A-Parameter for Reciprocal Network in Nominal T Method Calculator

✖B Parameter in T is a generalized line constant. also known as short circuit resistance in a transmission line.ⓘ B Parameter in T [B_t]			+10% -10%
✖C Parameter is a generalized line constant. also known as an open circuit conductance in a transmission line.ⓘ C Parameter [C]			+10% -10%
✖D Parameter in T is a generalized line constant in a transmission line.ⓘ D Parameter in T [D_t]			+10% -10%

✖A Parameter in T is a generalized line constant in a two port transmission line.ⓘ A-Parameter for Reciprocal Network in Nominal T Method [A_t]

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Formula

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A-Parameter for Reciprocal Network in Nominal T Method

Formula

`"A"_{"t"} = (1+("B"_{"t"}*"C"))/"D"_{"t"}`

Example

`"0.501468"=(1+("9.66Ω"*"0.25S"))/"6.81"`

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Download Nominal T-Method in Medium Line Formulas PDF

A-Parameter for Reciprocal Network in Nominal T Method Solution

STEP 0: Pre-Calculation Summary

Formula Used

A Parameter in T = (1+(B Parameter in T*C Parameter))/D Parameter in T
A_t = (1+(B_t*C))/D_t
This formula uses 4 Variables

Variables Used

A Parameter in T - A Parameter in T is a generalized line constant in a two port transmission line.
B Parameter in T - (Measured in Ohm) - B Parameter in T is a generalized line constant. also known as short circuit resistance in a transmission line.
C Parameter - (Measured in Siemens) - C Parameter is a generalized line constant. also known as an open circuit conductance in a transmission line.
D Parameter in T - D Parameter in T is a generalized line constant in a transmission line.

STEP 1: Convert Input(s) to Base Unit

B Parameter in T: 9.66 Ohm --> 9.66 Ohm No Conversion Required
C Parameter: 0.25 Siemens --> 0.25 Siemens No Conversion Required
D Parameter in T: 6.81 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

A_t = (1+(B_t*C))/D_t --> (1+(9.66*0.25))/6.81

Evaluating ... ...

A_t = 0.501468428781204

STEP 3: Convert Result to Output's Unit

0.501468428781204 --> No Conversion Required

FINAL ANSWER

0.501468428781204 ≈ 0.501468 <-- A Parameter in T

(Calculation completed in 00.004 seconds)

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Home » Engineering » Electrical » Power System » Transmission Lines » Medium Line » Nominal T-Method in Medium Line » A-Parameter for Reciprocal Network in Nominal T Method

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Vishwakarma Government Engineering College (VGEC), Ahmedabad

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< 19 Nominal T-Method in Medium Line Calculators

Receiving End Angle using Sending End Power in Nominal T Method

Go Receiving End Phase Angle in T = acos((Sending End Power in T-Power Loss in T)/(Receiving End Voltage in T*Receiving End Current in T*3))

Sending End Current using Losses in Nominal T Method

Go Sending End Current in T = sqrt((Power Loss in T/(3/2)*Resistance in T)-(Receiving End Current in T^2))

Voltage Regulation using Nominal T Method

Go Voltage Regulation in T = (Sending End Voltage in T-Receiving End Voltage in T)/Receiving End Voltage in T

Receiving End Voltage using Capacitive Voltage in Nominal T Method

Go Receiving End Voltage in T = Capacitive Voltage in T-((Receiving End Current in T*Impedance in T)/2)

Impedance using Capacitive Voltage in Nominal T Method

Go Impedance in T = 2*(Capacitive Voltage in T-Receiving End Voltage in T)/Receiving End Current in T

Capacitive Voltage in Nominal T Method

Go Capacitive Voltage in T = Receiving End Voltage in T+(Receiving End Current in T*Impedance in T/2)

Losses in Nominal T Method

Go Power Loss in T = 3*(Resistance in T/2)*(Receiving End Current in T^2+Sending End Current in T^2)

Sending End Voltage using Capacitive Voltage in Nominal T Method

Go Sending End Voltage in T = Capacitive Voltage in T+((Sending End Current in T*Impedance in T)/2)

Capacitive Voltage using Sending End Voltage in Nominal T Method

Go Capacitive Voltage in T = Sending End Voltage in T-((Sending End Current in T*Impedance in T)/2)

B Parameter in Nominal T Method

Go B Parameter in T = Impedance in T*(1+(Impedance in T*Admittance in T/4))

A-Parameter for Reciprocal Network in Nominal T Method

Go A Parameter in T = (1+(B Parameter in T*C Parameter))/D Parameter in T

Sending End Voltage using Voltage Regulation in Nominal T Method

Go Sending End Voltage in T = Receiving End Voltage in T*(Voltage Regulation in T+1)

Transmission Efficiency in Nominal T Method

Go Transmission Efficiency in T = Receiving End Power in T/Sending End Power in T

Sending End Current in Nominal T Method

Go Sending End Current in T = Receiving End Current in T+Capacitive Current in T

Capacitive Current in Nominal T Method

Go Capacitive Current in T = Sending End Current in T-Receiving End Current in T

Admittance using A Parameter in Nominal T Method

Go Admittance in T = 2*(A Parameter in T-1)/Impedance in T

Admittance using D Parameter in Nominal T Method

Go Admittance in T = 2*(A Parameter in T-1)/Impedance in T

Impedance using D Parameter in Nominal T Method

Go Impedance in T = 2*(A Parameter in T-1)/Admittance in T

A-Parameter in Nominal T Method

Go A Parameter in T = 1+(Admittance in T*Impedance in T/2)

A-Parameter for Reciprocal Network in Nominal T Method Formula

A Parameter in T = (1+(B Parameter in T*C Parameter))/D Parameter in T
A_t = (1+(B_t*C))/D_t

What is nominal T method?

In the Nominal T model of the Transmission line, the whole shunt capacitance of the line is assumed to be lumped at the middle of the line. The half of the line resistance and reactance is assumed at either side of the shunt capacitance. Due to such modeling of line, the capacitive charging current is flowing through half of the transmission line.

How to Calculate A-Parameter for Reciprocal Network in Nominal T Method?

A-Parameter for Reciprocal Network in Nominal T Method calculator uses A Parameter in T = (1+(B Parameter in T*C Parameter))/D Parameter in T to calculate the A Parameter in T, The A-Parameter For Reciprocal Network in Nominal T method formula is defined as a generalized line constant. It is used for determining the performance of input, output voltage, and current of the transmission network. A Parameter in T is denoted by A_t symbol.

How to calculate A-Parameter for Reciprocal Network in Nominal T Method using this online calculator? To use this online calculator for A-Parameter for Reciprocal Network in Nominal T Method, enter B Parameter in T (B_t), C Parameter (C) & D Parameter in T (D_t) and hit the calculate button. Here is how the A-Parameter for Reciprocal Network in Nominal T Method calculation can be explained with given input values -> 0.501468 = (1+(9.66*0.25))/6.81.

FAQ

What is A-Parameter for Reciprocal Network in Nominal T Method?

The A-Parameter For Reciprocal Network in Nominal T method formula is defined as a generalized line constant. It is used for determining the performance of input, output voltage, and current of the transmission network and is represented as A_t = (1+(B_t*C))/D_t or A Parameter in T = (1+(B Parameter in T*C Parameter))/D Parameter in T. B Parameter in T is a generalized line constant. also known as short circuit resistance in a transmission line, C Parameter is a generalized line constant. also known as an open circuit conductance in a transmission line & D Parameter in T is a generalized line constant in a transmission line.

How to calculate A-Parameter for Reciprocal Network in Nominal T Method?

The A-Parameter For Reciprocal Network in Nominal T method formula is defined as a generalized line constant. It is used for determining the performance of input, output voltage, and current of the transmission network is calculated using A Parameter in T = (1+(B Parameter in T*C Parameter))/D Parameter in T. To calculate A-Parameter for Reciprocal Network in Nominal T Method, you need B Parameter in T (B_t), C Parameter (C) & D Parameter in T (D_t). With our tool, you need to enter the respective value for B Parameter in T, C Parameter & D Parameter in T 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 A Parameter in T?

In this formula, A Parameter in T uses B Parameter in T, C Parameter & D Parameter in T. We can use 1 other way(s) to calculate the same, which is/are as follows -

A Parameter in T = 1+(Admittance in T*Impedance in T/2)

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