RF and digital signal processing for software-defined radio a multi-standard multi-mode approach
Software-defined radio (SDR) is the hottest area of RF/wireless design, and this title describes SDR concepts, theory, and design principles from the perspective of the signal processing (both on transmission and reception) performed by a SDR system. After an introductory overview of essential SDR c...
| Autor principal: | |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; Boston :
Newnes
c2009.
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| Edición: | 1st edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627714206719 |
Tabla de Contenidos:
- Front Cover; RF and Digital Signal Processing for Software-Defined Radio: A Multi-Standard Multi-Mode Approach; Copyright Page; Contents; Acknowledgments; Chapter 1: Introduction; 1.1 The Need for Software-Defined Radio; 1.2 The Software-Defined Radio Concept; 1.3 Software Requirements and Reconfigurability; 1.4 Aim and Organization of the Book; References; Chapter 2: Common Analog Modulation and Pulse-Shaping Methods; 2.1 Amplitude Modulation; 2.2 Frequency and Phase Modulation; 2.3 Common Pulse-Shaping Functions; References; Chapter 3: Common Digital Modulation Methods
- 3.1 Channel Capacity Interpreted3.2 PSK Modulation; 3.3 FSK Modulation; 3.4 Continuous Phase Modulation (CPM); 3.5 Gaussian MSK (GMSK); 3.6 On-Off Keying (OOK); 3.7 Quadrature Amplitude Modulation (QAM); 3.8 Orthogonal Frequency Division Multiplexing (OFDM); 3.9 Spread Spectrum Modulation; 3.10 Appendix; References; Chapter 4: High-Level Requirements and Link Budget Analysis; 4.1 High-Level Requirements; 4.2 Link Budget Analysis; 4.3 Cascaded Noise Figure Analysis; References; Chapter 5: Memoryless Nonlinearity and Distortion; 5.1: 1-dB Compression Point Due to Memoryless Nonlinearities
- 5.2: Signal Desensitization and Blocking5.3: Intermodulation Distortion; 5.4: Cascaded Input-Referred Intercept Points; 5.5: Cross Modulation Distortion; 5.6: Harmonics; 5.7: Phase Noise and Reciprocal Mixing; 5.8: Spurious Signals; 5.9: Appendix; References; Chapter 6: Transceiver System Analysis and Design Parameters; 6.1 Receiver Selectivity; 6.2 Receiver Dynamic Range; 6.3 AM/AM and AM/PM; 6.4 Frequency Bands, Accuracy and Tuning; 6.5 Modulation Accuracy: EVM and Waveform Quality Factor; 6.6 Adjacent Channel Leakage Ratio (ACLR); 6.7 Transmitter Broadband Noise; References
- Chapter 7: Uniform Sampling of Signals and Automatic Gain Control7.1 Sampling of Lowpass Signals; 7.2 Sampling of Bandpass Signals; 7.3 The AGC Algorithm; 7.4 Appendix; References; Chapter 8: Nyquist-Rate Data Conversion; 8.1 Nyquist Converters; 8.2 Overview of Nyquist Sampling Converter Architectures; 8.3 Appendix; References; Chapter 9: ΔΣ Modulators for Data Conversion; 9.1 The Concept of ΔΣ Modulation; 9.2 Comparison between Continuous-Time and Discrete-Time ΔΣ Modulation; 9.3 SQNR Performance of ΔΣ Modulators; 9.4 Bandpass ΔΣ Modulators; 9.5 Common Architectures of ΔΣ Modulators
- 9.6 Further Nonidealities in ΔΣ ModulatorsReferences; Chapter 10: Multirate Digital Signal Processing; 10.1 Basics of Sample Rate Conversion; 10.2 Filter Design and Implementation; 10.3 Arbitrary Sampling Rate Conversion; References; Index; A; B; C; D; F; G; H; I; J; L; M; N; O; P; Q; R; S; T; U; V; W
