Non-Iterative Finite Impulse Response Design Techniques

Author

Carlton D. Bishop, University of Central Florida

Keywords

Acoustic surface wave filters, Filters and filtration -- Design and construction

Abstract

A general, non-iterative design technique for low shapefactor, transversal filters is presented. This design approach uses two cosine series to specify appropriate eigenfunctions. An infinite set of such eigenfunctions are defined and the method for choosing the coefficients is discussed.

The total filter response is specified as the product of two individual frequency responses. The impulse response of each is then determined by applying the superposition of appropriate eigenfunctions. The criteria for choosing the appropriate eigenfunctions is discussed.

A synthesis procedure for designing surface acoustic wave filters is presented. The effects of truncating the impulse response are also explored. A design example is shown for a filter with 10 percent fractional bandwidth and a shapefactor of 1.15.

Notes

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Graduation Date

1984

Semester

Summer

Advisor

Malocha, Donald C.

Degree

Master of Science (M.S.)

College

College of Engineering

Degree Program

Engineering

Format

PDF

Pages

34 p.

Language

English

Rights

Public Domain

Length of Campus-only Access

None

Access Status

Masters Thesis (Open Access)

Identifier

DP0015928

STARS Citation

Bishop, Carlton D., "Non-Iterative Finite Impulse Response Design Techniques" (1984). Retrospective Theses and Dissertations. 4706.
https://stars.library.ucf.edu/rtd/4706

Contributor (Linked data)

Donald C. Malocha (Q59394643)

University of Central Florida. College of Engineering [VIAF]

University of Central Florida. College of Engineering [LC]

Accessibility Status

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