Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open) Calculator

✖Potential Difference between B Phase in TCO is defined as a difference in the amount of electric potential that a particle has due to its position between two locations in an electric field.ⓘ Potential Difference between B Phase in TCO [Vbb'_(tco)]			+10% -10%
✖Potential Difference Between C Phase in TCO is defined as a difference in the amount of electric potential that a particle has due to its position between two locations in an electric field.ⓘ Potential Difference between C Phase in TCO [Vcc'_(tco)]			+10% -10%

✖Zero Sequence Potential Difference in TCO is defined as consisting of balanced three-phase potential differences, phasors of which all have the same phase angles.ⓘ Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open) [Vaa'_0(tco)]

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Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open) Solution

STEP 0: Pre-Calculation Summary

Formula Used

Zero Sequence Potential Difference in TCO = (Potential Difference between B Phase in TCO+Potential Difference between C Phase in TCO)/3
Vaa'_0(tco) = (Vbb'_(tco)+Vcc'_(tco))/3
This formula uses 3 Variables

Variables Used

Zero Sequence Potential Difference in TCO - (Measured in Volt) - Zero Sequence Potential Difference in TCO is defined as consisting of balanced three-phase potential differences, phasors of which all have the same phase angles.
Potential Difference between B Phase in TCO - (Measured in Volt) - Potential Difference between B Phase in TCO is defined as a difference in the amount of electric potential that a particle has due to its position between two locations in an electric field.
Potential Difference between C Phase in TCO - (Measured in Volt) - Potential Difference Between C Phase in TCO is defined as a difference in the amount of electric potential that a particle has due to its position between two locations in an electric field.

STEP 1: Convert Input(s) to Base Unit

Potential Difference between B Phase in TCO: 8.1 Volt --> 8.1 Volt No Conversion Required
Potential Difference between C Phase in TCO: 2.88 Volt --> 2.88 Volt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Vaa'_0(tco) = (Vbb'_(tco)+Vcc'_(tco))/3 --> (8.1+2.88)/3

Evaluating ... ...

Vaa'_0(tco) = 3.66

STEP 3: Convert Result to Output's Unit

3.66 Volt --> No Conversion Required

FINAL ANSWER

3.66 Volt <-- Zero Sequence Potential Difference in TCO

(Calculation completed in 00.020 seconds)

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< Zero Sequence Calculators

Zero Sequence Potential Difference (Two Conductor Open)

LaTeX Go Zero Sequence Potential Difference in TCO = ((-1)*Positive Sequence Potential Difference in TCO)-(Negative Sequence Potential Difference in TCO)

Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open)

LaTeX Go Zero Sequence Potential Difference in TCO = (Potential Difference between B Phase in TCO+Potential Difference between C Phase in TCO)/3

Zero Sequence Impedance using Zero Sequence Voltage (Two Conductor Open)

LaTeX Go Zero Sequence Impedance in TCO = (-1)*Zero Sequence Voltage in TCO/Zero Sequence Current in TCO

Zero Sequence Voltage using Zero Sequence Current (Two Conductor Open)

LaTeX Go Zero Sequence Voltage in TCO = (-1)*Zero Sequence Current in TCO*Zero Sequence Impedance in TCO

Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open) Formula

LaTeX Go

Zero Sequence Potential Difference in TCO = (Potential Difference between B Phase in TCO+Potential Difference between C Phase in TCO)/3
Vaa'_0(tco) = (Vbb'_(tco)+Vcc'_(tco))/3

What is two conductor open fault?

When two phases of a balanced three-phase line open it creates an unbalance in the system and results in the flow of unbalanced currents. Such conditions occur in the system when one or two conductors of a transmission line are broken due to storms or if fuses, isolators, or circuit breakers operate only on one or two phases leaving others connected.

How to Calculate Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open)?

Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open) calculator uses Zero Sequence Potential Difference in TCO = (Potential Difference between B Phase in TCO+Potential Difference between C Phase in TCO)/3 to calculate the Zero Sequence Potential Difference in TCO, The Zero Sequence Potential Difference Using Potential Difference Between b-Phase(Two conductor open) formula is consists of balanced three-phase potential differences, phasors of which all have the same phase angles and rotate counterclockwise together. Zero Sequence Potential Difference in TCO is denoted by Vaa'_0(tco) symbol.

How to calculate Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open) using this online calculator? To use this online calculator for Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open), enter Potential Difference between B Phase in TCO (Vbb'_(tco)) & Potential Difference between C Phase in TCO (Vcc'_(tco)) and hit the calculate button. Here is how the Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open) calculation can be explained with given input values -> 3.656667 = (8.1+2.88)/3.

FAQ

What is Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open)?

The Zero Sequence Potential Difference Using Potential Difference Between b-Phase(Two conductor open) formula is consists of balanced three-phase potential differences, phasors of which all have the same phase angles and rotate counterclockwise together and is represented as Vaa'_0(tco) = (Vbb'_(tco)+Vcc'_(tco))/3 or Zero Sequence Potential Difference in TCO = (Potential Difference between B Phase in TCO+Potential Difference between C Phase in TCO)/3. Potential Difference between B Phase in TCO is defined as a difference in the amount of electric potential that a particle has due to its position between two locations in an electric field & Potential Difference Between C Phase in TCO is defined as a difference in the amount of electric potential that a particle has due to its position between two locations in an electric field.

How to calculate Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open)?

The Zero Sequence Potential Difference Using Potential Difference Between b-Phase(Two conductor open) formula is consists of balanced three-phase potential differences, phasors of which all have the same phase angles and rotate counterclockwise together is calculated using Zero Sequence Potential Difference in TCO = (Potential Difference between B Phase in TCO+Potential Difference between C Phase in TCO)/3. To calculate Zero Sequence Potential Difference using Potential Difference between B-Phase(Two Conductor Open), you need Potential Difference between B Phase in TCO (Vbb'_(tco)) & Potential Difference between C Phase in TCO (Vcc'_(tco)). With our tool, you need to enter the respective value for Potential Difference between B Phase in TCO & Potential Difference between C Phase in TCO 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 Zero Sequence Potential Difference in TCO?

In this formula, Zero Sequence Potential Difference in TCO uses Potential Difference between B Phase in TCO & Potential Difference between C Phase in TCO. We can use 1 other way(s) to calculate the same, which is/are as follows -

Zero Sequence Potential Difference in TCO = ((-1)*Positive Sequence Potential Difference in TCO)-(Negative Sequence Potential Difference in TCO)

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