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E-raamat: Electronics, Power Electronics, Optoelectronics, Microwaves, Electromagnetics, and Radar

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In two editions spanning more than a decade, The Electrical Engineering Handbook stands as the definitive reference to the multidisciplinary field of electrical engineering. Our knowledge continues to grow, and so does the Handbook. For the third edition, it has expanded into a set of six books carefully focused on a specialized area or field of study. Electronics, Power Electronics, Optoelectronics, Microwaves, Electromagnetics, and Radar represents a concise yet definitive collection of key concepts, models, and equations in these areas, thoughtfully gathered for convenient access.

Electronics, Power Electronics, Optoelectronics, Microwaves, Electromagnetics, and Radar delves into the fields of electronics, integrated circuits, power electronics, optoelectronics, electromagnetics, light waves, and radar, supplying all of the basic information required for a deep understanding of each area. It also devotes a section to electrical effects and devices and explores the emerging fields of microlithography and power electronics. Articles include defining terms, references, and sources of further information.

Encompassing the work of the worlds foremost experts in their respective specialties, Electronics, Power Electronics, Optoelectronics, Microwaves, Electromagnetics, and Radar features the latest developments, the broadest scope of coverage, and new material in emerging areas.
SECTION I Electronics
Semiconductors
1(1)
G.Sh. Gildenblat
B. Gelmont
M. Milkovic
A. Elshabini-Riad
F.W. Stephenson
I.A. Bhutta
Physical Properties
1(11)
Energy Bands
Electrons and Holes
Transport Properties
Hall Effect
Electrical Breakdown
Optical Properties and Recombination Processes
Nanostructure Engineering
Disordered Semiconductors
Diodes
12(14)
pn-Junction Diode
pn-Junction with Applied Voltage
Forward-Biased Diode
ID--VD Characteristic
DC and Large-Signal Model
High Forward Current Effects
Large-Signal Piecewise Linear Model
Small-Signal Incremental Model
Large-Signal Switching Behavior of a pn-Diode
Diode Reverse Breakdown
Zener and Avalanche Diodes
Varactor Diodes
Tunnel Diodes
Photodiodes and Solar Cells
Schottky Barrier Diode
Electrical Equivalent Circuit Models and Device Simulators for Semiconductor Devices
26
Overview of Equivalent Circuit Models
Overview of Semiconductor Device Simulators
Semiconductor Manufacturing
1(1)
H.G. Parks
W. Needham
S. Rajaram
B.Y. Park
R. Zaouk
M.J. Madou
Processes
1(16)
Thermal Oxidation
Diffusion
Ion Implantation
Deposition
Lithography and Pattern Transfer
New Processes
Testing
17(9)
Built-In Self-Test
Scan
Direct Access Testing
Joint Test Action Group (JTAG)
Pattern Generation for Functional Test Using Unit Delay
Pattern Generation for Timing
Temperature, Voltage, and Processing Effects
Fault Grading
Test Program Flow
Electrical Characterization of Interconnections
26(30)
Interconnection Metrics
Interconnection Electrical Parameters
Conclusions
Microlithography for Microfabrication
56
Introduction
Photolithography
Current and Future Trends
MEMS
Summary and Conclusion
Transistors
1(1)
S. Soclof
J. Watson
J.R. Brews
H.J. Stiegler
J.E. Morris
Junction Field-Effect Transistors
1(15)
JFET Biasing
Transfer Characteristics
JFET Output Resistance
Source Follower
Frequency and Time-Domain Response
Voltage-Variable Resistor
Bipolar Transistors
16(23)
Biasing the Bipolar Transistor
Small-Signal Operation
A Small-Signal Equivalent Circuit
Low-Frequency Performance
The Emitter-Follower or Common-Collector (CC) Circuit
The Common-Emitter Bypass Capacitor Ce
High-Frequency Response
Complete Response
Design Comments
Integrated Circuits
The Degenerate Common-Emitter Stage
The Difference Amplifier
The Current Mirror
The Difference Stage with Current Mirror Biasing
The Current Mirror as a Load
Summary
The Metal-Oxide Semiconductor Field-Effect Transistor (MOSFET)
39(14)
Current-Voltage Characteristics
Important Device Parameters
Limitations upon Miniaturization
Single-Electron Transistors
53
Electron Tunneling
Electrostatic Charging Energy
Coulomb Block
Single-Electron Box
Single-Electron Transistor (Set)
Thermal Effects
Fabrication
Circuits
Integrated Circuits
1(1)
J.E. Brewer
M.R. Zargham
S. Tragoudas
S.K. Tewksbury
C. Piguet
Integrated Circuit Technology
1(4)
Technology Perspective
Technology Generations
International Technology Roadmap for Semiconductors
Layout, Placement, and Routing
5(16)
What Is Layout?
Floor Planning Techniques
Placement Techniques
Routing Techniques
Application-Specific Integrated Circuits
21(17)
Introduction
Primary Steps of VLSI ASIC Design
Increasing Impact of Interconnection Delays on Design
General Transistor Level Design of CMOS Circuits
ASIC Technologies
Programmable Logic: Use of General Purpose Logic Cells
Interconnection Performance Modeling
Clock Distribution
Power Distribution
Analog and Mixed Signal ASICs
Summary
Low-Power Design Techniques
38
Introduction
Large Power Reduction at High Level
Pipelined and Parallel Digital Circuits
Parallelization
Latch-Based and Gated Clocked Circuits
Gated Clocks
Leakage Reduction at Architecture Level
Surface Mount Technology
1(1)
G.R. Blackwell
Introduction
1(1)
Definition and Considerations
1(1)
Considerations in the Implementation of SMT
SMT Design, Assembly, and Test Overview
2(3)
SMD Definitions
5(1)
Substrate Design Guidelines
6(2)
Thermal Design Considerations
8(2)
Adhesives
10(2)
Solder Paste and Joint Formation
12(3)
Parts Inspection and Placement
15(2)
Parts Placement
Reflow Soldering
17(2)
Postreflow Inspection
Cleaning
19(1)
Prototype Systems
20
Ideal and Practical Models
1(1)
E.J. Kennedy
J.V. Wait
The Ideal Op Amp
1(3)
Practical Op Amps
4(2)
Spice Computer Models
6
Amplifiers
1(1)
G.L. Carpenter
J. Choma, Jr.
Large Signal Analysis
1(6)
DC Operating Point
Graphical Approach
Power Amplifiers
Small Signal Analysis
7
Hybrid-Pi Equivalent Circuit
Hybrid-Pi Equivalent Circuit of a Monolithic BJT
Common Emitter Amplifier
Design Considerations for the Common Emitter Amplifier
Common Base Amplifier
Design Considerations for the Common Base Amplifier
Common Collector Amplifier
Active Filters
1(1)
J.E. Ayers
J.W. Steadman
B.M. Wilamowski
Synthesis of Low-Pass Forms
1(18)
Introduction
Transfer Functions of Filters
Butterworth Filter
Chebyshev Filter
Bessel Filter
Elliptic Filter
Passive Filter Synthesis
Active Filter Synthesis
Sallen and Key Section
State-Variable Biquad Section
Component Scaling
Frequency Scaling
Sensitivity and Stability
Fifth-Order Chebyshev Filter Design Example
Fourth-Order Elliptic Filter Design Example
Switched Capacitor Filters
Realization
19
Transformation from Low-Pass to Other Filter Types
Circuit Realizations
Power Electronics
1(1)
A. Marshall
K. Rajashekara
A.K.S. Bhat
B.K. Bose
S.K. Mazumder
T. Sarkar
M. Dutta
M.S. Mazzola
A.E. Amac
A. Emadi
Power Semiconductor Devices
1(6)
Thyristor
Gate Turn-Off Thyristor (GTO)
Triac
Reverse-Conducting Thyristor (RCT) and Asymmetrical Silicon-Controlled Rectifier (ASCR)
MOS-Controlled Thyristor (MCT)
Power Transistors and Darlingtons
Power MOSFET
Insulated-Gate Bipolar Transistor (IGBT)
Alternative Materials
Power Conversion
7(10)
ac-dc Converters
Cycloconverters
dc-to-ac Converters
dc-dc Converters
Power Supplies
17(18)
Introduction
dc Power Supplies
Pulse-Width-Modulated Converters
Resonant Power Supplies
ac Power Supplies
Special Power Supplies
Converter Control of Machines
35(8)
Converter Control of dc Machines
Converter Control of ac Machines
Photoconductive Devices in Power Electronics
43(17)
Introduction
Advantages: Device Physics Point of View
Principal Photoconductive Devices in Power Electronics
Research Issues
Nonlinear Control of Interactive Power-Electronics Systems
60(12)
Introduction
Applications
Research Issues
Uninterruptible Power Supplies
72
Introduction
Classification
Applications
Control Techniques
Conclusion
Optoelectronics
1(1)
J. Hecht
L.S. Watkins
R.A. Becker
Lasers
1(5)
Differences from Other Light Sources
The Laser Industry and Commercial Lasers
Sources and Detectors
6(17)
Properties of Light
Absorption
Coherence
Geometric Optics
Incoherent Light
Detectors, Semiconductor
Seeds
Detectors, Photoemissive
Imaging Detectors
Noise and Detectivity
Circuits
23
Integrated Optics
Device Fabrication
Packaging
Applications
Summary
D/A and A/D Converters
1(1)
F.L. Luo
H. Ye
S.A.R. Garrod
Introduction
1(1)
D/A and A/D Circuits
2(4)
DAC and ADC Performance Criteria
6(1)
Errors, Resolution, Noises, and Conversion Speed
7(1)
Errors
Resolution and Accuracy
Noises
Conversion Speed
D/A Conversion Processes and DAC ICs
8(1)
D/A Conversion Processes
DAC ICs
A/D Conversion Processes and ADC ICs
9(2)
A/D Conversion Processes
ADC ICs
Grounding and Bypassing on D/A and A/D ICs
11(1)
Selection Criteria for D/A and A/D Converter ICs
11
Digital and Analog Electronic Design Automation
1(1)
A. Dewey
Introduction
1(1)
Design Entry
2(3)
Synthesis
5(2)
Verification
7(5)
Timing Analysis
Simulation
Analog Simulation
Emulation
Physical Design
12(1)
Test
13(3)
Fault Modeling
Fault Testing
Summary
16
Electronic Data Analysis Using PSPICE and MATLAB
1(1)
J.O. Attia
PSPICE Fundamentals
1(3)
Element Statements
Resistors
Inductors
Capacitors
Independent Voltage Source
Independent Current Source
Control Statements
4(2)
Circuit Title
dc Analysis (.DC)
Transient Analysis (.TRAN)
ac Analysis (.AC)
Printing Command (.Print)
Initial Conditions (.IC, UIC)
PSPICE Probe Statement (.PROBE)
MATLAB Fundamentals
6(4)
The Colon Symbol
For Loops
IF Statements
Graph Functions
Fprintf
m-files
Function Files
Data Analysis Functions
Curve Fitting (Polyfit, Polyval)
Save, Load, and Textread Functions
The Textread Function
Interfacing Spice to MATLAB
10(4)
Best-Fit Linear Model of a Diode
Op Amp Circuit with Series-Shunt Feedback Network
Conclusions
14
SECTION II Electromagnetics
Electromagnetic Fields
1(1)
B.S. Rawat
M.B. Tayahi
Static Electric Fields
1(7)
Experimental Law of Coulomb and Electric Field Intensity
Concept of Differential Charge Elements and Electric Field Intensity Due to Various Charge Distributions
Concept of Electric Flux Density and Gauss's Law
Energy and Potential
Potential Difference and Potential
Static Magnetic Fields and Basic Laws
8(3)
Biot-Savart Law
Ampere's Circuital Law
Concept of Magnetic Flux Density and Gauss's Law for Magnetic Fields
Concept of Magnetic Potential
Magnetic Forces
Time-Varying Electromagnetic Fields and Maxwell's Equations
11
Magnetism and Magnetic Fields
1(1)
G. Bate
M.H. Kryder
Magnetism
1(15)
Static Magnetic Fields
Fields from Constant Currents
Time-Dependent Electric and Magnetic Fields
Magnetic Flux Density
Relative Permeabilities
Forces on a Moving Charge
Time-Varying Magnetic Fields
Maxwell's Equations
Dia- and Paramagnetism
Ferromagnetism and Ferrimagnetism
Intrinsic Magnetic Properties
Extrinsic Magnetic Properties
Crystalline Anisotropy
Shape Anisotropy
Magnetoelastic Anisotropy
Amorphous Magnetic Materials
Magnetic Recording
16
Fundamentals of Magnetic Recording
The Recording Process
The Readback Process
Magnetic Recording Media
Magnetic Recording Heads
Conclusions
Wave Propagation
1(1)
M.N.O. Sadiku
K. Demarest
Space Propagation
1(13)
Propagation in Simple Media
Propagation in the Atmosphere
Waveguides
14
Waveguide Modes
Rectangular Waveguides
Circular Waveguides
Commercially Available Waveguides
Waveguide Losses
Mode Launching
Antennas
1(1)
N.J. Kolias
R.C. Compton
J.P. Fitch
J.C. Wiltse
Wire
1(9)
Short Dipole
Directivity
Magnetic Dipole
Input Impedance
Arbitrary Wire Antennas
Resonant Half-Wavelength Antenna
End Loading
Monopole Antennas
Arrays of Wire Antennas
Analysis of General Arrays
Arrays of Identical Elements
Equally Spaced Linear Arrays
Phased Arrays
Planar (2D) Arrays
Yagi-Uda Arrays
Log-Periodic Dipole Arrays
Aperture
10(9)
The Oscillator or Discrete Radiator
Synthetic Apertures
Geometric Designs
Continuous Current Distributions (Fourier Transform)
Antenna Parameters
The Fresnel Zone Plate Antenna
19
Introduction
Design Considerations
Feed Considerations
Efficiency
Loss Considerations
Far-Field Patterns
Multiple Frequency Bands
Frequency Behavior
Summary Comments
Microwave Devices
1(1)
M.B. Steer
R.J. Trew
Passive Microwave Devices
1(11)
Characterization of Passive Elements
Transmission Line Sections
Discontinuities
Impedance Transformers
Terminations
Attenuators
Microwave Resonators
Tuning Elements
Hybrid Circuits and Directional Couplers
Filters
Ferrite Components
Passive Semiconductor Devices
Active Microwave Devices
12
Semiconductor Material Properties
Two-Terminal Active Microwave Devices
Three-Terminal Active Microwave Devices
Compatibility
1(1)
L.H. Hemming
K. Kaiser
H. Eren
B. Wong
M.A. Uman
Grounding, Shielding, and Filtering
1(12)
Grounding
Shielding
Filter Design
Spectrum, Specifications, and Measurement Techniques
13(14)
Electromagnetic Spectrum
Spectrum Specifications
Electromagnetic Compatibility
Determination of EMC
EMC Standards, Regulations, and Organizations
Measurement Techniques
Conclusions
Lightning
27
Terminology and Physics
Lightning Occurrence Statistics
Electric and Magnetic Fields
Modeling the Return Stroke
Lightning--Overhead Wire Interactions
Radar
1(1)
M.L. Belcher
J.T. Nessmith
S.O. Piper
J.C. Wiltse
Pulse Radar
1(15)
Overview of Pulsed Radars
Critical Subsystem Design and Technology
Radar Performance Prediction
Radar Waveforms
Estimation and Tracking
Tracking Filter Performance
Continuous Wave Radar
16
CW Doppler Radar
FMCW Radar
Interrupted Frequency-Modulated CW (IFMCW)
Applications
Radar Proximity Fuzes
Police Radars
Altimeters
Doppler Navigators
Phase Modulated CW Radar
Pilot FMCW Radars
Frequency Shift Keying CW Radar
Millimeter-Wave Seeker for Terminal Guidance Missile
Summary Comments
Lightwave
1(1)
S.O. Agbo
G. Keiser
Lightwave Waveguides
1(13)
Ray Theory
Wave Equation for Dielectric Materials
Modes in Slab Waveguides
Fields in Cylindrical Fibers
Modes in Step-Index Fibers
Modes in Graded-Index Fibers
Attenuation
Dispersion and Pulse Spreading
Total Pulse Spread
Optical Fibers and Cables
14
Introduction
Optical Fiber Applications
Electromagnetic Spectrum
Optical Fiber Characteristics
Optical Fiber Attenuation
Optical Fiber Standards
Specialty Fibers
Cables
Solid-State Circuits
1(1)
I.D. Robertson
I.J. Bahl
Introduction
1(1)
Device Technologies
2(1)
Amplifiers
3(4)
Oscillators and Multipliers
7(1)
Mixers and Modulators
7(2)
Control Circuits
9(4)
Switches
Variable Attenuators
Phase Shifters
Integrated Antennas
13(1)
MEMS Technology and Micromachining
14(2)
Summary and Future Trends
16
Computational Electromagnetics
1(1)
M.N.O. Sadiku
S.R. Nelatury
Moment Method
1(12)
The Method
An Example from Differential Equations
Radiation of a Line Source above a Two-Dimensional Strip of Finite Width
Numerical Evaluation of Capacitance of a Parallel Plate Capacitor of Finite Plate Area
Finite Difference Method
13(6)
Finite Differences
The Finite-Difference Time-Domain Method (FDTD)
Finite Element Method
19(6)
Commercial Packages for CEM
25
SECTION III Electrical Effects and Devices
Electroacoustic Transducers
1(1)
P.H. Rogers
C.H. Sherman
M.B. Moffett
Introduction
1(1)
Transduction Mechanisms
1(2)
Piezoelectricity
Electrostriction
Magnetostriction
Electrodynamic (Moving Coil)
Electrostatic
Magnetic (Variable Reluctance)
Parametric Sources and Receivers
Carbon Microphones
Hydraulic
Fiber Optic
Receiving and Transmitting Responses
3(1)
Reciprocity
4(1)
Canonical Equations and Electroacoustic Coupling
5(1)
Radiation Impedance
6(1)
Directivity
7
Ferroelectric and Piezoelectric Materials
1(1)
K.F. Etzold
Introduction
1(1)
Mechanical Characteristics
2(4)
Applications
Structure of Ferroelectric and Piezoelectric Materials
Ferroelectric Materials
6(4)
Electrical Characteristics
Ferroelectric and High Epsilon Thin Films
10
Electrostriction
1(1)
R. Yimnirun
V. Sundar
R.E. Newnham
Introduction
1(1)
Defining Equations
1(2)
Piezoelectricity and Electrostriction
Electrostriction and Compliance Matrices
Magnitudes and Signs of Electrostrictive Coefficients
PMN--PT: A Prototype Electrostrictive Material
3(3)
Applications
6(1)
Summary
7
The Hall Effect
1(1)
A.C. Ehrlich
Introduction
1(1)
Theoretical Background
2(1)
Relation to the Electronic Structure---(i) ωcτ << 1
3(1)
Relation to the Electronic Structure---(ii) ωcτ >> 1
4
Superconductivity
1(1)
K.A. Delin
T.P. Orlando
Introduction
1(1)
General Electromagnetic Properties
2(4)
Superconducting Electronics
6(2)
Types of Superconductors
8
Dielectrics and Insulators
1(1)
R. Bartnikas
Introduction
1(1)
Dielectric Losses
2(6)
Dielectric Breakdown
8(3)
Insulation Aging
11(2)
Dielectric Materials
13
Gases
Insulating Liquids
Solid Insulating Materials
Inorganic Solids
Organic Solids
Solid--Liquid Insulating Systems
SECTION IV Mathematics, Symbols, and Physical Constants
Greek Alphabet
3(1)
International System of Units (SI)
3(3)
Definitions of SI Base Units
Names and Symbols for the SI Base Units
SI Derived Units with Special Names and Symbols
Units in Use Together with the SI
Conversion Constants and Multipliers
6(2)
Recommended Decimal Multiples and Submultiples
Conversion Factors---Metric to English
Conversion Factors---English to Metric
Conversion Factors---General
Temperature Factors
Conversion of Temperatures
Physical Constants
8(1)
General
π Constants
Constants Involving e
Numerical Constants
Symbols and Terminology for Physical and Chemical Quantities
9(4)
Classical Mechanics
Electricity and Magnetism
Electromagnetic Radiation
Solid State
Credits
13(1)
Probability for Electrical and Computer Engineers
14
Charles W. Therrien
The Algebra of Events
Probability
An Example
Conditional
Probability and Bayes' Rule
Communication Example
Indexes
Author Index
1(1)
Subject Index
1
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