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Home > News & Articles > EMF Equation of DC Generator: Definitions, Working of DC Generator, DC Motors, Equations, Derivation, and Applications
Updated on 19th June, 2023 , 6 min read
A voltage is created in the coils of the armature as it rotates. The emf of rotation in the case of a generator is known as the Generated emf or Armature emf and is indicated as Er = Eg. The emf of rotation in the case of a motor is known as Back emf or Counter emf and is expressed as Er = Eb. The term for emf is the same for both operations, namely Generator and Motor.
Electrical generators are self-contained units that supply power when the local grid is unavailable. During power outages, these generators provide backup power to businesses and households. Generators do not generate electricity; rather, they transform mechanical or chemical energy into electricity. Generators are split into two categories based on their output-
Based on the electromagnetic induction concept of Faraday's Laws, an emf is formed when the conductor cuts magnetic flux. When the conductor circuit is closed, this electromotive force can generate a current flow.
A direct current generator (DC generator) is a mechanism that transforms mechanical energy (or power) into electrical energy (or power). The energy conversion is based on the notion of dynamically triggered EMF creation. When a moving conductor cuts magnetic flux, dynamically induced EMF is created in the conductor, according to Faraday's Laws of Electromagnetic Induction. This EMF causes current to flow if the conductor circuit is closed. The EMF produced by lap wound and wave wound DC generators differs. As a result, determining the quantity of produced EMF is critical in the design of various types of DC generators.
Faraday's law of electromagnetic induction states that when a current-carrying conductor is put in a changing magnetic field, an emf is produced. The direction of the induced current changes as the direction of motion of the conductor changes, according to Fleming's right-hand rule. For Example:- Consider an armature revolving clockwise and an upwards-moving conductor on the left. The direction of the conductor's travel will be reversed downward after the armature completes a half rotation. As a result, the current direction in each armature will alternate. When a current reverses, the connections of the armature conductors are reversed in a split ring commutator. As a result, we have a unidirectional current at the terminals.
Electromotive force (emf) is an energy transfer to an electric circuit per unit of electric charge, measured in volts, in electromagnetism and electronics. Electrical transducers generate an emf by transforming various types of energy into electrical energy.
The derivation of the EMF equation for a DC generator is divided into two parts-
The DC generator's emf equation is provided by the equation-
Here,
E🇬- the e.m.f generated in any of the parallel lanes.
P denotes the number of machine poles.
Ñ„ - Weber flux per pole.
Z denotes the total number of armature conductors.
N - Armature speed in revolutions per minute (r.p.m.).
N/60 - number of turns per second is N/60.
A - number of parallel pathways wind through the armature.
E = is the induced electromagnetic field in any parallel path within the armature.
One turn will take dt = 60/N seconds.
The flux cut by one conductor in one revolution of the armature is given as-
The time taken to complete one rotation is expressed as-
Therefore, the average induced e.m.f in one conductor will be-
When we plug the value of (t) fromEquation (2) into Equation (3), we obtain
The number of series-connected conductors in each parallel route = Z/A.
As a result, the following equation gives the average induced e.m.f across each parallel route or armature terminal-
Where n is the revolution per second (r.p.s) speed and is expressed as-
The number of poles and conductors per parallel route (Z/A) for a particular machine remains constant. As a result, equation (5) may be expressed as follows-
K is a constant that is given as-
As a result, the average induced emf equation may be expressed as-
Where Kâ‚is another constant, the induced emf equation is as follows-
The angular velocity in radians per second is written as-
As a result, the induced emf is clearly related to the speed and flux per pole. The polarity of the induced emf is determined by the magnetic field direction and the rotational direction. The polarity changes if either of the two is reversed, but if both are reversed, the polarity remains unchanged. This generated EMF is a basic occurrence for all DC machines, regardless of whether they are generators or motors.
If the DC machine is used as a generator, the induced emf is provided by the following equation-
Where E🇬 is the EMF generated.
If the DC machine is used as a motor, the induced emf is provided by the following equation-
The induced emf in a motor is known as "back emf" (Eb) because it works in the opposite direction of the supply voltage.
When we add DC voltage to the armature of a DC motor, we create a back emf or counter emf. The polarity of the returning emf is exactly opposite the polarity of the supplied DC voltage. As a result, the applied armature voltage is opposed by the back EMF. The back EMF in the DC motor restricts the armature current. When we rotate the generator shaft in the presence of a magnetic field, an emf is generated in the armature of a DC generator. The voltage produced is known as the "generated emf" or "armature voltage." The functioning of a DC motor and a DC generator is the same, as is the source of the EMF created by both machines- rotation and magnetic field. As a result, the phrase for both operations—DC generation and DC motoring—is the same. The same formula applies to the EMF equation of DC generator and a DC motor.
The following are some of the uses for DC generators are-
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By - Nikita Parmar 2023-08-25 09:48:44 , 11 min readAns. According to Fleming’s right-hand method for determining the direction of induced emf, the middle finger points in the direction of induced emf, the forefinger points in the direction of lines of flux, and the thumb points in the direction of conductor motion.
Ans. According to Faraday’s Law of Electromagnetic Induction, anytime a conductor is put in a fluctuating magnetic field or moved in a magnetic field, an emf is generated in the conductor.
Ans. The DC generator’s armature is laminated to prevent eddy current loss.
Ans. A direct current generator is an electrical machine that converts mechanical energy into electricity.
Ans. The core lamination in a DC generator is typically constructed of silicon steel.
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