Receiving End Power Using Transmission Efficiency (Nominal pi-method) Calculator

Category	Engineering ↺

✖Transmission efficiency is the total sideband power by the total transmitted power.ⓘ Transmission efficiency [η]			+10% -10%
✖Sending End Power is defined as the power at sending end of the system.ⓘ Sending End Power [Ps]			+10% -10%

✖Receiving End Power is defined as the power at receiving end of the system.ⓘ Receiving End Power Using Transmission Efficiency (Nominal pi-method) [Pr]

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Urvi Rathod

Vishwakarma Government Engineering College (VGEC), Ahmedabad

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

Payal Priya

Birsa Institute of Technology (BIT), Sindri

Payal Priya has verified this Calculator and 500+ more calculators!

< 11 Other formulas that you can solve using the same Inputs

Resistance Using Transmission Efficiency (STL)

Resistance=((Receiving end voltage *Receiving end current *cos(Receiving end theta)/Transmission efficiency)-(Receiving end voltage *Receiving end current *cos(Receiving end theta)))/(Receiving end current ^2) GO

Losses Using Transmission Efficiency (STL)

Power Loss=((3*Receiving end voltage *Receiving end current *cos(Receiving end theta))/Transmission efficiency)-(3*Receiving end voltage *Receiving end current *cos(Receiving end theta)) GO

Receiving End Angle Using Transmission Efficiency (STL)

Receiving end theta=acos(Transmission efficiency*Sending End Voltage*Sending end current *cos(Sending end theta)/(Receiving end current *Receiving end voltage )) GO

Sending End Angle Using Transmission Efficiency (STL)

Sending end theta=acos(Receiving end voltage *Receiving end current *cos(Receiving end theta)/(Transmission efficiency*Sending end current *Sending End Voltage)) GO

Receiving End Voltage Using Transmission Efficiency (STL)

Receiving end voltage =Transmission efficiency*Sending End Voltage*Sending end current *cos(Sending end theta)/(Receiving end current *cos(Receiving end theta)) GO

Receiving End Current Using Transmission Efficiency (STL)

Receiving end current =Transmission efficiency*Sending End Voltage*Sending end current *cos(Sending end theta)/(Receiving end voltage *cos(Receiving end theta)) GO

Sending End Voltage Using Transmission Efficiency (STL)

Sending End Voltage=Receiving end voltage *Receiving end current *cos(Receiving end theta)/(Transmission efficiency*Sending end current *cos(Sending end theta)) GO

Sending End Current Using Transmission Efficiency (STL)

Sending end current =Receiving end voltage *Receiving end current *cos(Receiving end theta)/(Transmission efficiency*Sending End Voltage*cos(Sending end theta)) GO

Sending End Angle Using Sending End Power (STL)

Sending end theta=acos(Sending End Power/(Sending End Voltage*Sending end current *3)) GO

Sending End Current Using Sending End Power (STL)

Sending end current =Sending End Power/(3*Sending End Voltage*cos(Sending end theta)) GO

Sending End Voltage Using Sending End Power (STL)

Sending End Voltage=Sending End Power/(3*Sending end current *cos(Sending end theta)) GO

< 4 Other formulas that calculate the same Output

Receiving End Power (STL)

Receiving End Power=3*Receiving end voltage *Receiving end current *cos(Receiving end theta) GO

Receiving End Power Using Transmission Efficiency (Nominal T-method)

Receiving End Power=Transmission efficiency*Sending End Power GO

Receiving End Power Using Transmission Efficiency(ECM)

Receiving End Power=Sending End Power*Transmission efficiency GO

Receiving End Power Using Sending End Power(ECM)

Receiving End Power=Sending End Power-Power Loss GO

Receiving End Power Using Transmission Efficiency (Nominal pi-method) Formula

Receiving End Power=Transmission efficiency*Sending End Power
Pr=η*Ps

More formulas

Transmission Efficiency (Nominal pi-method) GO

Receiving End Voltage Using Transmission Efficiency (Nominal pi-method) GO

Receiving End Current Using Transmission Efficiency (Nominal pi-method) GO

Receiving End Angle Using Transmission Efficiency (Nominal pi-method) GO

Sending End Angle Using Transmission Efficiency (Nominal pi-method) GO

Sending End Voltage Using Transmission Efficiency (Nominal pi-method) GO

Sending End Current Using Transmission Efficiency (Nominal pi-method) GO

Sending End Power Using Transmission Efficiency (Nominal pi-method) GO

Losses Using Transmission Efficiency (Nominal pi-method) GO

Load Current Using Transmission Efficiency (Nominal pi-method) GO

Resistance Using Transmission Efficiency (Nominal pi-method) GO

Losses (Nominal pi-method) GO

Resistance Using Losses (Nominal pi-method) GO

Load Current Using Losses (Nominal pi-method) GO

Losses Using Sending End Power (Nominal pi-method) GO

Receiving End Current Using Sending End Power (Nominal pi-method) GO

Receiving End Voltage Using Sending End Power (Nominal pi-method) GO

Receiving End Angle Using Sending End Power (Nominal pi-method) GO

Which of the following transmission line can be considered as a medium transmission line?

The transmission lines having a length of more than 80 Km and less than 200 Km are considered medium transmission lines. Their operating voltage is more than short transmission lines but less than long transmission lines.

How to Calculate Receiving End Power Using Transmission Efficiency (Nominal pi-method)?

Receiving End Power Using Transmission Efficiency (Nominal pi-method) calculator uses Receiving End Power=Transmission efficiency*Sending End Power to calculate the Receiving End Power, The Receiving End Power Using Transmission Efficiency (Nominal pi-method) formula is defined as the power at the receiving end of the medium transmission line. Receiving End Power and is denoted by Pr symbol.

How to calculate Receiving End Power Using Transmission Efficiency (Nominal pi-method) using this online calculator? To use this online calculator for Receiving End Power Using Transmission Efficiency (Nominal pi-method), enter Transmission efficiency (η) and Sending End Power (Ps) and hit the calculate button. Here is how the Receiving End Power Using Transmission Efficiency (Nominal pi-method) calculation can be explained with given input values -> 400 = 50*8.

FAQ

What is Receiving End Power Using Transmission Efficiency (Nominal pi-method)?

The Receiving End Power Using Transmission Efficiency (Nominal pi-method) formula is defined as the power at the receiving end of the medium transmission line and is represented as Pr=η*Ps or Receiving End Power=Transmission efficiency*Sending End Power. Transmission efficiency is the total sideband power by the total transmitted power and Sending End Power is defined as the power at sending end of the system.

How to calculate Receiving End Power Using Transmission Efficiency (Nominal pi-method)?

The Receiving End Power Using Transmission Efficiency (Nominal pi-method) formula is defined as the power at the receiving end of the medium transmission line is calculated using Receiving End Power=Transmission efficiency*Sending End Power. To calculate Receiving End Power Using Transmission Efficiency (Nominal pi-method), you need Transmission efficiency (η) and Sending End Power (Ps). With our tool, you need to enter the respective value for Transmission efficiency and Sending End Power 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 Receiving End Power?

In this formula, Receiving End Power uses Transmission efficiency and Sending End Power. We can use 4 other way(s) to calculate the same, which is/are as follows -

Receiving End Power=3*Receiving end voltage *Receiving end current *cos(Receiving end theta)
Receiving End Power=Transmission efficiency*Sending End Power
Receiving End Power=Sending End Power*Transmission efficiency
Receiving End Power=Sending End Power-Power Loss

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