The text focuses primarily on details related to design concepts of stacked microstrip antennas, performance characteristics, and complete static analysis based on different approaches. It will further provide readers with an in-depth understanding of static analysis approaches for analyzing and understanding the performance of multi-layered stacked antennas. The book covers important topics such as conformal mapping, the transmission-line equivalent model-based approach, and the microstrip patch antenna model. The book also discusses reconfigurable stacked microstrip antennas, stacked microstrip antenna arrays, and a wide range of potential applications of stacked microstrip antennas.
This book:
Presents systematic and simplified design steps of stacked antennas, the factors involved, and various design examples and explains static analysis of multi-layered stacked antennas in an easy-to-understand manner.
Discusses topics such as conformal mapping, the transmission-line equivalent model-based approach, and the microstrip patch antenna model and reconfigurable stacked microstrip antennas and their applications, along with briefly discussing the design concepts of stacked microstrip antenna arrays.
Covers simulation, design concepts, and measurement techniques for stacked microstrip antennas.
Illustrates microstrip stacked antenna parameters including bandwidth, polarization, radiation pattern, gain, directivity, and efficiency.
Focuses on covering a wide range of potential applications of stacked microstrip antennas.
It is primarily written for senior undergraduates, graduate students, and academic researchers in the fields including electrical engineering, electronics, and communications engineering.