Sensors, Vol. 19, Pages 3982: Affordable Thin Lens Using Single Polarized Disparate Filter Arrays for Beyond 5G toward 6G

Sensors, Vol. 19, Pages 3982: Affordable Thin Lens Using Single Polarized Disparate Filter Arrays for Beyond 5G toward 6G Sensors doi: 10.3390/s19183982 Authors: Inseop Yoon Seongwoog Oh Jungsuek Oh This paper proposes a novel design approach for a thin lens with the aim of overcoming fineness limits in the commercial millimeter wave printed circuit board (PCB) manufacturing process. The PCB manufacturing process typically does not allow the fabrication of metallic patterns with a gap and width of less than 100 μm. This hampers expanding thin lens technology to 5G commercial applications, especially when such technology is considered for 60 GHz or higher frequency, which requires a finer gap and width of metallic traces. This paper proposes that problematic process conditions can be mitigated when a lens is designed by establishing single-polarized lumped element models where larger capacitance and inductance values can be obtained for the same patch and grid unit cells. While the proposed design technique is more advantageous at higher target frequencies, a 60 GHz application and a wireless backhaul system is selected because of a limited range of frequencies that can be measured by an available vector network analyzer. The required gap or width of metallic traces can be widened significantly by using the proposed single-polarized unit cells to acquire the same in-plane capacitance or inductance. This enables the lens operating at higher-frequency unde...
Source: Sensors - Category: Biotechnology Authors: Tags: Article Source Type: research
More News: Biotechnology