This paper presents a substrate-integrated waveguide (SIW) based multiple-input multiple-output (MIMO) antenna operating in the X-band frequency range from 9.4 GHz to 10.5 GHz. The design excited by a coaxial cable feding technique to achieve efficient feeding, wide impedance bandwidth around 12%, and compact planar integration. Simulation results demonstrate a high isolation level exceeding -25 dB between antenna elements, effectively minimizing mutual coupling. The antenna exhibits an average radiation efficiency of approximately 90%, highlighting the low-loss characteristic of the SIW configuration. Moreover, the gain remains above 6.66 dBi across the entire operational band, ensuring satisfactory radiation performance for high-frequency wireless applications. These caracteristics make the proposed antenna as a strong candidate for many applications like radar, satellite communication, and advanced wireless systems requiring compactness, high isolation, and robust performance within the mid X-band spectrum.
Bendjedi, H., Mekki, S., Zebiri, C., Elfergani, I., Alibakhshikenari, M., Saber, T., et al. (2025). High-Isolation SIW-Based MIMO Antenna for Mid X-Band Wireless Applications. In 2025 30th Asia-Pacific Conference on Communications, APCC 2025 (pp. 1-5). Institute of Electrical and Electronics Engineers Inc. [10.23919/APCC64555.2025.11279865].
High-Isolation SIW-Based MIMO Antenna for Mid X-Band Wireless Applications
Livreri P.;
2025-01-01
Abstract
This paper presents a substrate-integrated waveguide (SIW) based multiple-input multiple-output (MIMO) antenna operating in the X-band frequency range from 9.4 GHz to 10.5 GHz. The design excited by a coaxial cable feding technique to achieve efficient feeding, wide impedance bandwidth around 12%, and compact planar integration. Simulation results demonstrate a high isolation level exceeding -25 dB between antenna elements, effectively minimizing mutual coupling. The antenna exhibits an average radiation efficiency of approximately 90%, highlighting the low-loss characteristic of the SIW configuration. Moreover, the gain remains above 6.66 dBi across the entire operational band, ensuring satisfactory radiation performance for high-frequency wireless applications. These caracteristics make the proposed antenna as a strong candidate for many applications like radar, satellite communication, and advanced wireless systems requiring compactness, high isolation, and robust performance within the mid X-band spectrum.
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