Portable electronics
All the design and development inspiration and direction an electronics engineer needs in one blockbuster book! John Donovan, Editor-in Chief, Portable Design has selected the very best electronic design material from the Newnes portfolio and has compiled it into this volume. The result is a book co...
| Other Authors: | , |
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| Format: | eBook |
| Language: | Inglés |
| Published: |
Amsterdam :
Newnes/Elsevier
2009.
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| Edition: | 1st edition |
| Series: | World class designs.
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| Subjects: | |
| See on Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627734006719 |
Table of Contents:
- Front Cover; Portable Electronics World Class Designs; Copyright Page; Contents; Preface; About the Editor; About the Contributors; Chapter 1: System Resource Partitioning and Code Optimization; 1.1 Introduction; 1.2 Event Generation and Handling; 1.3 Programming Methodology; 1.4 Architectural Features for Efficient Programming; 1.5 Compiler Considerations for Efficient Programming; 1.6 System and Core Synchronization; 1.7 Memory Architecture-The Need for Management; 1.8 Physics of Data Movement; Bibliography; Chapter 2: Low Power Design Techniques, Design Methodology, and Tools
- 2.1 Low Power Design Techniques2.2 Low Power Architectural and Subsystem Techniques; 2.3 Low Power SoC Design Methodology, Tools, and Standards; 2.4 Summary; References; Chapter 3: System-Level Approach to Energy Conservation; 3.1 Introduction; 3.2 Low Power System Framework; 3.3 Low Power System/Software Techniques; 3.4 Software Techniques and Intelligent Algorithms; 3.5 Freescale's XEC: Technology-Specific Intelligent Algorithms; 3.6 ARM's Intelligent Energy Manager; 3.7 National Semiconductors: PowerWise® Technology; 3.8 Energy Conservation Partnership; 3.9 Texas Instruments: SmartReflex
- 3.10 Intel SpeedStep3.11 Transmeta LongRun and LongRun2; 3.12 Mobile Industry Processor Interface: System Power Management; 3.13 Summary; References; Chapter 4: Radio Communication Basics; 4.1 The RF Spectrum; 4.2 Spread Spectrum Transmission; 4.3 Wireless Multiplexing and Multiple Access Techniques; 4.4 Digital Modulation Technique; 4.5 RF Signal Propagation and Reception; 4.6 Ultra Wideband Radio; 4.7 MIMO Radio; 4.8 Near Field Communications; Chapter 5: Applications and Technologies; 5.1 Wireless Local Area Networks (WLAN); 5.2 Bluetooth; 5.3 Zigbee; 5.4 Conflict and Compatibility
- 5.5 Ultra-wideband Technology5.6 Summary; Bibliography; Chapter 6: RF Design Tools; 6.1 Design Tool Basics; 6.2 Design Languages; 6.3 RFIC Design Flow; 6.4 RFIC Design Flow Example; 6.5 Simulation Example 1; 6.6 Simulation Example 2; 6.7 Modeling; 6.8 PCB Design; 6.9 Packaging; 6.10 Case Study; 6.11 Summary; Chapter 7: On Memory Systems and Their Design; 7.1 Memory Systems; 7.2 Four Anecdotes on Modular Design; 7.3 Cross-Cutting Issues; 7.4 An Example Holistic Analysis; 7.5 What to Expect; Bibliography; Chapter 8: Storage in Mobile Consumer Electronics Devices; 8.1 Introduction
- 8.2 Automobile Consumer Electronics Storage8.3 Mobile Media Players; 8.4 Cameras and Camcorders; 8.5 Mobile Phones; 8.6 Other Consumer Devices; 8.7 Chapter Summary; Bibliography; Chapter 9: Analog Low-Pass Filters; 9.1 Introduction; 9.2 Review of Low-Pass Filter Basics; 9.3 Butterworth Filter; 9.4 Chebyshev Filter; 9.5 Bessel Filter; 9.6 Comparison of Responses of Different Filter Types; 9.7 Filter Implementation; Example 9.1: Design example: Fifth-order Chebyshev filter with 0.5 dB passband ripple; Example 9.2: Design Example: 40-Hz Sallen-Key with Adjustable Q
- Example 9.3: Design case study: 1-MHz low-pass filter
