Total Acceptor Charge Solution

STEP 0: Pre-Calculation Summary
Formula Used
Total Acceptor Charge = [Charge-e]*Charge Penetration N-type*Junction Area*Acceptor Concentration
|Q| = [Charge-e]*xno*Aj*Na
This formula uses 1 Constants, 4 Variables
Constants Used
[Charge-e] - Charge of electron Value Taken As 1.60217662E-19
Variables Used
Total Acceptor Charge - (Measured in Coulomb) - Total Acceptor Charge refers to the overall net charge associated with the acceptor atoms in a semiconductor material or device.
Charge Penetration N-type - (Measured in Meter) - Charge Penetration N-type refers to the phenomenon where additional electrons from dopant atoms, typically phosphorus or arsenic, penetrate the crystal lattice of the semiconductor material.
Junction Area - (Measured in Square Meter) - The Junction Area is the boundary or interface area between two types of semiconductor materials in a pn diode.
Acceptor Concentration - (Measured in 1 per Cubic Meter) - Acceptor concentration is the concentration an acceptor or dopant atom that when substituted into a semiconductor lattice forms a p-type region.
STEP 1: Convert Input(s) to Base Unit
Charge Penetration N-type: 0.019 Micrometer --> 1.9E-08 Meter (Check conversion here)
Junction Area: 5401.3 Square Micrometer --> 5.4013E-09 Square Meter (Check conversion here)
Acceptor Concentration: 7.9E+35 1 per Cubic Meter --> 7.9E+35 1 per Cubic Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
|Q| = [Charge-e]*xno*Aj*Na --> [Charge-e]*1.9E-08*5.4013E-09*7.9E+35
Evaluating ... ...
|Q| = 12.9894087029866
STEP 3: Convert Result to Output's Unit
12.9894087029866 Coulomb --> No Conversion Required
FINAL ANSWER
12.9894087029866 12.98941 Coulomb <-- Total Acceptor Charge
(Calculation completed in 00.004 seconds)

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16 SSD Junction Calculators

Junction Capacitance
Go Junction Capacitance = (Junction Area/2)*sqrt((2*[Charge-e]*Constant Length Offset*Doping Concentration of Base)/(Source Voltage-Source Voltage 1))
Length of P-Side Junction
Go Length of P-Side Junction = (Optical Current/([Charge-e]*Junction Area*Optical Generation Rate))-(Junction Transition Width+Diffusion Length of Transition Region)
Junction Transition Width
Go Junction Transition Width = Charge Penetration N-type*((Acceptor Concentration+Donor Concentration)/Acceptor Concentration)
Series Resistance in P-type
Go Series Resistance in P Junction = ((Source Voltage-Junction Voltage)/Electric Current)-Series Resistance in N Junction
Series Resistance in N-type
Go Series Resistance in N Junction = ((Source Voltage-Junction Voltage)/Electric Current)-Series Resistance in P Junction
Junction Voltage
Go Junction Voltage = Source Voltage-(Series Resistance in P Junction+Series Resistance in N Junction)*Electric Current
Acceptor Concentration
Go Acceptor Concentration = Total Acceptor Charge/([Charge-e]*Charge Penetration N-type*Junction Area)
N-Type Width
Go Charge Penetration N-type = Total Acceptor Charge/(Junction Area*Acceptor Concentration*[Charge-e])
Cross-Sectional Area of Junction
Go Junction Area = Total Acceptor Charge/([Charge-e]*Charge Penetration N-type*Acceptor Concentration)
Donor Concentration
Go Donor Concentration = Total Acceptor Charge/([Charge-e]*Charge Penetration P-type*Junction Area)
Total Acceptor Charge
Go Total Acceptor Charge = [Charge-e]*Charge Penetration N-type*Junction Area*Acceptor Concentration
Absorption Coefficient
Go Absorption Coefficient = (-1/Sample Thickness)*ln(Absorbed Power/Incident Power)
Absorbed Power
Go Absorbed Power = Incident Power*exp(-Sample Thickness*Absorption Coefficient)
Net Distribution of Charge
Go Net Distribution = (Donor Concentration-Acceptor Concentration)/Graded Constant
P-N Junction Length
Go Junction Length = Constant Length Offset+Effective Channel Length
Quantum Number
Go Quantum Number = [Coulomb]*Potential Well Length/3.14

Total Acceptor Charge Formula

Total Acceptor Charge = [Charge-e]*Charge Penetration N-type*Junction Area*Acceptor Concentration
|Q| = [Charge-e]*xno*Aj*Na

What is Barrier Potential (cut in voltage)?

The forward voltage at which the current through the junction starts increasing rapidly.In quantum mechanics, the rectangular potential barrier is a standard one-dimensional problem that demonstrates the phenomena of wave-mechanical tunneling and wave-mechanical reflection.

How to Calculate Total Acceptor Charge?

Total Acceptor Charge calculator uses Total Acceptor Charge = [Charge-e]*Charge Penetration N-type*Junction Area*Acceptor Concentration to calculate the Total Acceptor Charge, The Total Acceptor Charge formula is defined as an image charge in the tip that leads to an additional charge-induced attractive force, which is detectable as a change in the phase of the tip oscillation. Total Acceptor Charge is denoted by |Q| symbol.

How to calculate Total Acceptor Charge using this online calculator? To use this online calculator for Total Acceptor Charge, enter Charge Penetration N-type (xno), Junction Area (Aj) & Acceptor Concentration (Na) and hit the calculate button. Here is how the Total Acceptor Charge calculation can be explained with given input values -> 12.98941 = [Charge-e]*1.9E-08*5.4013E-09*7.9E+35.

FAQ

What is Total Acceptor Charge?
The Total Acceptor Charge formula is defined as an image charge in the tip that leads to an additional charge-induced attractive force, which is detectable as a change in the phase of the tip oscillation and is represented as |Q| = [Charge-e]*xno*Aj*Na or Total Acceptor Charge = [Charge-e]*Charge Penetration N-type*Junction Area*Acceptor Concentration. Charge Penetration N-type refers to the phenomenon where additional electrons from dopant atoms, typically phosphorus or arsenic, penetrate the crystal lattice of the semiconductor material, The Junction Area is the boundary or interface area between two types of semiconductor materials in a pn diode & Acceptor concentration is the concentration an acceptor or dopant atom that when substituted into a semiconductor lattice forms a p-type region.
How to calculate Total Acceptor Charge?
The Total Acceptor Charge formula is defined as an image charge in the tip that leads to an additional charge-induced attractive force, which is detectable as a change in the phase of the tip oscillation is calculated using Total Acceptor Charge = [Charge-e]*Charge Penetration N-type*Junction Area*Acceptor Concentration. To calculate Total Acceptor Charge, you need Charge Penetration N-type (xno), Junction Area (Aj) & Acceptor Concentration (Na). With our tool, you need to enter the respective value for Charge Penetration N-type, Junction Area & Acceptor Concentration 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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