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Synchronization in Digital Communications, Volume 1: Phase-, Frequency-Locked Loops, and Amplitude Control / Edition 1

Synchronization in Digital Communications, Volume 1: Phase-, Frequency-Locked Loops, and Amplitude Control / Edition 1

Synchronization in Digital Communications, Volume 1: Phase-, Frequency-Locked Loops, and Amplitude Control / Edition 1
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ISBN-10:
047150193X
ISBN-13:
9780471501930
Pub. Date:
01/16/1991
Publisher:
Wiley
ISBN-10:
047150193X
ISBN-13:
9780471501930
Pub. Date:
01/16/1991
Publisher:
Wiley
Synchronization in Digital Communications, Volume 1: Phase-, Frequency-Locked Loops, and Amplitude Control / Edition 1

Synchronization in Digital Communications, Volume 1: Phase-, Frequency-Locked Loops, and Amplitude Control / Edition 1

Overview

The first accessible, comprehensive treatment of synchronization in digital communications. This two-volume work presents a bottom-up approach—emphasis is on applications rather than mathematics. The first volume presents the basics of phase, frequency and amplitude control, then covers more advanced topics such as the nonlinear theory of synchronizers. The second volume covers symbol/suppressed carrier synchronizers. Chapters are relatively self-contained for ease of reference.

Product Details

ISBN-13: 9780471501930
Publisher: Wiley
Publication date: 01/16/1991
Series: Wiley Series in Telecommunications and Signal Processing , #9
Edition description: Volume 1 ed.
Pages: 528
Product dimensions: 6.38(w) x 9.59(h) x 1.16(d)

About the Author

Heinrich Meyr is the author of Synchronization in Digital Communications, Volume 1: Phase-, Frequency-Locked Loops, and Amplitude Control, published by Wiley. Gerd Ascheid is the author of Synchronization in Digital Communications, Volume 1: Phase-, Frequency-Locked Loops, and Amplitude Control, published by Wiley.

Table of Contents

Phase-Locked Loop Fundamentals.

Phase-Locked Loop Tracking Performance in the Presence ofNoise.

Unaided Acquisition.

Aided Acquisition.

Loop Threshold.

Amplitude Control.

Automatic Frequency Control.

Brief Review of Some Mathematical Fundamentals.

Relaxation Times, Meantime Between Cycle Slips, Transition Rates,and Eigenvalues of Fokker-Planck Operators.

Renewal Process Approach.

The Matrix Eigenvalue Approach.

Epilogue: Unexplored Topics.

Index.
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