C Parameter in Nominal Pi Method Calculator

✖Admittance in PI is the mathematical inverse of the impedance in a medium transmission line.ⓘ Admittance in PI [Y_pi]			+10% -10%
✖Impedance in PI is defined as the amount of opposition faced by the direct or alternating current when it passes through a conductor component, circuit.ⓘ Impedance in PI [Z_pi]			+10% -10%

✖C Parameter in PI is a generalized line constant. also known as an open circuit conductance in a transmission line.ⓘ C Parameter in Nominal Pi Method [C_pi]

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Formula

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C Parameter in Nominal Pi Method

Formula

`"C"_{"pi"} = "Y"_{"pi"}*(1+("Y"_{"pi"}*"Z"_{"pi"}/4))`

Example

`"0.022003S"="0.021S"*(1+("0.021S"*"9.1Ω"/4))`

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C Parameter in Nominal Pi Method Solution

STEP 0: Pre-Calculation Summary

Formula Used

C Parameter in PI = Admittance in PI*(1+(Admittance in PI*Impedance in PI/4))
C_pi = Y_pi*(1+(Y_pi*Z_pi/4))
This formula uses 3 Variables

Variables Used

C Parameter in PI - (Measured in Siemens) - C Parameter in PI is a generalized line constant. also known as an open circuit conductance in a transmission line.
Admittance in PI - (Measured in Siemens) - Admittance in PI is the mathematical inverse of the impedance in a medium transmission line.
Impedance in PI - (Measured in Ohm) - Impedance in PI is defined as the amount of opposition faced by the direct or alternating current when it passes through a conductor component, circuit.

STEP 1: Convert Input(s) to Base Unit

Admittance in PI: 0.021 Siemens --> 0.021 Siemens No Conversion Required
Impedance in PI: 9.1 Ohm --> 9.1 Ohm No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C_pi = Y_pi*(1+(Y_pi*Z_pi/4)) --> 0.021*(1+(0.021*9.1/4))

Evaluating ... ...

C_pi = 0.022003275

STEP 3: Convert Result to Output's Unit

0.022003275 Siemens --> No Conversion Required

FINAL ANSWER

0.022003275 ≈ 0.022003 Siemens <-- C Parameter 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

C Parameter in Nominal Pi Method Formula

C Parameter in PI = Admittance in PI*(1+(Admittance in PI*Impedance in PI/4))
C_pi = Y_pi*(1+(Y_pi*Z_pi/4))

What is ABCD parameter?

The A, B, C, and D are the constants also known as the transmission parameters or chain parameters. These parameters are used for the analysis of an electrical network. It is also used for determining the performance of input, output voltage, and current of the transmission network.

How to Calculate C Parameter in Nominal Pi Method?

C Parameter in Nominal Pi Method calculator uses C Parameter in PI = Admittance in PI*(1+(Admittance in PI*Impedance in PI/4)) to calculate the C Parameter in PI, The C Parameter in Nominal Pi Method formula is defined as a generalized line constant. also known as an open circuit conductance. It is used for determining the performance of input, output voltage, and current of the transmission network. C Parameter in PI is denoted by C_pi symbol.

How to calculate C Parameter in Nominal Pi Method using this online calculator? To use this online calculator for C Parameter in Nominal Pi Method, enter Admittance in PI (Y_pi) & Impedance in PI (Z_pi) and hit the calculate button. Here is how the C Parameter in Nominal Pi Method calculation can be explained with given input values -> 0.022003 = 0.021*(1+(0.021*9.1/4)).

FAQ

What is C Parameter in Nominal Pi Method?

The C Parameter in Nominal Pi Method formula is defined as a generalized line constant. also known as an open circuit conductance. It is used for determining the performance of input, output voltage, and current of the transmission network and is represented as C_pi = Y_pi*(1+(Y_pi*Z_pi/4)) or C Parameter in PI = Admittance in PI*(1+(Admittance in PI*Impedance in PI/4)). Admittance in PI is the mathematical inverse of the impedance in a medium transmission line & Impedance in PI is defined as the amount of opposition faced by the direct or alternating current when it passes through a conductor component, circuit.

How to calculate C Parameter in Nominal Pi Method?

The C Parameter in Nominal Pi Method formula is defined as a generalized line constant. also known as an open circuit conductance. It is used for determining the performance of input, output voltage, and current of the transmission network is calculated using C Parameter in PI = Admittance in PI*(1+(Admittance in PI*Impedance in PI/4)). To calculate C Parameter in Nominal Pi Method, you need Admittance in PI (Y_pi) & Impedance in PI (Z_pi). With our tool, you need to enter the respective value for Admittance in PI & Impedance in PI 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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