A 6-pole, lap-wound, DC generator has a useful flux per pole of 0.08 Wb. The armature winding consists of 200 turns and the resistance is 0.055 ohms. Calculate the terminal voltage if the resistance of shunt and series field are 100 ohms and 0.02 ohms respectively; when the generator is running at 1000 rpm with armature current of 50A. Also, calculate the power output in kW for the generator. a. Assume generator connection as shunt (Rse = 0) b. Assume generator connection as short-shunt c. Assume generator connection as long-shunt
A 6-pole, lap-wound, DC generator has a useful flux per pole of 0.08 Wb. The armature winding consists of 200 turns and the resistance is 0.055 ohms. Calculate the terminal voltage if the resistance of shunt and series field are 100 ohms and 0.02 ohms respectively; when the generator is running at 1000 rpm with armature current of 50A. Also, calculate the power output in kW for the generator. a. Assume generator connection as shunt (Rse = 0) b. Assume generator connection as short-shunt c. Assume generator connection as long-shunt
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Transcribed Image Text:A 6-pole, lap-wound, DC generator has a useful flux per pole of 0.08 Wb. The
armature winding consists of 200 turns and the resistance is 0.055 ohms. Calculate
the terminal voltage if the resistance of shunt and series field are 100 ohms and
0.02 ohms respectively; when the generator is running at 1000 rpm with armature
current of 50A. Also, calculate the power output in kW for the generator.
a. Assume generator connection as shunt (Rse = 0)
b. Assume generator connection as short-shunt
c. Assume generator connection as long-shunt
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