Short Circuit Current given Power of Photovoltaic Cell Solution

STEP 0: Pre-Calculation Summary
Formula Used
Short Circuit Current in Solar cell = (Power of Photovoltaic Cell/Voltage in Solar cell)+(Reverse Saturation Current*(e^(([Charge-e]*Voltage in Solar cell)/([BoltZ]*Temperature in Kelvin))-1))
Isc = (P/V)+(Io*(e^(([Charge-e]*V)/([BoltZ]*T))-1))
This formula uses 3 Constants, 5 Variables
Constants Used
[Charge-e] - Charge of electron Value Taken As 1.60217662E-19
[BoltZ] - Boltzmann constant Value Taken As 1.38064852E-23
e - Napier's constant Value Taken As 2.71828182845904523536028747135266249
Variables Used
Short Circuit Current in Solar cell - (Measured in Ampere) - Short Circuit Current in Solar Cell is the current through the solar cell when the voltage across the solar cell is zero.
Power of Photovoltaic Cell - (Measured in Watt) - Power of Photovoltaic cell is defined as the rate of electrical energy transfer by an electric circuit per unit time in this case, a solar cell.
Voltage in Solar cell - (Measured in Volt) - Voltage in solar cell is the difference in electric potential between any two points in a circuit.
Reverse Saturation Current - (Measured in Ampere) - Reverse Saturation Current is caused by the diffusion of minority carriers from the neutral regions to the depletion region in a semiconductor diode.
Temperature in Kelvin - (Measured in Kelvin) - Temperature in Kelvin is the temperature (degree or intensity of heat present in a substance or object) of a body or substance measured in Kelvin.
STEP 1: Convert Input(s) to Base Unit
Power of Photovoltaic Cell: 9.62 Watt --> 9.62 Watt No Conversion Required
Voltage in Solar cell: 0.15 Volt --> 0.15 Volt No Conversion Required
Reverse Saturation Current: 0.048 Ampere --> 0.048 Ampere No Conversion Required
Temperature in Kelvin: 300 Kelvin --> 300 Kelvin No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Isc = (P/V)+(Io*(e^(([Charge-e]*V)/([BoltZ]*T))-1)) --> (9.62/0.15)+(0.048*(e^(([Charge-e]*0.15)/([BoltZ]*300))-1))
Evaluating ... ...
Isc = 79.9755999488023
STEP 3: Convert Result to Output's Unit
79.9755999488023 Ampere --> No Conversion Required
FINAL ANSWER
79.9755999488023 79.9756 Ampere <-- Short Circuit Current in Solar cell
(Calculation completed in 00.004 seconds)

Credits

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Created by ADITYA RAWAT
DIT UNIVERSITY (DITU), Dehradun
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National Institute Of Technology (NIT), Hamirpur
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Photovoltaic Conversion Calculators

Load current in Solar cell
​ LaTeX ​ Go Load Current in Solar cell = Short Circuit Current in Solar cell-(Reverse Saturation Current*(e^(([Charge-e]*Voltage in Solar cell)/(Ideality Factor in Solar Cells*[BoltZ]*Temperature in Kelvin))-1))
Short Circuit Current given Fill Factor of Cell
​ LaTeX ​ Go Short Circuit Current in Solar cell = (Current at Maximum Power*Voltage at Maximum Power)/(Open Circuit Voltage*Fill Factor of Solar Cell)
Fill Factor of Cell
​ LaTeX ​ Go Fill Factor of Solar Cell = (Current at Maximum Power*Voltage at Maximum Power)/(Short Circuit Current in Solar cell*Open Circuit Voltage)
Voltage given Fill Factor of Cell
​ LaTeX ​ Go Voltage at Maximum Power = (Fill Factor of Solar Cell*Short Circuit Current in Solar cell*Open Circuit Voltage)/Current at Maximum Power

Short Circuit Current given Power of Photovoltaic Cell Formula

​LaTeX ​Go
Short Circuit Current in Solar cell = (Power of Photovoltaic Cell/Voltage in Solar cell)+(Reverse Saturation Current*(e^(([Charge-e]*Voltage in Solar cell)/([BoltZ]*Temperature in Kelvin))-1))
Isc = (P/V)+(Io*(e^(([Charge-e]*V)/([BoltZ]*T))-1))

How does a Photovoltaic Cell work?

Solar Photovoltaic (PV) cells generate electricity by absorbing sunlight and using that light energy to create an electrical current. There are many PV cells within a single solar panel, and the current created by all of the cells together adds up to enough electricity to help power your school, home and businesses.

How to Calculate Short Circuit Current given Power of Photovoltaic Cell?

Short Circuit Current given Power of Photovoltaic Cell calculator uses Short Circuit Current in Solar cell = (Power of Photovoltaic Cell/Voltage in Solar cell)+(Reverse Saturation Current*(e^(([Charge-e]*Voltage in Solar cell)/([BoltZ]*Temperature in Kelvin))-1)) to calculate the Short Circuit Current in Solar cell, Short Circuit Current given Power of Photovoltaic Cell formula is defined as a measure of the maximum current that a photovoltaic cell can deliver when its terminals are short-circuited, which is a critical parameter in evaluating the performance of a photovoltaic system. Short Circuit Current in Solar cell is denoted by Isc symbol.

How to calculate Short Circuit Current given Power of Photovoltaic Cell using this online calculator? To use this online calculator for Short Circuit Current given Power of Photovoltaic Cell, enter Power of Photovoltaic Cell (P), Voltage in Solar cell (V), Reverse Saturation Current (Io) & Temperature in Kelvin (T) and hit the calculate button. Here is how the Short Circuit Current given Power of Photovoltaic Cell calculation can be explained with given input values -> 95.7756 = (9.62/0.15)+(0.048*(e^(([Charge-e]*0.15)/([BoltZ]*300))-1)).

FAQ

What is Short Circuit Current given Power of Photovoltaic Cell?
Short Circuit Current given Power of Photovoltaic Cell formula is defined as a measure of the maximum current that a photovoltaic cell can deliver when its terminals are short-circuited, which is a critical parameter in evaluating the performance of a photovoltaic system and is represented as Isc = (P/V)+(Io*(e^(([Charge-e]*V)/([BoltZ]*T))-1)) or Short Circuit Current in Solar cell = (Power of Photovoltaic Cell/Voltage in Solar cell)+(Reverse Saturation Current*(e^(([Charge-e]*Voltage in Solar cell)/([BoltZ]*Temperature in Kelvin))-1)). Power of Photovoltaic cell is defined as the rate of electrical energy transfer by an electric circuit per unit time in this case, a solar cell, Voltage in solar cell is the difference in electric potential between any two points in a circuit, Reverse Saturation Current is caused by the diffusion of minority carriers from the neutral regions to the depletion region in a semiconductor diode & Temperature in Kelvin is the temperature (degree or intensity of heat present in a substance or object) of a body or substance measured in Kelvin.
How to calculate Short Circuit Current given Power of Photovoltaic Cell?
Short Circuit Current given Power of Photovoltaic Cell formula is defined as a measure of the maximum current that a photovoltaic cell can deliver when its terminals are short-circuited, which is a critical parameter in evaluating the performance of a photovoltaic system is calculated using Short Circuit Current in Solar cell = (Power of Photovoltaic Cell/Voltage in Solar cell)+(Reverse Saturation Current*(e^(([Charge-e]*Voltage in Solar cell)/([BoltZ]*Temperature in Kelvin))-1)). To calculate Short Circuit Current given Power of Photovoltaic Cell, you need Power of Photovoltaic Cell (P), Voltage in Solar cell (V), Reverse Saturation Current (Io) & Temperature in Kelvin (T). With our tool, you need to enter the respective value for Power of Photovoltaic Cell, Voltage in Solar cell, Reverse Saturation Current & Temperature in Kelvin 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 Short Circuit Current in Solar cell?
In this formula, Short Circuit Current in Solar cell uses Power of Photovoltaic Cell, Voltage in Solar cell, Reverse Saturation Current & Temperature in Kelvin. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Short Circuit Current in Solar cell = (Current at Maximum Power*Voltage at Maximum Power)/(Open Circuit Voltage*Fill Factor of Solar Cell)
  • Short Circuit Current in Solar cell = Load Current in Solar cell+(Reverse Saturation Current*(e^(([Charge-e]*Voltage in Solar cell)/(Ideality Factor in Solar Cells*[BoltZ]*Temperature in Kelvin))-1))
  • Short Circuit Current in Solar cell = (Maximum Power Output of Cell*((1+([Charge-e]*Voltage at Maximum Power)/([BoltZ]*Temperature in Kelvin))/(([Charge-e]*Voltage at Maximum Power^2)/([BoltZ]*Temperature in Kelvin))))-Reverse Saturation Current
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