Date of Award
3-1992
Document Type
Thesis
Degree Name
Master of Science
Department
Department of Electrical and Computer Engineering
First Advisor
Edward S. Kolesar, Jr., PhD
Abstract
Two half-order differentiator circuit designs were investigated and their electrical performance evaluated (Oldham and Oldfield). Initially, each circuit design was computer modelled and simulated using the HSPICE computer analysis program. Then, each circuit design (Oldham and Oldfield) was fabricated with two different component technologies. This resulted in four circuits, realized on printed circuit boards, to be evaluated--Oldham discrete component; Oldham hybrid component; Oldfield discrete component; and Oldfield surface mount component. The characterizations of each circuit's electrical performance is documented with time, phase, gain, noise and spectrum responses. A comparison of each circuit's performance versus the design criteria and computer model performance is presented. Based upon the comparison of the circuit's electrical performances, the circuits were rank ordered as follows: 1. Oldham integrated chip technology (hybrid) component circuit design; 2. Oldham discrete component circuit design; 3. Oldfield surface mount component circuit design; 4. Oldfield discrete component design. Electrical Circuits, Fractional Calculus, Very Large Scale Integration, Printed Circuit Boards, Half-Order Differentiation
AFIT Designator
AFIT-GE-ENG-92M-05
DTIC Accession Number
ADA248085
Recommended Citation
Hughes, Richard N., "Design and Analysis of Electrical Circuits that Produce Fractional-Order Differentiation" (1992). Theses and Dissertations. 7582.
https://scholar.afit.edu/etd/7582
Comments
The author's Vita page is omitted.