E-Book, Englisch, 1136 Seiten, Format (B × H): 216 mm x 276 mm
Dobkin / Hamburger Analog Circuit Design Volume Three
1. Auflage 2014
ISBN: 978-0-12-800466-1
Verlag: William Andrew Publishing
Format: EPUB
Kopierschutz: 6 - ePub Watermark
Design Note Collection
E-Book, Englisch, 1136 Seiten, Format (B × H): 216 mm x 276 mm
ISBN: 978-0-12-800466-1
Verlag: William Andrew Publishing
Format: EPUB
Kopierschutz: 6 - ePub Watermark
Design Note Collection, the third book in the Analog Circuit Design series, is a comprehensive volume of applied circuit design solutions, providing elegant and practical design techniques. Design Notes in this volume are focused circuit explanations, easily applied in your own designs. This book includes an extensive power management section, covering switching regulator design, linear regulator design, microprocessor power design, battery management, powering LED lighting, automotive and industrial power design. Other sections span a range of analog design topics, including data conversion, data acquisition, communications interface design, operational amplifier design techniques, filter design, and wireless, RF, communications and network design. Whatever your application -industrial, medical, security, embedded systems, instrumentation, automotive, communications infrastructure, satellite and radar, computers or networking; this book will provide practical design techniques, developed by experts for tackling the challenges of power management, data conversion, signal conditioning and wireless/RF analog circuit design.
- A rich collection of applied analog circuit design solutions for use in your own designs.
- Each Design Note is presented in a concise, two-page format, making it easy to read and assimilate.
- Contributions from the leading lights in analog design, including Bob Dobkin, Jim Williams, George Erdi and Carl Nelson, among others.
- Extensive sections covering power management, data conversion, signal conditioning, and wireless/RF.
Zielgruppe
Electronic design engineers; analog designers; engineering students; electronics hobbyists (advanced).
Autoren/Hrsg.
Weitere Infos & Material
Part 1: Power Management
Section 1: Power Management Design
Section 2: Microprocessor Power Design
Section 3: Switching Regulator Basics
Section 4: Switching Regulator Design: Buck (Step-Down)
Section 5: Switching Regulator Design: Boost Converters
Section 6: Switching Regulator Design: DC/DC Controllers
Section 7: Switching Regulator Design: Buck-Boost Controllers
Section 8: Linear Regulator Design
Section 9: Micromodule (µModule®) Power Design
Section 10: Switching Regulators for Isolated Power Design
Section 11: Power Control & Ideal Diode Design
Section 12: Battery Management
Section 13: Energy Harvesting & Solar Power Circuits
Section 14: Charge Pump DC/DC Converter Design
Section 15: Flyback Converter Design
Section 16: Supercapacitor Charging
Section 17: Current Source Design
Section 18: Hot Swap and Circuit Protection
Section 19: Power over Ethernet
Section 20: System Monitoring and Control
Section 21: Powering LED Lighting & Other Illumination Devices
Section 22: Automotive and Industrial Power Design
Section 23 Video Design Solutions
Part 2: Mixed Signal
Section 1: Data Conversion: Analog-to-Digital
Section 2: Data Conversion: Digital-to-Analog
Section 3: Data Acquisition
Section 4: Communications Interface Design
Section 5 Instrumentation Design
Part 3: Signal Conditioning
Section 1: Operational Amplifier Design Techniques
Section 2: Special Function Amplifier Design
Section 3: Voltage Reference Design
Section 4: Filter Design
Section 5: Comparator Design Techniques
Section 6: System Timing Design
Section 7: RMS to DC Conversion
Part 4: Wireless, RF & Communications Design
Chapter 251: AdvancedTCA Hot Swap Controller Monitors Power Distribution Abstract Introduction Circuit solutions Cutting diode dissipation Zero Volt Transient Chapter 252: Protecting and Monitoring Hot Swappable Cards in High Availability Systems Abstract Introduction Redundant power Monitoring power through a Hot Swap controller Adding fuse detection Summary Chapter 253: AdvancedTCA Hot Swap Controller Eases Power Distribution Abstract Introduction Power requirements Circuit solutions Zero Volt Transient Energy storage Computing energy Chapter 254: PCI Express Power and Mini Card Solutions Abstract Introduction Power requirements Circuit solutions PCI Express Mini Card Chapter 255: Low Voltage Hot Swap Controller Ignores Backplane Noise and Surges Abstract Control 25W with a 10-lead MS package Dual level current control Inrush limiting Adaptive response to overloads Recovery from faults Chapter 256: Hot Swap Circuit Meets InfiniBand Specification Abstract Chapter 257: Hot Swap and Buffer I2C Buses Abstract Capacitance buffering and rise time accelerator features Conclusion Chapter 258: Power Supply Isolation Controller Simplifi es Hot Swapping the CompactPCI Bus for 5V-/3.3-Only Applications Abstract LTC1646 feature summary Typical application Power-up sequence Conclusion Chapter 259: A 24V/48V Hot Swap controller Abstract Typical application Automatic restart Chapter 260: Dual Channel Hot Swap Controller/Power Sequencer Allows Insertion Into a Live Backplane Abstract Basic operation Power supply tracking and sequencing Conclusion Chapter 261: Hot Swapping the CompactPCI Bus Abstract LTC1643 feature summary Typical application Power-up sequence Conclusion Chapter 262: Power Solutions for the Device Bay Abstract Device Bay power requirements Power solution for Vid_3.3V on the system side Power solutions for DB32, DB20 and DB13 form factors on the device side Chapter 263: Hot Swapping the PCI Bus Abstract Inrush current and data bus problems Hot swappable PCI slot using the LTC1421 System timing Conclusion Chapter 264: Safe Hot Swapping Using the LTC1421 Abstract Typical application Board insertion timing Section 19: Power over Ethernet Chapter 265: Active Bridge Rectifiers Reduce Heat Dissipation within PoE Security Cameras Abstract Introduction The old way loses power Improve performance with ideal diodes Results Conclusion Chapter 266: High Power PoE PD Interface with Integrated Flyback Controller Abstract Introduction PD interface controller Synchronous flyback controller High efficiency, triple output, high power PD PSE and auxiliary supplies 2-pair vs 4-pair PD Conclusion Chapter 267: Simple Battery Circuit Extends Power over Ethernet (POE) Peak Current Abstract Introduction The PoE circuit PowerPath and charger circuit High transient load or continuous current load operation Optimization options Conclusion Chapter 268: Fully Autonomous IEEE 802.3af Power over Ethernet Midspan PSE Requires No Microcontroller Abstract Introduction A PSE’s duties Disconnect detection Supplying 3.3V from -48V LTC4259A options Chapter 269: Power over Ethernet Isolated Power Supply Delivers 11.5W at 90% Effi ciency Abstract Conclusion Section 20: System Monitoring and Control Chapter 270: Pushbutton On/Off Controller with Failsafe Voltage Monitoring Abstract Introduction Pushbutton challenges Orderly power-on Orderly power-off: short interrupt pulse Failsafe features Conclusion Chapter 271: Versatile Voltage Monitors Simplify Detection of Overvoltage and Undervoltage Faults Abstract Introduction Basic operation Minimum fault length monitor Conclusion Chapter 272: Power Supply Sequencing Made Simple Abstract Introduction Three phases of the power management cycle LTC2928 configuration software designs it for you Conclusion Chapter 273: Pushbutton On/Off Controller Simplifi es System Design Abstract Introduction De-bounces turn-on Protect against faults at power-up Controlled power-down Operation without µP High voltage, micropower Conclusion Chapter 274: Tracking and Sequencing Made Simple with Tiny Point-of-Load Circuit Abstract Introduction Basic operation Negative supply tracking Conclusion Chapter 275: Accurate Power Supply Sequencing Prevents System Damage Abstract Introduction How it works Conclusion Chapter 276: Power Supply Tracker Can Also Margin Supplies Abstract Conclusion Chapter 277: Dual Micropower Comparator with Integrated 400mV Reference Simplifies Monitor and Control Functions Abstract Introduction “Gas gauge” battery monitor Simple window-function status monitor Micropower thermostat/temperature alarm Conclusion Chapter 278: Monitor network compliant -48V power supplies Abstract Introduction Features Application example Chapter 279: Multiple Power Supplies Track During Power Up Abstract Introduction Five supply voltage tracker circuit Conclusion Chapter 280: I2C Fan Control Ensures Continuous System Cooling Abstract Introduction Continuous system cooling and tachometer monitoring Additional features Chapter 281: Monitor System Temperature and Multiple Supply Voltages and Currents Abstract Multitude of measurements Section 21: Powering LED Lighting & Other Illumination Devices Chapter 282: 60V, Synchronous Step-Down High Current LED Driver Abstract Introduction 48V input to 35V output, 10A LED driver optimized for efficiency 36V input to 20V output, 10A LED driver with fastest PWM dimming Solar-powered battery charger Conclusion Chapter 283: 60V Buck-Boost Controller Drives High Power LEDs, Charges Batteries and Regulates Voltage with Up to 98.5% Effi ciency at 100W and Higher Abstract Introduction Buck-boost controller drives 100W LED string for airplane and truck lights 36V, 2.5A SLA battery charger 120W, 6V to 55V voltage regulator Conclusion Chapter 284: Offline LED Lighting Simplifi ed: High Power Factor, Isolated LED Driver Needs No Opto-Isolators and is TRIAC Dimmer Compatible Abstract Introduction No-opto operation High power factor, low harmonics TRIAC dimmer compatible Open- and shorted-LED protection CTRL pins and analog dimming Conclusion Chapter 285: Reduce the Cost and Complexity of Medium LCD LED Backlights with a Single Inductor LED Driver for 60 LEDs Abstract Introduction Typical application Need more current? TSET pin for thermal protection Channel disable capability Conclusion Chapter 286: 100V Controller Drives High Power LED Strings from Just about Any Input Abstract Introduction Boost Buck mode Buck-boost mode Conclusion Chapter 287: Triple LED Driver in 4mm ?5mm QFN Supports LCD Backlights in Buck, Boost or Buck-Boost Modes and Delivers 3000:1 PWM Dimming Ratio Abstract Introduction Integrated PMOS drivers improve PWM dimming ratio to 3000:1 Buck mode circuit drives three 500mA LED strings Boost mode circuit drives three 200mA LED...
