Output Voltage (LSR) Calculator

Category	Engineering ↺

✖Input voltage is the voltage supplied to the deviceⓘ Input voltage [V_i]			+10% -10%
✖The load current is the current that the appliance is drawing at that instant.ⓘ Load current [Il]			+10% -10%
✖The shunt field current is the current which present in shunt field windings.ⓘ Shunt Field Current [Ish]			+10% -10%
✖Shunt field resistance is a device that creates a path that has a low resistance for electric current to flow.ⓘ Shunt field resistance [Rsh]			+10% -10%

✖Output voltage signifies the voltage of the signal after it has been amplified. ⓘ Output Voltage (LSR) [V_o]

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Shobhit Dimri

Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat

Shobhit Dimri has created this Calculator and 100+ more calculators!

Urvi Rathod

Vishwakarma Government Engineering College (VGEC), Ahmedabad

Urvi Rathod has verified this Calculator and 500+ more calculators!

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Constant Of The DC Machine=(Voltage-(Armature Current*(Armature resistance-Shunt field resistance)))/(Motor Speed*Magnetic Flux) GO

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Shunt Field Cu Loss=Shunt Field Current*Shunt Field Current*Shunt field resistance GO

Shunt Field Resistance Of Shunt DC Motor Using The Shunt Field Current

Shunt field resistance=Voltage/Shunt Field Current GO

Voltage Of Shunt DC Motor Using Shunt Field Current

Voltage=Shunt Field Current*Shunt field resistance GO

Shunt Field Current Of Shunt DC Motor

Shunt Field Current=Voltage/Shunt field resistance GO

Shunt Field Current

Shunt Field Current=Voltage/Shunt field resistance GO

Field Current

Field Current=Voltage/Shunt field resistance GO

Field Current When Load Current Is Given

Field Current=Armature Current-Load current GO

Armature Current

Armature Current=Field Current+Load current GO

Load Power Of Series DC Generator

Load Power=Voltage*Load current GO

Output Power

Power=Voltage*Load current GO

< 9 Other formulas that calculate the same Output

Voltage across output in an amplifier

Output voltage =Open circuit voltage gain*Input voltage*(Load resistance/(Load resistance+Output resistance)) GO

Output Voltage For Boost Regulator (DCM)

Output voltage =Input voltage+((Input voltage^2*duty Cycle^2*time commutation)/2*Inductance*output current ) GO

Output Voltage For Buck Regulator (DCM)

Output voltage =Input voltage*(1+(Input voltage*duty Cycle^2*time commutation/2*Inductance*output current )) GO

Output Voltage For Buck-Boost Regulator (DCM)

Output voltage =Input voltage^2*duty Cycle^2*time commutation/(2*Inductance*output current ) GO

Output Voltage For Buck-Boost Regulator (CCM)

Output voltage =-Input voltage*duty Cycle/(1-duty Cycle) GO

Output Voltage For Cuk Regulator

Output voltage =-Input voltage*duty Cycle/(1-duty Cycle) GO

Output Voltage For Boost Regulator (CCM)

Output voltage =Input voltage/(1-duty Cycle) GO

Output Voltage For Buck Regulator (CCM)

Output voltage =duty Cycle*Input voltage GO

Output voltage Vo of a difference amplifier

Output voltage =(R2/R1)*(vl2 -vl1) GO

Output Voltage (LSR) Formula

Output voltage =Input voltage-(Load current+Shunt Field Current)*Shunt field resistance
Vo=Vi-(Il+Ish)*Rsh

More formulas

Input Voltage (LSR) GO

Load Current (LSR) GO

Shunt Current (LSR) GO

Shunt Resistance (LSR) GO

what is shunt resistance?

A shunt regulator employs a shunt element that varies it's shunt current requirement to account for varying input voltages or changing load conditions

How to Calculate Output Voltage (LSR)?

Output Voltage (LSR) calculator uses Output voltage =Input voltage-(Load current+Shunt Field Current)*Shunt field resistance to calculate the Output voltage , Output Voltage (LSR) of a Linear shunt Regulator is the difference between the input voltage and multiplication of current flowing through shunt resistance. Output voltage and is denoted by V_o symbol.

How to calculate Output Voltage (LSR) using this online calculator? To use this online calculator for Output Voltage (LSR), enter Input voltage (V_i), Load current (Il), Shunt Field Current (Ish) and Shunt field resistance (Rsh) and hit the calculate button. Here is how the Output Voltage (LSR) calculation can be explained with given input values -> -179 = 1-(10+20)*6.

FAQ

What is Output Voltage (LSR)?

Output Voltage (LSR) of a Linear shunt Regulator is the difference between the input voltage and multiplication of current flowing through shunt resistance and is represented as V_o=V_i-(Il+Ish)*Rsh or Output voltage =Input voltage-(Load current+Shunt Field Current)*Shunt field resistance. Input voltage is the voltage supplied to the device, The load current is the current that the appliance is drawing at that instant, The shunt field current is the current which present in shunt field windings and Shunt field resistance is a device that creates a path that has a low resistance for electric current to flow.

How to calculate Output Voltage (LSR)?

Output Voltage (LSR) of a Linear shunt Regulator is the difference between the input voltage and multiplication of current flowing through shunt resistance is calculated using Output voltage =Input voltage-(Load current+Shunt Field Current)*Shunt field resistance. To calculate Output Voltage (LSR), you need Input voltage (V_i), Load current (Il), Shunt Field Current (Ish) and Shunt field resistance (Rsh). With our tool, you need to enter the respective value for Input voltage, Load current, Shunt Field Current and Shunt field resistance 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 Output voltage ?

In this formula, Output voltage uses Input voltage, Load current, Shunt Field Current and Shunt field resistance. We can use 9 other way(s) to calculate the same, which is/are as follows -

Output voltage =Open circuit voltage gain*Input voltage*(Load resistance/(Load resistance+Output resistance))
Output voltage =(R2/R1)*(vl2 -vl1)
Output voltage =duty Cycle*Input voltage
Output voltage =Input voltage*(1+(Input voltage*duty Cycle^2*time commutation/2*Inductance*output current ))
Output voltage =Input voltage/(1-duty Cycle)
Output voltage =Input voltage+((Input voltage^2*duty Cycle^2*time commutation)/2*Inductance*output current )
Output voltage =-Input voltage*duty Cycle/(1-duty Cycle)
Output voltage =Input voltage^2*duty Cycle^2*time commutation/(2*Inductance*output current )
Output voltage =-Input voltage*duty Cycle/(1-duty Cycle)

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