Transmitted Voltage using Incident Voltage (Line PL) Solution

STEP 0: Pre-Calculation Summary
Formula Used
Transmitted Voltage = (2*Incident Voltage)/(Impedance of Primary Winding*((1/Impedance of Primary Winding)+(1/Impedance of Secondary Winding)+(1/Impedance of Tertiary Winding)))
Vt = (2*Vi)/(Z1*((1/Z1)+(1/Z2)+(1/Z3)))
This formula uses 5 Variables
Variables Used
Transmitted Voltage - (Measured in Volt) - Transmitted Voltage is defined as the Voltage wave that is traveling through the Load of the Transmission line.
Incident Voltage - (Measured in Volt) - The Incident Voltage on the transmission line is equal to half the generator voltage.
Impedance of Primary Winding - (Measured in Ohm) - The Impedance of Primary Winding is the total of primary Resistance and Reactance.
Impedance of Secondary Winding - (Measured in Ohm) - The Impedance of Secondary Winding is the impedance that is in Secondary winding.
Impedance of Tertiary Winding - (Measured in Ohm) - Impedance of Tertiary Winding in electrical devices, refers to the amount of opposition faced by the direct or alternating current when it passes through a conductor component, circuit, or system.
STEP 1: Convert Input(s) to Base Unit
Incident Voltage: 6 Volt --> 6 Volt No Conversion Required
Impedance of Primary Winding: 18 Ohm --> 18 Ohm No Conversion Required
Impedance of Secondary Winding: 16 Ohm --> 16 Ohm No Conversion Required
Impedance of Tertiary Winding: 22 Ohm --> 22 Ohm No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Vt = (2*Vi)/(Z1*((1/Z1)+(1/Z2)+(1/Z3))) --> (2*6)/(18*((1/18)+(1/16)+(1/22)))
Evaluating ... ...
Vt = 4.07722007722008
STEP 3: Convert Result to Output's Unit
4.07722007722008 Volt --> No Conversion Required
FINAL ANSWER
4.07722007722008 4.07722 Volt <-- Transmitted Voltage
(Calculation completed in 00.004 seconds)

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​ LaTeX ​ Go Reflected Current = Incident Current-Transmitted Current-Transmitted Current
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​ LaTeX ​ Go Incident Current = Reflected Current-Transmitted Current-Transmitted Current
Transmitted Voltage using Transmitted Current-2 (Line PL)
​ LaTeX ​ Go Transmitted Voltage = Transmitted Current*Impedance of Secondary Winding
Transmitted Voltage using Transmitted Current-3 (Line PL)
​ LaTeX ​ Go Transmitted Voltage = Transmitted Current*Impedance of Tertiary Winding

Transmitted Voltage using Incident Voltage (Line PL) Formula

​LaTeX ​Go
Transmitted Voltage = (2*Incident Voltage)/(Impedance of Primary Winding*((1/Impedance of Primary Winding)+(1/Impedance of Secondary Winding)+(1/Impedance of Tertiary Winding)))
Vt = (2*Vi)/(Z1*((1/Z1)+(1/Z2)+(1/Z3)))

What is the incident voltage?

Incident Voltage is the voltage wave that is traveling from the sending end to the receiving end of the Transmission line.

How to Calculate Transmitted Voltage using Incident Voltage (Line PL)?

Transmitted Voltage using Incident Voltage (Line PL) calculator uses Transmitted Voltage = (2*Incident Voltage)/(Impedance of Primary Winding*((1/Impedance of Primary Winding)+(1/Impedance of Secondary Winding)+(1/Impedance of Tertiary Winding))) to calculate the Transmitted Voltage, The Transmitted Voltage using Incident Voltage (line PL) formula is defined as the voltage wave that is traveling through the Load of the Transmission line. Transmitted Voltage is denoted by Vt symbol.

How to calculate Transmitted Voltage using Incident Voltage (Line PL) using this online calculator? To use this online calculator for Transmitted Voltage using Incident Voltage (Line PL), enter Incident Voltage (Vi), Impedance of Primary Winding (Z1), Impedance of Secondary Winding (Z2) & Impedance of Tertiary Winding (Z3) and hit the calculate button. Here is how the Transmitted Voltage using Incident Voltage (Line PL) calculation can be explained with given input values -> 4.07722 = (2*6)/(18*((1/18)+(1/16)+(1/22))).

FAQ

What is Transmitted Voltage using Incident Voltage (Line PL)?
The Transmitted Voltage using Incident Voltage (line PL) formula is defined as the voltage wave that is traveling through the Load of the Transmission line and is represented as Vt = (2*Vi)/(Z1*((1/Z1)+(1/Z2)+(1/Z3))) or Transmitted Voltage = (2*Incident Voltage)/(Impedance of Primary Winding*((1/Impedance of Primary Winding)+(1/Impedance of Secondary Winding)+(1/Impedance of Tertiary Winding))). The Incident Voltage on the transmission line is equal to half the generator voltage, The Impedance of Primary Winding is the total of primary Resistance and Reactance, The Impedance of Secondary Winding is the impedance that is in Secondary winding & Impedance of Tertiary Winding in electrical devices, refers to the amount of opposition faced by the direct or alternating current when it passes through a conductor component, circuit, or system.
How to calculate Transmitted Voltage using Incident Voltage (Line PL)?
The Transmitted Voltage using Incident Voltage (line PL) formula is defined as the voltage wave that is traveling through the Load of the Transmission line is calculated using Transmitted Voltage = (2*Incident Voltage)/(Impedance of Primary Winding*((1/Impedance of Primary Winding)+(1/Impedance of Secondary Winding)+(1/Impedance of Tertiary Winding))). To calculate Transmitted Voltage using Incident Voltage (Line PL), you need Incident Voltage (Vi), Impedance of Primary Winding (Z1), Impedance of Secondary Winding (Z2) & Impedance of Tertiary Winding (Z3). With our tool, you need to enter the respective value for Incident Voltage, Impedance of Primary Winding, Impedance of Secondary Winding & Impedance of Tertiary Winding 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 Transmitted Voltage?
In this formula, Transmitted Voltage uses Incident Voltage, Impedance of Primary Winding, Impedance of Secondary Winding & Impedance of Tertiary Winding. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Transmitted Voltage = Transmitted Current*Impedance of Secondary Winding
  • Transmitted Voltage = Transmitted Current*Impedance of Tertiary Winding
  • Transmitted Voltage = Transmission Coefficient of Current*Incident Voltage*Impedance of Secondary Winding/(Impedance of Primary Winding)
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