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AC Machines Fundamentals

AC Machines Fundamentals. Introduction. Synchronous machines : Motors and generators whose magnetic field is supplied by a separate dc power supply. Induction machines : Motors and generators whose magnetic field is supplied by magnetic induction transformer action. B. B.

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AC Machines Fundamentals

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  1. AC Machines Fundamentals

  2. Introduction • Synchronous machines: Motors and generators whose magnetic field is supplied by a separate dc power supply. • Induction machines: Motors and generators whose magnetic field is supplied by magnetic induction transformer action.

  3. B B Voltage Induced in a simple Rotating Loop c b Vab c d l r S N d a a b Vcd B B + - r F

  4. Induce Torque in current Carrying Loop c b Bloop c d BS d a a b

  5. c b Bbb’ Baa’ Bnet Bcc’ c’ b’ Rotating Magnetic Field • If three set of currents each of equal magnitude and differing in phase by 120º flow in 3 phase winding, then it will produce a rotating magnetic field of constant magnitude. a’ Apply three set of currents to the stator will produce magnetic field intensity H and magnetic flux B as follows: Resulting net magnetic field a

  6. The relation between the Electrical Frequency and Mechanical Speed • The rotating magnetic flux in stator (Bnet or Bs) can be represented by one North and one South pole (2 pole machine). These magnetic poles complete one mechanical rotation around the stator for each electrical rotation. In general: For 4-pole machine, the mechanical pole move halfway around the stator in one electrical cycle:

  7. MMF and flux distribution on AC Machine • The flux in a real machine doesn't behave in a simple manner assumed above since there is ferromagnetic rotor in the center of machine with small air gap between rotor and stator. • The reluctance of air gap is much higher than the reluctance of either the rotor and stator. So the flux density vector B takes the shortest possible path across the air gap and jumps perpendicularly between the rotor and stator. • How to produce sinusoidal voltage ? The flux density must vary in sinusoidal manner. • The most straight foreword way to achieve a sinusoidal variations of m.m.f along the surface of air gap is to distribute the turns of the windings that produce the m.m.f in closely spaced slots and to vary the number of conductors in each slot in sinusoidal manner. Fractional pitch winding is also used to reduce harmonics and get sinusoidal waves

  8. Induced voltage in AC Machine Airgap c-d • The magnitude of flux density at a point around the rotor is given by : BM • The magnitude of flux density at a point around the stator is given by : a-b c d b a For N number of coil in each slot

  9. Induced volt in 3 phase coils RMS voltage in three phase stator:

  10. Induce torque in AC Machine

  11. AC Machine Power Flow and Losses Sync. Generator Induction Motor

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