A Real Time Microprocessor Based Digital Lead-Lag Compensation

Author

Vicente C. Garcia, University of Central Florida

Keywords

Electronic digital computers, Microprocessors

Abstract

The dynamic performance of control systems can be improved by incorporating carefully designed compensators. Historically, these compensators have been implemented with analog hardware. However, digitally based compensator designs offer far superior advantages; such as no aging, repeatability, etc. The major reason for rejecting the digital approach to compensator design has been cost. With the introduction of the INTEL 2920 4-input, 8-output, real-time signal processing chip (with AD and DA on-board), cost is no longer a barrier. In this research paper, the complete software-hardware 2920 design cycle required to implement a lead-lag control system compensator is illustrated.

Notes

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Graduation Date

Summer 1982

Advisor

Simons, Fred O.

Degree

Master of Science (M.S.)

College

College of Engineering

Degree Program

Engineering

Format

PDF

Pages

64 p.

Language

English

Rights

Public Domain

Length of Campus-only Access

None

Access Status

Masters Thesis (Open Access)

Identifier

DP0013726

STARS Citation

Garcia, Vicente C., "A Real Time Microprocessor Based Digital Lead-Lag Compensation" (1982). Retrospective Theses and Dissertations. 622.
https://stars.library.ucf.edu/rtd/622

Contributor (Linked data)

Fred O. Simons (Q59968700)

Simons, Fred O. [VIAF]

University of Central Florida. College of Engineering [VIAF]

University of Central Florida. College of Engineering [LC]

Accessibility Status

Searchable text