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1.synchro is a electromecnical device of three stator and one rotor,whearas resolver is a device of two rotor and two stator 2. In synchro stator is 120 deg aparted,,,,,,,,in resolver 90 deg aparted 3.synchro output in taken from stator,,in resolver output can be taken from either synchro or rotor
The Stator, the Rotor and the Windings.
Not much to go on here. Assuming you mean the stator of an alternator. It could be arranged to take the power out, from the rotor or stator, by the physics of electromagnetism. It is better to use the stator as ther are no moving parts on this item. Taking large amounts of power from a rotor, would require the power to pass through a system of slip rings, which would be a weak point for sparking and failure. Better to use the rotor for relatively small currents of excitation and control.
Although the term 'conduction motor' isn't widely used, it refers to a motor whose rotor winding, as well as its stator windings, is supplied with an electric current. In the case of an 'induction motor', however, the current flowing through the rotor is produced by voltages 'induced' into the rotor windings by a rotating magnetic field created by the stator windings.
Yes, energy can be transferred that way.
when current is passing through the stator windings of motor magnetic field is develop ,due to it emf is produced inside the stator windings,that emf is further cuts the emf across stator due to which current flowing inside the rotor.
An electric motor has a stator and a rotor. The stator does not move. The rotor rotates inside the stator.
The slip vary with load is a AC electric motor which the electric current in the rotor needed to make torque that is induced by electromagnetic induction. It does not repair mechanical commutation parts the energy and transferred from stator to rotor.
If we are talking about a dynamo or an alternator, a stator has a rotor inside it. When the rotor turns, electricity is generated.
In the operation of a standard generator, the exciter rotor and stator provide DC-type energy to an AC-type supply. This allows the exciter to maintain a constant DC source.
AC motor has two main winding components - stator and a rotor. Stator winding is stationary where as rotor winding is on rotating part.
rotor slot more. it is to get a large rotor inductance value of inductance the stator windings
A two stage impulse contains 2 stages. One stage is a stator and rotor, therefore a 2 stage impulse turbine contains a stator-rotor-stator-rotor.
stator and rotor.
rotor
The number of poles on stator and rotor is always the same. If they are not equal?æno torque will be produced, thus, the machine will not function.?æ
a ROTOR is basically any part of a machine that rotates. eg the armature in a motor a STATOR is the part of a machine that is stationary. ie the ROTOR revolves within the STATOR