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A-Phase EMF using Zero Sequence Current (LGF) Formula

GoA-Phase EMF using Positive Sequence Voltage (LGF) Formula

GoA-Phase EMF using Positive Sequence Current(LGF) Formula

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A phase EMF LG is defined as the electromagnetic force of the a-phase in open conductor fault. Check FAQs

E a(lg) = I 0(lg) \cdot ((3 \cdot Z f(lg)) + Z 0(lg) + Z 1(lg) + Z 2(lg))

E_a(lg) - A Phase EMF LG?I_0(lg) - Zero Sequence Current LG?Z_f(lg) - Fault Impedance LG?Z_0(lg) - Zero Sequence Impedance LG?Z_1(lg) - Positive Sequence Impedance LG?Z_2(lg) - Negative Sequence Impedance LG?

A-Phase EMF using Zero Sequence Current (LGF) Example

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Here is how the A-Phase EMF using Zero Sequence Current (LGF) equation looks like with Values.

Here is how the A-Phase EMF using Zero Sequence Current (LGF) equation looks like with Units.

Here is how the A-Phase EMF using Zero Sequence Current (LGF) equation looks like.

-53.152 = 2.2 \cdot ((3 \cdot 1.5) + 8 + 7.94 + -44.6)

-53.152V = 2.2A \cdot ((3 \cdot 1.5Ω) + 8Ω + 7.94Ω + -44.6Ω)

-53.152 = 2.2 \cdot ((3 \cdot 1.5) + 8 + 7.94 + -44.6)

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A-Phase EMF using Zero Sequence Current (LGF) Solution

Follow our step by step solution on how to calculate A-Phase EMF using Zero Sequence Current (LGF)?

FIRST Step Consider the formula

E a(lg) = I 0(lg) \cdot ((3 \cdot Z f(lg)) + Z 0(lg) + Z 1(lg) + Z 2(lg))

Next Step Substitute values of Variables

∴

E a(lg) = 2.2A \cdot ((3 \cdot 1.5Ω) + 8Ω + 7.94Ω + -44.6Ω)

Next Step Prepare to Evaluate

∴

E a(lg) = 2.2 \cdot ((3 \cdot 1.5) + 8 + 7.94 + -44.6)

LAST Step Evaluate

∴

E a(lg) = -53.152V

A-Phase EMF using Zero Sequence Current (LGF) Formula Elements

Variables

A Phase EMF LG

A phase EMF LG is defined as the electromagnetic force of the a-phase in open conductor fault.

Symbol: E_a(lg)

Measurement: Electric PotentialUnit: V

Note: Value can be positive or negative.

Formulas to find A Phase EMF LG

Zero Sequence Current LG

Zero Sequence Current LG consists of a balanced three-phase current, phasors of which all have the same phase angles and rotate counterclockwise together.

Symbol: I_0(lg)

Measurement: Electric CurrentUnit: A

Note: Value can be positive or negative.

Formulas to find Zero Sequence Current LG

Fault Impedance LG

Fault Impedance LG is a measure of the resistance and reactance in an electrical circuit that is used to calculate the fault current that flows through the circuit in the event of a fault.

Symbol: Z_f(lg)

Measurement: Electric ResistanceUnit: Ω

Note: Value should be greater than 0.

Formulas to find Fault Impedance LG

Zero Sequence Impedance LG

Zero Sequence Impedance LG consists of a balanced three-phase voltage and current, phasors of which all have the same phase angles and rotate counter clockwise together.

Symbol: Z_0(lg)

Measurement: Electric ResistanceUnit: Ω

Note: Value can be positive or negative.

Formulas to find Zero Sequence Impedance LG

Positive Sequence Impedance LG

Positive Sequence Impedance LG consists of balanced three-phase voltage and current phasors which are exactly at 120 degrees apart rotating counterclockwise in ABC rotation.

Symbol: Z_1(lg)

Measurement: Electric ResistanceUnit: Ω

Note: Value should be greater than 0.

Formulas to find Positive Sequence Impedance LG

Negative Sequence Impedance LG

Negative Sequence Impedance LG consists of balanced three-phase impedance phasors which are exactly at 120 degrees apart rotating counterclockwise in ACB rotation.

Symbol: Z_2(lg)

Measurement: Electric ResistanceUnit: Ω

Note: Value can be positive or negative.

Formulas to find Negative Sequence Impedance LG

Other Formulas to find A Phase EMF LG

Go A-Phase EMF using Positive Sequence Voltage (LGF)

E a(lg) = V 1(lg) + (Z 1(lg) \cdot I 1(lg))

Go A-Phase EMF using Positive Sequence Current(LGF)

E a(lg) = I 1(lg) \cdot ((3 \cdot Z f(lg)) + Z 0(lg) + Z 1(lg) + Z 2(lg))

Go A-Phase EMF using Negative Sequence Current (LGF)

E a(lg) = I 2(lg) \cdot ((3 \cdot Z f(lg)) + Z 0(lg) + Z 1(lg) + Z 2(lg))

Other formulas in Voltage and EMF category

Go Zero Sequence Voltage using A-Phase Current (LGF)

V 0(lg) = (Z f(lg) \cdot I a(lg)) - (V 2(lg)) - (V 1(lg))

Go A-Phase Voltage(LGF)

V a(lg) = Z f(lg) \cdot I a(lg)

Go Positive Sequence Voltage for L-G-F

V 1(lg) = E 1(lg) - (Z 1(lg) \cdot I 1(lg))

Go Zero Sequence Voltage for LGF

V 0(lg) = - Z 0(lg) \cdot I 0(lg)

How to Evaluate A-Phase EMF using Zero Sequence Current (LGF)?

A-Phase EMF using Zero Sequence Current (LGF) evaluator uses A Phase EMF LG = Zero Sequence Current LG*((3*Fault Impedance LG)+Zero Sequence Impedance LG+Positive Sequence Impedance LG+Negative Sequence Impedance LG) to evaluate the A Phase EMF LG, The a-phase EMF using Zero Sequence Current (LGF) formula is defined as the electromotive force of the A-phase current flowing line. A Phase EMF LG is denoted by E_a(lg) symbol.

How to evaluate A-Phase EMF using Zero Sequence Current (LGF) using this online evaluator? To use this online evaluator for A-Phase EMF using Zero Sequence Current (LGF), enter Zero Sequence Current LG (I_0(lg)), Fault Impedance LG (Z_f(lg)), Zero Sequence Impedance LG (Z_0(lg)), Positive Sequence Impedance LG (Z_1(lg)) & Negative Sequence Impedance LG (Z_2(lg)) and hit the calculate button.

FAQs on A-Phase EMF using Zero Sequence Current (LGF)

What is the formula to find A-Phase EMF using Zero Sequence Current (LGF)?

The formula of A-Phase EMF using Zero Sequence Current (LGF) is expressed as A Phase EMF LG = Zero Sequence Current LG*((3*Fault Impedance LG)+Zero Sequence Impedance LG+Positive Sequence Impedance LG+Negative Sequence Impedance LG). Here is an example- -53.152 = 2.2*((3*1.5)+8+7.94+(-44.6)).

How to calculate A-Phase EMF using Zero Sequence Current (LGF)?

With Zero Sequence Current LG (I_0(lg)), Fault Impedance LG (Z_f(lg)), Zero Sequence Impedance LG (Z_0(lg)), Positive Sequence Impedance LG (Z_1(lg)) & Negative Sequence Impedance LG (Z_2(lg)) we can find A-Phase EMF using Zero Sequence Current (LGF) using the formula - A Phase EMF LG = Zero Sequence Current LG*((3*Fault Impedance LG)+Zero Sequence Impedance LG+Positive Sequence Impedance LG+Negative Sequence Impedance LG).

What are the other ways to Calculate A Phase EMF LG?

Here are the different ways to Calculate A Phase EMF LG-

A Phase EMF LG=Positive Sequence Voltage LG+(Positive Sequence Impedance LG*Positive Sequence Current LG)
A Phase EMF LG=Positive Sequence Current LG*((3*Fault Impedance LG)+Zero Sequence Impedance LG+Positive Sequence Impedance LG+Negative Sequence Impedance LG)
A Phase EMF LG=Negative Sequence Current LG*((3*Fault Impedance LG)+Zero Sequence Impedance LG+Positive Sequence Impedance LG+Negative Sequence Impedance LG)

Can the A-Phase EMF using Zero Sequence Current (LGF) be negative?

Yes, the A-Phase EMF using Zero Sequence Current (LGF), measured in Electric Potential can be negative.

Which unit is used to measure A-Phase EMF using Zero Sequence Current (LGF)?

A-Phase EMF using Zero Sequence Current (LGF) is usually measured using the Volt[V] for Electric Potential. Millivolt[V], Microvolt[V], Nanovolt[V] are the few other units in which A-Phase EMF using Zero Sequence Current (LGF) can be measured.

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A-Phase EMF using Zero Sequence Current (LGF) Formula

​GoA-Phase EMF using Positive Sequence Voltage (LGF) Formula

​GoA-Phase EMF using Positive Sequence Current(LGF) Formula

A-Phase EMF using Zero Sequence Current (LGF) Example

A-Phase EMF using Zero Sequence Current (LGF) Solution

A-Phase EMF using Zero Sequence Current (LGF) Formula Elements

Other Formulas to find A Phase EMF LG

Other formulas in Voltage and EMF category

How to Evaluate A-Phase EMF using Zero Sequence Current (LGF)?

FAQs on A-Phase EMF using Zero Sequence Current (LGF)

Variable Name

GoA-Phase EMF using Positive Sequence Voltage (LGF) Formula

GoA-Phase EMF using Positive Sequence Current(LGF) Formula