Energy Input to Inductor from Source Calculator

✖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%
✖Current 1 in a chopper is the amount of current that flows through the chopper circuit.ⓘ Current 1 [I₁]			+10% -10%
✖Current 2 in a chopper is the amount of current that flows through the chopper circuit.ⓘ Current 2 [I₂]			+10% -10%
✖Chopper On Time refers to the time period for which chopper was in ON state.ⓘ Chopper On Time [T_on]			+10% -10%

✖Energy input in a chopper is the amount of energy that supplied to the chopper from the source.ⓘ Energy Input to Inductor from Source [W_in]

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Formula

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Energy Input to Inductor from Source

Formula

`"W"_{"in"} = "V"_{"s"}*(("I"_{"1"}+"I"_{"2"})/2)*"T"_{"on"}`

Example

`"585J"="100V"*(("12A"+"14A")/2)*"0.45s"`

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Energy Input to Inductor from Source Solution

STEP 0: Pre-Calculation Summary

Formula Used

Energy Input = Source Voltage*((Current 1+Current 2)/2)*Chopper On Time
W_in = V_s*((I₁+I₂)/2)*T_on
This formula uses 5 Variables

Variables Used

Energy Input - (Measured in Joule) - Energy input in a chopper is the amount of energy that supplied to the chopper from the source.
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.
Current 1 - (Measured in Ampere) - Current 1 in a chopper is the amount of current that flows through the chopper circuit.
Current 2 - (Measured in Ampere) - Current 2 in a chopper is the amount of current that flows through the chopper circuit.
Chopper On Time - (Measured in Second) - Chopper On Time refers to the time period for which chopper was in ON state.

STEP 1: Convert Input(s) to Base Unit

Source Voltage: 100 Volt --> 100 Volt No Conversion Required
Current 1: 12 Ampere --> 12 Ampere No Conversion Required
Current 2: 14 Ampere --> 14 Ampere No Conversion Required
Chopper On Time: 0.45 Second --> 0.45 Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

W_in = V_s*((I₁+I₂)/2)*T_on --> 100*((12+14)/2)*0.45

Evaluating ... ...

W_in = 585

STEP 3: Convert Result to Output's Unit

585 Joule --> No Conversion Required

FINAL ANSWER

585 Joule <-- Energy Input

(Calculation completed in 00.004 seconds)

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Created by Mohamed Fazil V

Acharya institute of technology (AIT), Bengaluru

Mohamed Fazil V has created this Calculator and 50+ more calculators!

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GURU TEGH BAHADUR INSTITUTE OF TECHNOLOGY (GTBIT), NEW DELHI

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< 13 Chopper Core Factors Calculators

Excess Work Due to Thyristor 1 in Chopper Circuit

Go Excess Work = 0.5*Limiting Inductance*((Output Current+(Reverse Recovery Time*Capacitor Commutation Voltage)/Limiting Inductance)-Output Current^2)

Critical Inductance

Go Inductance = Load Voltage^2*((Source Voltage-Load Voltage)/(2*Chopping Frequency*Source Voltage*Load Power))

Energy Released by Inductor to Load

Go Energy Released = (Output Voltage-Input Voltage)*((Current 1+Current 2)/2)*Circuit Turn Off Time

Peak to Peak Ripple Voltage of Capacitor

Go Ripple Voltage in Buck Converter = (1/Capacitance)*int((Change in Current/4)*x,x,0,Time/2)

Energy Input to Inductor from Source

Go Energy Input = Source Voltage*((Current 1+Current 2)/2)*Chopper On Time

Critical Capacitance

Go Critical Capacitance = (Output Current/(2*Source Voltage))*(1/Maximum Frequency)

Maximum Ripple Current Resistive Load

Go Ripple Current = Source Voltage/(4*Inductance*Chopping Frequency)

AC Ripple Voltage

Go Ripple Voltage = sqrt(RMS Voltage^2-Load Voltage^2)

Ripple Factor of DC Chopper

Go Ripple Factor = sqrt((1/Duty Cycle)-Duty Cycle)

Chopping Period

Go Chopping Period = Chopper On Time+Circuit Turn Off Time

Chopping Frequency

Go Chopping Frequency = Duty Cycle/Chopper On Time

Duty Cycle

Go Duty Cycle = Chopper On Time/Chopping Period

Effective Input Resistance

Go Input Resistance = Resistance/Duty Cycle

Energy Input to Inductor from Source Formula

Energy Input = Source Voltage*((Current 1+Current 2)/2)*Chopper On Time
W_in = V_s*((I₁+I₂)/2)*T_on

What is Energy Input to Inductor?

Energy input to inductor from source is the energy required to establish a current in the inductor. It is equal to the magnetic energy stored in the inductor.

How to Calculate Energy Input to Inductor from Source?

Energy Input to Inductor from Source calculator uses Energy Input = Source Voltage*((Current 1+Current 2)/2)*Chopper On Time to calculate the Energy Input, Energy Input to Inductor from Source in an electrical circuit is a measure of the energy stored in the inductor due to the flow of current through it. This formula shows that the energy stored in an inductor is directly proportional to the current flowing through it and the inductance of the inductor. When the current through the inductor changes, energy is either stored or released, depending on whether the current is increasing or decreasing. Energy Input is denoted by W_in symbol.

How to calculate Energy Input to Inductor from Source using this online calculator? To use this online calculator for Energy Input to Inductor from Source, enter Source Voltage (V_s), Current 1 (I₁), Current 2 (I₂) & Chopper On Time (T_on) and hit the calculate button. Here is how the Energy Input to Inductor from Source calculation can be explained with given input values -> 585 = 100*((12+14)/2)*0.45.

FAQ

What is Energy Input to Inductor from Source?

Energy Input to Inductor from Source in an electrical circuit is a measure of the energy stored in the inductor due to the flow of current through it. This formula shows that the energy stored in an inductor is directly proportional to the current flowing through it and the inductance of the inductor. When the current through the inductor changes, energy is either stored or released, depending on whether the current is increasing or decreasing and is represented as W_in = V_s*((I₁+I₂)/2)*T_on or Energy Input = Source Voltage*((Current 1+Current 2)/2)*Chopper On Time. Source voltage is defined as the voltage or potential difference of the source which is supplying voltage to the chopper, Current 1 in a chopper is the amount of current that flows through the chopper circuit, Current 2 in a chopper is the amount of current that flows through the chopper circuit & Chopper On Time refers to the time period for which chopper was in ON state.

How to calculate Energy Input to Inductor from Source?

Energy Input to Inductor from Source in an electrical circuit is a measure of the energy stored in the inductor due to the flow of current through it. This formula shows that the energy stored in an inductor is directly proportional to the current flowing through it and the inductance of the inductor. When the current through the inductor changes, energy is either stored or released, depending on whether the current is increasing or decreasing is calculated using Energy Input = Source Voltage*((Current 1+Current 2)/2)*Chopper On Time. To calculate Energy Input to Inductor from Source, you need Source Voltage (V_s), Current 1 (I₁), Current 2 (I₂) & Chopper On Time (T_on). With our tool, you need to enter the respective value for Source Voltage, Current 1, Current 2 & Chopper On Time 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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