Highly integrated antennas and front-ends for 60 GHz WLAN applications

Abstract: This paper provides an overview of the research carried on in the EASY-A project concerning the design of antennas for different applications in the unlicensed band around 60 GHz, and their integration into compact RF front-ends. Different antenna configurations, in conventional microwave substrate and low-temperature co-fired ceramics (LTCC), were studied and fabricated. The results comply with the requirements established for various scenarios.

“…Other antennas, designed on low-temperature co-fired ceramics (LTCC) have been included in the analysis of shadowing by human bodies (SHB). These are a 2×2 patch array (PATCH) with 8.2 dBi and 36° HPBW ( E -plane) [6], and a 2×1 cavity array (CAV) with 8.6 dBi and 62° HPBW ( E -plane) [7]. A commercial omnidirectional (OMNI) antenna (in H -plane) with 0.7 dBi with 102° HPBW ( E -plane) has been included in Fig.…”

60 GHz short-range communications: channel measurements, analysis, and modeling

“…Other antennas, designed on low-temperature co-fired ceramics (LTCC) have been included in the analysis of shadowing by human bodies (SHB). These are a 2×2 patch array (PATCH) with 8.2 dBi and 36° HPBW ( E -plane) [6], and a 2×1 cavity array (CAV) with 8.6 dBi and 62° HPBW ( E -plane) [7]. A commercial omnidirectional (OMNI) antenna (in H -plane) with 0.7 dBi with 102° HPBW ( E -plane) has been included in Fig.…”

60 GHz short-range communications: channel measurements, analysis, and modeling

Applications of Microwave Dielectrics

A wideband 60 GHz differential stripline-to-waveguide transition for antenna measurements in low-temperature co-fired ceramics technology