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Incident Solar Flux given Maximum Conversion Efficiency Formula

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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. Check FAQs

I T = \frac{I m \cdot V m}{η max \cdot A c}

I_T - Flux Incident on Top Cover?I_m - Current at Maximum Power?V_m - Voltage at Maximum Power?η_max - Maximum Conversion Efficiency?A_c - Area of Solar Cell?

Incident Solar Flux given Maximum Conversion Efficiency Example

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Here is how the Incident Solar Flux given Maximum Conversion Efficiency equation looks like with Values.

Here is how the Incident Solar Flux given Maximum Conversion Efficiency equation looks like with Units.

Here is how the Incident Solar Flux given Maximum Conversion Efficiency equation looks like.

4510 = \frac{0.11 \cdot 0.41}{0.4 \cdot 25}

4510J/sm² = \frac{0.11A \cdot 0.41V}{0.4 \cdot 25mm²}

4510 = \frac{0.11 \cdot 0.41}{0.4 \cdot 25}

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Incident Solar Flux given Maximum Conversion Efficiency Solution

Follow our step by step solution on how to calculate Incident Solar Flux given Maximum Conversion Efficiency?

FIRST Step Consider the formula

I T = \frac{I m \cdot V m}{η max \cdot A c}

Next Step Substitute values of Variables

∴

I T = \frac{0.11A \cdot 0.41V}{0.4 \cdot 25mm²}

Next Step Convert Units

∴

I T = \frac{0.11A \cdot 0.41V}{0.4 \cdot 2.5E-5m²}

Next Step Prepare to Evaluate

∴

I T = \frac{0.11 \cdot 0.41}{0.4 \cdot 2.5E-5}

Next Step Evaluate

∴

I T = 4510W/m²

LAST Step Convert to Output's Unit

∴

I T = 4510J/sm²

Incident Solar Flux given Maximum Conversion Efficiency Formula Elements

Variables

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

Current at Maximum Power

Current at Maximum Power is the current at which maximum power occurs .

Symbol: I_m

Measurement: Electric CurrentUnit: A

Note: Value should be greater than 0.

Formulas to find Current at Maximum Power

Voltage at Maximum Power

Voltage at Maximum Power is the voltage at which maximum power occurs.

Symbol: V_m

Measurement: Electric PotentialUnit: V

Note: Value should be greater than 0.

Formulas to find Voltage at Maximum Power

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

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

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 Short Circuit Current given Fill Factor of Cell

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

Go Load current in Solar cell

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

How to Evaluate Incident Solar Flux given Maximum Conversion Efficiency?

Incident Solar Flux given Maximum Conversion Efficiency evaluator uses Flux Incident on Top Cover = (Current at Maximum Power*Voltage at Maximum Power)/(Maximum Conversion Efficiency*Area of Solar Cell) to evaluate the Flux Incident on Top Cover, Incident Solar Flux given Maximum Conversion Efficiency formula is defined as a measure of the maximum amount of solar energy that can be converted into electrical energy by a photovoltaic cell, taking into account the maximum conversion efficiency and the area of the cell. Flux Incident on Top Cover is denoted by I_T symbol.

How to evaluate Incident Solar Flux given Maximum Conversion Efficiency using this online evaluator? To use this online evaluator for Incident Solar Flux given Maximum Conversion Efficiency, enter Current at Maximum Power (I_m), Voltage at Maximum Power (V_m), Maximum Conversion Efficiency (η_max) & Area of Solar Cell (A_c) and hit the calculate button.

FAQs on Incident Solar Flux given Maximum Conversion Efficiency

What is the formula to find Incident Solar Flux given Maximum Conversion Efficiency?

The formula of Incident Solar Flux given Maximum Conversion Efficiency is expressed as Flux Incident on Top Cover = (Current at Maximum Power*Voltage at Maximum Power)/(Maximum Conversion Efficiency*Area of Solar Cell). Here is an example- 4008.889 = (0.11*0.41)/(0.4*2.5E-05).

How to calculate Incident Solar Flux given Maximum Conversion Efficiency?

With Current at Maximum Power (I_m), Voltage at Maximum Power (V_m), Maximum Conversion Efficiency (η_max) & Area of Solar Cell (A_c) we can find Incident Solar Flux given Maximum Conversion Efficiency using the formula - Flux Incident on Top Cover = (Current at Maximum Power*Voltage at Maximum Power)/(Maximum Conversion Efficiency*Area of Solar Cell).

Can the Incident Solar Flux given Maximum Conversion Efficiency be negative?

No, the Incident Solar Flux given Maximum Conversion Efficiency, measured in Heat Flux Density cannot be negative.

Which unit is used to measure Incident Solar Flux given Maximum Conversion Efficiency?

Incident Solar Flux given Maximum Conversion Efficiency is usually measured using the Joule per Second per Square Meter[J/sm²] for Heat Flux Density. Watt per Square Meter[J/sm²], Kilowatt per Square Meter[J/sm²], Watt per Square Centimeter[J/sm²] are the few other units in which Incident Solar Flux given Maximum Conversion Efficiency can be measured.

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Incident Solar Flux given Maximum Conversion Efficiency Formula

Incident Solar Flux given Maximum Conversion Efficiency Example

Incident Solar Flux given Maximum Conversion Efficiency Solution

Incident Solar Flux given Maximum Conversion Efficiency Formula Elements

Other formulas in Photovoltaic Conversion category

How to Evaluate Incident Solar Flux given Maximum Conversion Efficiency?

FAQs on Incident Solar Flux given Maximum Conversion Efficiency

Variable Name