Isolation Enhancement of Four-Element Quad-Band MIMO Meander-Line Loaded Inverted-F Antennas for Sub-6 GHz Wireless Applications
Journal
IEEE Access
Journal Volume
13
Start Page
104244-104256
ISSN
2169-3536
Date Issued
2025
Author(s)
Abstract
A set of compact sub-6 GHz four-element quad-band MIMO antennas with high inter-element isolations is presented. It is formed by four meander-line loaded inverted-F antenna (IFA) structures located in the four quarters and oriented perpendicularly to each other to exhibit both polarization and spatial diversities in MIMO applications. The orthogonality of polarization reduces the inter-element mutual coupling for basic good isolation which is further enhanced by introducing a modified swastika-shaped decoupling element in the middle of the four antennas and cutting slits loaded on the dielectric substrate’s four edges. The inter-element isolations are observed better than 20 dB at low frequencies and between (40-50) dB at higher frequencies. The measured radiation characteristics of the fabricated antenna prototype agree very well with the simulated results. The antenna set has an overall size of 24 × 24 × 0.8 mm3 with an inter-element spacing of 2mm, corresponding to less than a quarter wavelength at the lowest frequency band and still less than a half wavelength at the highest frequency band of operation. The antenna resonates in the following four bands: 2.85GHz (S-band), 4.33GHz (Radar altimeter), 5.5GHz (WLAN), and 5.9GHz (Wi-MAX, WLAN). The antenna gains are better than 6 and 5dBi in most bands from the simulations and measurements, respectively, with measured efficiencies of better than 80%.
SDGs
Publisher
Institute of Electrical and Electronics Engineers (IEEE)
Type
journal article
