This paper is published in Volume-10, Issue-6, 2024
Area
Antennas
Author
Badavath Maniratnam Naik
Org/Univ
Osmania University, Hyderabad, Telangana, India
Keywords
Silicon, DRA, Excitation Mode, CDRA, Radiation Patterns, Return Loss, Gain, Polarization
Citations
IEEE
Badavath Maniratnam Naik. Silicon Dielectric Resonator Antenna, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.
APA
Badavath Maniratnam Naik (2024). Silicon Dielectric Resonator Antenna. International Journal of Advance Research, Ideas and Innovations in Technology, 10(6) www.IJARIIT.com.
MLA
Badavath Maniratnam Naik. "Silicon Dielectric Resonator Antenna." International Journal of Advance Research, Ideas and Innovations in Technology 10.6 (2024). www.IJARIIT.com.
Badavath Maniratnam Naik. Silicon Dielectric Resonator Antenna, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.
APA
Badavath Maniratnam Naik (2024). Silicon Dielectric Resonator Antenna. International Journal of Advance Research, Ideas and Innovations in Technology, 10(6) www.IJARIIT.com.
MLA
Badavath Maniratnam Naik. "Silicon Dielectric Resonator Antenna." International Journal of Advance Research, Ideas and Innovations in Technology 10.6 (2024). www.IJARIIT.com.
Abstract
Any wireless network essentially requires an antenna for the network to enable wireless communication. In this paper, a silicon based dielectric resonator antenna, exciting in Hybrid mode, is presented for such applications. The proposed CDRA is designed to operate at 2GHz and simulated at the same center frequency to obtain perfect radiation patterns. This paper gives the key concept of DRA and also, a single element CDRA made with silicon is shown along with some measurement results. The proposed CDRA has the desired patterns, and various other parameters such as Return loss, Gain, Polarization, etc., are further discussed here. The CDRA is simulated in Ansys HFSS, successfully and then fabricated to verify the parameters.