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...

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Detalles Bibliográficos
Autor principal:	Rossetti, Nazzareno, 1951- (-)
Formato:	Libro electrónico
Idioma:	Inglés
Publicado:	Hoboken, N.J. : Wiley c2006.
Edición:	1st edition
Materias:	Integrated circuits > Very large scale integration. Semiconductors. Signal processing > Digital techniques.
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.

Managing power electronics VLSI and DSP-driven computer systems

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