Paris : E. Plon, 1877

509 p. ; 22 cm

346

FGBC

VIII B 256

Francese

Hoboken, N.J., : Wiley-Interscience, c2006

9786610507924

9781280507922

1280507926

9780470040881

0470040882

9780470040874

0470040874

1 online resource (559 p.)

621.381/32

Microwave integrated circuits

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

COPLANAR MICROWAVE INTEGRATED CIRCUITS; CONTENTS; Preface; 1 Introduction; References; 2 Transmission Properties of Coplanar Waveguides; 2.1 Rigorous, Full-Wave Analysis of Transmission Properties; 2.1.1 The Coplanar Waveguide with a Single Center Strip and Finite Ground-Plane Width; 2.1.2 The Coplanar Waveguide with a Single Center Strip and Infinite Ground-Plane Width; 2.1.3 Coupled Coplanar Waveguides; 2.1.3.1 Scattering Matrix of Coupled Coplanar Waveguides; 2.1.3.2 Coupled Coplanar Waveguides and Microstrip Lines-A Comparison

2.2 Quasi-Static Analysis of Coplanar Waveguides Using the Finite Difference Method2.2.1 Introduction; 2.2.2 The Finite Difference Method as Applied to the Analysis of Coplanar Waveguide Structures; 2.2.3 The Solution of Laplace's Equation for Planar and Coplanar Line Structures Using the Finite Difference Method; 2.2.4 Application of the Quasi-Static Techniques to the Analysis of Coplanar Waveguides; 2.2.5 Characteristic Parameters of Coplanar Waveguides; 2.2.6 The Influence of the Metalization Thickness on the Line Parameters

2.2.7 The Influence of the Ground Strip Width on the Line Parameters2.2.8 The Influence of the Shielding on the Line Parameters; 2.2.9 Special Forms of Coplanar Waveguides; 2.2.10 Coplanar-like Waveguides; 2.2.11 Coupled Coplanar Waveguide Structures; 2.2.11.1 Analysis of the Characteristic Parameter Matrices; 2.2.11.2 Determination of the Scattering Matrix of Coupled Coplanar Waveguides; 2.3 Closed Formula Static Analysis of Coplanar Waveguide Properties; 2.3.1 Analysis of a Generalized Coplanar Waveguide with Supporting Substrate Layers; 2.3.1.1 Structure SCPW1; 2.3.1.2 Structure SCPW2

2.3.1.3 Structure SCPW32.3.1.4 Numerical Results; 2.3.2 Static Formulas for Calculating the Parameters of General Broadside-Coupled Coplanar Waveguides; 2.3.2.1 Analytical Formulas and Results for the General Broadside-Coupled Coplanar Waveguide; 2.3.2.2 Analysis of an Asymmetric Supported BSC-CPW; 2.3.2.3 Application of the GBSC-CPW as Single CPW; 2.3.2.4 Criteria for the Coplanar Behavior of the Structure; Bibliography and References; 3 Coplanar Waveguide Discontinuities; 3.1 The Three-Dimensional Finite Difference Analysis; 3.2 Computation of the Electric Field Strength

3.3 Computation of the Magnetic Field Strength3.3.1 Convergence and Error Discussion for the Analysis Technique; 3.4 Coplanar Waveguide Discontinuities; 3.4.1 Modeling the Discontinuities; 3.4.2 Extraction of the Model Parameters; 3.5 Description of Coplanar Waveguide Discontinuities; 3.5.1 The Coplanar Open End; 3.5.2 The Coplanar Waveguide Short-Circuited End; 3.5.3 The Gap in a Coplanar Waveguide; 3.5.4 The Coplanar Waveguide Step; 3.5.5 Air Bridges in Coplanar Waveguides; 3.5.6 The Coplanar Waveguide Bend; 3.5.7 The Coplanar Waveguide T-Junction

3.5.7.1 Analysis of the Odd-Mode Excitation

The tools and techniques to fully leverage coplanar technologyCoplanar Microwave Integrated Circuits sets forth the theoretical underpinnings of coplanar waveguides and thoroughly examines the various coplanar components such as discontinuities, lumped elements, resonators, couplers, and filters, which are essential for microwave integrated circuit design. Based on the results of his own research findings, the author effectively demonstrates the many advantages of coplanar waveguide technology for modern circuit design.Following a brief introductory chapter, the text thoroughly

[Place of publication not identified], : Transportation Research Board, 2009

1-62198-250-5

ACRP report Developing improved civil aircraft arresting systems

629.132/5

Runways (Aeronautics) - Safety measures

Airplanes - Safety measures - Landing

Landing aids (Aeronautics) - Skid resistance

Pavements

Civil & Environmental Engineering

Mechanical Engineering

Engineering & Applied Sciences

Aeronautics Engineering & Astronautics

Civil Engineering

Inglese

Bibliographic Level Mode of Issuance: Monograph

Ch. 2. Literature Review -- Ch. 3. Survey of U.S. Airport Operators -- Ch. 4. Review and Documentation of FAA Parameters -- Ch. 5. Sensitivity Analysis -- Ch. 6. Approval and Commercialization Study -- Ch. 7. Identification and Initial Assessment of Alernatives -- Ch. 8. Experimentation Overview -- Ch. 9. Glass Foam Arrestor Concept -- Ch. 10. Engineered Aggregate Arrestor Concept -- Ch. 11. Aggregate Foam Arrestor Concept -- Ch. 12. Depth-Varying Foam Material -- Ch. 13. Summary of Passive System Candidates -- Ch. 14. Main-Gear Engagement Active System Concept -- Ch. 15. Conclusions.

ACRP Report 29: Developing Improved Civil Aircraft Arresting Systems is a report that evaluates  alternative materials that could be used for an engineered material arresting system (EMAS), as well as potential active arrestor designs for civil aircraft applications. Currently, there is only one manufacturer that has been approved by the FAA. This report

provides an evaluation of (1) cellular glass foam, (2) aggregate foam, (3) engineered aggregate, and (4) a main-gear engagement active arrestor system. Airport operators will find the updated cost information and performance considerations useful, airport planning firms will be aided by evaluating future options with respect to runway dimensions and land requirements, and manufacturers of alternative products will be encouraged to see the performance characteristics of other materials and the potential process by which they may be able to gain approval--