Average Load Voltage for Step up Chopper (Boost Converter) Calculator

✖A Duty Cycle or power cycle is the fraction of one period in which a signal or system is active.ⓘ Duty Cycle [d]			+10% -10%
✖Source voltage is defined as the voltage or potential difference of the source which is supplying voltage to the chopper.ⓘ Source Voltage [V_s]			+10% -10%

✖Load Voltage is defined as the magnitude of voltage over a complete cycle in load connected to the chopper.ⓘ Average Load Voltage for Step up Chopper (Boost Converter) [V_L]

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Formula

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Average Load Voltage for Step up Chopper (Boost Converter)

Formula

`"V"_{"L"} = (1/(1-"d"))*"V"_{"s"}`

Example

`"227.2727V"=(1/(1-"0.56"))*"100V"`

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Average Load Voltage for Step up Chopper (Boost Converter) Solution

STEP 0: Pre-Calculation Summary

Formula Used

Load Voltage = (1/(1-Duty Cycle))*Source Voltage
V_L = (1/(1-d))*V_s
This formula uses 3 Variables

Variables Used

Load Voltage - (Measured in Volt) - Load Voltage is defined as the magnitude of voltage over a complete cycle in load connected to the chopper.
Duty Cycle - A Duty Cycle or power cycle is the fraction of one period in which a signal or system is active.
Source Voltage - (Measured in Volt) - Source voltage is defined as the voltage or potential difference of the source which is supplying voltage to the chopper.

STEP 1: Convert Input(s) to Base Unit

Duty Cycle: 0.56 --> No Conversion Required
Source Voltage: 100 Volt --> 100 Volt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_L = (1/(1-d))*V_s --> (1/(1-0.56))*100

Evaluating ... ...

V_L = 227.272727272727

STEP 3: Convert Result to Output's Unit

227.272727272727 Volt --> No Conversion Required

FINAL ANSWER

227.272727272727 ≈ 227.2727 Volt <-- Load Voltage

(Calculation completed in 00.004 seconds)

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Created by Parminder Singh

Chandigarh University (CU), Punjab

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< 10+ Step Up/Step Down Chopper Calculators

Input Power for Step down Chopper

Go Input Power = (1/Total Switching Period)*int((Source Voltage*((Source Voltage-Chopper Drop)/Resistance)),x,0,(Duty Cycle*Total Switching Period))

Capacitor Voltage of Buck Converter

Go Voltage Across Capacitor = (1/Capacitance)*int(Current Across Capacitor*x,x,0,1)+Initial Capacitor Voltage

RMS Output Current for Step down Chopper (Buck Converter)

Go RMS Current = sqrt(Duty Cycle)*(Source Voltage/Resistance)

Average Load Voltage Step down Chopper (Buck Converter)

Go Load Voltage = Chopping Frequency*Chopper On Time*Source Voltage

Average Load Voltage for Step up or Step down Chopper (Buck-Boost Converter)

Go Load Voltage = Source Voltage*(Duty Cycle/(1-Duty Cycle))

Average Output Current for Step down Chopper (Buck Converter)

Go Output Current = Duty Cycle*(Source Voltage/Resistance)

Output Power Step down Chopper (Buck Converter)

Go Output Power = (Duty Cycle*Source Voltage^2)/Resistance

RMS Load Voltage for Step down Chopper (Buck Converter)

Go RMS Voltage = sqrt(Duty Cycle)*Source Voltage

Average Load Voltage for Step up Chopper (Boost Converter)

Go Load Voltage = (1/(1-Duty Cycle))*Source Voltage

Average Load Voltage for Step down Chopper (Buck Converter)

Go Load Voltage = Duty Cycle*Source Voltage

Average Load Voltage for Step up Chopper (Boost Converter) Formula

Load Voltage = (1/(1-Duty Cycle))*Source Voltage
V_L = (1/(1-d))*V_s

What is Boost converter?

A boost converter is one of the simplest types of switch mode converter. As the name suggests, it takes an input voltage and boosts or increases it. All it consists of is an inductor, a semiconductor switch (these days it’s a MOSFET, since you can get really nice ones these days), a diode, and a capacitor. Also needed is a source of a periodic square wave. This can be something as simple as a 555 timer or even a dedicated SMPS IC like the famous MC34063A IC.

How to Calculate Average Load Voltage for Step up Chopper (Boost Converter)?

Average Load Voltage for Step up Chopper (Boost Converter) calculator uses Load Voltage = (1/(1-Duty Cycle))*Source Voltage to calculate the Load Voltage, The Average load voltage for step up chopper (Boost converter) formula is defined as the average of the load voltage across the load connected to the boost converter. Load Voltage is denoted by V_L symbol.

How to calculate Average Load Voltage for Step up Chopper (Boost Converter) using this online calculator? To use this online calculator for Average Load Voltage for Step up Chopper (Boost Converter), enter Duty Cycle (d) & Source Voltage (V_s) and hit the calculate button. Here is how the Average Load Voltage for Step up Chopper (Boost Converter) calculation can be explained with given input values -> 125 = (1/(1-0.56))*100.

FAQ

What is Average Load Voltage for Step up Chopper (Boost Converter)?

The Average load voltage for step up chopper (Boost converter) formula is defined as the average of the load voltage across the load connected to the boost converter and is represented as V_L = (1/(1-d))*V_s or Load Voltage = (1/(1-Duty Cycle))*Source Voltage. A Duty Cycle or power cycle is the fraction of one period in which a signal or system is active & Source voltage is defined as the voltage or potential difference of the source which is supplying voltage to the chopper.

How to calculate Average Load Voltage for Step up Chopper (Boost Converter)?

The Average load voltage for step up chopper (Boost converter) formula is defined as the average of the load voltage across the load connected to the boost converter is calculated using Load Voltage = (1/(1-Duty Cycle))*Source Voltage. To calculate Average Load Voltage for Step up Chopper (Boost Converter), you need Duty Cycle (d) & Source Voltage (V_s). With our tool, you need to enter the respective value for Duty Cycle & Source Voltage 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 Load Voltage?

In this formula, Load Voltage uses Duty Cycle & Source Voltage. We can use 3 other way(s) to calculate the same, which is/are as follows -

Load Voltage = Duty Cycle*Source Voltage
Load Voltage = Chopping Frequency*Chopper On Time*Source Voltage
Load Voltage = Source Voltage*(Duty Cycle/(1-Duty Cycle))

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