Find the range of K for stability

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The discussion focuses on determining the range of K for stability in a closed-loop system with the open-loop transfer function G_OL(s) = 10/(s-5). The correct closed-loop transfer function is G_CL(s) = G_OL/(1 + L*G_OL), where L is the loop gain defined as -G_OL*K. A stability condition derived from the equation indicates that K must be greater than 1/2 for stability. Participants request additional information, such as a block diagram, to better assist in solving the problem. Clarity on the definitions of G_OL and K is emphasized for accurate analysis.
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Homework Statement


Find the range of K for the closed loop system to be stable.
##G_{OL}(s) = \frac{10}{s-5}##

Homework Equations

The Attempt at a Solution


##G_{CL}(s) = \frac{KGol}{1+Gol}##
##G_{CL}(s) = \frac{10K}{s-5+10K}##
##-5+10K>0##
##K>\frac{1}{2}##
is this correct?
 
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No - the quation for Gcl is not correct (assuming Gol is the open-loop gain and K is the negative feedback factor).
We have Gcl=Gol/(1-LG)
with Loop Gain LG= - Gol*K.
 
In this context I am guessing that K is the amplifier block before the open loop gain that can be adjusted, also known as the DC gain of the controller. I am guessing Gol is really the open loop gain of the plant.
 
Jdoe10, can you provide us with a block diagram or more information?
 
jdoe10 - please, please, be so kind and give us the chance (necessary information) to answer your question.
 

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