mobility of electron Go
Intrinsic concentration
intrinsic_carrier_concentration = sqrt(Coefficient related to specific semiconductor*(Temperature)^3*e^-(Semiconductor bandgap energy/(2*[BoltZ]*Temperature))) Go
Conductivity of extrinsic semiconductor for p-type
conductivity_of_extrinsic_semiconductors_n_type = Acceptor concentration*[Charge-e]*Mobility of electron Go
Conductivity of extrinsic semiconductors for n-type
conductivity_of_extrinsic_semiconductors_p_type = Donor concentration*[Charge-e]*Mobility of holes Go
Majority carrier concentration in a Semiconductor
majority_carrier_electron_concentration = (Intrinsic carrier concentration)^2/Minority carrier concentration Go
Electron diffusion length in terms of relaxation time
electron_diffusion_length = sqrt(Electron Diffusion Constant*Relaxation time) Go
Conductivity in metals in terms of number of electrons
conductivity = Number of Electrons*Mobility of electron*[Charge-e] Go
Einstein's Equation
voltage_equivalent_of_temperature = Electron Diffusion Constant/Mobility of electron Go
Mobility of a charge carriers
mobility_of_charge_carriers = Drift Velocity/Electric field intensity Go
Thermal Voltage or voltage equivalent of temperature
thermal_voltage = Temperature/11600 Go

Thermal voltage of Diode equation Formula

voltage = [BoltZ]*Temperature/[Charge-e]
V = [BoltZ]*T/[Charge-e]

What is thermal voltage?

The diode equation gives an expression for the current through a diode as a function of voltage. The term kT/q describes the voltage produced within the P-N junction due to the action of temperature and is called the thermal voltage, or Vt of the junction. At room temperature, this is about 26 millivolts. Knowing this, and assuming a “nonideality” coefficient of 1.

How to Calculate Thermal voltage of Diode equation?

Thermal voltage of Diode equation calculator uses voltage = [BoltZ]*Temperature/[Charge-e] to calculate the Voltage, Thermal voltage of Diode equation is the voltage output of a device is called its terminal voltage V and is given by V = kT/q where K is the Boltzmann constant, T is the temperature and q is the charge of the electron. Voltage and is denoted by V symbol.

How to calculate Thermal voltage of Diode equation using this online calculator? To use this online calculator for Thermal voltage of Diode equation, enter Temperature (T) and hit the calculate button. Here is how the Thermal voltage of Diode equation calculation can be explained with given input values -> 0.007325 = [BoltZ]*85/[Charge-e].

FAQ

What is Thermal voltage of Diode equation?
Thermal voltage of Diode equation is the voltage output of a device is called its terminal voltage V and is given by V = kT/q where K is the Boltzmann constant, T is the temperature and q is the charge of the electron and is represented as V = [BoltZ]*T/[Charge-e] or voltage = [BoltZ]*Temperature/[Charge-e]. Temperature is the degree or intensity of heat present in a substance or object.
How to calculate Thermal voltage of Diode equation?
Thermal voltage of Diode equation is the voltage output of a device is called its terminal voltage V and is given by V = kT/q where K is the Boltzmann constant, T is the temperature and q is the charge of the electron is calculated using voltage = [BoltZ]*Temperature/[Charge-e]. To calculate Thermal voltage of Diode equation, you need Temperature (T). With our tool, you need to enter the respective value for Temperature 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 Voltage?
In this formula, Voltage uses Temperature. We can use 10 other way(s) to calculate the same, which is/are as follows -
  • thermal_voltage = Temperature/11600
  • mobility_of_charge_carriers = Drift Velocity/Electric field intensity
  • majority_carrier_electron_concentration = (Intrinsic carrier concentration)^2/Minority carrier concentration
  • intrinsic_carrier_concentration = sqrt(Coefficient related to specific semiconductor*(Temperature)^3*e^-(Semiconductor bandgap energy/(2*[BoltZ]*Temperature)))
  • voltage_equivalent_of_temperature = Electron Diffusion Constant/Mobility of electron
  • electron_diffusion_length = sqrt(Electron Diffusion Constant*Relaxation time)
  • conductivity = Number of Electrons*Mobility of electron*[Charge-e]
  • conductivity = Concentration of electrons in the conduction band*[Charge-e]*Mobility of holes+Majority carrier electron concentration*[Charge-e]*Mobility of electron
  • conductivity_of_extrinsic_semiconductors_p_type = Donor concentration*[Charge-e]*Mobility of holes
  • conductivity_of_extrinsic_semiconductors_n_type = Acceptor concentration*[Charge-e]*Mobility of electron
Where is the Thermal voltage of Diode equation calculator used?
Among many, Thermal voltage of Diode equation calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
{FormulaExamplesList}
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