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We have proposed to place a CMOS RF circuit and an antenna on each side of a silicon chip in the 60 GHz band, respectively, and to connect between them with low loss by a coaxial-line structure using a hole opening in the chip. To enhance the radiation efficiency, a patch antenna is placed on a thick resin layer. In this paper, we design a differential-feed square patch antenna on a silicon chip.
We have proposed to place an RF circuit and an antenna on each side of a silicon chip in the 60 GHz band, respectively, and to connect between them with low loss by a coaxial-line structure using a hole opening in the chip. In this paper, we fabricate a 2×2 circularly polarized patch array in an area of 5 mm square on a silicon chip and have coaxial-line connection with a separated quadrature oscillator...
We proposed a patch antenna placed on a thick resin layer on the opposite side of a CMOS RF circuit in a silicon chipand fed through a hole with coaxial-line structurein the 60GHz band. The thick resin layer of 200 μm thickness can enhance the radiation efficiency. The connection loss between the antenna and the RF circuit is expected to be small. In this paper, we design and fabricate a patch antenna...
This paper proposes a dipole antenna integrated on a thick resin layer on the opposite side of a RF circuit layer though a hole in a silicon CMOS chip at 60 GHz. The thick resin layer can enhance the radiation efficiency. The connection loss between the antenna and the RF circuit is expected to be small. The simulated gain of a dipole on a resin layer of 200 μm thickness over a 5 mm square silicon...
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