Mixed Signal Vlsi Wireless Design,9780792386872

Mixed Signal Vlsi Wireless Design

by ;
ISBN13: 9780792386872
ISBN10: 0792386876
Format: Hardcover
Pub. Date: 1999-10-01
Publisher(s): Kluwer Academic Pub
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Summary

The wireless revolution has come upon us swiftly and powerfully. Today one of the most challenging areas for VLSI designers is VLSI circuit and system design for wireless applications. The design of a cellular radio system involves several engineering disciplines ranging from communication theory and digital signal processing to high frequency semiconductor technology and circuit design. Furthermore, the new generation of wireless systems, which includes multimedia, puts severe constraints on performance, cost, size, power and energy. VLSI designers now need to understand both wireless communication and mixed signal design. Mixed Signal VLSI Wireless Design: Circuits and Systems provides the designer with an overview of wireless communication systems, followed by a detailed treatment of related topics such as the mobile radio, digital modulation and schemes, spread spectrum and receiver architectures. The second half of the book deals with VLSI design issues related to mixed-signal design. These include analog-to-digital conversion, transceiver design, digital low-power techniques, amplifier design, phase-locked loops and frequency synthesizers. Mixed Signal VLSI Wireless Design: Circuits and Systems is written for use in advanced level courses and also serves as a basic reference for professional engineers.

Table of Contents

List of Figures
ix
List of Tables
xvii
Preface xix
Acknowledgments xxi
List of Acronyms
xxiii
Introduction
1(22)
The History of Wireless Communications
1(3)
Wireless Communications Basics
4(5)
Wireless Communications Standards
9(9)
Terminology
18(2)
Book Organization
20(3)
Wireless Communication Systems-Overview
23(32)
Introduction
23(1)
Digital Communication Systems
23(4)
Minimum Bandwidth Requirement (The Nyquist Limit)
27(9)
The Shannon Limit
36(9)
Optimum Receiver Design for Band-pass Digital Systems
45(10)
The Mobile Radio
55(32)
Introduction
55(1)
The Cellular Concept
55(11)
Channel Impairments
66(5)
Large Scale Fading
71(1)
Doppler Shift
72(3)
Small Scale Fading
75(10)
Diversity Techniques in Wireless Communications
85(2)
Digital Modulation Schemes
87(28)
Introduction
87(1)
Amplitude Shift Keying
88(3)
Phase Shift Keying
91(15)
Frequency Shift Keying
106(5)
Digital Modulation Techniques Comparisons
111(4)
Spread Spectrum
115(18)
Introduction
115(2)
Basic Principles of Spread Spectrum
117(1)
Spread Spectrum Techniques
118(3)
Pseudorandom Noise Sequence
121(5)
Practical Considerations in Spread Spectrum Systems
126(7)
Receiver Architectures
133(22)
Introduction
133(1)
Noise Figure
133(5)
Intermodulation distortion
138(6)
The Superheterodyne Receiver
144(6)
The Homodyne Receiver
150(1)
Software Radio
151(4)
Analog to Digital Conversion
155(40)
Introduction
155(3)
Performance Metrics of Analog-to-Digital Converters
158(1)
Sampling
158(7)
Band-pass Sampling
165(2)
Quantization
167(4)
Types of Analog-to-Digital Converters
171(17)
Sigma-Delta Analog-to-Digital Converters
188(7)
Vlsi Design Issues In Wireless Transceiver Design
195(16)
Introduction
195(2)
Transceiver Design Constraints
197(2)
Baseband Subsystem Design
199(5)
RF Subsystem Design
204(7)
Low-Power Design Techniques
211(16)
Introduction
211(2)
Sources of Power Dissipation
213(2)
Estimating the Power Dissipation
215(2)
Low-Power Examples of Portable Systems
217(1)
Reducing the Power Dissipation at the Device and Circuit Levels
218(1)
Low-Voltage Low-Power Operation
219(4)
Reducing the Power Dissipation at the Architecture and Algorithm Levels
223(4)
Amplifier Design for Wireless Communication Systems
227(28)
Introduction
227(1)
Amplifier Design
228(5)
Low Noise Amplifier
233(5)
Automatic Gain Control Amplifiers
238(5)
Power Amplifiers
243(12)
Phase Locked Loops
255(30)
Introduction
255(1)
Operation of the Phase Locked Loop
255(6)
Phase Detectors
261(8)
Frequency Dividers
269(4)
Oscillator Design
273(12)
Frequency Synthesizers
285(21)
Introduction
285(1)
Frequency synthesizer (FS) parameters
286(2)
Frequency Synthesizer Techniques
288(11)
Analyzing phase noise in frequency synthesizers
299(4)
Summary
303(3)
Bibliography 306(10)
Index 316

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