Managing power electronics VLSI and DSP-driven computer systems
A unique system focus that presents specific solutions for specific appliances This publication presents state-of-the-art power management techniques for modern electronic appliances that rely on such very large-scale integration (VLSI) chips as CPUs and DSPs. The author thoroughly covers all aspect...
Autor principal: | |
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Formato: | Libro electrónico |
Idioma: | Inglés |
Publicado: |
Hoboken, N.J. :
Wiley
c2006.
|
Edición: | 1st edition |
Materias: | |
Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009626968706719 |
Tabla de Contenidos:
- 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
- Diodes and Bipolar Transistors
- Metal-Oxide-Semiconductor (MOS) Transistors
- DMOS Transistors
- CMOS Transistors
- Passive Components
- A Monolithic Process Example
- Packaging
- 2.3 Discrete Power Technology: Processing and Packaging
- From Wall to Board
- Power MOSFET Technology Basics
- Package Technologies
- 2.4 Ongoing Trends
- 3. Circuits
- PART I. ANALOG CIRCUITS
- 3.1 Transistors
- NPN
- PNP
- Trans-Conductance
- Transistor as Transfer-Resistor
- Transistor Equations
- MOS versus Bipolar Transistors
- 3.2 Elementary Circuits
- Current Mirror
- Current Source
- Differential Input Stage
- Differential to Single Input Stage
- Buffer
- 3.3 Operational Amplifier (Opamp)
- Inverting and Non-Inverting Inputs
- Rail to Rail Output Operation
- CMOS Opamp
- Opamp Symbol and Configurations
- DC Open Loop Gain
- AC Open Loop Gain
- 3.4 Voltage Reference
- Positive TC of ?VBE
- Negative TC of VBE
- Build a ?VBE
- Building a Voltage Reference
- Fractional Band-Gap Voltage Reference
- 3.5 Voltage Regulator
- 3.6 Linear versus Switching
- 3.7 Switching Regulators
- 3.8 Buck Converters
- Switching Regulator Power Train
- Output Capacitor
- Electrolytic Capacitors and Transient Response
- Ceramic Capacitors
- Losses in the Power Train
- The Analog Modulator
- Driver
- Switching Regulator Block Diagram
- Switching Regulator Control Loop
- Input Filter
- Input Inductor LIN
- Input Capacitor
- Current Mode
- 3.9 Flyback Converters
- PART II. DIGITAL CIRCUITS
- 3.10 Logic Functions
- NAND Gate
- Set-Reset R Flip-Flop
- Current Mode with Anti-Bouncing Flip-Flop
- 4. DC-DC Conversion Architectures
- 4.1 Valley Control Architecture
- Peak and Valley Control Architectures
- Transient Response of Each System.
- Valley Control with FAN5093
- Conclusion
- 4.2 Monolithic Buck Converter
- A New Design Methodology for Faster Time to Market The Design Cycle
- The FAN5301
- The Behavioral Model
- Light Load Operation
- Full Load Operation
- Over-Current
- One Shot
- Comparator
- Results
- Timing
- Conclusion
- 4.3 Active Clamp
- Introduction
- Application
- Test Results
- Comments
- 4.4 Battery Charging Techniques: New Solutions for Notebook Battery Chargers
- High Efficiency
- The Smart Battery System
- Data Conversion
- Fast Charge
- Battery Charger System
- 4.5 Digital Power
- Control Algorithm of Modern Switching Regulators: Analog or Digital?
- Fast Switch mode Regulators and Digital Control
- 5. Offline (AC-DC) Architectures
- 5.1 Offline Power Architectures
- Introduction
- Offline Control
- PFC Architecture
- DC-DC Conversion Down to Low Voltage
- Future Trends
- 5.2 Power AC Adapter: Thermal and Electrical Design
- Introduction: The Challenge
- AC Adapter Power Dissipation
- AC Adapter Case Temperature
- Active and No-load Operation
- Development of a Solution
- Conclusion
- 6. Power Management of Ultraportable Devices
- 6.1 Power Management of Wireless Computing and Communications Devices
- The Wireless Landscape
- Power Management Technologies for Wireless
- Cellular Telephones
- Wireless Handheld
- Charge
- Protection and Fuel Gauging
- Convergence of Cellular Telephone and Handheld
- Future Architectures
- 6.2 Power Management in Wireless Telephones: Subsystem Design Requirements
- Smart Phone Subsystems
- Display Board
- Keypad Board
- Main Board
- Battery Pack
- AC Adapter
- 6.3 Powering Feature-Rich Handsets
- Growing Complexity and Shrinking Cycle Time
- Power Management Unit
- Low Dropouts (LDOs)
- 6.4 More on Power Management Units in Cell Phones
- Barriers to Up-Integration
- PMU Building Blocks
- CPU Regulator
- Low Dropout Block
- The Microcontroller
- The Microcontroller Die
- Processing Requirements.
- Microcontroller-Driven Illumination System
- 6.5 Color Displays and Cameras Increase Demand on Power Sources and Management
- Digital Still Camera
- Camera Phones
- Power Minimization
- Untethered Operation
- 7. Computing and Communications Systems.
- 7.1 Power Management of Desktop and Notebook Computers
- Power Management System Solution for a Pentium III Desktop System
- Power Management System Solution for Pentium IV Systems (Desktop and Notebook)
- Desktop Systems
- Powering the Silver Box
- Notebook Systems
- Future Power Trends
- 7.2 Computing and Data Communications Converge at the Point of Load
- The Proliferation of Power Supplies
- Telecom Power Distribution
- Computing Power Distribution
- Multiphase Buck Converter for POLs and VRMs
- Conclusion
- 7.3 Efficient Power Management ICs Tailored for DDR-SDRAM Memories
- Introduction
- DDR Power Management Architecture
- Worst Case Current Consumption
- Average Power Consumption
- Transient Operation
- Standby Operation
- Linear versus Switching
- Second Generation DDR-DDR2
- FAN5236 for DDR and DDR2 Memories
- Future Trends
- 7.4 Power Management of Digital Set-Top Boxes
- Set-Top Box Architecture
- Power Management
- High Power Set-Top Boxes
- Low Power Set-Top Boxes
- Conclusion
- 7.5 Power Conversion for the Data Communications Market
- Introduction
- Current Environment with Separate Networks
- Migration to Converged Voice/Data/Video IP
- Telecom -48 V DC Power Distribution
- Datacom AC Power Distribution
- Conclusion
- 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
- ACPI
- Motherboard (DC-DC) Voltage Regulators
- Offline (AC-DC) Voltage Regulators with Power
- Factor Correction (PFC)
- Green Power (Energy Management)
- New Low Power System Requirements
- Conclusion
- 8.3 Heat Disposal in Electronics Applications
- Active versus Passive Cooling
- Limits of Passive Cooling
- Active Cooling
- Active Cooling-Yes or No?
- Active Cooling Implementation
- 8.4 Web Based Design Tools
- The Tools on the Web
- 8.5 Motor Drivers for Portable Electronic Appliances
- Introduction
- Camera Basics
- Motors and Motor Drivers
- Driving Implementation
- Efficiency
- DSC Power Consumption
- Conclusion
- 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.