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
where:
V- terminal voltage, voltage at the load,V
IL- is the Load current
E- Generated emf, V
Losses= Electrical losses + Mechanical losses
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 field generator |
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)
Power input or power generated = E .Ia watts
Power output or power delivered = V. ILLosses= Electrical losses + Mechanical losses
thank you very much sir
ReplyDeleteNice just what i needed! & what I need is to clear this module
ReplyDeleteHI, I need EMF Equation of a D.C. Generator can you please provide
ReplyDeleteHi can you please assist me with the following calculation of a shunt wound generator:
ReplyDeleteA six-pole d.c. shunt generator has a wavewound armature with 412 conductors. The flux per pole is 0,02 Wb, and it is driven at a speed (a) (b) (c) FIG. 1.3 of 1 250 r/min. The armature resistance is 0,15 H and the field resistance 125 ft. The brush contact drop is 2,4 V. If the terminal voltage is maintained at 500 V, calculate the current supplied to the load