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This paper presents a low insertion less 60 GHz on-chip bandpass filter (BPF) on 0.18 μm standard CMOS technology. For insertion loss minimization, this BPF uses the H-shaped resonator which couples through two branches and the rectangular defected ground structures (DGS) which reduce the external quality factor. Besides, this BPF employs metal-insulator-metal capacitor to ensure size compactness...
This paper presents a design of 60-GHz exponential tapered slot Vivaldi antenna-on-chip (AOC). The antenna is designed using standard 0.18µm six metal-layers CMOS technology. A double-Y balun feeding structure is used to make transition from coplanar waveguide to slot-line. Two techniques are investigated for improving antenna radiation properties. The first technique incorporates equal corrugations...
A60-GHz double-Y balun-fed exponential tapered slot Vivaldi antenna-on-chip (AOC) is designed using standard 0.18µm six metal-layer CMOS technology. A double-Y balun feeding structure is used to make transition from coplanar to slot line. Three methods are developed for improving antenna radiation properties. First, an impeding longitudinal rectangular slits on the backed edge of the Vivaldi antenna...
This paper presents a miniaturized triangular Antenna-on-Chip (AoC) designed and fabricated on a 0.18 μm CMOS process using asymmetric rectangular artificial magnetic conductor (R-AMC). An AMC acts as a shield plane between the AoC and the lossy CMOS substrate. AoC using asymmetric R-AMC presents a smaller overall area than that of the previous reported AoC with symmetric AMCs. The triangular AoC...
This paper presents a small size 60 GHz Antenna-on-Chip (AoC) designed and fabricated using 0.18 um TSMC Complementary Metal Oxide Semiconductor (CMOS) process. AoC performance is enhanced using asymmetric Artificial Magnetic Conductor (AMC). The AoC area including the AMC is 1715 um by 710 um. As AMC shields AoC from the lossy CMOS substrate, simulated gain of −0.25 dBi is achieved at 60 GHz for...
This paper presents a compact size, high gain triangular Antenna-on-Chip (AoC), designed and fabricated using a 0.18 μm CMOS process and optimized over different cells' configurations of rectangular artificial magnetic conductor (R-AMC). An AMC acts as a shield plane between the AoC and the lossy CMOS substrate. R-AMC shows better shielding characteristics than previously reported AMCs. Measurement...
This paper presents an optimization methodology for a 60 GHz triangular monopole Antenna-on-Chip (AOC), designed using a standard 0.18 µm CMOS process and optimized over a Jerusalem Cross Artificial Magnetic Conductor (JC-AMC). The JC-AMC acts as a shield between the AOC and the lossy CMOS substrate. Different configurations of JC-AMC cells are tested to acquire best AOC performance. It has been found...
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