A-Inverse Parameter (A'B'C'D'-Parameter) Calculator

✖Voltage port 2 is the pressure from an electrical circuit's power source that pushes charged electrons (current) through a conducting loop, enabling them to do work such as illuminating a light.ⓘ Voltage Port 2 [V₂]			+10% -10%
✖Voltage port 1 is the pressure from an electrical circuit's power source that pushes charged electrons (current) through a conducting loop, enabling them to do work such as illuminating a light.ⓘ Voltage Port 1 [V₁]			+10% -10%

✖A Inverse Parameter is forward open-circuit voltage gain.ⓘ A-Inverse Parameter (A'B'C'D'-Parameter) [A']

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Formula

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A-Inverse Parameter (A'B'C'D'-Parameter)

Formula

`"A'" = "V"_{"2"}/"V"_{"1"}`

Example

`"0.5"="220V"/"440V"`

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A-Inverse Parameter (A'B'C'D'-Parameter) Solution

STEP 0: Pre-Calculation Summary

Formula Used

A Inverse Parameter = Voltage Port 2/Voltage Port 1
A' = V₂/V₁
This formula uses 3 Variables

Variables Used

A Inverse Parameter - A Inverse Parameter is forward open-circuit voltage gain.
Voltage Port 2 - (Measured in Volt) - Voltage port 2 is the pressure from an electrical circuit's power source that pushes charged electrons (current) through a conducting loop, enabling them to do work such as illuminating a light.
Voltage Port 1 - (Measured in Volt) - Voltage port 1 is the pressure from an electrical circuit's power source that pushes charged electrons (current) through a conducting loop, enabling them to do work such as illuminating a light.

STEP 1: Convert Input(s) to Base Unit

Voltage Port 2: 220 Volt --> 220 Volt No Conversion Required
Voltage Port 1: 440 Volt --> 440 Volt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

A' = V₂/V₁ --> 220/440

Evaluating ... ...

A' = 0.5

STEP 3: Convert Result to Output's Unit

0.5 --> No Conversion Required

FINAL ANSWER

0.5 <-- A Inverse Parameter

(Calculation completed in 00.004 seconds)

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< 19 T-Parameters Calculators

Voltage 2 given Current 1 (ABCD Parameter)

Go Voltage Port 2 = (Current in Port 1+(D Parameter*Current in Port 2))/C Parameter

Current 1 (ABCD Parameter)

Go Current in Port 1 = (C Parameter*Voltage Port 2)-(D Parameter*Current in Port 2)

B Parameter given Voltage 1 (ABCD Parameter)

Go B Parameter = (-Voltage Port 1+(A Parameter*Voltage Port 2))/Current in Port 2

A-Parameter in Terms of Voltage 1 (ABCD Parameter)

Go A Parameter = (Voltage Port 1+(B Parameter*Current in Port 2))/Voltage Port 2

Current 2 given Voltage 1 (ABCD Parameter)

Go Current in Port 2 = ((A Parameter*Voltage Port 2)+Voltage Port 1)/B Parameter

Voltage 1 (ABCD Parameter)

Go Voltage Port 1 = (A Parameter*Voltage Port 2)-(B Parameter*Current in Port 2)

B Inverse Parameter (A'B'C'D'-Parameter)

Go B Inverse Parameter = -Voltage Port 2/Current in Port 1

Voltage-1 given A' Parameter (A'B'C'D'-Parameter)

Go Voltage Port 1 = Voltage Port 2/A Inverse Parameter

A-Inverse Parameter (A'B'C'D'-Parameter)

Go A Inverse Parameter = Voltage Port 2/Voltage Port 1

B Parameter (ABCD Parameter)

Go B Parameter = Voltage Port 1/(-Current in Port 2)

C Parameter (ABCD Parameter)

Go C Parameter = Current in Port 1/Voltage Port 2

Voltage 1 given A Parameter (ABCD Parameter)

Go Voltage Port 1 = A Parameter*Voltage Port 2

A-Parameter (ABCD Parameter)

Go A Parameter = Voltage Port 1/Voltage Port 2

A Parameter In Terms Of T' Parameters

Go A Parameter = D Inverse Parameter/Delta-T'

B Parameter in Terms of G Parameters

Go B Parameter = G22 Parameter/G21 Parameter

C Parameter in Terms of Y Parameters

Go C Parameter = -Delta-Y/Y21 Parameter

B Parameter in Terms of Z Parameters

Go B Parameter = Delta-Z/Z21 Parameter

C Parameter in Terms of Z Parameters

Go C Parameter = 1/Z21 Parameter

A Parameter In Terms Of G Parameters

Go A Parameter = 1/G21 Parameter

< 24 Two Port Parameters Calculators

D Inverse Parameter (A'B'C'D'-Parameter)

Go D Inverse Parameter = -Current in Port 2/Current in Port 1

B Inverse Parameter (A'B'C'D'-Parameter)

Go B Inverse Parameter = -Voltage Port 2/Current in Port 1

C Inverse Parameter (A'B'C'D'-Parameter)

Go C Inverse Parameter = Current in Port 2/Voltage Port 1

A-Inverse Parameter (A'B'C'D'-Parameter)

Go A Inverse Parameter = Voltage Port 2/Voltage Port 1

H21 Parameter (H-Parameter)

Go H21 Parameter = Current in Port 2/Current in Port 1

G12 Parameter (G-Parameter)

Go G12 Parameter = Current in Port 1/Current in Port 2

D Parameter (ABCD Parameter)

Go D Parameter = -Current in Port 1/Current in Port 2

B Parameter (ABCD Parameter)

Go B Parameter = Voltage Port 1/(-Current in Port 2)

Driving Point Output Admittance (Y22)

Go Y22 Parameter = Current in Port 2/Voltage Port 2

Driving Point Output Impedance (Z22)

Go Z22 Parameter = Voltage Port 2/Current in Port 2

Driving Point Input Admittance (Y11)

Go Y11 Parameter = Current in Port 1/Voltage Port 1

Driving Point Input Impedance (Z11)

Go Z11 Parameter = Voltage Port 1/Current in Port 1

Output Transfer Admittance (Y21)

Go Y21 Parameter = Current in Port 2/Voltage Port 1

Output Transfer Impedance (Z21)

Go Z21 Parameter = Voltage Port 2/Current in Port 1

Input Transfer Admittance (Y12)

Go Y12 Parameter = Current in Port 1/Voltage Port 2

Input Transfer Impedance (Z12)

Go Z12 Parameter = Voltage Port 1/Current in Port 2

H11 Parameter (H-Parameter)

Go H11 Parameter = Voltage Port 1/Current in Port 1

H22 Parameter (H-Parameter)

Go H22 Parameter = Current in Port 2/Voltage Port 2

G11 Parameter (G-Parameter)

Go G11 Parameter = Current in Port 1/Voltage Port 1

G22 Parameter (G-Parameter)

Go G22 Parameter = Voltage Port 2/Current in Port 2

C Parameter (ABCD Parameter)

Go C Parameter = Current in Port 1/Voltage Port 2

H12 Parameter (H-Parameter)

Go H12 Parameter = Voltage Port 1/Voltage Port 2

G21 Parameter (G-Parameter)

Go G21 Parameter = Voltage Port 2/Voltage Port 1

A-Parameter (ABCD Parameter)

Go A Parameter = Voltage Port 1/Voltage Port 2

A-Inverse Parameter (A'B'C'D'-Parameter) Formula

A Inverse Parameter = Voltage Port 2/Voltage Port 1
A' = V₂/V₁

What is the difference between transmission and inverse transmission parameters?

In Power Transmission Lines Port # 1 is the Sending end and Port # 2 is the Receiving end of the Transmission Line. Subscript s is for Sending End and subscript r is for Receiving End. The Inverse Transmission parameters relate the input current and voltage at port 1 to the output current and voltage at port 2.

How to Calculate A-Inverse Parameter (A'B'C'D'-Parameter)?

A-Inverse Parameter (A'B'C'D'-Parameter) calculator uses A Inverse Parameter = Voltage Port 2/Voltage Port 1 to calculate the A Inverse Parameter, The A-Inverse Parameter (A'B'C'D'-parameter) formula is defined as the forward open-circuit voltage gain of the A'B'C'D' Parameter or inverse transmission parameters. A Inverse Parameter is denoted by A' symbol.

How to calculate A-Inverse Parameter (A'B'C'D'-Parameter) using this online calculator? To use this online calculator for A-Inverse Parameter (A'B'C'D'-Parameter), enter Voltage Port 2 (V₂) & Voltage Port 1 (V₁) and hit the calculate button. Here is how the A-Inverse Parameter (A'B'C'D'-Parameter) calculation can be explained with given input values -> 0.5 = 220/440.

FAQ

What is A-Inverse Parameter (A'B'C'D'-Parameter)?

The A-Inverse Parameter (A'B'C'D'-parameter) formula is defined as the forward open-circuit voltage gain of the A'B'C'D' Parameter or inverse transmission parameters and is represented as A' = V₂/V₁ or A Inverse Parameter = Voltage Port 2/Voltage Port 1. Voltage port 2 is the pressure from an electrical circuit's power source that pushes charged electrons (current) through a conducting loop, enabling them to do work such as illuminating a light & Voltage port 1 is the pressure from an electrical circuit's power source that pushes charged electrons (current) through a conducting loop, enabling them to do work such as illuminating a light.

How to calculate A-Inverse Parameter (A'B'C'D'-Parameter)?

The A-Inverse Parameter (A'B'C'D'-parameter) formula is defined as the forward open-circuit voltage gain of the A'B'C'D' Parameter or inverse transmission parameters is calculated using A Inverse Parameter = Voltage Port 2/Voltage Port 1. To calculate A-Inverse Parameter (A'B'C'D'-Parameter), you need Voltage Port 2 (V₂) & Voltage Port 1 (V₁). With our tool, you need to enter the respective value for Voltage Port 2 & Voltage Port 1 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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