Principles of Random Signal Analysis and Low Noise Design

The Power Spectral Density and its Applications

Howard, Roy M.

Wiley - IEEE

1. Edition August 2002
328 Pages, Hardcover
Wiley & Sons Ltd

ISBN: 978-0-471-22617-8

John Wiley & Sons

Short Description

One of the key stages in the design of a new communications system or solid state circuit is determining how it will handle electronic noise. Covering the theory behind the analysis of this noise, Howard presents a detailed description of the power spectral density. He illustrates the use of this powerful analytical tool using examples from communications and circuit design.

Further versions

* Describes the leading techniques for analyzing noise.
* Discusses methods that are applicable to periodic signals, aperiodic signals, or random processes over finite or infinite intervals.
* Provides readers with a useful reference when designing or modeling communications systems.

Preface.

About the Author.

Introduction.

Background: Signal and System Theory.

The Power Spectral Density.

Power Spectral Density Analysis.

Power Spectral Density of Standard Random Processes--Part 1.

Power Spectral Density of Standard Random Processes--Part 2.

Memoryless Transformations of Random Processes.

Linear System Theory.

Principles of Low Noise Electronic Design.

Notation.

References.

Index.

ROY M. HOWARD received his PhD from the University of Western Australia and is a senior lecturer in the School of Electrical and Computer Engineering at Curtin University of Technology, Perth, Australia. His research interests include low noise amplifier design, stochastic modeling, l/f noise, nonlinear systems, and nonlinear electronics. He has published several papers relevant to the material in the book.

R. M. Howard, Curtin Univ. of Technology, Perth, Australia