By (author)s: Ramesh Garg, Inder J. Bahl

Copyright: 2024
Pages: 852
ISBN: 9781685690472
Coming Soon: Available 11/30/2024

Our Price: £114.00
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Description

Microstrip Lines and Slotlines, Fourth Edition is an indispensable resource for the research and design communities. This edition is updated to reflect the latest developments in the field, providing extensive analysis techniques and CAD design and modeling information. This volume covers approximate and full-wave analysis techniques, accurate circuit model extraction, and design information focusing on miniaturization, broadband operation, and precise design.

 

It also incorporates the most recent information from conferences, journals, books, and personal research. New topics on Metamaterial Based Transmission Lines and Numerical Simulation and Modeling of transmission lines are introduced, aligning with the book's core themes. Some of the key updates included in this fourth edition are the integration of significant materials, significant revisions reflecting the latest research, and the introduction of cutting-edge topics, enhancing the existing content.

 

With these comprehensive updates, Microstrip Lines and Slotlines, Fourth Edition ensures that readers have access to the most relevant and cutting-edge information in the field of printed transmission lines. This book is a must-have for professionals and researchers dedicated to advancing their knowledge and expertise in this dynamic area.

Table Of Contents

Preface to the Fourth Edition
Preface to the Third Edition
Preface to the Second Edition
Preface to the First Edition

 

1 Microstrip Lines I: Quasi-Static Analyses, Dispersion Models, and Measurements
1.1 Introduction
1.2 Quasi-Static Analyses of a Microstrip Line
1.3 Microstrip Line Dispersion Models
1.4 Microstrip Line Transitions
1.5 Microstrip Measurements
1.6 Fabrication

 

2 Microstrip Lines II: Fullwave Analyses, Design Considerations, and Applications
2.1 Methods of Fullwave Analysis
2.2 Analysis of Open Microstrip Line
2.3 Analysis of an Enclosed Microstrip Line
2.4 Design Considerations
2.5 Other Types Variants of Microstrip Line
2.6 Slow-Wave Microstrip Lines
2.7 Microstrip Line Applications

 

3 Microstrip Discontinuities: Analysis, Characterization, and Compensation
3.1 Introduction
3.2 Discontinuity Capacitance Evaluation
3.3 Discontinuity Inductance Evaluation
3.4 Full-wave Analysis
3.5 Planar Waveguide Analysis of Junction Discontinuities
3.6 Characterization of Discontinuities
3.7 Compensated Microstrip Discontinuities

 

4 Coupled Microstrip Lines
4.1 Introduction
4.2 Analysis of Coupled Lines
4.3 Characteristics of Coupled Microstrip Lines
4.4 Measurements on Coupled Microstrip Lines
4.5 Design Considerations for Coupled Microstrip Lines
4.6 Slot-Coupled Microstrip Lines
4.7 Coupled Multi-conductor Microstrip Lines
4.8 Discontinuities in Coupled Microstrip Lines

 

5 Slotline
5.1 Introduction
5.2 Slotline Analysis
5.3 Design Considerations
5.4 Slotline Discontinuities
5.5 Variants of Slotline
5.6 Slotline Transitions
5.7 Slotline Applications

 

6 Defected Ground Structure (DGS)
6.1 Introduction
6.2 DGS Characteristics
6.3 Modeling of DGS
6.4 Applications of DGS

 

7 Coplanar Lines: Coplanar Waveguide and Coplanar Strips
7.1 Introduction
7.2 Analysis
7.3 Design Considerations
7.4 Losses
7.5 Effect of Tolerances
7.6 Comparison with Microstrip Line and Slotline
7.7 Transitions
7.8 Discontinuities in Coplanar Lines
7.9 Coplanar Line Circuits

 

8 Metamaterials and Planar Transmission Lines
8.1 Introduction
8.2 Metamaterial-Based Printed Transmission Lines
8.3 Modeling
8.4 Applications

 

9 Substrate Integrated Waveguide (SIW)
9.1 Introduction
9.2 Analysis Techniques of SIW
9.3 Design Considerations
9.4 Other SIW Configurations
9.5 Transitions Between SIW and Planar Transmission Lines
9.6 SIW Components and Antennas
9.7 Fabrication Technologies and Materials

 

10 Numerical Simulation and Modeling
10.1 Introduction to Numerical Simulations
10.2 Speed up of Numerical Simulations
10.3 Simulation Assisted Design
10.4 Modeling Techniques
10.5 Modeling Assisted Electromagnetic Design

 

About the Authors
Index

Author

  • Inder J. Bahl

    received his Ph.D. degree in electrical engineering from the Indian Institute of Technology, Kanpur, India, in 1975. Dr. Bahl has more than 40 years of experience working in the microwave field. Dr. Bahl researched and managed products including microwave and millimeter-wave integrated circuits, printed antennas, phased array antennas, millimeter wave antennas, and medical and industrial applications of microwaves. He joined the ITT Gallium Arsenide Technology Center in 1981 and launched numerous microwave and millimeter wave GaAs IC products for commercial and military applications. At Cobham (formerly ITT GTC/Tyco Electronics), he continued working on GaAs ICs as a Distinguished Fellow of Technology until he retired in 2010. Through his research publications and books, he is well recognized worldwide in the microwave field. Dr. Bahl is the author or co-author of more than 160 research papers. He authored or co-authored 15 books and holds 17 patents. He is an IEEE Life Fellow and a member of the Electromagnetic Academy.

  • Ramesh Garg

    received an MSc Honors in physics from Panjab University, Chandigarh, India, in 1968, and a PhD from the Indian Institute of Technology (IIT), Kanpur, in 1975. From 1975 to 1981, he was with the Advanced Centre for Electronic Systems (ACES), IIT Kanpur, working on transmission lines for microwave integrated circuits and CAD. From 1981 to 2015, Professor Garg was with the IIT Kharagpur (India), first as an assistant professor with the Radar and Communication Centre and then as a professor with the Department of Electronics and Electrical Communication Engineering. He was a visiting assistant professor at the University of Houston in Texas from 1985 to 1987, and a research associate at the University of Ottawa in Canada in 1994. After returning from IIT Kharagpur in 2015, he was Professor Emeritus at IIT Ropar and served this institute until 2019.