Contents
Preface
Acknowledgments
About the Authors
Part I: Prerequisites
1 Introduction
1.1 The Frontier: Millimeter Wave Wireless
1.2 A Preview of MmWave Implementation Challenges
1.3 Emerging Applications of MmWave Communications
1.4 Contributions of This Textbook
1.5 Outline of This Textbook
1.6 Symbols and Common Definitions
1.7 Chapter Summary
2 Wireless Communication Background
2.1 Introduction
2.2 Complex Baseband Representation
2.3 Digital Modulation
2.4 Equalization in the Time Domain
2.5 Equalization in the Frequency Domain
2.6 Error Control Coding
2.7 Estimation and Synchronization
2.8 Multiple Input Multiple Output (MIMO) Communication
2.9 Hardware Architectures
2.10 System Architecture
2.11 Chapter Summary
Part II: Fundamentals
3 Radio Wave Propagation for MmWave
3.1 Introduction
3.2 Large-Scale Propagation Channel Effects
3.3 Small-Scale Channel Effects
3.4 Spatial Characterization of Multipath and Beam Combining
3.5 Angle Spread and Multipath Angle of Arrival
3.6 Antenna Polarization
3.7 Outdoor Channel Models
3.8 Indoor Channel Models
3.9 Chapter Summary
4 Antennas and Arrays for MmWave Applications
4.1 Introduction
4.2 Fundamentals of On-Chip and In-Package MmWave Antennas
4.3 The On-Chip Antenna Environment
4.4 In-Package Antennas
4.5 Antenna Topologies for MmWave Communications
4.6 Techniques to Improve Gain of On-Chip Antennas
4.7 Adaptive Antenna Arrays โ Implementations for MmWave Communications
4.8 Characterization of On-Chip Antenna Performance
4.9 Chapter Summary
5 MmWave RF and Analog Devices and Circuits
5.1 Introduction
5.2 Basic Concepts for MmWave Transistors and Devices
5.3 S-Parameters, Z-Parameters, Y-Parameters, and ABCD-Parameters
5.4 Simulation, Layout, and CMOS Production of MmWave Circuits
5.5 Transistors and Transistor Models
5.6 More Advanced Models for MmWave Transistors
5.7 Introduction to Transmission Lines and Passives
5.8 Basic Transistor Configurations
5.9 Sensitivity and Link Budget Analysis for MmWave Radios
5.10 Important Metrics for Analog MmWave Devices
5.11 Analog MmWave Components
5.12 Consumption Factor Theory
5.13 Chapter Summary
6 Multi-Gbps Digital Baseband Circuits
6.1 Introduction
6.2 Review of Sampling and Conversion for ADCs and DACs
6.3 Device Mismatches: An Inhibitor to ADCs and DACs
6.4 Basic Analog-to-Digital Conversion Circuitry: Comparators
6.5 Goals and Challenges in ADC Design
6.6 Encoders
6.7 Trends and Architectures for MmWave Wireless ADCs
6.8 Digital-to-Analog Converters (DACs)
6.9 Chapter Summary
Part III: MmWave Design and Applications
7 MmWave Physical Layer Design and Algorithms
7.1 Introduction
7.2 Practical Transceivers
7.3 High-Throughput PHYs
7.4 PHYs for Low Complexity, High Efficiency
7.5 Future PHY Considerations
7.6 Chapter Summary
8 Higher Layer Design Considerations for MmWave
8.1 Introduction
8.2 Challenges when Networking MmWave Devices
8.3 Beam Adaptation Protocols
8.4 Relaying for Coverage Extension
8.5 Support for Multimedia Transmission
8.6 Multiband Considerations
8.7 Performance of Cellular Networks
8.8 Chapter Summary
9 MmWave Standardization
9.1 Introduction
9.2 60 GHz Spectrum Regulation
9.3 IEEE 802.15.3c
9.4 WirelessHD
9.5 ECMA-387
9.6 IEEE 802.11ad
9.7 WiGig
9.8 Chapter Summary
Bibliography
List of Abbreviations
Index
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z