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Original Research
Received: 03 Sep 2024, Accepted: 05 Nov 2024,
 


Dielectric Resonator Antenna Metallic Strip Integrated for Frequency Reconfigurable Applications

Yazeed Qasaymeh.

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  • Supplementary file - 1

    • Abstract
    In this study, a frequency reconfigurable dielectric resonator antenna (DRA) metallic strip coupled operating in the IEEE 802.11a is presented. The resonating element is composed of a single rectangular dielectric resonator (RDR) excited by three metallic strips pasted on the RDR front side. To achieve frequency reconfigurability, the RDR is excited by either one, two or three metallic strips. The exciting metallic strips are connected to a three fork microstrip network that is integrated with two PIN diodes. The frequency reconfigurability is obtained by switching from both PIN diodes are OFF state to both are ON state. The obtained -10 dB for OFF-OFF state, ON-OFF state and ON-ON state were 5.8024 GHz, 5.604 GHz and 5.58 GHz, respectively. The 30 × 25 mm2 findings makes it a good candidate for applications operating within the IEEE 802.11a band.

    Key words: Dielectric resonator antenna, frequency reconfigurable antenna;


    		 
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    Pubmed Style

    yazeed qasaymeh|. Dielectric Resonator Antenna Metallic Strip Integrated for Frequency Reconfigurable Applications. Journal of Engineering and Applied Sciences. 2024; 11(2): 99-105. doi:10.5455/jeas.2024021109

    Web Style

    yazeed qasaymeh|. Dielectric Resonator Antenna Metallic Strip Integrated for Frequency Reconfigurable Applications. https://jecasmu.org/?mno=218559 [Access: September 17, 2025]. doi:10.5455/jeas.2024021109

    AMA (American Medical Association) Style

    yazeed qasaymeh|. Dielectric Resonator Antenna Metallic Strip Integrated for Frequency Reconfigurable Applications. Journal of Engineering and Applied Sciences. 2024; 11(2): 99-105. doi:10.5455/jeas.2024021109


    Vancouver/ICMJE Style

    yazeed qasaymeh|. Dielectric Resonator Antenna Metallic Strip Integrated for Frequency Reconfigurable Applications. Journal of Engineering and Applied Sciences. (2024), [cited September 17, 2025]; 11(2): 99-105. doi:10.5455/jeas.2024021109


    Harvard Style

    yazeed qasaymeh| (2024) Dielectric Resonator Antenna Metallic Strip Integrated for Frequency Reconfigurable Applications. Journal of Engineering and Applied Sciences, 11 (2), 99-105. doi:10.5455/jeas.2024021109


    Turabian Style

    yazeed qasaymeh|. 2024. Dielectric Resonator Antenna Metallic Strip Integrated for Frequency Reconfigurable Applications. Journal of Engineering and Applied Sciences, 11 (2), 99-105. doi:10.5455/jeas.2024021109


    Chicago Style

    yazeed qasaymeh|. "Dielectric Resonator Antenna Metallic Strip Integrated for Frequency Reconfigurable Applications." Journal of Engineering and Applied Sciences 11 (2024), 99-105. doi:10.5455/jeas.2024021109


    MLA (The Modern Language Association) Style

    yazeed qasaymeh|. "Dielectric Resonator Antenna Metallic Strip Integrated for Frequency Reconfigurable Applications." Journal of Engineering and Applied Sciences 11.2 (2024), 99-105. Print. doi:10.5455/jeas.2024021109


    APA (American Psychological Association) Style

    yazeed qasaymeh| (2024) Dielectric Resonator Antenna Metallic Strip Integrated for Frequency Reconfigurable Applications. Journal of Engineering and Applied Sciences, 11 (2), 99-105. doi:10.5455/jeas.2024021109


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