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Lossy Dielectric Resonators for Microwave Absorber and Antenna Applications

(Autor)

Buch
194 Seiten
2022
Apprimus Verlag
978-3-98555-031-9 (ISBN)
CHF 54,60 inkl. MwSt
The development of a planar resonant absorber based on the dielectric resonance mechanism is presented. The dielectric resonator is made from a magnetic sheet absorber composed of typical lossy materials. A design guideline is provided on how to enable the broadband operation of the absorber. The method has been implemented to develop a free space and surface wave absorber. Integrating with a bandpass frequency selective surface (FSS), the composite structure serves as a radome absorber.
Microwave absorbers are used to improve the communication system performance. They can be classified into non-resonant and resonant absorbers. In band-limited applications, where the size of the microwave absorber is required to be physically small or when the unwanted scatterers are located in the proximity of the antennas, the resonant absorbers can provide better solutions. Major design challenges of these absorbers are increasing the bandwidth, improving the parameters performances (i.e., reflection coefficient, isolation, noise suppression), and producing them with a lower cost and a simple process.This dissertation focuses on developing a planar resonant absorber to tackle those challenges. The author proposes using the dielectric resonance mechanism to develop novel resonant absorbers. A systematic design method is described, and some examples of absorber implementations are provided. A free space absorber intended to have a minimum reflection coefficient of less than -20 dB within the 8 GHz - 12 GHz band (40% bandwidth) was designed, fabricated, and measured. The proposed design method was also successfully applied to other typical lossy materials.Another use is on the development of a planar radome absorber for the antenna application. This dielectric resonator absorber can be integrated efficiently with a bandpass frequency selective surface (FSS) to serve as a radome absorber. This integration enables the radome to absorb unwanted waves above the antenna operational frequencies so that the covered antenna's monostatic and back-scatterings are significantly reduced. A partially reflective surface (PRS) antenna, which is known to have a strong scattering, was fabricated. The radome absorber was then placed above this PRS antenna. It was shown that this radome absorber could reduce the back-scattering of the PRS antenna while simultaneously keeping the antenna performance (input reflection coefficient, realized gain, and the radiation pattern) similar.The dielectric resonator absorber can also be used to improve the isolation between horn antennas. The absorber was inserted between the horn apertures to attenuate the coupling. As a comparison, ultra-thin and magnetic sheet absorbers were also used. Observing the mutual coupling of these antennas showed that the highest average of isolation improvement is achieved when the dielectric resonator absorber is inserted between the pair antennas.
Erscheinungsdatum
Reihe/Serie Elektro- und Informationstechnik
Verlagsort Aachen
Sprache englisch
Maße 148 x 210 mm
Gewicht 274 g
Themenwelt Technik Elektrotechnik / Energietechnik
Technik Maschinenbau
Schlagworte Hochfrequenztechnik • microwave absorber • partially reflective surface antenna
ISBN-10 3-98555-031-X / 398555031X
ISBN-13 978-3-98555-031-9 / 9783985550319
Zustand Neuware
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