Phased Array Antenna Handbook Antennas Propagation Library Second Edition by Robert Mailloux ISBN 978-1580536899 1580536891
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Product details:
ISBN 10: 1580536891
ISBN 13: 978-1580536899
Author: Robert J. Mailloux
Phased array antennas can be electronically steered and do not have moving parts, making them an efficient and cost-effective solution for today’s complex radar and communications systems. This newly revised edition of the Artech House classic, Phased Array Antenna Handbook, offers the most up-to-date and broadest view of array antennas and systems. Professionals find complete design details that allow them to build and evaluate an array system with speed and confidence. The second edition offers a wealth of critical new material, including a detailed treatment of antenna system noise, sections on antenna pattern synthesis, cutting-edge developments in subarray technology, and in-depth information on array architecture and components.
Table of contents:
1 Phased Arrays in Radar and Communication Systems
1.1 Introduction
1.1.1 System Requirements for Radar and Communication Antennas
1.2 Array Characterization for Radar and Communication Systems
1.2.1 Fundamental Results from Array Theory
1.2.2 Array Size Determination
1.2.3 Time-Delay Compensation
1.3 Array Architecture and Control Technology
1.3.1 Array Aperture
1.3.2 Feed Architectures
1.3.3 Beamforming Modalities and Relevant Architectures
1.3.4 RF Components for Array Control
References
2 Pattern Characteristics of Linear and Planar Arrays
2.1 Array Analysis
2.1.1 The Radiation Integrals
2.1.2 Element Pattern Effects, Mutual Coupling, Gain Computed from Element Patterns
2.2 Characteristics of Linear and Planar Arrays
2.2.1 Linear Array Characteristics
2.2.2 Planar Array Characteristics
2.3 Scanning to Endfire
2.4 Thinned Arrays
2.4.1 Average Patterns of Density-Tapered Arrays
2.4.2 Probabilistic Studies of Thinned Arrays
2.4.3 Thinned Arrays with Quantized Amplitude Distributions
References
3 Pattern Synthesis for Linear and Planar Arrays
3.1 Linear Arrays and Planar Arrays with Separable Distributions
3.1.1 Fourier Transform Method
3.1.2 Schelkunov’s (Schelkunoff’s) Form
3.1.3 Woodward Synthesis
3.1.4 Dolph-Chebyshev Synthesis
3.1.5 Taylor Line Source Synthesis
3.1.6 Modified sin pz/ pz Patterns
3.1.7 Bayliss Line Source Difference Patterns
3.1.8 Synthesis Methods Based on Taylor Patterns: Elliott’s Modified Taylor Patterns and the Iterative Method of Elliott
3.1.9 Discretization of Continuous Aperture Illuminations by Root Matching and Iteration
3.1.10 Synthesis of Patterns with Complex Roots and Power Pattern Synthesis
3.2 Circular Planar Arrays
3.2.1 Taylor Circular Array Synthesis
3.2.2 Bayliss Difference Patterns for Circular Arrays
3.3 Methods of Pattern Optimization/Adaptive Arrays
3.3.1 Pattern Optimization
3.3.2 Adaptive Arrays
3.3.3 Generalized S/N Optimization for Sidelobe Cancelers, Phased and Multiple-Beam Arrays
3.3.4 Operation as Sidelobe Canceler
3.3.5 Fully Adaptive Phased or Multiple-Beam Arrays
3.3.6 Wideband Adaptive Control
3.4 Generalized Patterns Using Covariance Matrix Inversion
3.5 Pattern Synthesis Using Measured Element Patterns
References
4 Patterns of Nonplanar Arrays
4.1 Introduction
4.1.1 Methods of Analysis for General Conformal Arrays
4.2 Patterns of Circular and Cylindrical Arrays
4.2.1 Phase Mode Excitation of Circular Arrays
4.2.2 Patterns and Elevation Scan
4.2.3 Circular and Cylindrical Arrays of Directional Elements
4.2.4 Sector Arrays on Conducting Cylinders
4.3 Spherical and Hemispherical Arrays
4.4 Truncated Conical Arrays
References
5 Elements for Phased Arrays
5.1 Array Elements
5.2 Polarization Characteristics of Infinitesimal Elements in Free Space
5.3 Electric Current (Wire) Antenna Elements
5.3.1 Effective Radius of Wire Structures with Noncircular Cross Section
5.3.2 The Dipole and the Monopole
5.3.3 Special Feeds for Dipoles and Monopoles
5.3.4 Dipoles Fed Off-Center
5.3.5 The Sleeve Dipole and Monopole
5.3.6 The Bowtie and Other Wideband Dipoles
5.3.7 The Folded Dipole
5.3.8 Microstrip Dipoles
5.3.9 Other Wire Antenna Structures
5.3.10 Broadband Flared-Notch, Vivaldi, and Cavity-Backed Antennas
5.4 Aperture Antenna Elements
5.4.1 Slot Elements
5.4.2 Waveguide Radiators
5.4.3 Ridged Waveguide Elements
5.4.4 Horn Elements
5.5 Microstrip Patch Elements
5.5.1 Microstrip Patch
5.5.2 The Balanced Fed Radiator of Collings
5.6 Elements for Alternative Transmission Lines
5.7 Elements and Row (Column) Arrays for One-Dimensional Scan
5.7.1 Waveguide Slot Array Line Source Elements
5.7.2 Printed Circuit Series-Fed Arrays
5.8 Elements and Polarizers for Polarization Diversity
References
6 Summary of Element Pattern and Mutual Impedance Effects
6.1 Mutual Impedance Effects
6.2 Integral Equation Formulation for Radiation and Coupling in Finite and Infinite Arrays
6.2.1 Formulation and Results for Finite Arrays
6.2.2 Formulation and Results for Infinite Arrays
6.3 Array Blindness and Surface Waves
6.4 Impedance and Element Patterns in Well-Behaved Infinite Scanning Arrays
6.5 Semi-Infinite and Finite Arrays
6.6 Impedance Matching for Wide Angle and Wideband Radiation
6.6.1 Reduced Element Spacing
6.6.2 Dielectric WAIM Sheets
6.7 Mutual Coupling Phenomena for Nonplanar Surfaces
6.8 Small Arrays and Waveguide Simulators for the Evaluation of Phased Array Scan Behavior
6.8.1 Several Useful Simulators
References
7 Array Error Effects
7.1 Introduction
7.2 Effects of Random Amplitude and Phase Errors in Periodic Arrays
7.2.1 Average Pattern Characteristics
7.2.2 Directivity
7.2.3 Beam Pointing Error
7.2.4 Peak Sidelobes
7.3 Sidelobe Levels Due to Periodic Phase, Amplitude, and Time-Delay Quantization
7.3.1 Characteristics of an Array of Uniformly Illuminated Contiguous Subarrays
7.3.2 Phase Quantization in a Uniformly Illuminated Array
7.3.3 Reduction of Sidelobes Due to Phase Quantization
7.3.4 Subarrays with Quantized Amplitude Taper
7.3.5 Time Delay at the Subarray Ports
7.3.6 Discrete Phase or Time-Delayed Subarrays with Quantized Subarray Amplitudes
References
8 Special Array Feeds for Limited Field-of-View and Wideband Arrays
8.1 Multiple-Beam Systems
8.1.1 Beam Crossover Loss
8.1.2 Orthogonality Loss and the Stein Limit
8.1.3 Multiple-Beam Matrices and Optical Beamformers
8.2 Antenna Techniques for Limited Field-of-View Systems
8.2.1 Minimum Number of Controls
8.2.2 Periodic and Aperiodic Arrays for Limited Field of View
8.2.3 Constrained Network for Completely Overlapped Subarrays
8.2.4 Reflectors and Lenses with Array Feeds
8.2.5 Practical Design of a Dual-Transform System
8.3 Wideband Scanning Systems
8.3.1 Broadband Arrays with Time-Delayed Offset Beams
8.3.2 Contiguous Time-Delayed Subarrays for Wideband Systems
8.3.3 Overlapped Time-Delayed Subarrays for Wideband Systems
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