Transmission Efficiency in Nominal T Method Calculator

✖Receiving End Power in T is defined as the power at receiving end in a medium transmission line.ⓘ Receiving End Power in T [P_r(t)]			+10% -10%
✖Sending End Power in T is defined as the power at receiving end of a medium transmission line.ⓘ Sending End Power in T [P_s(t)]			+10% -10%

✖Transmission Efficiency in T is the total sideband power by the total transmitted power.ⓘ Transmission Efficiency in Nominal T Method [η_t]

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Transmission Efficiency in Nominal T Method

Formula

`"η"_{"t"} = "P"_{"r(t)"}/"P"_{"s(t)"}`

Example

`"30.5122"="250.2W"/"8.2W"`

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Transmission Efficiency in Nominal T Method Solution

STEP 0: Pre-Calculation Summary

Formula Used

Transmission Efficiency in T = Receiving End Power in T/Sending End Power in T
η_t = P_r(t)/P_s(t)
This formula uses 3 Variables

Variables Used

Transmission Efficiency in T - Transmission Efficiency in T is the total sideband power by the total transmitted power.
Receiving End Power in T - (Measured in Watt) - Receiving End Power in T is defined as the power at receiving end in a medium transmission line.
Sending End Power in T - (Measured in Watt) - Sending End Power in T is defined as the power at receiving end of a medium transmission line.

STEP 1: Convert Input(s) to Base Unit

Receiving End Power in T: 250.2 Watt --> 250.2 Watt No Conversion Required
Sending End Power in T: 8.2 Watt --> 8.2 Watt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

η_t = P_r(t)/P_s(t) --> 250.2/8.2

Evaluating ... ...

η_t = 30.5121951219512

STEP 3: Convert Result to Output's Unit

30.5121951219512 --> No Conversion Required

FINAL ANSWER

30.5121951219512 ≈ 30.5122 <-- Transmission Efficiency in T

(Calculation completed in 00.004 seconds)

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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)

Transmission Efficiency in Nominal T Method Formula

Transmission Efficiency in T = Receiving End Power in T/Sending End Power in T
η_t = P_r(t)/P_s(t)

What is the difference between Nominal T Method and Nominal π 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. In the Nominal π Method, the shunt capacitance of each line i.e. phase to neutral is divided into two equal parts.

How to Calculate Transmission Efficiency in Nominal T Method?

Transmission Efficiency in Nominal T Method calculator uses Transmission Efficiency in T = Receiving End Power in T/Sending End Power in T to calculate the Transmission Efficiency in T, The Transmission Efficiency in Nominal T Method formula is defined as power output divided by the input power, multiplied by ₁₀₀. Transmission Efficiency in T is denoted by η_t symbol.

How to calculate Transmission Efficiency in Nominal T Method using this online calculator? To use this online calculator for Transmission Efficiency in Nominal T Method, enter Receiving End Power in T (P_r(t)) & Sending End Power in T (P_s(t)) and hit the calculate button. Here is how the Transmission Efficiency in Nominal T Method calculation can be explained with given input values -> 30.5122 = 250.2/8.2.

FAQ

What is Transmission Efficiency in Nominal T Method?

The Transmission Efficiency in Nominal T Method formula is defined as power output divided by the input power, multiplied by ₁₀₀ and is represented as η_t = P_r(t)/P_s(t) or Transmission Efficiency in T = Receiving End Power in T/Sending End Power in T. Receiving End Power in T is defined as the power at receiving end in a medium transmission line & Sending End Power in T is defined as the power at receiving end of a medium transmission line.

How to calculate Transmission Efficiency in Nominal T Method?

The Transmission Efficiency in Nominal T Method formula is defined as power output divided by the input power, multiplied by ₁₀₀ is calculated using Transmission Efficiency in T = Receiving End Power in T/Sending End Power in T. To calculate Transmission Efficiency in Nominal T Method, you need Receiving End Power in T (P_r(t)) & Sending End Power in T (P_s(t)). With our tool, you need to enter the respective value for Receiving End Power in T & Sending End Power in T 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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