Losses in Nominal Pi Method Solution

STEP 0: Pre-Calculation Summary
Formula Used
Power Loss in PI = (Load Current in PI^2)*Resistance in PI
Ploss(pi) = (IL(pi)^2)*Rpi
This formula uses 3 Variables
Variables Used
Power Loss in PI - (Measured in Watt) - Power Loss in PI is defined as the deviation in the power transferred from sending end to receiving end of a medium transmission line.
Load Current in PI - (Measured in Ampere) - The Load Current in PI is the current that the appliance is drawing at that instant.
Resistance in PI - (Measured in Ohm) - Resistance in PI is a measure of the opposition to current flow in a medium length transmission line.
STEP 1: Convert Input(s) to Base Unit
Load Current in PI: 3.36 Ampere --> 3.36 Ampere No Conversion Required
Resistance in PI: 7.54 Ohm --> 7.54 Ohm No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ploss(pi) = (IL(pi)^2)*Rpi --> (3.36^2)*7.54
Evaluating ... ...
Ploss(pi) = 85.123584
STEP 3: Convert Result to Output's Unit
85.123584 Watt --> No Conversion Required
FINAL ANSWER
85.123584 85.12358 Watt <-- Power Loss in PI
(Calculation completed in 00.004 seconds)

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20 Nominal Pi-Method in Medium Line Calculators

Receiving End Current using Transmission Efficiency in Nominal Pi Method
Go Receiving End Current in PI = (Transmission Efficiency in PI*Sending End Power in PI)/(3*Receiving End Voltage in PI*(cos(Receiving End Phase Angle in PI)))
Receiving End Angle using Transmission Efficiency in Nominal Pi Method
Go Receiving End Phase Angle in PI = acos((Transmission Efficiency in PI*Sending End Power in PI)/(3*Receiving End Current in PI*Receiving End Voltage in PI))
Sending End Voltage using Transmission Efficiency in Nominal Pi Method
Go Sending End Voltage in PI = Receiving End Power in PI/(3*cos(Sending End Phase Angle in PI)*Sending End Current in PI)/Transmission Efficiency in PI
Sending End Current using Transmission Efficiency in Nominal Pi Method
Go Sending End Current in PI = Receiving End Power in PI/(3*cos(Sending End Phase Angle in PI)*Transmission Efficiency in PI*Sending End Voltage in PI)
Receiving End Voltage using Sending End Power in Nominal Pi Method
Go Receiving End Voltage in PI = (Sending End Power in PI-Power Loss in PI)/(Receiving End Current in PI*cos(Receiving End Phase Angle in PI))
Load Current using Transmission Efficiency in Nominal Pi Method
Go Load Current in PI = sqrt(((Receiving End Power in PI/Transmission Efficiency in PI)-Receiving End Power in PI)/Resistance in PI*3)
Voltage Regulation (Nominal Pi Method)
Go Voltage Regulation in PI = (Sending End Voltage in PI-Receiving End Voltage in PI)/Receiving End Voltage in PI
Losses using Transmission Efficiency in Nominal Pi Method
Go Power Loss in PI = (Receiving End Power in PI/Transmission Efficiency in PI)-Receiving End Power in PI
B Parameter for Reciprocal Network in Nominal Pi Method
Go B Parameter in PI = ((A Parameter in PI*D Parameter in PI)-1)/C Parameter in PI
C Parameter in Nominal Pi Method
Go C Parameter in PI = Admittance in PI*(1+(Admittance in PI*Impedance in PI/4))
Load Current using Losses in Nominal Pi Method
Go Load Current in PI = sqrt(Power Loss in PI/Resistance in PI)
Receiving End Voltage using Voltage Regulation in Nominal Pi Method
Go Receiving End Voltage in PI = Sending End Voltage in PI/(Voltage Regulation in PI+1)
Sending End Voltage using Voltage Regulation in Nominal Pi Method
Go Sending End Voltage in PI = Receiving End Voltage in PI*(Voltage Regulation in PI+1)
Sending End Power using Transmission Efficiency in Nominal Pi Method
Go Sending End Power in PI = Receiving End Power in PI/Transmission Efficiency in PI
Transmission Efficiency (Nominal Pi Method)
Go Transmission Efficiency in PI = Receiving End Power in PI/Sending End Power in PI
Impedance using A Parameter in Nominal Pi Method
Go Impedance in PI = 2*(A Parameter in PI-1)/Admittance in PI
A-Parameter in Nominal Pi Method
Go A Parameter in PI = 1+(Admittance in PI*Impedance in PI/2)
D Parameter in Nominal Pi Method
Go D Parameter in PI = 1+(Impedance in PI*Admittance in PI/2)
Losses in Nominal Pi Method
Go Power Loss in PI = (Load Current in PI^2)*Resistance in PI
Resistance using Losses in Nominal Pi Method
Go Resistance in PI = Power Loss in PI/Load Current in PI^2

Losses in Nominal Pi Method Formula

Power Loss in PI = (Load Current in PI^2)*Resistance in PI
Ploss(pi) = (IL(pi)^2)*Rpi

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 Losses in Nominal Pi Method?

Losses in Nominal Pi Method calculator uses Power Loss in PI = (Load Current in PI^2)*Resistance in PI to calculate the Power Loss in PI, The Losses in Nominal Pi method formula is defined as the ratio of the power absorbed by the input circuit of a transducer to the power delivered to a specified load; usually expressed in decibels. Power Loss in PI is denoted by Ploss(pi) symbol.

How to calculate Losses in Nominal Pi Method using this online calculator? To use this online calculator for Losses in Nominal Pi Method, enter Load Current in PI (IL(pi)) & Resistance in PI (Rpi) and hit the calculate button. Here is how the Losses in Nominal Pi Method calculation can be explained with given input values -> 84.7849 = (3.36^2)*7.54.

FAQ

What is Losses in Nominal Pi Method?
The Losses in Nominal Pi method formula is defined as the ratio of the power absorbed by the input circuit of a transducer to the power delivered to a specified load; usually expressed in decibels and is represented as Ploss(pi) = (IL(pi)^2)*Rpi or Power Loss in PI = (Load Current in PI^2)*Resistance in PI. The Load Current in PI is the current that the appliance is drawing at that instant & Resistance in PI is a measure of the opposition to current flow in a medium length transmission line.
How to calculate Losses in Nominal Pi Method?
The Losses in Nominal Pi method formula is defined as the ratio of the power absorbed by the input circuit of a transducer to the power delivered to a specified load; usually expressed in decibels is calculated using Power Loss in PI = (Load Current in PI^2)*Resistance in PI. To calculate Losses in Nominal Pi Method, you need Load Current in PI (IL(pi)) & Resistance in PI (Rpi). With our tool, you need to enter the respective value for Load Current in PI & Resistance in PI 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 Power Loss in PI?
In this formula, Power Loss in PI uses Load Current in PI & Resistance in PI. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Power Loss in PI = (Receiving End Power in PI/Transmission Efficiency in PI)-Receiving End Power in PI
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