Showing posts with label DC Machines. Show all posts
Showing posts with label DC Machines. Show all posts

Friday, November 5, 2010

Introduction to DC Generator

GENERATOR is machine that converts mechanical energy to electrical energy.

DC generator or direct current generator generates a voltage when speed and flux are met.This machine is called a unidirectional (dynamo).It consists of the same basic elements as a simple AC generator like the multi-turn coil rotating uniformly in a magnetic field .The output of which is a series of emf pulses, all in the same positive direction resulting in an average EMF developed across the load. Increasing the number of coils thereby smoothen the output providing more pulses at each revolution.

The generated voltage depends upon the number of poles  and armature winding turns. It  has armature with iron core and air gap which is uniform the vicinity of the center of the pole and which becomes larger as the pole tips are approached.This construction gives a uniform flux distribution under the main parts of the pole face with a reduction in the flux at pole tips.to produce an emf the conductor must cut the magnetic lines of force.The single coil is connected to two copper segments by carbon brushes. As before the output electromotive force is a result of the coil cutting across the lines of magnetic flux. With any inductive machine an emf will only be generated while the lines of flux are being cut. Stop the rotation at any angle and the output falls to zero.
AC GENERATOR
AC generator has an alternating current  a sinusoidal wave 


  This is not the same as adding more turns to a single coil, which would increase the emf output.The main difference between the DC generator and the AC generator is in their connections to the armature coil,where a commutator is now used . A commutator is a combination of a rotating split-ring and stationary metal brushes that reverses the polarity of the coil with respect to the external circuit, so that the negative half of the AC signal is reversed and made positive. The result is a pulsating  direct emf which rises and falls but never changes direction .  This pulsating emf can be smoothed out or become less pulsating until almost straight by using more than one coil rotating about the same axis, or by other electrical techniques

Emf generation of DC generator
Through commutation the current will be about the same axis

DC generator emf generation



  Generators are classified in terms of the field excitation and its connection to armature windings. Self -exited generators can only build-up its voltage when all the requirements are satisfied.

Wednesday, August 11, 2010

DC Shunt generator

Shunt  Generator
 A shunt Generator consists of armature winding and the field winding in parallel. The magnetic field of the generator are exited by coils around the field poles. the construction of these coils and their connections to other electrical circuits determine the operating characteristics of the machine
Shunt generator connection
Shunt field generator  
where:
 V- terminal voltage, voltage at the load,V
 IL- is the Load current
 E- Generated emf, V
 Ia- Armature current,A
 If-  Shunt field current,A

Rf- The shunt field winding, ohms
Ra-The armature winding ,ohmsThe diagram can be analyzed using KVL
at loop 1)
DC shunt generator formula


Power input or power generated = E .Ia watts
Power output or power delivered = V. IL
Losses= Electrical losses + Mechanical losses