Solved Problem Based On Maximum Power Transfer Theorem
Ques.) Find the value of RL for the given network
below that the power is maximum? And also find the Max Power through
load-resistance RL by using maximum power transfer theorem?
Solution: -
For the above network, we are going to find-out the value of unknown resistance called “RL”. In previous post, I already show that when power is maximum through load-resistance is equals to the equivalent resistance between two ends of load-resistance after removing.
So, for finding load-resistance RL. We have to
find-out the equivalent resistance like that for this circuit:-
Now, For finding Maximum Power through load-resistance we have to
find-out the value of Vo.c.
Here, Vo.c is known as voltage between open circuits.
So, steps are:-
For this circuit using Mesh-analysis. We get
Applying Kvl in loop 1st:-
6-6I1-8I1+8I2=0
-14I1+8I2=-6 ∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙ (1)
Again, Applying Kvl in loop 2nd:-
-8I2-5I2-12I2+8I1=0
8I1-25I2=0 ∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙
(2)
On solving,eqn (1) & eqn (2), We get
I1 = 0.524 A
I2 = 0.167 A
Now, From the circuit Vo.c is
VA-5I2- VB = 0
Vo.c/ VAB= 5I2 = 5X0.167 =
0.835v
So, the maximum power through the RL is given by:-
5 comments:
what is Va and Vb ? when you say that "now,from the circuit Vo.c is" plz reply
A/w,Wasif Hafeez.For finding,voltage across open circuit,(i.e Vo.c),we
have to go thru point A to point B or you can go thru point B to point
A,by using mesh method.It will give you voltage across Vab.Here,Va and
Vb are voltage at that pt A and B respectively.here only required voltage across that removed
resistance which is known as 'load-resistance Rl' as Vo.c/Vab.plz,read
this website thruout.It will be clear your concept,insha allah.
Thanks,Leslie Lim for your valuable comment.
i hope you will also f9.
You have a very good presentation of the solution of the problem. Thank you Sir! :)
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