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Short Circuit Current given Maximum Conversion Efficiency Formula

GoShort Circuit Current given Fill Factor of Cell Formula

GoShort Circuit Current given Load Current and Reverse Saturation Current Formula

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Short Circuit Current in Solar Cell is the current through the solar cell when the voltage across the solar cell is zero. Check FAQs

I sc = \frac{η max \cdot I T \cdot A c}{FF \cdot V oc}

I_sc - Short Circuit Current in Solar cell?η_max - Maximum Conversion Efficiency?I_T - Flux Incident on Top Cover?A_c - Area of Solar Cell?FF - Fill Factor of Solar Cell?V_oc - Open Circuit Voltage?

Short Circuit Current given Maximum Conversion Efficiency Example

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Here is how the Short Circuit Current given Maximum Conversion Efficiency equation looks like with Values.

Here is how the Short Circuit Current given Maximum Conversion Efficiency equation looks like with Units.

Here is how the Short Circuit Current given Maximum Conversion Efficiency equation looks like.

81.2421 = \frac{0.4 \cdot 4500 \cdot 25}{0.0029 \cdot 0.191}

81.2421A = \frac{0.4 \cdot 4500J/sm² \cdot 25mm²}{0.0029 \cdot 0.191V}

81.2421 = \frac{0.4 \cdot 4500 \cdot 25}{0.0029 \cdot 0.191}

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Short Circuit Current given Maximum Conversion Efficiency Solution

Follow our step by step solution on how to calculate Short Circuit Current given Maximum Conversion Efficiency?

FIRST Step Consider the formula

I sc = \frac{η max \cdot I T \cdot A c}{FF \cdot V oc}

Next Step Substitute values of Variables

∴

I sc = \frac{0.4 \cdot 4500J/sm² \cdot 25mm²}{0.0029 \cdot 0.191V}

Next Step Convert Units

∴

I sc = \frac{0.4 \cdot 4500W/m² \cdot 2.5E-5m²}{0.0029 \cdot 0.191V}

Next Step Prepare to Evaluate

∴

I sc = \frac{0.4 \cdot 4500 \cdot 2.5E-5}{0.0029 \cdot 0.191}

Next Step Evaluate

∴

I sc = 81.2421014623578A

LAST Step Rounding Answer

∴

I sc = 81.2421A

Short Circuit Current given Maximum Conversion Efficiency Formula Elements

Variables

Short Circuit Current in Solar cell

Short Circuit Current in Solar Cell is the current through the solar cell when the voltage across the solar cell is zero.

Symbol: I_sc

Measurement: Electric CurrentUnit: A

Note: Value should be greater than 0.

Formulas to find Short Circuit Current in Solar cell

Maximum Conversion Efficiency

Maximum Conversion Efficiency is defined as the ratio of the maximum useful power to the incident solar radiation.

Symbol: η_max

Measurement: NAUnit: Unitless

Note: Value should be between 0 to 1.

Formulas to find Maximum Conversion Efficiency

Flux Incident on Top Cover

Flux Incident on Top Cover is the total incident flux on the top cover which is the sum of incident beam component and incident diffuse component.

Symbol: I_T

Measurement: Heat Flux DensityUnit: J/sm²

Note: Value should be greater than 0.

Formulas to find Flux Incident on Top Cover

Area of Solar Cell

Area of Solar Cell is the area that absorbs/receives radiation from the sun which is then converted into electrical energy.

Symbol: A_c

Measurement: AreaUnit: mm²

Note: Value should be greater than 0.

Formulas to find Area of Solar Cell

Fill Factor of Solar Cell

Fill Factor of Solar Cell is a measure of how closely the I-V characteristic of the cell approaches being a rectangle.

Symbol: FF

Measurement: NAUnit: Unitless

Note: Value should be between 0 to 1.

Formulas to find Fill Factor of Solar Cell

Open Circuit Voltage

Open Circuit Voltage is the difference of electrical potential between two terminals of a device when disconnected from any circuit. There is no external load connected.

Symbol: V_oc

Measurement: Electric PotentialUnit: V

Note: Value should be greater than 0.

Formulas to find Open Circuit Voltage

Other Formulas to find Short Circuit Current in Solar cell

Go Short Circuit Current given Fill Factor of Cell

I sc = \frac{I m \cdot V m}{V oc \cdot FF}

Go Short Circuit Current given Load Current and Reverse Saturation Current

I sc = I + (I o \cdot (e^{\frac{[Charge-e] \cdot V}{m \cdot [BoltZ] \cdot T}} - 1))

Go Short Circuit Current given Power of Photovoltaic Cell

I sc = (\frac{P}{V}) + (I o \cdot (e^{\frac{[Charge-e] \cdot V}{[BoltZ] \cdot T}} - 1))

Go Short Circuit Current given Maximum Power of Cell

I sc = (P m \cdot (\frac{1 + \frac{[Charge-e] \cdot V m}{[BoltZ] \cdot T}}{\frac{[Charge-e] \cdot {V m}^{2}}{[BoltZ] \cdot T}})) - I o

Other formulas in Photovoltaic Conversion category

Go Fill Factor of Cell

FF = \frac{I m \cdot V m}{I sc \cdot V oc}

Go Voltage given Fill Factor of Cell

V m = \frac{FF \cdot I sc \cdot V oc}{I m}

Go Load current in Solar cell

I = I sc - (I o \cdot (e^{\frac{[Charge-e] \cdot V}{m \cdot [BoltZ] \cdot T}} - 1))

Go Reverse Saturation Current given Load Current and Short Circuit Current

I o = \frac{I sc - I}{e^{\frac{[Charge-e] \cdot V}{m \cdot [BoltZ] \cdot T}} - 1}

How to Evaluate Short Circuit Current given Maximum Conversion Efficiency?

Short Circuit Current given Maximum Conversion Efficiency evaluator uses Short Circuit Current in Solar cell = (Maximum Conversion Efficiency*Flux Incident on Top Cover*Area of Solar Cell)/(Fill Factor of Solar Cell*Open Circuit Voltage) to evaluate the Short Circuit Current in Solar cell, Short Circuit Current given Maximum Conversion Efficiency formula is defined as a measure of the maximum current that a photovoltaic cell can deliver under ideal conditions, taking into account the maximum conversion efficiency, total current, cell area, fill factor, and open-circuit voltage. Short Circuit Current in Solar cell is denoted by I_sc symbol.

How to evaluate Short Circuit Current given Maximum Conversion Efficiency using this online evaluator? To use this online evaluator for Short Circuit Current given Maximum Conversion Efficiency, enter Maximum Conversion Efficiency (η_max), Flux Incident on Top Cover (I_T), Area of Solar Cell (A_c), Fill Factor of Solar Cell (FF) & Open Circuit Voltage (V_oc) and hit the calculate button.

FAQs on Short Circuit Current given Maximum Conversion Efficiency

What is the formula to find Short Circuit Current given Maximum Conversion Efficiency?

The formula of Short Circuit Current given Maximum Conversion Efficiency is expressed as Short Circuit Current in Solar cell = (Maximum Conversion Efficiency*Flux Incident on Top Cover*Area of Solar Cell)/(Fill Factor of Solar Cell*Open Circuit Voltage). Here is an example- 181.2324 = (0.4*4500*2.5E-05)/(0.0029*0.191).

How to calculate Short Circuit Current given Maximum Conversion Efficiency?

With Maximum Conversion Efficiency (η_max), Flux Incident on Top Cover (I_T), Area of Solar Cell (A_c), Fill Factor of Solar Cell (FF) & Open Circuit Voltage (V_oc) we can find Short Circuit Current given Maximum Conversion Efficiency using the formula - Short Circuit Current in Solar cell = (Maximum Conversion Efficiency*Flux Incident on Top Cover*Area of Solar Cell)/(Fill Factor of Solar Cell*Open Circuit Voltage).

What are the other ways to Calculate Short Circuit Current in Solar cell?

Here are the different ways to Calculate Short Circuit Current in Solar cell-

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=(Power of Photovoltaic Cell/Voltage in Solar cell)+(Reverse Saturation Current*(e^(([Charge-e]*Voltage in Solar cell)/([BoltZ]*Temperature in Kelvin))-1))

Can the Short Circuit Current given Maximum Conversion Efficiency be negative?

No, the Short Circuit Current given Maximum Conversion Efficiency, measured in Electric Current cannot be negative.

Which unit is used to measure Short Circuit Current given Maximum Conversion Efficiency?

Short Circuit Current given Maximum Conversion Efficiency is usually measured using the Ampere[A] for Electric Current. Milliampere[A], Microampere[A], Centiampere[A] are the few other units in which Short Circuit Current given Maximum Conversion Efficiency can be measured.

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Short Circuit Current given Maximum Conversion Efficiency Formula

​GoShort Circuit Current given Fill Factor of Cell Formula

​GoShort Circuit Current given Load Current and Reverse Saturation Current Formula

Short Circuit Current given Maximum Conversion Efficiency Example

Short Circuit Current given Maximum Conversion Efficiency Solution

Short Circuit Current given Maximum Conversion Efficiency Formula Elements

Other Formulas to find Short Circuit Current in Solar cell

Other formulas in Photovoltaic Conversion category

How to Evaluate Short Circuit Current given Maximum Conversion Efficiency?

FAQs on Short Circuit Current given Maximum Conversion Efficiency

Variable Name

GoShort Circuit Current given Fill Factor of Cell Formula

GoShort Circuit Current given Load Current and Reverse Saturation Current Formula