Core Losses of DC Generator given Converted Power Solution

STEP 0: Pre-Calculation Summary
Formula Used
Core Loss = Input Power-Mechanical Losses-Converted Power-Stray Loss
Pcore = Pin-Pm-Pconv-Pstray
This formula uses 5 Variables
Variables Used
Core Loss - (Measured in Watt) - Core loss, also known as iron loss, is a type of stray loss that occurs in the core of a DC generator.
Input Power - (Measured in Watt) - Input Power refers to the power input required to rotate the armature of the generator, which in turn generates electrical power. The mechanical power is provided by an external source.
Mechanical Losses - (Measured in Watt) - Mechanical losses occur in the moving parts of the DC machine due to friction and windage. These losses are also called rotational losses. The mechanical losses depend upon the speed of the machine.
Converted Power - (Measured in Watt) - Converted Power refers to the electrical power output that is generated by the conversion of mechanical energy into electrical energy.
Stray Loss - (Measured in Watt) - Stray Loss refer to the losses of power that occur in the generator due to factors other than the intended electrical output.
STEP 1: Convert Input(s) to Base Unit
Input Power: 220 Watt --> 220 Watt No Conversion Required
Mechanical Losses: 9.1 Watt --> 9.1 Watt No Conversion Required
Converted Power: 150.5 Watt --> 150.5 Watt No Conversion Required
Stray Loss: 43.4 Watt --> 43.4 Watt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Pcore = Pin-Pm-Pconv-Pstray --> 220-9.1-150.5-43.4
Evaluating ... ...
Pcore = 17
STEP 3: Convert Result to Output's Unit
17 Watt --> No Conversion Required
FINAL ANSWER
17 Watt <-- Core Loss
(Calculation completed in 00.004 seconds)

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17 DC Generator Characteristics Calculators

Mechanical Efficiency of DC Generator using Armature Voltage
Go Mechanical Efficiency = (Armature Voltage*Armature Current)/(Angular Speed*Torque)
EMF for DC Generator for Wave Winding
Go EMF = (Number of Poles*Rotor Speed*Flux per Pole*Number of Conductor)/120
Stray Losses of DC Generator given Converted Power
Go Stray Loss = Input Power-Mechanical Losses-Core Loss-Converted Power
Core Losses of DC Generator given Converted Power
Go Core Loss = Input Power-Mechanical Losses-Converted Power-Stray Loss
Armature Resistance of DC Generator using Output Voltage
Go Armature Resistance = (Armature Voltage-Output Voltage)/Armature Current
EMF for DC Generator with Lap Winding
Go EMF = (Rotor Speed*Flux per Pole*Number of Conductor)/60
Back EMF of DC Generator given Flux
Go EMF = Back EMF Constant*Angular Speed*Flux per Pole
Power Drop in Brush DC Generator
Go Brush Power Drop = Armature Current*Brush Voltage Drop
Electrical Efficiency of DC Generator
Go Electrical Efficiency = Output Power/Converted Power
Induced Armature Voltage of DC Generator given Converted Power
Go Armature Voltage = Converted Power/Armature Current
Mechanical Efficiency of DC Generator using Converted Power
Go Mechanical Efficiency = Converted Power/Input Power
Armature Current of DC Generator given Power
Go Armature Current = Converted Power/Armature Voltage
Armature Power in DC Generator
Go Amature Power = Armature Voltage*Armature Current
Field Copper Loss in DC Generator
Go Copper Loss = Field Current^2*Field Resistance
Output Voltage in DC Generator using Converted Power
Go Output Voltage = Converted Power/Load Current
Overall Efficiency of DC Generator
Go Overall Efficiency = Output Power/Input Power
Converted Power in DC Generator
Go Converted Power = Output Voltage*Load Current

Core Losses of DC Generator given Converted Power Formula

Core Loss = Input Power-Mechanical Losses-Converted Power-Stray Loss
Pcore = Pin-Pm-Pconv-Pstray

How does a Series DC Generator works?

In a series DC generator, the armature is connected in series with the field winding, hence the name. When the generator is turned on, the armature begins to rotate, and the conductors in the armature cut across the magnetic field created by the field winding. As a result, an emf (electromotive force) is induced in the armature conductors according to Faraday's law.

How to Calculate Core Losses of DC Generator given Converted Power?

Core Losses of DC Generator given Converted Power calculator uses Core Loss = Input Power-Mechanical Losses-Converted Power-Stray Loss to calculate the Core Loss, The Core Losses of DC Generator given Converted Power formula is a type of stray loss that occurs in the core of a DC generator. The core is the part of the generator that surrounds the armature and provides a magnetic path for the magnetic field generated by the armature. Core Loss is denoted by Pcore symbol.

How to calculate Core Losses of DC Generator given Converted Power using this online calculator? To use this online calculator for Core Losses of DC Generator given Converted Power, enter Input Power (Pin), Mechanical Losses (Pm), Converted Power (Pconv) & Stray Loss (Pstray) and hit the calculate button. Here is how the Core Losses of DC Generator given Converted Power calculation can be explained with given input values -> 17 = 220-9.1-150.5-43.4.

FAQ

What is Core Losses of DC Generator given Converted Power?
The Core Losses of DC Generator given Converted Power formula is a type of stray loss that occurs in the core of a DC generator. The core is the part of the generator that surrounds the armature and provides a magnetic path for the magnetic field generated by the armature and is represented as Pcore = Pin-Pm-Pconv-Pstray or Core Loss = Input Power-Mechanical Losses-Converted Power-Stray Loss. Input Power refers to the power input required to rotate the armature of the generator, which in turn generates electrical power. The mechanical power is provided by an external source, Mechanical losses occur in the moving parts of the DC machine due to friction and windage. These losses are also called rotational losses. The mechanical losses depend upon the speed of the machine, Converted Power refers to the electrical power output that is generated by the conversion of mechanical energy into electrical energy & Stray Loss refer to the losses of power that occur in the generator due to factors other than the intended electrical output.
How to calculate Core Losses of DC Generator given Converted Power?
The Core Losses of DC Generator given Converted Power formula is a type of stray loss that occurs in the core of a DC generator. The core is the part of the generator that surrounds the armature and provides a magnetic path for the magnetic field generated by the armature is calculated using Core Loss = Input Power-Mechanical Losses-Converted Power-Stray Loss. To calculate Core Losses of DC Generator given Converted Power, you need Input Power (Pin), Mechanical Losses (Pm), Converted Power (Pconv) & Stray Loss (Pstray). With our tool, you need to enter the respective value for Input Power, Mechanical Losses, Converted Power & Stray Loss and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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