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IEEE Series on Digital and Mobile Communication Ser.: Wireless LAN Radios : System Definition to Transistor Design by Arya Behzad (2007, Hardcover)

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About this product

Product Identifiers

PublisherWiley & Sons, Incorporated, John
ISBN-100471709646
ISBN-139780471709640
eBay Product ID (ePID)61196517

Product Key Features

Number of Pages256 Pages
Publication NameWireless Lan Radios : System Definition to Transistor Design
LanguageEnglish
SubjectRadio, Electrical, Networking / Local Area Networks (Lans)
Publication Year2007
TypeTextbook
Subject AreaComputers, Technology & Engineering
AuthorArya Behzad
SeriesIEEE Series on Digital and Mobile Communication Ser.
FormatHardcover

Dimensions

Item Height0.7 in
Item Weight16.5 Oz
Item Length9.3 in
Item Width6.1 in

Additional Product Features

Intended AudienceScholarly & Professional
LCCN2008-271035
Dewey Edition22
Series Volume Number11
IllustratedYes
Dewey Decimal621.3845
Table Of ContentPreface ix Acronyms xi CHAPTER 1 802.11 Flavors and System Requirements 1 1.1 Definition 1 1.2 WLAN Market Trends 3 1.3 History of 802.11 6 1.4 802.11: b, a, or g? 8 1.5 802.11b Standard 10 1.6 802.11a Channel Allocation 13 1.7 802.11a and 802.11g: OFDM Mapping 14 1.7.1 Multipath Fading 14 1.8 802.11a/g: Data Rates 21 1.9 802.11a/g OFDM Packet Construction 24 1.10 802.11 System Requirements 24 1.10.1 Receiver Sensitivity 24 1.10.2 Transmitter Error Vector Magnitude 26 1.10.3 Transmitter Spectral Mask 28 1.11 Vector Signal Analysis 33 CHAPTER 2 Radio Receiver and Transmitter Architectures 43 2.1 Architectures 43 2.1.1 Superheterodyne Receiver 44 2.1.1.1 Choice of Intermediate Frequency in Superheterodyne Receiver 47 2.1.2 Low IF Receiver 51 2.1.3 Direct-Conversion Receiver 55 2.1.4 Receiver Architectures: Summary 59 2.1.5 Superheterodyne Transmitter 60 2.1.6 Low IF Transmitter 64 2.1.7 Direct-Conversion Transmitter 64 2.1.8 Polar Modulators 66 2.2 Process Choices: CMOS versus SiGe BiCMOS 67 CHAPTER 3 Analog Impairments and Issues 73 3.1 Receiver Sensitivity and Noise Figure 73 3.2 Receiver DC Offsets and LO Leakage 75 3.3 Receiver Flicker Noise 79 3.4 Receiver Interferers and Intermodulation Distortion 83 3.4.1 IP3, IP2, and P1dB 83 3.4.2 Tools for Analyzing Modulated Signal Distortion 96 3.5 Receiver Image Rejection 102 3.5.1 Superheterodyne Receiver 102 3.5.2 Low IF Architecture 104 3.5.3 Direct-Conversion Receiver 106 3.6 Quadrature Balance and Relation to Image Rejection 107 3.7 Quadrature Balance and Relation to EVM 109 3.8 Other Transmitter (Modulator) Impairments 116 3.9 Peak-to-Average Ratio and Relation to Linearity and Efficiency 121 3.10 Local Oscillator Pulling in PLL 124 3.11 Phase Noise in PLL 126 3.12 Far-Out Phase Noise 130 3.13 Effect of Phase Noise on OFDM Systems 131 3.14 Effect of Frequency Errors on OFDM 132 3.15 Summary of Analog/RF Impairments 135 CHAPTER 4 Some Key Radio Building Blocks 137 4.1 Low Noise Amplifier 137 4.2 Mixer and its Local Oscillator Buffers 142 4.3 Power Amplifier 148 4.4 Fully Integrated VCO 153 4.5 Multifrequency (Stacked) Mixer 157 4.6 Open-Loop Transconductance Linearization Circuit 158 CHAPTER 5 Calibration Techniques 161 5.1 VCO Calibration 163 5.2 Automatic Frequency Control 165 5.3 Quadrature Error and Local Oscillator Feedthrough Calibration 172 5.4 Bias Current Calibrations (R Calibration) 175 5.5 Filter Time-Constant Calibration (RC Calibration) 176 5.6 Other Calibrations 177 CHAPTER 6 Case Studies 179 6.1 Case Study 1: A CMOS 802.11a Transceiver 179 6.1.1 Architecture and Circuit Implementation 179 6.1.2 Receiver 181 6.1.3 Transmitter 183 6.1.4 Phase-Locked Loop 186 6.2 Case Study 2: High Performance WLAN Transmitter Utilizing Quadrature and LOFT Calibration 189 CHAPTER 7 Brief Discussion Of 802.11n and Concluding Remarks 197 7.1 Need for 802.11n 197 7.2 802.11a/b/g/n MIMO Transceiver 202 7.2.1 Architecture and Circuit Implementation 203 7.2.1.1 Receiver 203 7.2.1.2 Transmitter 205 7.2.1.3 PLL and LO Generation 207 7.2.1.4 Calibration Techniques 209 7.2.2 Packaging Issues 211 7.2.3 Measurement Results 211 7.2.4 MIMO Case Study Conclusion 216 7.3 Concluding Remarks 217 References 221 Annotated Bibliography 223 Index 233 About the Author 241
SynopsisAs one of the few rising stars of the semiconductor industry, WLAN design is engaging more and more engineers and companies. Essential to the overall system design, is the radio design. In Wireless LAN Radios Arya Behzad covers the necessary theory while emphasizing the practical aspects of this promising technology., A high-level overview of radio design for wireless LAN systems The Wireless Local Area Network (WLAN), in both the technical and business worlds, is one of the few rising stars in the semiconductor industry. It is attracting a growing number of engineers and companies with its fairly high reliability, low cost, and high throughputs. As this trend continues, it is becoming increasingly important for both LAN system designers and circuit designers to have a solid grasp of WLAN applications to design the next generation of radios. Wireless LAN Radios presents a sophisticated overview of the subject, covering the necessary theory while emphasizing the practical aspects of this promising technology. Coverage includes: 802.11 flavors and system requirements Receiver and transmitter radio architectures Analog impairments and issues Key radio building blocks Calibration techniques Case studies A brief discussion of 802.11n Wireless LAN Radios also presents a detailed explanation of analog, digital, and mixed-mode calibration techniques for improving system performance and chip yield, while the impact of radio architecture on die size, system cost, and power consumption is also thoroughly evaluated. Complete with several case studies that explore the morass of trade-offs faced in industry, this books offers a meaningful presentation of real-world issues facing designers, engineers, theorists, and researchers working in this industry. The book is also an excellent text for graduate students in the general area of wireless LAN design., Wireless LAN Radios presents a sophisticated overview of the subject, covering theory while also emphasizing the practical aspects of this promising technology. Coverage includes 802.11 flavors and system requirements; receiver and transmitter radio architectures; analog impairments and issues; key radio building blocks; calibration techniques; case studies; and a brief discussion of 802.11n. It offers a meaningful presentation of real-world issues facing designers, engineers, theorists, and researchers working in this industry.
LC Classification NumberTK6553
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