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Synchronous Machines - Construction - Principle of Operation

Electrical and Automation Engineer . Specialized in LV Switchgear Design and process automation

A synchronous machine is a most important type of electric machine. The generating machines found in all generating stations are synchronous machines and are commonly known as synchronous generator or alternators. Synchronous motors are well known for their constant speed operation and are widely used in industries.

synchronous-machines-construction-principle-of-operation

Construction

The electromechanical energy conversion occurs whenever a change in flux is associated with mechanical motion. In synchronous machines field winding is the primary source of flux. The field winding and the armature winding are placed on a common magnetic circuit composed of two parts – the stator and the rotor

Stator

The stator is a stationary member. It is the annular potion of a cylinder inside which the rotor rotates. A sufficient air gap is provided between the stator and the rotor. The armature winding are housed in the slots cut in the stator

Rotor

There are two types of rotor constructions employed in the synchronous motors. They are cylindrical type rotor and salient pole or projecting pole type rotor. The cylindrical pole rotor has the dc field winding embedded in them. Cylindrical rotor provides greater mechanical strength and permits more accurate dynamic balancing. It is particularly used in high speed turbo generators.

The second type of synchronous motor i.e. the salient pole rotors have projecting poles in it. These projecting poles lessen its mechanical strength. This type of rotor construction is used for low speed applications such as hydroelectric generators. Large number of poles in the rotor makes the rotor larger in diameter and smaller in length.

The rotor axle is carried on two bearings which a housed on the two end covers bolted on the two sides of the rotor. The stator and rotor are made up of silicon steel, a high permeability magnetic material. The field winding is supplied with a separate DC supply from the exciter, through a pair of carbon brushes. The exciter may be an external DC source or a DC generator coupled to the shaft of the synchronous a machine.

Distinguishing features of Salient pole and cylindrical pole rotors.

Salient pole rotor Cylindrical pole rotors

The salient pole rotors have projecting poles in it.

The cylindrical pole rotors have projecting poles in it.

Mechanical strength is low

Greater mechanical strength

Larger in diameter and smaller in length

Smaller in diameter but larger in length

Have non uniform air gap

Have uniform air gap

Principle of operation

When a DC excitation provided to the rotor creates a fixed North Pole and South Pole in it. The rotor produces a stationary flux in the air gap which links with the stator winding.

Synchronous generators

Generator is a device which converts mechanical energy into electrical energy. When the rotor is rotated with the help of a prime mover it produces a sinusoidal flux distribution in the air gap which links the armature windings and induces sinusoidally alternating emf in it. The frequency of the induced emf can be calculated using the following formula.

synchronous-machines-construction-principle-of-operation

Where

P = number of stator poles.

Ns = Speed of the rotor in rpm.

Synchronous motor

Motor is a device which converts electrical energy. Let the 3 phase winding of the stator b connected to a 3 phase supply of fixed voltage and frequency. As a result, a 3- phase currents flowing through the stator winding creates a synchronously rotating magnetic field at synchronous speed Ns.

synchronous-machines-construction-principle-of-operation
synchronous-machines-construction-principle-of-operation

Consider that the rotor is run by an auxiliary means to a speed close to the synchronous speed in the direction of rotation of stator field. Now the rotor pulls into step with the synchronously rotating stator field and runs exactly at the synchronous speed. The electro mechanical torque is developed on the rotor in the direction of rotation of rotor and balances the load torque. It can be noted that the rotor falls back to an angle δ for a given load torque TL. This angle is called torque angle or power angle.

The torque developed by the synchronous motor is given by the following expression.


synchronous-machines-construction-principle-of-operation

Hunting in synchronous machines

When a synchronous machine is operated at steady load, certain limited amplitude disturbances are bound to occur on the electrical and mechanical parts of the machine. These disturbances are sudden change in load, sudden change infield current, presence of harmonic variations in load and also in prime mover torque. This disturbance produces oscillations in the machines. This oscillatory behavior is known as hunting. Hunting can be controlled by providing additional damper winding in the rotor.

synchronous-machines-construction-principle-of-operation

Comments

OSBERT JOEL C (author) from CHENNAI on June 25, 2018:

Synchronous motors are not widely used because it requires two different power supplies,i.e. DC supply for rotor and AC supply for Stator. Also maintenance requirement is more when compared to asynchronous motors.

Saad Ullah Khan from Pakistan on June 22, 2018:

Why the synchronous motors are not used widely?

Thiago on November 13, 2017:

There is a mistake in your last figure. Those bars are not the damper winding. They are steel bars to hold the field winding during rotation.

The damper winding are not in the figure. They will be insertes into the outer slots just next to air gap.

dharmendra swami on May 24, 2016:

nice ppt

ujjwal on May 23, 2016:

Thanks for helping us

ansh on November 15, 2015:

i learn frm this article thnks

rupali on July 29, 2015:

the information regarding to synchronous m/c is very useful to all branches & thanks for you

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