Impurity Atoms Per Unit Area Solution

STEP 0: Pre-Calculation Summary
Formula Used
Total Impurity = Effective Diffusion*(Emitter Base Junction Area*((Charge*Intrinsic Concentration^2)/Collector Current)*exp(Voltage Base Emitter/Thermal Voltage))
Qb = Dn*(A*((q*ni^2)/Ic)*exp(Vbe/Vt))
This formula uses 1 Functions, 8 Variables
Functions Used
exp - n an exponential function, the value of the function changes by a constant factor for every unit change in the independent variable., exp(Number)
Variables Used
Total Impurity - (Measured in Square Meter) - Total Impurity defines the impurities which is mix at atom per unit area in a base or the amount of impurity added to an intrinsic semiconductor varies its level of conductivity.
Effective Diffusion - The effective diffusion is a parameter related to the diffusion process of carriers and is influenced by material properties and the geometry of the semiconductor junction.
Emitter Base Junction Area - (Measured in Square Meter) - Emitter Base Junction Area is a P-N junction formed between the heavily doped P-type material (emitter) and the lightly doped N-type material (base) of the transistor.
Charge - (Measured in Coulomb) - Charge a characteristic of a unit of matter that expresses the extent to which it has more or fewer electrons than protons.
Intrinsic Concentration - (Measured in 1 per Cubic Meter) - Intrinsic Concentration is the number of electrons in the conduction band or the number of holes in the valence band in intrinsic material.
Collector Current - (Measured in Ampere) - Collector current is the current that flows through the collector terminal of the transistor and is the current that is being amplified by the transistor.
Voltage Base Emitter - (Measured in Volt) - Voltage Base Emitter is the voltage between the base and the emitter when forward biased, with the collector disconnected.
Thermal Voltage - (Measured in Volt) - Thermal Voltage is the voltages created by the junction of dissimilar metals when a temperature difference exists between these junctions.
STEP 1: Convert Input(s) to Base Unit
Effective Diffusion: 0.5 --> No Conversion Required
Emitter Base Junction Area: 1.75 Square Centimeter --> 0.000175 Square Meter (Check conversion ​here)
Charge: 5 Millicoulomb --> 0.005 Coulomb (Check conversion ​here)
Intrinsic Concentration: 1.32 1 per Cubic Centimeter --> 1320000 1 per Cubic Meter (Check conversion ​here)
Collector Current: 4.92 Ampere --> 4.92 Ampere No Conversion Required
Voltage Base Emitter: 3.5 Volt --> 3.5 Volt No Conversion Required
Thermal Voltage: 4.1 Volt --> 4.1 Volt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Qb = Dn*(A*((q*ni^2)/Ic)*exp(Vbe/Vt)) --> 0.5*(0.000175*((0.005*1320000^2)/4.92)*exp(3.5/4.1))
Evaluating ... ...
Qb = 363831.258671893
STEP 3: Convert Result to Output's Unit
363831.258671893 Square Meter -->3638312586.71893 Square Centimeter (Check conversion ​here)
FINAL ANSWER
3638312586.71893 3.6E+9 Square Centimeter <-- Total Impurity
(Calculation completed in 00.004 seconds)

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Created by Rahul Gupta
Chandigarh University (CU), Mohali, Punjab
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Conductivity of N-Type
​ LaTeX ​ Go Ohmic Conductivity = Charge*(Electron Doping Silicon Mobility*Equilibrium Concentration of N-Type+Hole Doping Silicon Mobility*(Intrinsic Concentration^2/Equilibrium Concentration of N-Type))
Ohmic Conductivity of Impurity
​ LaTeX ​ Go Ohmic Conductivity = Charge*(Electron Doping Silicon Mobility*Electron Concentration+Hole Doping Silicon Mobility*Hole Concentration)
Impurity with Intrinsic Concentration
​ LaTeX ​ Go Intrinsic Concentration = sqrt((Electron Concentration*Hole Concentration)/Temperature Impurity)
Breakout Voltage of Collector Emitter
​ LaTeX ​ Go Collector Emitter Breakout Voltage = Collector Base Breakout Voltage/(Current Gain of BJT)^(1/Root Number)

Impurity Atoms Per Unit Area Formula

​LaTeX ​Go
Total Impurity = Effective Diffusion*(Emitter Base Junction Area*((Charge*Intrinsic Concentration^2)/Collector Current)*exp(Voltage Base Emitter/Thermal Voltage))
Qb = Dn*(A*((q*ni^2)/Ic)*exp(Vbe/Vt))

What are impurity atoms used in the manufacture of semiconductors known as?

The process of adding impurities deliberately is termed as doping and the atoms that are used as an impurity are termed as dopants. The impurity modifies the electrical properties of the semiconductor and makes it more suitable for electronic devices such as diodes and transistors.

How to Calculate Impurity Atoms Per Unit Area?

Impurity Atoms Per Unit Area calculator uses Total Impurity = Effective Diffusion*(Emitter Base Junction Area*((Charge*Intrinsic Concentration^2)/Collector Current)*exp(Voltage Base Emitter/Thermal Voltage)) to calculate the Total Impurity, The Impurity Atoms Per Unit Area formula is defined as the amount of impurity, or dopant, added to an intrinsic (pure) semiconductor varies its level of conductivity. Total Impurity is denoted by Qb symbol.

How to calculate Impurity Atoms Per Unit Area using this online calculator? To use this online calculator for Impurity Atoms Per Unit Area, enter Effective Diffusion (Dn), Emitter Base Junction Area (A), Charge (q), Intrinsic Concentration (ni), Collector Current (Ic), Voltage Base Emitter (Vbe) & Thermal Voltage (Vt) and hit the calculate button. Here is how the Impurity Atoms Per Unit Area calculation can be explained with given input values -> 3.6E+13 = 0.5*(0.000175*((0.005*1320000^2)/4.92)*exp(3.5/4.1)).

FAQ

What is Impurity Atoms Per Unit Area?
The Impurity Atoms Per Unit Area formula is defined as the amount of impurity, or dopant, added to an intrinsic (pure) semiconductor varies its level of conductivity and is represented as Qb = Dn*(A*((q*ni^2)/Ic)*exp(Vbe/Vt)) or Total Impurity = Effective Diffusion*(Emitter Base Junction Area*((Charge*Intrinsic Concentration^2)/Collector Current)*exp(Voltage Base Emitter/Thermal Voltage)). The effective diffusion is a parameter related to the diffusion process of carriers and is influenced by material properties and the geometry of the semiconductor junction, Emitter Base Junction Area is a P-N junction formed between the heavily doped P-type material (emitter) and the lightly doped N-type material (base) of the transistor, Charge a characteristic of a unit of matter that expresses the extent to which it has more or fewer electrons than protons, Intrinsic Concentration is the number of electrons in the conduction band or the number of holes in the valence band in intrinsic material, Collector current is the current that flows through the collector terminal of the transistor and is the current that is being amplified by the transistor, Voltage Base Emitter is the voltage between the base and the emitter when forward biased, with the collector disconnected & Thermal Voltage is the voltages created by the junction of dissimilar metals when a temperature difference exists between these junctions.
How to calculate Impurity Atoms Per Unit Area?
The Impurity Atoms Per Unit Area formula is defined as the amount of impurity, or dopant, added to an intrinsic (pure) semiconductor varies its level of conductivity is calculated using Total Impurity = Effective Diffusion*(Emitter Base Junction Area*((Charge*Intrinsic Concentration^2)/Collector Current)*exp(Voltage Base Emitter/Thermal Voltage)). To calculate Impurity Atoms Per Unit Area, you need Effective Diffusion (Dn), Emitter Base Junction Area (A), Charge (q), Intrinsic Concentration (ni), Collector Current (Ic), Voltage Base Emitter (Vbe) & Thermal Voltage (Vt). With our tool, you need to enter the respective value for Effective Diffusion, Emitter Base Junction Area, Charge, Intrinsic Concentration, Collector Current, Voltage Base Emitter & Thermal Voltage and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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