11 Other formulas that you can solve using the same Inputs

Series Generator Terminal Voltage
Voltage=Induced voltage-(Armature Current*(Armature resistance+Series field resistance)) GO
Mechanical Power Of When Input Power Is Given
Mechanical Power=Input Power-(Armature Current*Armature Current*Armature resistance) GO
Power Loss Due To Brush Drop
Power Loss Due to Brush Drop=Armature Current*Voltage drop due to brush drop GO
Armature Copper Loss
Armature Copper Loss=Armature Current*Armature Current*Armature resistance GO
Back EMF
Electromotive Force=Voltage-(Armature Current*Armature resistance) GO
Mechanical Efficiency
Efficiency =Induced voltage*Armature Current/Angular Speed*Torque GO
Shunt Generator Terminal Voltage
Voltage=Induced voltage-(Armature Current*Armature resistance) GO
Input Power Per Phase
Input Power=Voltage*Armature Current*cos(Theta) GO
Field Current When Load Current Is Given
Field Current=Armature Current-Load current GO
Load Current
Load current=Armature Current-Field Current GO
Power Generated When The Armature Current Is Given
Power=Induced voltage*Armature Current GO

11 Other formulas that calculate the same Output

Power transmittted by a belt
Power=(Tensions in the tight side of belt-Tensions in the slack side of belt)* Velocity of the belt GO
Power In Single-Phase AC Circuits When Current Is Given
Power=Electric Current*Electric Current*Resistance*cos(Theta) GO
Power when electric potential difference and electric current are given
Power=Electric Potential Difference*Electric Current GO
Power, when electric potential difference and resistance are given,
Power=Electric Potential Difference^2/Resistance GO
Power in Single-Phase AC Circuits When Voltage is Given
Power=(Voltage*Voltage*cos(Theta))/Resistance GO
Power In Single-Phase AC Circuits
Power=Voltage*Electric Current*cos(Theta) GO
Power Generated When The Armature Current Is Given
Power=Induced voltage*Armature Current GO
Power, when electric current and resistance are given
Power=(Electric Current)^2*Resistance GO
Power Generated When Torque is Given
Power=Angular Speed*Torque GO
Gross Mechanical Power
Power=(1-Slip)*Input Power GO
Output Power
Power=Voltage*Load current GO

Converted Power Formula

Power=Induced voltage*Armature Current
More formulas
Output Power GO
Mechanical Efficiency GO
Armature Copper Loss GO
Field Cu Losses GO
Shunt Field Copper Loss GO
Series Field Copper Loss GO
Frequency When Speed Is Given GO
Power Loss Due To Brush Drop GO
Input Power Per Phase GO
Input Power 3-Phase GO
Mechanical Power In Rotor GO
Mechanical Power Of When Input Power Is Given GO

What is an armature current?

Armature Current is the current which flows in armature winding or rotating Winding of Motor or generator. An armature is the component of an electric machine that carries alternating current. The armature windings conduct AC current even on DC machines, due to the commutator action (which periodically reverses current direction) or due to electronic commutation, as in brushless DC motors.

How to Calculate Converted Power?

Converted Power calculator uses Power=Induced voltage*Armature Current to calculate the Power, Converted power is the power which we receive after converting electric energy from one form to another such as converting between AC and DC, or changing the voltage or frequency; or some combination of these. Power and is denoted by P symbol.

How to calculate Converted Power using this online calculator? To use this online calculator for Converted Power, enter Armature Current (Ia) and Induced voltage (Ea) and hit the calculate button. Here is how the Converted Power calculation can be explained with given input values -> 25 = 50*0.5.

FAQ

What is Converted Power?
Converted power is the power which we receive after converting electric energy from one form to another such as converting between AC and DC, or changing the voltage or frequency; or some combination of these and is represented as P=Ea*Ia or Power=Induced voltage*Armature Current. Armature Current is the Current which Flows in Armature Winding or rotating Winding of Motor or generator and Induced voltage when reactive power is given is the difference in electric potential between two points.
How to calculate Converted Power?
Converted power is the power which we receive after converting electric energy from one form to another such as converting between AC and DC, or changing the voltage or frequency; or some combination of these is calculated using Power=Induced voltage*Armature Current. To calculate Converted Power, you need Armature Current (Ia) and Induced voltage (Ea). With our tool, you need to enter the respective value for Armature Current and Induced voltage 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?
In this formula, Power uses Armature Current and Induced voltage. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Power=Electric Potential Difference*Electric Current
  • Power=(Electric Current)^2*Resistance
  • Power=Electric Potential Difference^2/Resistance
  • Power=(1-Slip)*Input Power
  • Power=Angular Speed*Torque
  • Power=Induced voltage*Armature Current
  • Power=Voltage*Load current
  • Power=(Tensions in the tight side of belt-Tensions in the slack side of belt)* Velocity of the belt
  • Power=Voltage*Electric Current*cos(Theta)
  • Power=Electric Current*Electric Current*Resistance*cos(Theta)
  • Power=(Voltage*Voltage*cos(Theta))/Resistance
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