Root-locus procedure analysis for phase-locked loop systems

Altinbuken, Metin.

January 1977

Thesis (M.S.)--Wisconsin. / Includes bibliographical references (leaves 29-87).

Root-locus method. Root-locus method

Root-Locus Theory for Infinite-Dimensional Systems

Monifi, Elham

January 2007

In this thesis, the root-locus theory for a class of diffusion systems is studied. The input and output boundary operators are co-located in the sense that their highest order derivatives occur at the same endpoint. It is shown that infinitely many root-locus branches lie on the negative real axis and the remaining finitely many root-locus branches lie inside a fixed closed contour. It is also shown that all closed-loop poles vary continuously as the feedback gain varies from zero to infinity.

root-locus

infinite-dimensional systems

Applied Mathematics

Root-Locus Theory for Infinite-Dimensional Systems

Monifi, Elham

January 2007

In this thesis, the root-locus theory for a class of diffusion systems is studied. The input and output boundary operators are co-located in the sense that their highest order derivatives occur at the same endpoint. It is shown that infinitely many root-locus branches lie on the negative real axis and the remaining finitely many root-locus branches lie inside a fixed closed contour. It is also shown that all closed-loop poles vary continuously as the feedback gain varies from zero to infinity.

root-locus

infinite-dimensional systems

Applied Mathematics

Designing feedback compensators by using the Root-Locus method

Korkmaz, Levent

12 1900

Approved for public release; distribution is unlimited / The purpose of this thesis is to find suitable ways to design feedback compensators for high order systems by using Root-Locus methods. As a starting point we will examine a motor amplidyne system and a position control system that were previously designed using Bode methods. Then we generalize the method and extend it to other systems. The final subject of this thesis is to design feedback compensators as filters by using state feedback coefficients to define zeros of the filter, then we extend this idea to build cascade filters. / http://archive.org/details/designingfeedbac00kork / Lieutenant, Junior Grade, Turkish Navy

Root-Locus

Function minimization

State feedback

Properties of multivariable root loci

Yagle, Andrew Emil

January 1981

Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, 1981. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ENGINEERING. / Includes bibliographical references. / by Andrew Emil Yagle. / M.S.

Root-locus method

Asymptotes

Equations for the angles of arrival and departure for multivariable root loci using frquency-domain methods

January 1981

Andrew E. Yagle and Bernard C. Levy. / Bibliography: leaves 8-9. / "July 1981." / NASA Ames Research Center Grant NASA/NGL-22-009-124

TK7855.M41 E3845 no.1104

Root-locus method

Asymptotic unbounded root loci : formulae and computation

January 1981

S.S. Sastry and C.A. Desoer. / Bibliography: leaf 3. / Caption title. "August, 1981." / Supported by NSF under Grant ENG-78-09032-A01 NASA Grant NGL-22-009-124

TK7855.M41 E3845 no.1137

Eigenvalues

Root-locus method

Large deflection analysis of a circular plate with a concentrically supporting overhang

Zabad, Ibrahim Abdul-Jabbar

January 1981

No description available.

Elastic plates and shells.

Runge-Kutta formulas.

Root-locus method.

Developing root locus stability diagrams using a personal computer

Svrcek, Ben C.

January 1987

Companies which design automation control for the metal rolling industry are faced with a growing demand for systems with higher performance standards than ever before. Along with these demanding specifications is always the problem of system stability at any given speed. A multi-ton rolling stand with uncontrolled oscillations not only destroys the product being rolled but may cause serious damage to the plant and endanger the lives of mill personnel. Therefore stability analysis is critical whether modeling individual mills or analyzing old products and strategies so as to invent better, cheaper control methods. Cost is another major consideration for the firm ordering these systems and the companies which design them. Suppliers are trimming time from design and production schedules wherever possible in order to compete in the world market. It is for these, and other reasons that computer aided stability analysis is so important. The object is to ensure a safe and stable system and yet minimize the time (and therefore cost) needed For design and installation. This paper describes a program (ROOT LOCUS) which was created to fill this need while using the tools and methods readily at hand. It was written for personal computers as these machines are rapidly proving to be cost effective solutions to problems in computing power. / Master of Science

LD5655.V855 1987.S932

Root-locus method

Feedback control systems

Root Locus Plotter for a Dual Tank System Under Feedback Control

Decatrel, John M.

01 January 1986

A root locus graphics routine was written in Turbo Pascal for the analysis and design of a linearized dual tank control system. The routine is a subprogram to be incorporated with an editor written by L. Fadden. This editor allows for the saving and changing of parameters to the system. The dual tank system is a good example for classical feedback control analysis. A brief description of the process and system is presented. The system may be described by linearized differential and algebraic equations. From these, a characteristic equation is derived, which gives rise to the root locus. The root locus is a plot of the poles of the closed loop system. Poles or roots of the characteristic equation are found using the Lin-Bairstow algorithm. This method may be used to solve for the zeroes of an nth degree polynomial. The root locus plotter was exercised by attempting to optimally tune the system’s controller. Corroboration of the results was provided by step response plots from the TUTSIM simulation program. Minor modifications allow the root locus plotter to run without the editor. Graphics subroutines are provided by the Turbo Graphix Toolbox. When run under the editor, the plotter is one interactive design module of the dual tank system analysis and design program. The subprogram was designed principally for user ease, error checking, and effective graphics.

Feedback control systems

Root locus method

Computer Engineering

Engineering