Induction Motors
... Induction motor speed So, the IM will always run at a speed lower than the synchronous speed The difference between the motor speed and the synchronous speed is called the Slip ...
... Induction motor speed So, the IM will always run at a speed lower than the synchronous speed The difference between the motor speed and the synchronous speed is called the Slip ...
Induction Motors - GTU e
... will appear stationary to the rotating magnetic field and the rotating magnetic field will not cut the rotor. So, no induced current will flow in the rotor and no rotor magnetic flux will be produced so no torque is generated and the rotor speed will fall below the synchronous speed When the speed ...
... will appear stationary to the rotating magnetic field and the rotating magnetic field will not cut the rotor. So, no induced current will flow in the rotor and no rotor magnetic flux will be produced so no torque is generated and the rotor speed will fall below the synchronous speed When the speed ...
Chapter-8 - Universities Press
... the main and the other is the auxiliary winding or starting winding. The motor uses a squirrel-cage rotor, which has a laminated iron core with slots in it. Singlephase induction motor is not self-starting and requires some mechanism to assist it in the starting process. ...
... the main and the other is the auxiliary winding or starting winding. The motor uses a squirrel-cage rotor, which has a laminated iron core with slots in it. Singlephase induction motor is not self-starting and requires some mechanism to assist it in the starting process. ...
File
... In a three phase induction motor, the induced emf in the rotor circuit depends on the slip of the induction motor and the magnitude of the rotor current depends upon this induced emf (electromotive force). When the motor is started, the slip is equal to 1 as the rotor speed is zero, so the induced ...
... In a three phase induction motor, the induced emf in the rotor circuit depends on the slip of the induction motor and the magnitude of the rotor current depends upon this induced emf (electromotive force). When the motor is started, the slip is equal to 1 as the rotor speed is zero, so the induced ...
How Motors Operate Presented by John Freeland
... connection determines if the motor runs clockwise or counterclockwise If both ends of the starting and running windings are accessible, the motor can be reversed “Induction” in a split phase induction motor means a current and therefore a magnetic field is induced in the rotor by the stator magnetic ...
... connection determines if the motor runs clockwise or counterclockwise If both ends of the starting and running windings are accessible, the motor can be reversed “Induction” in a split phase induction motor means a current and therefore a magnetic field is induced in the rotor by the stator magnetic ...
Electrical Machines
... • When relative movement between the stator and the rotor poles occurs • Voltage is induced into these windings. • Subsequent induced magnetic field tends to slow movement and act like a “shock absorber” • Can be used to aid starting in a simular way to that of the squirrel cage conductors ...
... • When relative movement between the stator and the rotor poles occurs • Voltage is induced into these windings. • Subsequent induced magnetic field tends to slow movement and act like a “shock absorber” • Can be used to aid starting in a simular way to that of the squirrel cage conductors ...
EEEB283 Electrical Machines & Drives
... Classification based on T characteristics Class A & B – general purpose Class C – higher Tstart (eg: driving compressor pumps) Class D – provide high Tstart and wide stable speed range but low efficiency ...
... Classification based on T characteristics Class A & B – general purpose Class C – higher Tstart (eg: driving compressor pumps) Class D – provide high Tstart and wide stable speed range but low efficiency ...
Document
... • The stator consists of the main winding and a starting winding. The starting winding is connected in parallel with the main winding and is placed at right angles to it. • A 90-degree electrical phase difference between the two windings is obtained by connecting the auxiliary winding in series with ...
... • The stator consists of the main winding and a starting winding. The starting winding is connected in parallel with the main winding and is placed at right angles to it. • A 90-degree electrical phase difference between the two windings is obtained by connecting the auxiliary winding in series with ...
Induction motor
An induction or asynchronous motor is an AC electric motor in which the electric current in the rotor needed to produce torque is obtained by electromagnetic induction from the magnetic field of the stator winding. An induction motor therefore does not require mechanical commutation, separate-excitation or self-excitation for all or part of the energy transferred from stator to rotor, as in universal, DC and large synchronous motors. An induction motor's rotor can be either wound type or squirrel-cage type.Three-phase squirrel-cage induction motors are widely used in industrial drives because they are rugged, reliable and economical. Single-phase induction motors are used extensively for smaller loads, such as household appliances like fans. Although traditionally used in fixed-speed service, induction motors are increasingly being used with variable-frequency drives (VFDs) in variable-speed service. VFDs offer especially important energy savings opportunities for existing and prospective induction motors in variable-torque centrifugal fan, pump and compressor load applications. Squirrel cage induction motors are very widely used in both fixed-speed and variable-frequency drive (VFD) applications. Variable voltage and variable frequency drives are also used in variable-speed service.