Design and Analysis of Frequency-Reconfigurable Microstrip Antenna using Multiple Parasitic Patches

Zidan, Mohammad

doi:10.1088/1757-899x/518/4/042024

Cited by 1 publication

(1 citation statement)

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“…A frequency reconfigurable patch antenna with 3 operating modes is proposed in [95]. PIN diodes are placed between the inner and outer patches to achieve reconfigurability.…”

Section: ) Frequency Reconfigurable Designsmentioning

confidence: 99%

Multiband Reconfigurable Antennas for 5G Wireless and CubeSat Applications: A Review

et al. 2022

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The rapid development of wireless technology has sparked interest in multi-band reconfigurable antennas as devices and satellites are innovating toward miniaturization. With limited space, reliable and efficient high bandwidth antenna systems are needed for current and next-generation wireless technology as well as for the revolutionary small satellites. The fifth generation of mobile communication technology promises high data rates, low latency and good spectrum efficiency. One of the key enablers of this technology is the integration of satellite technology-particularly CubeSats with terrestrial communication technologies. Next-generation antennas that can meet functional requirements for 5G and CubeSat applications are therefore of fundamental importance. These antenna systems should have large bandwidth, high gain and efficiency and be compact in size. Reconfigurable antennas can provide different configurations in terms of the operating frequency, radiation pattern and polarization. Tuning reconfigurable antennas can be done by changing the physical parameters of the antenna elements through electronic switches, optical switches and the use of meta-materials. The most popular implementation method for

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“…A frequency reconfigurable patch antenna with 3 operating modes is proposed in [95]. PIN diodes are placed between the inner and outer patches to achieve reconfigurability.…”

Section: ) Frequency Reconfigurable Designsmentioning

confidence: 99%