Mobile handset design
The evolution of mobile communication standards presents numerous challenges in mobile handset design. Designers must continue to turn out handsets that maintain high device performance and air interface compatibility, while at the same time shrink power consumption, form factors, and costs. Mobile...
| Autor principal: | |
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Hoboken, NJ :
John Wiley & Sons
2009.
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| Edición: | 1st edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009628279606719 |
Tabla de Contenidos:
- MOBILE HANDSET DESIGN; Contents; Preface; Introduction; 1 Introduction to Mobile Handsets; 1.1 Introduction to Telecommunication; 1.1.1 Basic Elements of Telecommunication; 1.2 Introduction to Wireless Telecommunication Systems; 1.2.1 Generation of Electromagnetic Carrier Waves for Wireless Communication; 1.2.2 Concept of the Antenna; 1.2.3 Basic Building Blocks of a Wireless Transmitter and Receiver; 1.2.4 The Need for a Communication Protocol; 1.3 Evolution of Wireless Communication Systems; 1.3.1 Introduction of Low Mobility Supported Wireless Phones
- 1.3.2 Introduction to Cellular Mobile Communication1.3.3 Introduction to Mobile Handsets; Further Reading; 2 Problem Analysis in Mobile Communication System; 2.1 Introduction to Wireless Channels; 2.2 Impact of Signal Propagation on Radio Channel; 2.2.1 Reflection; 2.2.2 Diffraction; 2.2.3 Scattering; 2.3 Signal Attenuation and Path Loss; 2.3.1 Empirical Model for Path Loss; 2.4 Link Budget Analysis; 2.5 Multipath Effect; 2.5.1 Two Ray Ground Reflection Model; 2.6 Delay Spread; 2.6.1 Coherent BW (Bc); 2.7 Doppler Spread; 2.7.1 Coherence Time (Tc); 2.8 Fading; 2.8.1 Large-Scale Fading
- 2.8.2 Small-Scale Fading2.8.3 Flat Fading; 2.8.4 Frequency-Selective Fading; 2.8.5 Fast Fading; 2.8.6 Slow Fading; 2.9 Signal Fading Statistics; 2.9.1 Rician Distribution; 2.9.2 Rayleigh Distribution; 2.9.3 Log-Normal Distribution; 2.10 Interference; 2.10.1 Inter-Symbol Interference; 2.10.2 Co-Channel Interference; 2.10.3 Adjacent Channel Interference; 2.11 Noise; 2.11.1 Noise in a Two-Port Circuit; 2.11.2 Thermal Noise; 2.11.3 White Noise; 2.11.4 Flicker Noise; 2.11.5 Phase Noise; 2.11.6 Burst Noise; 2.11.7 Shot Noise; 2.11.8 Avalanche Noise; 2.11.9 Noise Figure (NF); Further Reading
- 3 Design Solutions Analysis for Mobile Handsets3.1 Introduction; 3.2 Diversity; 3.2.1 Time Diversity; 3.2.2 Frequency Diversity; 3.2.3 Space Diversity; 3.3 Channel Estimation and Equalization; 3.3.1 Study of Channel Characteristics - Channel Estimation; 3.3.2 Equalization; 3.3.3 Equalizer Implementation; 3.3.4 Signal Model; 3.3.5 Types of Equalizers; 3.4 Different Techniques for Interference Mitigation; 3.4.1 Frequency Hopping; 3.4.2 Discontinuous Transmission (DTX); 3.4.3 Cell Sectorization; 3.4.4 Use of Adaptive Multi-Rate (AMR) Codec; 3.4.5 MIMO; 3.5 Channel Coding; 3.5.1 Block Codes
- 3.5.2 Convolution Codes3.5.3 Turbo Codes; 3.6 Automatic Repeat Request (ARQ) and Incremental Redundancy; 3.7 Interleaving; 3.8 Modulation; 3.8.1 Analog Modulation; 3.8.2 Digital Modulation; 3.9 Bit Rate, Baud Rate, and Symbol Rate; 3.10 Inband Signaling; Further Reading; 4 Mobile RF Transmitter and Receiver Design Solutions; 4.1 Introduction to RF Transceiver; 4.2 Mixer Implementations; 4.2.1 Design Parameters; 4.3 Receiver Front-End Architecture; 4.3.1 Different Types of RF Down Conversion Techniques; 4.3.2 Homodyne Receiver; 4.3.3 Low-IF Receiver; 4.3.4 Wideband-IF Receiver
- 4.4 Receiver Performance Evaluation Parameters
