Design and Analysis of Substrate Integrated Waveguide for High Frequency Applications
By: Sharma, Manvinder
.
Contributor(s): Singh, Harjinder.
Publisher: New Delhi STM Journals 2019Edition: Vol, 6(1), Jan-Apr.Description: 1-5p.Subject(s): Computer EngineeringOnline resources: Click Here
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Recent trends in programming languagesSummary: paper, substrate integrated waveguide has been designed and analyzed for high frequency applications. As high frequency suffers attenuation due to metal waveguide, atmospheric attenuation and rain fade etc., an improved waveguide method is adapted known as Substrate Integrated Waveguide. SIW is transition between micro-strip antenna and dielectric filled waveguide antenna. SIWs are planar structures, so they can be fabricated over PCBs and can be easily integrated with supplementary transmission lines. In the study, the different parameters like electric field generated, transmission gain and return loss is evaluated. Results are calculated over a frequency ranging from 6 to 11 GHz.
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Articles Abstract Database
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School of Engineering & Technology Archieval Section | Not for loan | 2021-2021758 |
paper, substrate integrated waveguide has been designed and analyzed for high frequency applications. As high frequency suffers attenuation due to metal waveguide, atmospheric attenuation and rain fade etc., an improved waveguide method is adapted known as Substrate Integrated Waveguide. SIW is transition between micro-strip antenna and dielectric filled waveguide antenna. SIWs are planar structures, so they can be fabricated over PCBs and can be easily integrated with supplementary transmission lines. In the study, the different parameters like electric field generated, transmission gain and return loss is evaluated. Results are calculated over a frequency ranging from 6 to 11 GHz.
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