A 94 GHz 3D Image Radar Engine With 4TX/4RX Beamforming Scan Technique in 65 nm CMOS Technology
J. Solid-State Circuits(2015)
摘要
This paper presents a fully-integrated 3D image radar engine utilizing beamforming for electrical scanning and precise ranging technique for distance measurement. Four transmitters and four receivers form a sensor frontend with phase shifters and power combiners adjusting the beam direction. A built-in 31.3 GHz clock source and a frequency tripler provide both RF carrier and counting clocks for the distance measurement. Flip-chip technique with low-temperature co-fired ceramic (LTCC) antenna design creates a miniature module as small as 6.5 × 4.4 × 0.8 cm3. Designed and fabricated in 65 nm CMOS technology, the transceiver array chip dissipates 960 mW from a 1.2-V supply and occupies chip area of 3.6 × 2.1 mm 2. This prototype achieves ±28° scanning range, 2-m maximum distance, and 1 mm depth resolution.
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关键词
radar transmitters,distance measurement,94 ghz,cmos integrated circuits,counting clocks,clock source,transceivers,beam direction adjustment,4tx beamforming scan technique,65 nm cmos technology,rf carrier,imaging sensor,voltage 1.2 v,cmos phased array,counting circuits,fully-integrated 3d image radar engine,transceiver array chip,ltcc antenna design,frequency multipliers,frequency tripler,frequency 31.3 ghz,power 960 mw,ceramics,beamforming,low-temperature cofired ceramic antenna design,array signal processing,frequency 94 ghz,power splitter,millimeter-wave,flip-chip technique,clocks,millimetre wave antenna arrays,precise ranging technique,radar,millimetre wave radar,sensor frontend,radar receivers,transceiver,4rx beamforming scan technique,electrical scanning,radar imaging,image resolution,radio frequency,antennas,millimeter wave
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