Placing a 300 GHz on-chip patch antenna in a low-cost quad-flat no-lead (QFN) package using materials based on silica microparticles dispersed in an epoxy matrix can improve the antenna performance.… Click to show full abstract
Placing a 300 GHz on-chip patch antenna in a low-cost quad-flat no-lead (QFN) package using materials based on silica microparticles dispersed in an epoxy matrix can improve the antenna performance. Full-wave simulations of a rectangular patch antenna, compliant with the metal stack and design rules of a 65 nm complementary metal–oxide–semiconductor (CMOS) process, show 13% radiation efficiency, 1 dB peak antenna gain, and 7 GHz –10 dB |S11| bandwidth increases when the thickness of packaging material over the antenna is ∼λ/3. When placed in a QFN package, 276 GHz CMOS signal generators with the same on-chip antenna show the effective isotropic radiated power ∼6 dB higher than that of unpackaged. This improvement is partly attributed to the antenna performance enhancement and demonstrates that it is possible to package 300 GHz integrated circuits with an on-chip patch antenna using a low-cost technique.
               
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