Types of Electric Motors

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Types of Electric Motors Electric Motors DC Motors AC Motors Other Motors Shunt motor Separately Excited motor Induction motor Stepper motor Brushless DC motor Series Motor Permanent Magnet DC (PMDC) Synchronous motor Hysteresis motor Reluctance motor Compounded motor Universal motor

DC Motors 1. Shunt DC motor: The rotor and stator windings are connected in parallel. 2. Sparately Excited motor: The rotor and stator are each connected from a different power supply, this gives another degree of freedom for controlling the motor over the shunt. 3. Series motor: the stator and rotor windings are connected in series. Thus the torque is proportional to I 2 so it gives the highest torque per current ratio over all other dc motors. It is therefore used in starter motors of cars and elevator motors (p. 563 Chapman, 4e, 2005 McGrow Hill). 4. Permanent Magnet (PMDC) motors: The stator is a permanent magnet, so the motor is smaller in size. Disadv: only used for low torque applications http://en.wikipedia.org/wiki/brushed_dc_electric_motor

DC Motors 5. Compouned motor: the stator is connected to the rotor through a compound of shunt and series windings, if the shunt and series windings add up together, the motor is called comulatively compounded. If they subtract from each other, then a differentially compounded motor results, which is unsuitable for any application. A: shunt B: series C: compound f = field (stator) coil http://en.wikipedia.org/wiki/electric_motor

Disadvantages of DC motors 1. Brush wear: Since they need brushes to connect the rotor winding. Brush wear occurs, and it increases dramatically in low pressure environmet. So they cannot be used in artificial hearts. If used on aircraft, the brushes would need replacement after one hour of operation. 2. Sparks from the brushes may cause explosion if the environment contains explosive materials. 3. RF noise from the brushes may interfere with nearby t.v. sets, or electronic devices,..etc Ref. Chapman p. 674 675

AC Machines Induction Motor: So called because voltage is induced in the rotor (thus no need for brushes), but for this to happen, the rotor must rotate at a lower speed than the magnetic field to allow for the existance of an induced voltage. Therefore a new term is needed to describe the induction motor: the slip. Synchronous Motor: So called because rotor tries to line up with the rotating magnetic field in the stator. It has the stator of an induction motor, and the rotor of a dc motor. Squirrel cage Induction Motor See it on: http://en.wikipedia.org/wiki/induction_motor Note: Figure is misleading. The number of poles must be an even integer of the number of phases used. Thus this diagram should have 6 coils, but that would prevent one from imagining the rotation.

AC Machines Accurate representation of a 6 pole 3 phase AC induction motor http://en.wikipedia.org/wiki /File:Rotatingfield.png

Synchronous Machines 4-17 THREE-PHASE ROTATING FIELDS require three pairs of windings 120º apart, energized by voltages that also have a 120- degree phase displacement. SYNCHRONOUS MOTORS are specifically designed to maintain constant speed, with the rotor synchronous to the rotating field. Synchronous motors require modification (such as squirrel-cage windings) to be self-starting. Text and figures on top half of page from http://www.tpub.com/content/neets/14177/css/14177_101.htm DC AC http://www.motcointernational.com/sy_motors.htm Dave Polka Chapter 3 of AC Motors: IEC Ratings

Reluctance motors 1. Reluctance motor: A synchronous induction motor. The rotor has salient poles and a cage so that it starts like an induction motor, and runs like a synchronous motor. 2. Uses soft magnet rotor that is magnetized by the application of current in the stator coils 3. The magnet is spun by a 3 phase AC motor with no rotor voltage 4. The gear teeth are designed to increase the magnetic flux driving the rotor while providing asymmetry that gives it the rotational acceleration 5. Permeability ofthe rotor provides a significant increase in inductive power 6. Full solution of Faraday s law with time and velocity dependence. http://wapedia.mobi/en/file:switched_rel uctance_motor_6 4.svg

Other motors 1. Reluctance motor: A synchronous induction motor. The rotor has salient poles and a cage so that it starts like an induction motor, and runs like a synchronous motor. 2. Hysteresis motor: hysteresis produces the torque, can be very tiny, used as the driver for electric clocks (Chapman, p.669). 3. Stepper motor: a special type of synchronous motors. Rotates a number of degrees with each electric pulse. 4. Brushless DC motor: a close cousin of a permanent magnet stepper motor with electronic controllers 5. Universal motor: If a seried dc motor has a laminated stator frame, it can run effectively from an ac supply as well as dc, this is the universla motor. Brushless DC (actually a pulsed AC motor) http://en.wikipedia.org/wiki/file:poles.jpg http://upload.wikimedia.org/wikipedia/en/6/67 di / di / /6/67 /StepperMotor.gif

Quiz Yourself Question: at the same power, Wwhich has a higher efficiency, the synchronous motor or the induction motor? Sol: the synchronous motor, because the lack of brushes to connect the rotor of the induction motor makes its magnetic field run through an air gap, which has a much higher reluctance.

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