|  | Rossetti, Nazzareno
Managing Power Electronics
VLSI and DSP-Driven Computer Systems
 1. Auflage - Dezember 2005
109,- Euro
2005. 384 Seiten, Hardcover
- Praktikerbuch -
ISBN-10: 0-471-70959-X
ISBN-13: 978-0-471-70959-6 - John Wiley & Sons
Preis inkl. Mehrwertsteuer zzgl. Versandkosten.
Kurzbeschreibung
Power Management of State-of-the-Art Computer and DSP-Driven Systems discusses the state-of-the-art power management of modern electronic appliances. As opposed to the other books on the topic currently available, which focus on a topological approach to voltage regulation, this book inverts that approach by putting the appliances first and then diving into the power management architecture that best serves each appliance. Author Reno Rossetti discusses some of the most popular electronics appliances, specifically the desktop PC, as well as portable computing with notebook PCs, and ultra-portable appliances (PDAs, cell phones, and digital still cameras). The book also presents the fundamental theories and issues facing the power management industry, including issues of physical and socio-economics, Moore's Law, and its impact upon the industry. Chapters include appropriate technology cross section drawings as well as transistor circuits schematics, with mathematical formulas where appropriate.
Aus dem Inhalt
Foreword.
Preface.
1. Introduction.
1.1 Technology Landscape.
1.2 A Young Industry after All.
2. Power Management Technologies.
2.1 Introduction.
2.2 Integrated Circuits Power Technology: Processing and Packaging.
2.3 Discrete Power Technology: Processing and Packaging.
2.4 Ongoing Trends.
3. Circuits.
PART I. ANALOG CIRCUITS.
3.1 Transistors.
3.2 Elementary Circuits.
3.3 Operational Amplifier (Opamp).
3.4 Voltage Reference.
3.5 Voltage Regulator.
3.6 Linear versus Switching.
3.7 Switching Regulators.
3.8 Buck Converters.
3.9 Flyback Converters.
PART II. DIGITAL CIRCUITS.
3.10 Logic Functions.
4. DC-DC Conversion Architectures.
4.1 Valley Control Architecture.
4.2 Monolithic Buck Converter.
4.3 Active Clamp.
4.4 Battery Charging Techniques: New Solutions for Notebook Battery Chargers.
4.5 Digital Power.
5. Offline (AC-DC) Architectures.
5.1 Offline Power Architectures.
5.2 Power AC Adapter: Thermal and Electrical Design.
6. Power Management of Ultraportable Devices.
6.1 Power Management of Wireless Computing and Communications Devices.
6.2 Power Management in Wireless Telephones: Subsystem Design Requirements.
6.3 Powering Feature-Rich Handsets.
6.4 More on Power Management Units in Cell Phones.
6.5 Color Displays and Cameras Increase Demand on Power Sources and Management.
7. Computing and Communications Systems.
7.1 Power Management of Desktop and Notebook Computers.
7.2 Computing and Data Communications Converge at the Point of Load.
7.3 Efficient Power Management ICs Tailored for DDR-SDRAM Memories.
7.4 Power Management of Digital Set-Top Boxes.
7.5 Power Conversion for the Data Communications Market.
8. Future Directions and Special Topics.
8.1 Beyond Productivity and Toys: Designing ICs for the Health Care Market.
8.2 Power Management Protocols Help Save Energy.
8.3 Heat Disposal in Electronics Applications.
8.4 Web Based Design Tools.
8.5 Motor Drivers for Portable Electronic Appliances.
Appendix A.Fairchild Specifications for FAN5093.
Appendix B. Fairchild Specifications for FAN4803.
Appendix C. Fairchild Specifications for FSD210 and FSD200.
Appendix D. Fairchild Specifications for FAN5307.
Appendix E. Fairchild Specifications for ACE1502.
Appendix F. Fairchild Specifications for FAN5236.
Appendix G. Fairchild Specifications for FAN8702.
Glossary.
Further Reading.
Index.
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