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What is root locus and why is it useful?

What is root locus and why is it useful?

Root locus is helping us to map graphically as graph all possible locations of the poles within the system on the s-plane. The different locations of the poles are obtained under the effect of gain changes (proportional gain).

What does a root locus diagram show?

A root locus diagram is a plot that shows how the eigenvalues of a linear (or linearized) system change as a function of a single parameter (usually the loop gain). The diagram shows the location of the closed loop poles as a function of a parameter .

What are the properties of root locus?

The root loci are symmetrical with respect to the real axis of the s-plane . In general, the root loci are symmetrical with respect to the axes of symmetry of the pole-zero configuration of G(s)H(s).

Where does the root locus start?

open-loop poles
The root locus branches start at the open-loop poles and end at the open-loop zeros or at infinity. 3. The real axis root loci have an odd number of poles plus zeros to their right.

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How do you do root locus?

Construction of Root Locus

  1. Rule 1 − Locate the open loop poles and zeros in the ‘s’ plane.
  2. Rule 2 − Find the number of root locus branches.
  3. Rule 3 − Identify and draw the real axis root locus branches.
  4. Rule 4 − Find the centroid and the angle of asymptotes.

What are the two conditions of a root locus?

Further, the two conditions of root locus are: Angle condition. Magnitude condition.

How do you get a root locus?

How many branches does the root locus have?

3 branches
The open loop transfer function, G(s)H(s), has 3 poles, therefore the locus has 3 branches. Each branch is displayed in a different color.

What kind of stability can find out using root locus?

Root Locus and Stability When any of the roots are in the marginally stable region, the system is marginally stable (oscillatory). When all of the roots of D are in the stable region, then the system is stable. It is important to note that a system that is stable for gain K1 may become unstable for a different gain K2.