航空 发表于 2011-9-20 08:27:38

Chapter 12 AC Motors

**** Hidden Message *****

航空 发表于 2011-9-20 08:28:20

1<BR>Chapter 12 AC Motors<BR>2<BR>Chapter 12 AC Motors<BR>• Since AC motors rely on a constant<BR>frequency supply, they are mainly used on<BR>larger aircraft. Motors are generally classified<BR>as follows:<BR>• Large motors have an output of 3 KW<BR>(kilowatt) or more and are normally threephase<BR>machines.<BR>3<BR>• Medium to small motors range from 3 KW<BR>down to 50 W and are mostly single-phase<BR>machines. Motors rated at less than 750 W<BR>are referred to as fractional horsepower<BR>(FHP) machines.<BR>• Miniature motors are rated at less than 50<BR>W and are used in instruments and<BR>servomechanisms<BR>4<BR>• On aircraft, these motors are either<BR>induction or synchronous machines.<BR>5<BR>1.1 Stator-Produced Rotating<BR>Magnetic Field<BR>• When a magnet is rotated within a<BR>three-phase stator, a three-phase voltage<BR>is produced. If this process is reversed (i.e.<BR>by connecting the three-phase supply to a<BR>three-phase stator), a rotating field is<BR>produced, as shown in the following<BR>diagram.<BR>6<BR>Figure 12-1 Generation of A Rotating Magnetic Field<BR>7<BR>• If a rotor is then placed in the centre of<BR>the rotating magnetic field, a magnetic<BR>field is induced in it, which locks onto the<BR>rotating outer field and turns with it.<BR>8<BR>12.2 Induction (Squirrel Cage) Motor<BR>• The induction motor is one of the<BR>most widely used types of AC motor,<BR>which is used on aircraft to drive fuel<BR>pumps, actuators, and air conditioning.<BR>The following diagram shows a typical<BR>machine.<BR>9<BR>Figure 12-2 A Typical Induction Motor<BR>10<BR>Figure 12-3 Principle of Induction Motor<BR>11<BR>Figure 12-4 Torque Generated in Induction Motor<BR>12<BR>• When the applied torque equals the load<BR>torque, the motor runs at a speed slightly<BR>less than the stator field. The induction<BR>motor is an asynchronous machine and<BR>possesses following characteristics :<BR>13<BR>•  Slip speed is the difference between the<BR>rotor speed and the synchronous (stator)<BR>speed.<BR>• Slip Speed = Synchronous Speed - Rotor<BR>Speed<BR>• Synchronous Speed = 60f/P<BR>• Where f = frequency of supply(Hz), and P =<BR>number of pole pairs in stator<BR>14<BR>•  Reversal of rotation occurs if any two of the<BR>motor phases are crossed over.<BR>•  Loss of a phase occurs when the machine is:<BR>• ● Running<BR>• The motor continues to run at a reduced torque.<BR>• ● Not running<BR>• The machine does not start, and fuses or circuit<BR>breakers blow in the other two phases, causing<BR>possible damage to the motor.<BR>15<BR>12.3 Two-Phase Induction Motor<BR>• A rotating magnetic field is produced in a twophase<BR>induction motor stator by placing the<BR>windings 90° apart, as shown below.<BR>16<BR>12.3 Two-Phase Induction Motor (continue)<BR>• One phase is the reference phase, and the<BR>other is the control phase. By varying the<BR>phasing and the amplitude of the control<BR>phase currents, the direction and speed of<BR>rotation can be controlled. This type of<BR>motor is, however, not as smooth nor as<BR>powerful as a three-phase machine and is<BR>used mainly for autopilot servomotors or<BR>fuel trim motors.<BR>17<BR>12.4 Split-Phase Motor<BR>• This is a split-phase induction motor. Two windings,<BR>one capacitive and the other resistive, are both<BR>connected in parallel across a single-phase AC<BR>supply, as shown below.<BR>18<BR>12.4 Split-Phase Motor (continue)<BR>• The current in the capacitive winding leads<BR>the current in the resistive winding by<BR>approximately 90° and is known as phase<BR>splitting. This type of motor operates like a<BR>two-phase AC motor and is used to drive<BR>actuators.<BR>19<BR>12.5 The Synchronous Motor<BR>• The stator in this type of motor is identical to<BR>that used in an induction motor, except the<BR>rotor in this machine alternatively carries its<BR>own magnetic field windings, which are<BR>supplied from a DC source.<BR>20<BR>• The stator is fed with three-phase AC and<BR>produces a rotating magnetic field, which<BR>the rotor follows. This type of motor is a<BR>single speed machine, where the actual<BR>speed is determined by the speed of the<BR>rotating field (i.e. the frequency of the<BR>three-phase input).<BR>21<BR>• Synchronous motors are used in<BR>situations where a constant speed is<BR>essential (e.g. gyroscopes).<BR>22<BR>END OF CHAPTER 12

linairm 发表于 2011-10-22 20:27:02

这个东东真好
页: [1]
查看完整版本: Chapter 12 AC Motors