Masters Theses

Keywords and Phrases

Altera Stratix

Abstract

"Modern FPGA and microprocessor have complex logic inside them, which draw current from the Power Distribution Network (PDN). This current drawn from the PDN creates disturbance on the PDN, which then propagates to other IC in different places on the Printed Circuit Board (PCB), and appears as a noise voltage. Ability to predict noise voltage at any point on the PCB gives a greater ability to carefully design the board and the PDN. In order to accurately predict the noise, it is important to accurately predict the current drawn and the transfer impedance from the source to the victim point. A methodology is presented herein to accurately predict noise at any point on the PCB for any given logic running inside the FPGA. The second problem in this work is the study of composite absorbing and reflecting shielding materials capable of providing shielding to electronic equipment"--Abstract, page iii.

Advisor(s)

Drewniak, James L.

Committee Member(s)

DuBroff, Richard E.
Koledintseva, Marina

Department(s)

Electrical and Computer Engineering

Degree Name

M.S. in Electrical Engineering

Publisher

University of Missouri--Rolla

Publication Date

Fall 2007

Pagination

xi, 84 pages

Note about bibliography

Includes bibliographical references (pages 102-104).

Rights

© 2007 Sandeep Kamalakar Reddy Chandra, All rights reserved.

Document Type

Thesis - Open Access

File Type

text

Language

English

Subject Headings

Electronic circuits -- Noise
Printed circuits -- Design and construction
Shielding (Electricity)

Thesis Number

T 9261

Print OCLC #

236169663

Electronic OCLC #

779477745

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