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Electronics Books - Standard ELECTRONIC ENGINEERING 5th Edition
Posted: September 12th, 2010, 7:37am CEST by i-garlic

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Standard Handbook of Electronics Engineering 5th EditionStandard handbook of Electronics Engineerings part 1 deals with the principles and techniques of electronics engineering. The book  covers the following:
1. Information, Communication, Noise, and Interference
2. Systems Engineering and Systems Management
3. Reliability
4. Computer-Assisted Digital System Design

Section 1, deals about COMMUNICATION that has been the heart of information age even digital communication systems. This covers information sources, codes and coding, communication channels, error correction, continuous and band-limited channels, digital data transmission and pulse modulation, and noise and
interference.

In This Section:
CHAPTER 1.1 COMMUNICATION SYSTEMS 1.7
CONCEPTS 1.7
SELF-INFORMATION AND ENTROPY 1.7
ENTROPY OF DISCRETE RANDOM VARIABLES 1.8
MUTUAL INFORMATION AND JOINT ENTROPY 1.9
CHAPTER 1.2 INFORMATION SOURCES, CODES, AND CHANNELS 1.12
MESSAGE SOURCES 1.12
MARKOV INFORMATION SOURCE 1.13
NOISELESS CODING 1.14
NOISELESS-CODING THEOREM 1.15
CONSTRUCTION OF NOISELESS CODES 1.16
CHANNEL CAPACITY 1.17
DECISION SCHEMES 1.19
THE NOISY-CODING THEOREM 1.20
ERROR-CORRECTING CODES 1.21
PARITY-CHECK CODES 1.23
OTHER ERROR-DETECTING AND ERROR-CORRECTING CODES 1.25
CONTINUOUS-AMPLITUDE CHANNELS 1.25
MAXIMIZATION OF ENTROPY OF CONTINUOUS DISTRIBUTIONS 1.26
GAUSSIAN SIGNALS AND CHANNELS 1.27
BAND-LIMITED TRANSMISSION AND THE SAMPLING THEOREM

CHAPTER 1.3 MODULATION 1.32
MODULATION THEORY 1.32
ELEMENTS OF SIGNAL THEORY 1.33
DURATION AND BANDWIDTH–UNCERTAINTY RELATIONSHIPS 1.36
CONTINUOUS MODULATION 1.37
LINEAR, OR AMPLITUDE, MODULATION 1.38
DOUBLE-SIDEBAND AMPLITUDE MODULATION (DSBAM) 1.39
DOUBLE-SIDEBAND AMPLITUDE MODULATION, SUPPRESSED CARRIER 1.40
VESTIGIAL-SIDEBAND AMPLITUDE MODULATION (VSBAM) 1.41
SINGLE-SIDEBAND AMPLITUDE MODULATION (SSBAM) 1.41
BANDWIDTH AND POWER RELATIONSHIPS FOR AM 1.41
ANGLE (FREQUENCY AND PHASE) MODULATION 1.42
CHAPTER 1.4 DIGITAL DATA TRANSMISSION AND PULSE MODULATION 1.44
DIGITAL TRANSMISSION 1.44
PULSE-AMPLITUDE MODULATION (PAM) 1.44
QUANTIZING AND QUANTIZING ERROR 1.45
SIGNAL ENCODING 1.46
BASEBAND DIGITAL-DATA TRANSMISSIONS 1.48
PULSE-CODE MODULATION (PCM) 1.50
SPREAD-SPECTRUM SYSTEMS 1.51
CHAPTER 1.5 NOISE AND INTERFERENCE 1.52
GENERAL 1.52
RANDOM PROCESSES 1.52
CLASSIFICATION OF RANDOM PROCESSES 1.54
ARTIFICIAL NOISE

Section 2, SYSTEMS ENGINEERING AND SYSTEMS MANAGEMENT, origins of systems engineering concepts are indeterminate. The two chapters in this section are designed to define the various facets of systems engineering and systems management and to identify some of the techniques and procedures employed in its practice.

In This Section:
CHAPTER 2.1 INTRODUCTION TO SYSTEMS ENGINEERING 2.3
FACETS AND DEFINITIONS 2.3
PURPOSES AND APPLICATIONS 2.3
HUMAN AND SOCIETAL FACTORS 2.4
BARRIERS TO ADOPTION 2.5
THE SYSTEMS VIEWPOINT 2.6
SYSTEMS THINKING 2.6
KNOWLEDGE MANAGEMENT 2.7
BIBLIOGRAPHY 2.8
ON THE CD-ROM 2.9
CHAPTER 2.2 ELEMENTS AND TECHNIQUES OF SYSTEMS ENGINEERING AND MANAGEMENT 2.10
SYSTEMS ENGINEERING AS A MANAGEMENT TECHNOLOGY 2.10
LIFE CYCLES 2.12
DEVELOPING TRUSTWORTHY SYSTEMS 2.12
ACCURATE DEFINITION OF A SYSTEM 2.15
SYSTEM REQUIREMENTS 2.15
SYSTEMS ARCHITECTING, DESIGN, AND INTEGRATION 2.18
SYSTEMS CONFIGURATION 2.21
APPROACH TO SYSTEMS MATURITY 2.21
COMMUNICATIONS AND COMPUTING 2.22
SPECIFIC APPLICATIONS 2.22
BIBLIOGRAPHY

Section 3, RELIABILITY of a component or a system can be considered a design parameter.  The first chapter in this section expands on the definitional issues of reliability, including parts and systems
modeling, reliability theory and practice, and failure analysis and prediction techniques. The design and modeling of electronic systems is covered in greater detail in Chap. 3.5. Finally, in another
completely new chapter (3.6), the special concerns of designing software and assuring its reliability are treated.
Because military specifications and standards underlie the reliable design and operation of many electronic
systems, a summary description of important military reliability documents is included on the CD-ROM.

In This Section:
CHAPTER 3.1 RELIABILITY DESIGN AND ENGINEERING 3.3
RELIABILITY CONCEPTS AND DEFINITIONS 3.3
RELIABILITY THEORY AND PRACTICE 3.6
RELIABILITY EVALUATION 3.13
RELIABILITY DESIGN DATA 3.18
BIBLIOGRAPHY 3.19
CHAPTER 3.2 DERATING FACTORS AND APPLICATION GUIDELINES 3.20
INTRODUCTION 3.20
RESISTOR DERATING AND APPLICATION GUIDELINES 3.20
CAPACITOR DERATING FACTORS AND APPLICATION GUIDELINES 3.24
SEMICONDUCTOR DERATING FACTORS AND APPLICATION GUIDELINES 3.27
TRANSFORMER, COIL, AND CHOKE DERATING 3.36
SWITCHES AND RELAYS 3.37
CIRCUIT BREAKERS, FUSES, AND LAMPS 3.39
BIBLIOGRAPHY 3.40

Section 4, Computer-Assisted Digital System Design, continues to become a more powerful tool in digital and analog circuit design,
especially using programmable integrated circuits. The different types and manufacturers of such devices fall
into two main classes––field programmable gate arrays (FPGAs) and field programmable analog arrays
(FPAAs).

In This Section:
CHAPTER 4.1 DESIGN OF DIGITAL SYSTEMS USING CAD TOOLS 4.3
OVERVIEW 4.3
ALTERNATIVE PROGRAMMING PHILOSOPHY (BASIC) 4.4
ALTERNATIVE PROGRAMMING PHILOSOPHY (ADVANCED) 4.6
EXAMPLE DESIGN 4.12
CONCLUSION 4.19
INFORMATION RESOURCES 4.19
BIBLIOGRAPHY
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