This paper presents a compact dual-band and dual-polarized millimeter-wave patch antenna array with satisfactory performance on element mutual coupling and beam scanning capabilities. Using capacitive feed technique and stacked configuration with extra parasitic strips, the proposed antenna array is able to achieve a wide operating bandwidth in both the low-and high-bands. In order to reduce the array's footprint, and to enhance the beam scanning performance in both bands, the element spacing is shrunk to less than 0.36 wavelength at 26 GHz. To improve the isolation between array elements due to their small spacings, two effective decoupling approaches are adopted, which result in a 6-dB isolation enhancement. The overall size of the proposed antenna array is only 18.2 mm × 4.1 mm × 1.07 mm, which is smaller than some industrial mm-Wave antenna modules released recently. Our simulation shows that the antenna array can fully cover the 5G NR bands of n258~n261 simultaneously. The four-element array provides ±60° and ±45° beam scanning performance in the low-and high-bands, respectively. The experimental data of reflection coefficient, mutual coupling, and radiation patterns confirm with the simulated results, rendering the proposed array to be a good candidate for 5G mm-Wave communications.INDEX TERMS 5G, dual-band, dual-polarization, mm-Wave, mobile phone antennas, microstrip antenna, phased array.
In this paper, a broadband double-ridge horn antenna (DRHA) covering 5G millimeter-wave (mm-wave) band is proposed, which maintains stable radiation pattern and gain in the entire band. By redesigning the transition between coaxial and waveguide, there is no splitting or deterioration in the axis pattern throughout the entire 18-54 GHz frequency band, and the VSWRs are all below 2. Meanwhile, by replacing the H-Side wall of the antenna with metal grid, the variation on 3 dB beamwidth of the radiation pattern also become more stable against frequencies. In order to fabricate the prototype successfully, the method of block processing and assembly is adopted, which can ensure high precision machining and make the assembly simple and easy to operate. Prototype measurement results show that the VSWR of the antenna is in well agreement with the simulation ones, while the gain is stable as well as no pattern splitting in the entire frequency band can be observed. It will find potential applications in 5G mm-wave frequency band, especially in the field of antenna measurement system as a standard calibration antenna or a probe antenna.INDEX TERMS Antenna Measurement, broadband antennas, double-ridged horn antenna, millimeter wave antennas.
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