D.C. GENERATORS

Objective Questions

Short notes

Objective questions (Answers are given below)

  1. The basic requirement of a d.c. armature winding
    is that it must be
    (a) a closed one
    (b) a lap winding
    (c) a wave winding
    (d) either (b) or (c)
  2. A wave winding must go at least …………
    around the armature before it closes back
    where it started.
    (a) once
    (b) twice
    (c) thrice
    (d) four times
  3. The d.c. armature winding in which coil sides
    are a pole pitch apart is called ………… winding.
    (a) multiplex
    (b) fractional-pitch
    (c) full-pitch
    (d) pole-pitch
  4. For making coil span equal to a pole pitch in
    the armature winding of a d.c. generator, the
    back pitch of the winding must equal the number
    of
    (a) commutator bars per pole
    (b) winding elements
    (c) armature conductors per path
    (d) armature parallel paths.
  5. The primary reason for making the coil span
    of a d.c. armature winding equal to a pole pitch
    is to
    (a) obtain a coil span of 180º (electrical)
    (b) ensure the addition of e.m.fs. of consecutive
    turns
    (c) distribute the winding uniformly under
    different poles
    (d) obtain a full-pitch winding.
  6. In a 4-pole, 35 slot d.c. armature, 180
    electrical-degree coil span will be obtained
    when coils occupy ………… slots.
    (a) 1 and 10
    (b) 1 and 9
    (c) 2 and 11
    (d) 3 and 12
  7. The armature of a d.c. generator has a 2-layer
    lap-winding housed in 72 slots with six conductors/
    slot. What is the minimum number of
    commutator bars required for the armature?
    (a) 72
    (b) 432
    (c) 216
    (d) 36
  8. The sole purpose of a commutator in a d.c.
    Generator is to
    (a) increase output voltage
    (b) reduce sparking at brushes
    (c) provide smoother output
    (d) convert the induced a.c. into d.c.
  9. For a 4-pole, 2-layer, d.c., lap-winding with
    20 slots and one conductor per layer, the number
    of commutator bars is
    (a) 80
    (b) 20
    (c) 40
    (d) 160
  10. A 4-pole, 12-slot lap-wound d.c. armature has
    two coil-sides/slot. Assuming single turn coils
    and progressive winding, the back pitch would
    be
    (a) 5
    (b) 7
    (c) 3
    (d) 6
  11. If in the case of a certain d.c. armature, the
    number of commutator segments is found either
    one less or more than the number of slots,
    the armature must be having a simplex …………
    winding.
    (a) wave
    (b) lap
    (c) frog leg
    (d) multielement
  12. Lap winding is suitable for ………… current,
    ………… voltage d.c. generators.
    (a) high, low
    (b) low, high
    (c) low, low
    (d) high, high
  1. The series field of a short-shunt d.c. generator
    is excited by ………… currents.
    (a) shunt
    (b) armature
    (c) load
    (d) external
  2. In a d.c. generator, the generated e.m.f. is
    directly proportional to the
    (a) field current
    (b) pole flux
    (c) number of armature parallel paths
    (d) number of dummy coils
  3. In a 12-pole triplex lap-wound d.c. armature,
    each conductor can carry a current of 100 A.
    The rated current of this armature is …………
    ampere.
    (a) 600
    (b) 1200
    (c) 2400
    (d) 3600
  4. The commercial efficiency of a shunt generator
    is maximum when its variable loss
    equals ………… loss.
    (a) constant
    (b) stray
    (c) iron
    (d) friction and windage
  5. In small d.c. machines, armature slots are
    sometimes not made axial but are skewed.
    Though skewing makes winding a little more
    difficult, yet it results in
    (a) quieter operation
    (b) slight decrease in losses
    (c) saving of copper
    (d) both (a) and (b)
  6. The critical resistance of the d.c. generator is
    the resistance of
    (a) armature
    (b) field
    (c) load
    (d) brushes (Grad. I.E.T.E Dec. 1985)

  1. (a) 2. (b) 3. (c) 4. (a) 5. (b) 6. (b) 7. (c) 8. (d ) 9. (b) 10. (b)
  2. (a) 12. (a) 13. (c) 14. (b) 15. (d ) 16. (a) 17. (d ) 18. (b)

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