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Author

Vinod Kumar Singh

Bio: Vinod Kumar Singh is an academic researcher. The author has contributed to research in topics: Microstrip & Patch antenna. The author has an hindex of 1, co-authored 1 publications receiving 1 citations.

Papers
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Proceedings ArticleDOI
01 Dec 2018
TL;DR: In this paper, a C-shaped with trapezium slot cut antenna based on rectangular geometry is proposed for wide band applications in the frequency range of 1.92 to 3.28 GHz.
Abstract: This paper presents a systematic methodology design for a C-shaped with trapezium slot cut antenna, based on rectangular geometry. This antenna design gives for wide band applications in the frequency range of 1.92 to 3.28 GHz. This band is also used for wireless communication (Wi-Fi, WiMAX), mobile, satellite communication and microwave communication. The resonating peak frequency is obtained at 2.4 GHz with high return loss of -24.2 dB and gain, directivity, antenna efficiency and radiation efficiency at this frequency are 4.3 dBi, 4.8 dBi, 99.98% and 100% respectively. This antenna is fabricated on Glass Epoxy (FR4) material or dielectric substrate with microstrip line feed technique. IE3D software is used to simulate this antenna and simulated result of this antenna provides the bandwidth of about 52.3%.

5 citations


Cited by
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01 Jan 2016
TL;DR: Complete with an up–to–date tutorial overview of the field and substantial new, introductory material for each topic, Microstrip Antennas combines in one source a selection of today's most significant and useful articles on microstrip and antenna design.
Abstract: Description: Electrical Engineering/Antennas and Propagation Microstrip Antennas The Analysis and Design of Microstrip Antennas and Arrays Microstrip Antennas contains valuable new information on antenna design and an excellent introduction to the work done in the microstrip antenna area over the past 20 years. The articles are well–chosen and (are) complete with practical design information that is very useful for the working engineer. Stuart Long, University of Houston The editors have done an outstanding job in assembling this updated reprint book. It is a welcome addition to the list of books on microstrip antennas. There is no doubt that it will be a valuable source of information for graduate students, engineers and researchers the original articles are written lucidly and are very informative, and the reprint articles are well chosen. Kai Fong Lee, The University of Toledo Complete with an up–to–date tutorial overview of the field and substantial new, introductory material for each topic, Microstrip Antennas combines in one source a selection of today’s most significant and useful articles on microstrip and antenna design. Eminent experts David M. Pozar and Daniel H. Schaubert guide you through:

210 citations

Proceedings ArticleDOI
18 Nov 2022
TL;DR: In this paper , a rectangular broadband antenna is proposed and designed in order to meet the defense requirement in X-band (8-12 GHz) applications centered at 10 GHz, the antenna circuit is printed on Roger 5880 substrate having a dielectric constant of 2.2 and thickness 2.04 mm.
Abstract: A rectangular broadband antenna is proposed and designed in order to meet the defense requirement in X-band (8–12 GHz) applications centered at 10 GHz. The antenna circuit is printed on Roger 5880 substrate having a dielectric constant of 2.2 and thickness of 2.04 mm. The total size of the proposed antenna is $30\times 34\times 2.04$ mm3 and it is excited with inset fed to achieve a - 10 dB bandwidth of 2.5 GHz (9.5 -12GHz). The radiation efficiency within the BW is maintained above 80 % whereas the gain is close to 7.8 dB at 10 GHz. The proposed antenna is designed, investigated, fabricated, and tested experimentally. The measured results are in good agreement with the simulated results which confirms the validity of the design.
Proceedings ArticleDOI
18 Nov 2022
TL;DR: In this article , a rectangular broadband antenna is proposed and designed in order to meet the defense requirement in X-band (8-12 GHz) applications centered at 10 GHz, where the antenna circuit is printed on a Roger 5880 substrate having a dielectric constant of 2.2 and thickness 2.04 mm.
Abstract: A rectangular broadband antenna is proposed and designed in order to meet the defense requirement in X-band (8–12 GHz) applications centered at 10 GHz. The antenna circuit is printed on Roger 5880 substrate having a dielectric constant of 2.2 and thickness of 2.04 mm. The total size of the proposed antenna is $30\times 34\times 2.04$ mm3 and it is excited with inset fed to achieve a - 10 dB bandwidth of 2.5 GHz (9.5 -12GHz). The radiation efficiency within the BW is maintained above 80 % whereas the gain is close to 7.8 dB at 10 GHz. The proposed antenna is designed, investigated, fabricated, and tested experimentally. The measured results are in good agreement with the simulated results which confirms the validity of the design.
Proceedings ArticleDOI
18 Nov 2022
TL;DR: In this paper , the authors proposed a bandwidth enhance antenna using slotting and notching for wireless communication (Wi-Fi, WiMax), Bluetooth, and mobile satellite communications. And the proposed antenna operates at the frequency band of 2.56 GHz (1.8GHz-3.4GHz).
Abstract: An antenna is a fundamental element of a communication system for transmitting and receiving radio waves. We proposed a bandwidth enhance antenna using slotting and notching for wireless communication (Wi-Fi, WiMax), Bluetooth, and mobile satellite communications. First, we designed a simple rectangular patch and then converted it into a trapezoidal shape by introducing various iterations. The proposed antenna operates at the frequency band of 2.56 GHz (1.8GHz-3.4GHz) with a bandwidth of 61.53% and a gain of 4.86 dB, using an appropriate transmission line. The proposed antenna is investigated, designed, fabricated, and experimentally validated, which shows good agreement between measured and simulated results.
Proceedings ArticleDOI
18 Nov 2022
TL;DR: In this article , the authors proposed a bandwidth enhance antenna using slotting and notching for wireless communication (Wi-Fi, WiMax), Bluetooth, and mobile satellite communications at the frequency band of 2.56 GHz (1.8GHz-3.4GHz) with a bandwidth of 61.53% and a gain of 4.86 dB.
Abstract: An antenna is a fundamental element of a communication system for transmitting and receiving radio waves. We proposed a bandwidth enhance antenna using slotting and notching for wireless communication (Wi-Fi, WiMax), Bluetooth, and mobile satellite communications. First, we designed a simple rectangular patch and then converted it into a trapezoidal shape by introducing various iterations. The proposed antenna operates at the frequency band of 2.56 GHz (1.8GHz-3.4GHz) with a bandwidth of 61.53% and a gain of 4.86 dB, using an appropriate transmission line. The proposed antenna is investigated, designed, fabricated, and experimentally validated, which shows good agreement between measured and simulated results.