E-Book, Englisch, 400 Seiten
Rouphael RF and Digital Signal Processing for Software-Defined Radio
1. Auflage 2009
ISBN: 978-0-08-094173-8
Verlag: Elsevier Science & Techn.
Format: EPUB
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
A Multi-Standard Multi-Mode Approach
E-Book, Englisch, 400 Seiten
ISBN: 978-0-08-094173-8
Verlag: Elsevier Science & Techn.
Format: EPUB
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
Understand the RF and Digital Signal Processing Principles Driving Software-defined Radios!
Software-defined radio (SDR) technology is a configurable, low cost, and power efficient solution for multimode and multistandard wireless designs. This book describes software-defined radio concepts and design principles from the perspective of RF and digital signal processing as performed within this system. After an introductory overview of essential SDR concepts, this book examines signal modulation techniques, RF and digital system analysis and requirements, Nyquist and oversampled data conversion techniques, and multirate digital signal processing..
KEY TOPICS
•Modulation techniques
Master analog and digital modulation schemes
•RF system-design parameters
Examine noise and link budget analysis and Non-linear signal analysis and design methodology
•Essentials of baseband and bandpass sampling and gain control
IF sampling architecture compared to traditional quadrature sampling, Nyquist zones, automatic gain control, and filtering
•Nyquist sampling converter architectures
Analysis and design of various Nyquist data converters
•Oversampled data converter architectures
Analysis and design of continuous-time and discrete-time Delta-Sigma converters
•Multirate signal processing
Gain knowledge of interpolation, decimation, and fractional data rate conversion
*Offers readers a powerful set of analytical and design tools
*Details real world designs
*Comprehensive coverage makes this a must have in the RF/Wireless industry
Tony J. Rouphael has worked on all aspects of wireless communications ranging from antenna and RF to digital signal processing. At Philips, Siemens, Northrop Grumman, RF Micro Devices, and others, he has developed products in TDMA IS-136, CDMA2000, GSM, WCDMA, UWB, 802.11, and software defined radio for JTRS applications. He holds 48 US patents, published over 20 journal articles in signal processing and communications, and published a book entitled RF and Signal Processing for Software Defined Radio with Elsevier-Newnes.
Autoren/Hrsg.
Weitere Infos & Material
1;Front Cover;1
2;RF and Digital Signal Processing for Software-Defined Radio: A Multi-Standard Multi-Mode Approach;4
3;Copyright Page;5
4;Contents;8
5;Acknowledgments;12
6;Chapter 1: Introduction;14
6.1;1.1 The Need for Software-Defined Radio;14
6.2;1.2 The Software-Defined Radio Concept;15
6.3;1.3 Software Requirements and Reconfigurability;17
6.4;1.4 Aim and Organization of the Book;17
6.5;References;19
7;Chapter 2: Common Analog Modulation and Pulse-Shaping Methods;20
7.1;2.1 Amplitude Modulation;21
7.2;2.2 Frequency and Phase Modulation;26
7.3;2.3 Common Pulse-Shaping Functions;31
7.4;References;37
8;Chapter 3: Common Digital Modulation Methods;38
8.1;3.1 Channel Capacity Interpreted;39
8.2;3.2 PSK Modulation;43
8.3;3.3 FSK Modulation;56
8.4;3.4 Continuous Phase Modulation (CPM);69
8.5;3.5 Gaussian MSK (GMSK);69
8.6;3.6 On-Off Keying (OOK);72
8.7;3.7 Quadrature Amplitude Modulation (QAM);74
8.8;3.8 Orthogonal Frequency Division Multiplexing (OFDM);78
8.9;3.9 Spread Spectrum Modulation;84
8.10;3.10 Appendix;89
8.11;References;96
9;Chapter 4: High-Level Requirements and Link Budget Analysis;100
9.1;4.1 High-Level Requirements;101
9.2;4.2 Link Budget Analysis;113
9.3;4.3 Cascaded Noise Figure Analysis;130
9.4;References;135
10;Chapter 5: Memoryless Nonlinearity and Distortion;136
10.1;5.1: 1-dB Compression Point Due to Memoryless Nonlinearities;137
10.2;5.2: Signal Desensitization and Blocking;141
10.3;5.3: Intermodulation Distortion;142
10.4;5.4: Cascaded Input-Referred Intercept Points;153
10.5;5.5: Cross Modulation Distortion;155
10.6;5.6: Harmonics;162
10.7;5.7: Phase Noise and Reciprocal Mixing;165
10.8;5.8: Spurious Signals;167
10.9;5.9: Appendix;168
10.10;References;173
11;Chapter 6: Transceiver System Analysis and Design Parameters;174
11.1;6.1 Receiver Selectivity;174
11.2;6.2 Receiver Dynamic Range;178
11.3;6.3 AM/AM and AM/PM;180
11.4;6.4 Frequency Bands, Accuracy and Tuning;185
11.5;6.5 Modulation Accuracy: EVM and Waveform Quality Factor;188
11.6;6.6 Adjacent Channel Leakage Ratio (ACLR);207
11.7;6.7 Transmitter Broadband Noise;209
11.8;References;211
12;Chapter 7: Uniform Sampling of Signals and Automatic Gain Control;212
12.1;7.1 Sampling of Lowpass Signals;212
12.2;7.2 Sampling of Bandpass Signals;220
12.3;7.3 The AGC Algorithm;229
12.4;7.4 Appendix;246
12.5;References;247
13;Chapter 8: Nyquist-Rate Data Conversion;248
13.1;8.1 Nyquist Converters;248
13.2;8.2 Overview of Nyquist Sampling Converter Architectures;279
13.3;8.3 Appendix;288
13.4;References;290
14;Chapter 9: ?S Modulators for Data Conversion;292
14.1;9.1 The Concept of ?S Modulation;292
14.2;9.2 Comparison between Continuous-Time and Discrete-Time ?S Modulation;298
14.3;9.3 SQNR Performance of ?S Modulators;313
14.4;9.4 Bandpass ?S Modulators;321
14.5;9.5 Common Architectures of ?S Modulators;326
14.6;9.6 Further Nonidealities in ?S Modulators;329
14.7;References;330
15;Chapter 10: Multirate Digital Signal Processing;332
15.1;10.1 Basics of Sample Rate Conversion;332
15.2;10.2 Filter Design and Implementation;353
15.3;10.3 Arbitrary Sampling Rate Conversion;377
15.4;References;388
16;Index;390
16.1;A;390
16.2;B;390
16.3;C;391
16.4;D;391
16.5;F;392
16.6;G;392
16.7;H;392
16.8;I;392
16.9;J;393
16.10;L;393
16.11;M;393
16.12;N;394
16.13;O;394
16.14;P;394
16.15;Q;395
16.16;R;395
16.17;S;395
16.18;T;396
16.19;U;396
16.20;V;396
16.21;W;396
