Standard Handbook of Electronic Engineering,Fifth Edition

Tuesday, February 4, 2014



Author :
Donald Christiansen
Charles K. Alexander
 Ronald K. Jurgen

Description :

                        The Standard Handbook of Electronics Engineering has defined its field for over thirty years. Spun off in the 1960’s from Fink’s Standard Handbook of Electrical Engineering, the Christiansen book has seen its markets grow rapidly, as electronic engineering and microelectronics became the growth engine of digital computing. The EE market has now undergone another seismic shift—away from computing and into communications and media. The Handbook will retain much of its evergreen basic material, but the key applications sections will now focus upon communications, networked media, and medicine—the eventual destination of the majority of graduating EEs these days.


Expanded Table of Contents
A. PREFACE
B. CONTRIBUTORS
1. Information, Communication, Noise, and Interference
COMMUNICATION SYSTEMS
INFORMATION SOURCES, CODES, AND CHANNELS
MODULATION
DIGITAL DATA TRANSMISSION AND PULSE MODULATION
NOISE AND INTERFERENCE
2. Systems Engineering and Systems Management
INTRODUCTION TO SYSTEMS ENGINEERING
ELEMENTS AND TECHNIQUES OF SYSTEMS ENGINEERING AND MANAGEMENT
3. Reliability
RELIABILITY DESIGN AND ENGINEERING
DERATING FACTORS AND APPLICATION GUIDELINES
SEMICONDUCTOR RELIABILITY
ELECTROMECHANICAL AND MICROELECTROMECHANICAL SYSTEMS (MEMS) RELIABILITY
RELIABLE SYSTEM DESIGN AND MODELING
SOFTWARE RELIABILITY
4. Computer-Assisted Digital System Design
DESIGN OF DIGITAL SYSTEMS USING CAD TOOLS
5. Electronic and Fiber Optic Components
PASSIVE COMPONENTS
ACTIVE DISCRETE COMPONENTS
BATTERIES AND FUEL CELLS
RELAYS AND SWITCHES
CONNECTORS
OPTICAL FIBER COMPONENTS
6. Integrated Circuits and Microprocessors
DIGITAL INTEGRATED CIRCUITS
ANALOG INTEGRATED CIRCUITS
MEMORY CIRCUITS
MICROPROCESSORS
NANOTECHNOLOGIES
7. UHF and Microwave Components
PASSIVE MICROWAVE COMPONENTS
MICROWAVE GENERATORS AND AMPLIFIERS
MICROWAVE SEMICONDUCTOR DEVICES
8. Transducers and Sensors
TRANSDUCER CHARACTERISTICS AND SYSTEMS
TRANSDUCERS FOR MECHANICAL QUANTITIES
TRANSDUCERS FOR THERMAL QUANTITIES
TRANSDUCERS FOR ACOUSTIC, OPTICAL, AND ELECTRICAL QUANTITIES
MICROSENSORS AND MICROACTUATORS
9. Radiant Energy Sources and Sensors
NONCOHERENT RADIANT ENERGY SOURCES
LASERS
DISPLAY TECHNOLOGY
PHOTOCONDUCTIVE AND SEMICONDUCTOR JUNCTION DETECTORS
CHARGE TRANSFER DEVICE (CTD) IMAGERS
INFRARED DETECTORS AND ASSOCIATED CRYOGENICS
SOLAR CELLS
10. Filters and Attenuators
IDEAL FILTERS AND APPROXIMATIONS
FILTER DESIGN
ACTIVE FILTERS
SWITCHED CAPACITOR FILTERS
CRYSTAL, MECHANICAL, AND ACOUSTIC COUPLED-RESONATOR FILTERS
DIGITAL FILTERS
ATTENUATORS
11. Amplifiers and Oscillators
AMPLIFIER AND OSCILLATOR PRINCIPLES OF OPERATION
AUDIO-FREQUENCY AMPLIFIERS AND OSCILLATORS
RADIO-FREQUENCY AMPLIFIERS AND OSCILLATORS
OPERATIONAL AMPLIFIERS
HIGH-POWER AMPLIFIERS
MICROWAVE AMPLIFIERS AND OSCILLATORS
12. Modulators, Demodulators, and Converters
AMPLITUDE MODULATION/DEMODULATION
FREQUENCY AND PHASE MODULATION
PULSE MODULATION/DEMODULATION
SPREAD-SPECTRUM MODULATION
OPTICAL MODULATION AND DEMODULATION
FREQUENCY CONVERTERS AND DETECTORS
13. Power Electronics
POWER ELECTRONIC DEVICES
NATURALLY COMMUTATED CONVERTERS
DC-DC CONVERTERS
INVERTERS
AC REGULATORS
14. Pulsed Circuits and Waveform Generation
PASSIVE WAVEFORM SHAPING
SWITCHES
ACTIVE WAVEFORM SHAPING
DIGITAL AND ANALOG SYSTEMS
15. Measurement Systems
PRINCIPLES OF MEASUREMENT CIRCUITS
SUBSTITUTION AND ANALOG MEASUREMENTS
TRANSDUCER-INPUT MEASUREMENT SYSTEMS
BRIDGE CIRCUITS, DETECTORS, AND AMPLIFIERS
AC IMPEDANCE MEASUREMENT
16. Antennas and Wave Propagation
PROPERTIES OF ANTENNAS AND ARRAYS
TYPES OF ANTENNAS
FUNDAMENTALS OF WAVE PROPAGATION
17. Telecommunications
TRANSMISSION SYSTEMS
SWITCHING SYSTEMS
LOCAL ACCESS NETWORKS
BROADBAND SYSTEMS
WIRELESS NETWORKS
DATA NETWORKS AND INTERNET
TERMINAL EQUIPMENT
MEMS FOR COMMUNICATION SYSTEMS
18. Digital Computer Systems
COMPUTER ORGANIZATION
COMPUTER STORAGE
INPUT/OUTPUT
SOFTWARE
DATABASE TECHNOLOGY
ADVANCED COMPUTER TECHNOLOGY
19. Control Systems
CONTROL SYSTEM DESIGN
20. Audio Systems
SOUND UNITS AND FORMATS
SPEECH AND MUSICAL SOUNDS
MICROPHONES, LOUDSPEAKERS, AND EARPHONES
DIGITAL AUDIO RECORDING AND REPRODUCTION
21. Video and Facsimile Systems
TELEVISION FUNDAMENTALS AND STANDARDS
VIDEO SIGNAL SYNCHRONIZING SYSTEMS
DIGITAL VIDEO RECORDING SYSTEMS
TELEVISION BROADCAST RECEIVERS
FACSIMILE SYSTEMS
22. Broadcast and Cable Systems
BROADCAST TRANSMISSION PRACTICE
AM AND FM BROADCAST RECEIVERS
CABLE TELEVISION SYSTEMS
23. Navigation and Detection Systems
RADAR PRINCIPLES
RADAR TECHNOLOGY
ELECTRONIC NAVIGATION SYSTEMS
UNDERWATER SOUND SYSTEMS
24. Automotive Electronics
AUTOMOTIVE SENSORS AND ACTUATORS
AUTOMOTIVE ON-BOARD SYSTEMS
INTELLIGENT TRANSPORTATION SYSTEMS
25. Instrumentation and Test Systems
 INSTRUMENTS FOR MEASURING FREQUENCY AND TIME
 INSTRUMENTS FOR MEASURING CURRENT, VOLTAGE, AND RESISTANCE
 SIGNAL SOURCES
 LOGIC AND PROTOCOL ANALYZERS
 OSCILLOSCOPES
 STANDARDS-BASED MODULAR INSTRUMENTS
 EMBEDDED COMPUTERS IN ELECTRONIC INSTRUMENTS
A. ABOUT THE EDITORS



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