Microwave and RF Design Volume 1 Radio Systems Third Edition by Michael Steer ISBN 978-1469656908 1469656906
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ISBN 10: 1469656906
ISBN 13: 978-1469656908
Author: Michael Steer
Microwave and RF Design: Radio Systems is a circuits- and systems-oriented approach to modern microwave and RF systems. Sufficient details at the circuits and sub-system levels are provided to understand how modern radios are implemented. Design is emphasized throughout. The evolution of radio from what is now known as 0G, for early radio, through to 6G, for sixth generation cellular radio, is used to present modern microwave and RF engineering concepts. Two key themes unify the text: 1) how system-level decisions affect component, circuit and subsystem design; and 2) how the capabilities of technologies, components, and subsystems impact system design. This book is suitable as both an undergraduate and graduate textbook, as well as a career-long reference book.
Key Features
* The first volume of a comprehensive series on microwave and RF design
* Open access ebook editions are hosted by NC State University Libraries at https://repository.lib.ncsu.edu/handle/1840.20/36776
* 31 worked examples
* An average of 38 exercises per chapter
* Answers to selected exercises
* Coverage of cellular radio from 1G through 6G
* Case study of a software defined radio illustrating how modern radios partition functionality between analog and digital domains
* A companion book, Fundamentals of Microwave and RF Design, is suitable as a comprehensive undergraduate textbook on microwave engineering
Table of contents:
1 Introduction to RF and Microwave Systems
1.1 Introduction
1.2 RF and Microwave Engineering
1.3 Communication Over Distance
1.3.1 Electromagnetic Fields.
1.3.2 Biot-Savart Law
1.3.3 Faraday’s Law of Induction
1.3.4 Ampere’s Circuital Law
1.3.5 Gauss’s Law
1.3.6 Gauss’s Law of Magnetism
1.3.7 Telegraph
1.3.8 The Origins of Radio.
1.3.9 Maxwell’s Equations.
1.3.10 Transmission of Radio Signals
1.3.11 Early Radio
1.4 Radio Architecture
1.5 Conventional Wireless Communications
1.6 RF Power Calculations
1.6.1 RF Propagation
1.6.2 Logarithm.
1.6.3 Decibels
1.6.4 Decibels and Voltage Gain
1.7 Photons and Electromagnetic Waves
1.8 Summary
1.9 References
1.10 Exercises
1.10.1 Exercises By Section
1.10.2 Answers to Selected Exercises
2 Modulation
2.1 Introduction
2.2 Radio Signal Metrics
2.2.1 Crest Factor and Peak-to-Average Power Ratio
2.2.2 Peak-to-Mean Envelope Power Ratio
2.2.3 Two-Tone Signal
2.3 Modulation Overview
2.4 Analog Modulation.
2.4.1 Amplitude Modulation
2.4.2 Phase Modulation
2.4.3 Frequency Modulation
2.4.4 Analog Modulation Summary
2.5 Digital Modulation
2.5.1 Modulation Efficiency
2.6 Frequency Shift Keying, FSK
2.6.1 Essentials of FSK Modulation.
2.6.2 Gaussian Minimum Shift Keying
2.6.3 Doppler Effect
2.6.4 Summary
2.7 Carrier Recovery
2.8 Phase Shift Keying Modulation
2.8.1 Essentials of PSK
2.8.2 Binary Phase Shift Keying
2.8.3 Quadra-Phase Shift Keying, QPSK.
2.8.4 π/4 Quadrature Phase Shift Keying
2.8.5 Differential Quadra Phase Shift Keying, DQPSK
2.8.6 Offset Quadra Phase Shift Keying, OQPSK.
2.8.7 3/8-8PSK, Rotating Eight-State Phase Shift Keying
2.8.8 Summary
2.9 Quadrature Amplitude Modulation
2.10 Digital Modulation Summary
2.11 Interference and Distortion
2.11.1 Cochannel Interference
2.11.2 Adjacent Channel Interference
2.11.3 Noise, Distortion, and Constellation Diagrams.
2.11.4 Comparison of GMSK and ㅠ/4DQPSK Modulation.
2.11.5 Error Vector Magnitude
2.12 Summary
2.13 References
2.14 Exercises
2.14.1 Exercises By Section
2.14.2 Answers to Selected Exercises
3 Transmitters and Receivers
3.1 Introduction
3.2 Single-Sideband and Double-Sideband Modulation
3.3 Early Modulation and Demodulation Technology
3.3.1 Heterodyne Receiver
3.3.2 Homodyne Receiver
3.3.3 FM Modulator
3.3.4 FM Demodulator
3.3.5 Superheterodyne Receiver
3.3.6 Summary
3.4 Receiver and Transmitter Architectures
3.4.1 Radio as a Cascade of Two-Ports.
3.4.2 Heterodyne Transmitter and Receiver
3.4.3 Superheterodyne Receiver Architecture
3.4.4 Single Heterodyne Receiver.
3.4.5 Transceiver
3.4.6 Hartley Modulator
3.4.7 The Hartley Modulator in Modern Radios
3.5 Carrier Recovery
3.6 Modern Transmitter Architectures
3.6.1 Quadrature Modulator
3.6.2 Quadrature Modulation
3.6.3 Frequency Modulation
3.6.4 Polar Modulation
3.7 Modern Receiver Architectures
3.7.1 Receiver Architectures.
3.7.2 Homodyne Frequency Conversion.
3.7.3 Heterodyne Frequency Conversion
3.7.4 Direct Conversion Receiver
3.7.5 Low-IF Receiver
3.7.6 Subsampling Analog-to-Digital Conversion
3.7.7 First IF-to-Baseband Conversion
3.7.8 Bilateral Double-Conversion Receiver
3.8 Introduction to Software Defined Radio
3.9 SDR Quadrature Modulator
3.9.1 Analog Quadrature Modulator
3.9.2 Summary
3.10 Case Study: SDR Transmitter
3.10.1 Analog Quadrature Modulator.
3.10.2 Single-Sideband Suppressed-Carrier (SSB-SC) Modu-lation.
3.10.3 Digital Quadrature Modulation
3.10.4 QAM Digital Modulation
3.10.5 SDR Transmitter Using QAM Digital Modulation
3.11 SDR Quadrature Demodulator
3.12 SDR Receiver
3.12.1 Demodulation of the I component
3.12.2 Demodulation of the Q component
3.13 SDR Summary
3.14 Summary
3.15 References
3.16 Exercises
4 Antennas and the RF Link
4.1 Introduction
4.2 RF Antennas.
4.3 Resonant Antennas
4.3.1 Radiation from a Current Filament
4.3.2 Finite-Length Wire Antennas
4.4 Traveling-Wave Antennas
4.5 Antenna Parameters
4.5.1 Radiation Density and Radiation Intensity
4.5.2 Directivity and Antenna Gain
4.5.3 Effective Isotropic Radiated Power
4.5.4 Effective Aperture Size
4.5.5 Summary
4.6 The RF Link
4.6.1 Propagation Path
4.6.2 Resonant Scattering
4.6.3 Fading
4.6.4 Link Loss and Path Loss
4.6.5 Fresnel Zones
4.6.6 Propagation Model in the Mobile Environment
4.7 Multipath and Delay Spread
4.7.1 Delay Spread
4.7.2 Intersymbol Interference
4.7.3 Summary
4.8 Radio Link Interference
4.8.1 Frequency Reuse Plan
4.8.2 Summary
4.9 Antenna array
4.10 Summary
4.11 References
4.12 Exercises
4.12.1 Exercises By Section
4.12.2 Answers to Selected Exercises
5 RF Systems
5.1 Introduction
5.2 Broadcast, Simplex, Duplex, Diplex, and Multiplex Operations
5.2.1 International Telecommunications Union Definitions
5.2.2 Duplex Versus Diplex
5.3 Cellular Communications
5.3.1 Cellular Concept
5.3.2 Personal Communication Services
5.3.3 Call Flow and Handoff
5.3.4 Cochannel Interference
5.4 Multiple Access Schemes
5.5 Spectrum Efficiency
5.6 Processing Gain
5.6.1 Energy of a Bit
5.6.2 Coding Gain
5.6.3 Spreading Gain
5.6.4 Spreading Gain in Terms of Bandwidth
5.6.5 Symbol Error Rate and Bit Error Rate
5.6.6 Summary
5.7 Early Generations of Cellular Phone Systems
5.8 Early Generations of Radio
5.8.1 1G, First Generation: Analog Radio
5.8.2 2G, Second Generation: Digital Radio.
5.9 3G, Third Generation: Code Division Multiple Acces (CDMA)
5.9.1 Generation 2.5: Direct Sequence Code Division Multi-ple Access
5.9.2 Multipath and Rake Receivers
5.9.3 3G, Wideband CDMA
5.9.4 Summary
5.10 4G, Fourth Generation Radio
5.10.1 Orthogonal Frequency Division Multiplexing
5.10.2 Orthogonal Frequency Division Multiple Access
5.10.3 Cyclic Prefix
5.10.4 FDD versus TDD.
5.10.5 Multiple Input, Multiple Output
5.10.6 Carrier Aggregation
5.10.7 IEEE 802.11n
5.10.8 OFDM Modulator
5.10.9 Summary of 4G
5.11 5G, Fifth Generation Radio
5.11.1 Mesh Radio
5.11.2 Cognitive Radio
5.11.3 Massive MIMO
5.11.4 Active Antenna Systems
5.11.5 Microwave Frequency Operation
5.11.6 Millimeter-Wave Operation.
5.11.7 Non Orthogonal Multiple Access
5.11.8 Summary
5.12 6G, Sixth Generation Radio
5.13 Radar Systems
5.14 Summary
5.15 References
5.16 Exercises
5.16.1 Exercises By Section
5.16.2 Answers to Selected Exercises
5.A Mathematics of Random Processes
Index
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