Devyaani Garg
Shiv Nadar University (SNU), Greater Noida
Devyaani Garg has created this Calculator and 50+ more calculators!
Nikita Suryawanshi
Vellore Institute of Technology (VIT), Vellore
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11 Other formulas that you can solve using the same Inputs

RMS output voltage of single phase semi-converter with highly inductive load
RMS output voltage=(Peak input voltage/(2^0.5))*((180-Delay angle of thyristor)/180+(0.5/pi)*sin(2*Delay angle of thyristor))^0.5 Go
RMS output voltage of single phase thyristor converter with resistive load
RMS output voltage=(Peak input voltage/2)*((180-Delay angle of thyristor)/180+(0.5/pi)*sin(2*Delay angle of thyristor))^0.5 Go
Average output voltage of single phase thyristor converter with resistive load
Average output voltage=(Peak input voltage/(2*pi))*(1+cos(Delay angle of thyristor)) Go
Average output voltage of a single phase full converter with highly inductive load
Average output voltage=(2*Peak input voltage/(pi))*(cos(Delay angle of thyristor)) Go
Average output voltage of single phase semi-converter with highly inductive load
Average output voltage=(Peak input voltage/pi)*(1+cos(Delay angle of thyristor)) Go
Real power for constant load current
Real power=Source RMS voltage*Source RMS voltage*(cos(Delay angle of thyristor)) Go
Normalized output voltage of a single phase semi-converter with highly inductive load
Normalized output voltage=0.5*(1+cos(Delay angle of thyristor)) Go
Normalized voltage of a single phase thyristor converter with resistive load
Normalized output voltage=0.5*(1+cos(Delay angle of thyristor)) Go
Normalized output voltage of single phase full converter with highly inductive load
Normalized output voltage=(cos(Delay angle of thyristor)) Go
Displacement power factor for constant load current
Displacement power factor=(cos(Delay angle of thyristor)) Go
Total power factor for continuous load current
Power Factor=(cos(Delay angle of thyristor)) Go

7 Other formulas that calculate the same Output

Power Factor Of Synchronous Motor Using 3-phase Mechanical Power
Power Factor=(Mechanical Power+(3*Armature Current*Armature Current*Armature resistance))/((3^(1/2))*Load current*Load Voltage ) Go
Power Factor Of Synchronous Motor Using 3-phase Input Power
Power Factor=Input Power/(Load current*Load Voltage )*(3^1/2) Go
Power Factor Of Synchronous Motor Using Input Power
Power Factor=Input Power/(Voltage*Armature Current) Go
Power Factor When Power Is Given
Power Factor=Power/(Voltage*Electric Current) Go
Total power factor for continuous load current
Power Factor=(cos(Delay angle of thyristor)) Go
Power Factor When Impedance Is Given
Power Factor=Resistance/Impedance Go
Power Factor
Power Factor=cos(Theta) Go

Total power factor for constant load current Formula

Power Factor=0.9*(cos(Delay angle of thyristor))
PF=0.9*(cos(α))
More formulas
Apparent power for constant load current Go
Real power for constant load current Go
Displacement power factor for constant load current Go
Total power factor for continuous load current Go
Real power for constant load current in terms of V<sub>m</sub> Go
Apparent power for constant load current in terms of V<sub>m</sub> Go
Fundamental component of source current for constant load current Go
RMS magnitude of fundamental source current for constant load current Go

What is the importance of power factor?

Improving the power factor can maximize current-carrying capacity, improve voltage to equipment, reduce power losses, and lower electric bills. The simplest way to improve the power factor is to add power factor correction capacitors to the electrical system.

How to Calculate Total power factor for constant load current?

Total power factor for constant load current calculator uses Power Factor=0.9*(cos(Delay angle of thyristor)) to calculate the Power Factor, The Total power factor for constant load current formula is the product of the displacement power factor and distortion power factor. It can also be calculated by finding the ratio of real power and apparent power. . Power Factor and is denoted by PF symbol.

How to calculate Total power factor for constant load current using this online calculator? To use this online calculator for Total power factor for constant load current, enter Delay angle of thyristor (α) and hit the calculate button. Here is how the Total power factor for constant load current calculation can be explained with given input values -> 0.779423 = 0.9*(cos(0.5235987755982)).

FAQ

What is Total power factor for constant load current?
The Total power factor for constant load current formula is the product of the displacement power factor and distortion power factor. It can also be calculated by finding the ratio of real power and apparent power. and is represented as PF=0.9*(cos(α)) or Power Factor=0.9*(cos(Delay angle of thyristor)). Delay angle of thyristor is the angle at which thyristors are triggered after zero crossing.
How to calculate Total power factor for constant load current?
The Total power factor for constant load current formula is the product of the displacement power factor and distortion power factor. It can also be calculated by finding the ratio of real power and apparent power. is calculated using Power Factor=0.9*(cos(Delay angle of thyristor)). To calculate Total power factor for constant load current, you need Delay angle of thyristor (α). With our tool, you need to enter the respective value for Delay angle of thyristor 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 Power Factor?
In this formula, Power Factor uses Delay angle of thyristor. We can use 7 other way(s) to calculate the same, which is/are as follows -
  • Power Factor=cos(Theta)
  • Power Factor=Power/(Voltage*Electric Current)
  • Power Factor=Resistance/Impedance
  • Power Factor=Input Power/(Voltage*Armature Current)
  • Power Factor=Input Power/(Load current*Load Voltage )*(3^1/2)
  • Power Factor=(Mechanical Power+(3*Armature Current*Armature Current*Armature resistance))/((3^(1/2))*Load current*Load Voltage )
  • Power Factor=(cos(Delay angle of thyristor))
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