Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
Urvi Rathod has created this Calculator and 500+ more calculators!
Payal Priya
Birsa Institute of Technology (BIT), Sindri
Payal Priya has verified this Calculator and 500+ more calculators!

11 Other formulas that you can solve using the same Inputs

Shunt in ammeter
Shunt=Electric current through galvanometer*Resistance through galvanometer/(Electric Current-Electric current through galvanometer) GO
Heat Energy when an electric potential difference, the electric current and time taken
Heat Rate=Electric Potential Difference*Electric Current*Time Taken to Travel GO
Power In Single-Phase AC Circuits When Current Is Given
Power=Electric Current*Electric Current*Resistance*cos(Theta) GO
Electromotive force when battery is discharging
Voltage=(Electromotive Force)-(Electric Current*Resistance) GO
Electromotive force when battery is charging
Voltage=(Electromotive Force)+(Electric Current*Resistance) GO
Power when electric potential difference and electric current are given
Power=Electric Potential Difference*Electric Current GO
Current Density when Electric Current and Area is Given
Current Density=Electric Current/Area of Conductor GO
Heat generated through resistance
Heat Rate=Electric Current^2*Resistance*Time GO
Power In Single-Phase AC Circuits
Power=Voltage*Electric Current*cos(Theta) GO
Power, when electric current and resistance are given
Power=(Electric Current)^2*Resistance GO
Ohm's Law
Voltage=Electric Current*Resistance GO

11 Other formulas that calculate the same Output

Positive Sequence Current Using a-phase EMF (LGF)
Positive Sequence Current =EMF Induced In The Primary Winding/(Zero Sequence Impedance+Negative Sequence Impedance+Positive Sequence Impedance+(3*Fault Impedance )) GO
Positive Sequence Current Using Fault Impedance(LGF)
Positive Sequence Current =(Positive Sequence Voltage+Negative Sequence Voltage+Zero Sequence Voltage)/(3*Fault Impedance ) GO
Positive Sequence Current For L-G-F
Positive Sequence Current =(Positive Sequence Voltage-EMF Induced In The Primary Winding)/Positive Sequence Impedance GO
Positive Sequence Current Using Positive Sequence Voltage (LLGF)
Positive Sequence Current =(a-phase EMF-Positive Sequence Voltage)/Positive Sequence Impedance GO
Positive Sequence Current Using Positive Sequence Voltage(1OC)
Positive Sequence Current =(a-phase EMF-Positive Sequence Voltage)/Positive Sequence Impedance GO
Positive Sequence Current Using Negative Sequence Current(1OC)
Positive Sequence Current =(-1)*Negative Sequence Current -Zero Sequence Current GO
Positive Sequence Current For Delta Connected Load
Positive Sequence Current =3*Positive Sequence Voltage/Delta Impedance GO
Positive Sequence Current For Star Connected Load
Positive Sequence Current =Positive Sequence Voltage/Star Impedance GO
Positive Sequence Current (LLF)
Positive Sequence Current =(-1)*Negative Sequence Current GO
Positive Sequence Current Using a-phase Current (LGF)
Positive Sequence Current =a-phase Current /3 GO
Positive Sequence current using a-phase Current
Positive Sequence Current =a-phase Current /3 GO

Positive Sequence Current (3oc) Formula

Positive Sequence Current =(0)*Electric Current
I1=(0)*i
More formulas
a-phase Current (3oc) GO
b-phase Current (3oc) GO
c-phase Current (3oc) GO
Negative Sequence Current (3oc) GO
Zero Sequence Current (3oc) GO
Zero Sequence Potential differences (3oc) GO
Potential Difference Between a-Phase (3oc) GO
Potential Difference Between b-Phase (3oc) GO
Potential Difference Between c-Phase (3oc) GO
c-phase Potential Differences (3oc) GO

Why symmetrical fault is severe than unsymmetrical fault?

Obviously, the symmetrical fault is more severe than an asymmetrical fault. During an asymmetrical fault, all of the three-phase of the transmission line are short-circuited with each other or all of them are grounded. During this kind of fault, a huge short circuit current will flow from all the three-phase to the ground.

How to Calculate Positive Sequence Current (3oc)?

Positive Sequence Current (3oc) calculator uses Positive Sequence Current =(0)*Electric Current to calculate the Positive Sequence Current , The Positive Sequence Current (3oc) formula is defined as consists of balanced three-phase voltage and current phasors which are exactly at 120 degrees apart rotating counterclockwise in ABC rotation. Positive Sequence Current and is denoted by I1 symbol.

How to calculate Positive Sequence Current (3oc) using this online calculator? To use this online calculator for Positive Sequence Current (3oc), enter Electric Current (i) and hit the calculate button. Here is how the Positive Sequence Current (3oc) calculation can be explained with given input values -> 0 = (0)*20.

FAQ

What is Positive Sequence Current (3oc)?
The Positive Sequence Current (3oc) formula is defined as consists of balanced three-phase voltage and current phasors which are exactly at 120 degrees apart rotating counterclockwise in ABC rotation and is represented as I1=(0)*i or Positive Sequence Current =(0)*Electric Current. Electric Current is the time rate of flow of charge through a cross sectional area.
How to calculate Positive Sequence Current (3oc)?
The Positive Sequence Current (3oc) formula is defined as consists of balanced three-phase voltage and current phasors which are exactly at 120 degrees apart rotating counterclockwise in ABC rotation is calculated using Positive Sequence Current =(0)*Electric Current. To calculate Positive Sequence Current (3oc), you need Electric Current (i). With our tool, you need to enter the respective value for Electric Current 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 Positive Sequence Current ?
In this formula, Positive Sequence Current uses Electric Current. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Positive Sequence Current =Positive Sequence Voltage/Star Impedance
  • Positive Sequence Current =3*Positive Sequence Voltage/Delta Impedance
  • Positive Sequence Current =(Positive Sequence Voltage+Negative Sequence Voltage+Zero Sequence Voltage)/(3*Fault Impedance )
  • Positive Sequence Current =a-phase Current /3
  • Positive Sequence Current =a-phase Current /3
  • Positive Sequence Current =(Positive Sequence Voltage-EMF Induced In The Primary Winding)/Positive Sequence Impedance
  • Positive Sequence Current =EMF Induced In The Primary Winding/(Zero Sequence Impedance+Negative Sequence Impedance+Positive Sequence Impedance+(3*Fault Impedance ))
  • Positive Sequence Current =(-1)*Negative Sequence Current
  • Positive Sequence Current =(a-phase EMF-Positive Sequence Voltage)/Positive Sequence Impedance
  • Positive Sequence Current =(-1)*Negative Sequence Current -Zero Sequence Current
  • Positive Sequence Current =(a-phase EMF-Positive Sequence Voltage)/Positive Sequence Impedance
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