The no load terminal voltage of a separately excited dc generator is 382v when it runs at 1600rpm. The armature resistance is 0.05 ohm. If the generator runs at 800rpm and supplies a load current of 200amp, the terminal voltage is ? Please solve this question
no load vt @ 1600 rpm = 382V i.e no load Ea0 = 328V ( assuming Ia to be very small value at no load ) Ea = k(phi)(speed) as it is seperately excited gen and phi is not varied Ea is proportional to speed Ea0/Ea1 = w0/w1 = 1600/800 so Ea1 = 191V @ 800 rpm from this you can find Vt using Ta value and Ra value..
sir in 11.13 you have not shown the graph of Ea with armature reaction effect will it be parallel to Ea without armature reaction with the decreased value or like drooping graph
Sir....Ia&Ra drop will increase and Ea decrese
Sir, does the armature drop also reduces in the case of load chara with arm. reaction as mentioned in the video? Why?
I am sorry that I am not able to understand the doubt, can you please elaborate....
Oh yes..it.was a typo..thanks for pointing it out...the armature drop increases...I accidently wrote it...thanks anyway....
The no load terminal voltage of a separately excited dc generator is 382v when it runs at 1600rpm. The armature resistance is 0.05 ohm. If the generator runs at 800rpm and supplies a load current of 200amp, the terminal voltage is ?
Please solve this question
no load vt @ 1600 rpm = 382V
i.e no load Ea0 = 328V ( assuming Ia to be very small value at no load )
Ea = k(phi)(speed)
as it is seperately excited gen and phi is not varied
Ea is proportional to speed
Ea0/Ea1 = w0/w1 = 1600/800
so Ea1 = 191V @ 800 rpm
from this you can find Vt using Ta value and Ra value..
Thank you so much.. please make more videos and conduct practise sessions :)
Sir its Ia.. and is the answer 181?
I have not collected, if you have followed the correct procedure, the answer must be right...
glad to of help...please also consider sharing the videos with your friends and anyone who find these videos to be helpful...
sir in 11.13 you have not shown the graph of Ea with armature reaction effect will it be parallel to Ea without armature reaction with the decreased value or like drooping graph
Sir, how does the terminal voltage depends on speed?
sir Ia=(Ea/Ra)--Vt/Ra which is of the form y=mx+c so it should touch both Vt axes and Ia axis at Ea nd Ea/ra??