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 Handset Design is uniquely written to equip professionals and students with a complete understanding of how a mobile phone works, and teaches the skills to design the latest mobile handsets. Das walks readers through mobile phone operating principles, system infrastructure, TDMA-FDMA-CDMA-OFDMA techniques, hardware anatomy, software and protocols, and internal modules, components, and circuits. He presents all problems associated with mobile wireless channels and recommends corresponding design solutions to overcome those issues. Mobile RF front-end, digital baseband design techniques, and associated trade-offs are also covered. Das also discusses the productization aspects and reviews new research developments for different mobile phone systems over generations.

• Teaches basic working principles of legacy and 4G mobile systems
• Vividly illustrates and explains all key components and the anatomy of mobile phones
• Explains all hardware and software blocks, from principle to practice to product
• Discusses key design attributes such as low power consumption and slim form factors
• Moves through all topics in a systematic fashion for easy comprehension
• Presentation files with lecture notes available for instructor use This book is essential for practicing software, hardware and RF design engineers and product managers working to create innovate, competitive handsets. Mobile Handset Design is also ideal for fresh graduates or experienced engineers who are new to the mobile industry, and is well-suited for industry veterans as a handy reference.

Lecture materials for instructors available at www.wiley.com/go/dasmobile

Auteur

Sajal Kumar Das is a Senior Team Leader for GSM/GPRS/EDGE Solution Development at the Nokia R&D Center in Bangalore, India. He has over a decade of industry experience in software development, wireless telecommunication systems, protocol stack development, as well as design and programming of Layer 1, DSP, and embedded systems. In addition to his time with Nokia, Das has worked at Texas Instruments, STMicroelectronics, Lucent Technologies, and Bharat Electronics. Das holds joint BS degrees in Physics and Electronics and Communication Engineering from Calcutta University along with a Masters from IIT Kharagpur in Electronics and Telecommunication Engineering, specializing in microwave signal and system engineering.

Contenu
Perface. Introduction.

1 Introduction to Mobile Handsets.

1.1 Introduction to Telecommunication.

1.2 Introduction to Wireless Telecommunication Systems.

1.3 Evolution of Wireless Communication Systems.

2 Problem Analysis in Mobile Communication System.

2.1 Introduction to Wireless Channels.

2.2 Impact of Signal Propagation on Radio Channel.

2.3 Signal Attenuation and Path Loss.

2.4 Link Budget Analysis.

2.5 Multipath Effect.

2.6 Delay Spread.

2.6.1 Coherent BW (Bc).

2.7 Doppler Spread.

2.8 Fading.

2.9 Signal Fading Statistics.

2.10 Interference.

2.11 Noise.

3 Design Solutions Analysis for Mobile Handsets.

3.1 Introduction.

3.2 Diversity.

3.3 Channel Estimation and Equalization.

3.4 Different Techniques for Interference Mitigation.

3.5 Channel Coding.

3.6 Automatic Repeat Request (ARQ) and Incremental Redundancy.

3.7 Interleaving.

3.8 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.

4.3 Receiver Front-End Architecture.

4.4 Receiver Performance Evaluation Parameters.

4.5 Transmitter Front-End Architecture.

4.6 Transmitter Architecture Design.

4.7 Transmitter Performance Measure.

5 Wireless Channel Multiple Access Techniques for Mobile Phones.

5.1 Introduction to Multiple Access Techniques.

5.2 Frequency Division Multiplexing.

5.3 Duplexing Techniques.

5.4 Spectral Efficiency.

5.5 Code Division Multiple Access.

5.6 Orthogonal Frequency Division Multiplex Access (OFDMA).

References.

Further Reading.

6 GSM System (2G) Overview.

6.1 Introduction.

6.2 History of GSM.

6.3 Overview of GSM Network Architecture.

6.4 PLMN and Network Operators.

6.5 GSM Mobility and Roaming.

6.6 GSM PLMN Services.

6.7 GSM Interfaces.

6.8 GSM Subscriber and Equipment Identity.

Further Reading.

7 GSM Radio Modem Design: From Speech to Radio Wave.

7.1 Introduction.

7.2 GSM Logical Channels.

7.3 GSM Physical Channel.

7.4 GSM Bursts.

7.5 Burst RF Output Spectrum.

7.6 Channel Allocation.

7.7 GSM Frame Structure.

7.8 Combination of Logical Channels.

7.9 Physical Layer Processing for Logical Channel Transmission and Reception Procedures.

7.10 Design of Transmitter and Receiver Blocks for GSM Radio Modem.

Further Reading.

8 GSM Mobile Phone Software Design.

8.1 Introduction to GSM Mobile Handset Software.

8.2 Operating System Software.

8.3 Device Driver Software.

8.4 GSM System Protocol Software.

8.5 Speech and Multimedia Application Software.

References.

9 GSM Mobile Phone Operations and Procedures.

9.1 Initial Procedures after Mobile Power ON.

9.2 Idle Mode.

9.3 Location Updating.

9.4 Security Procedure.

9.5 Access Mode.

9.6 Handover.

9.7 Radio Resource Control Procedure.

9.8 Mobility Management Procedure.

9.9 Call Routing.

9.10 Power Control.

9.11 Discontinuous Transmission and Reception.

9.12 Frequency Hopping.

Further Reading.

10 Anatomy of a GSM Mobile Handset.

10.1 Introduction to the GSM Handset.

10.2 Functional Blocks Inside a GSM Mobile Phone. ...