Highly dense microwave and millimeter-wave phased array T/R modules and Butler matrices using CMOS and SiGe RFICs
Wireless and Microwave Technology Conference(2010)
摘要
We have used silicon technologies to build highly dense phased array for X to W-band applications. Typical designs include an 8-element 8-16 GHz SiGe phased array receiver, a 16-element 30-50 GHz SiGe transmit phased array, a miniature (<; 3mm2) and low power (<;100 mW) CMOS phased array receiver at 24 GHz, and a 4-element SiGe/CMOS Tx/Rx phased array at 34-38 GHz with 5-bit amplitude and phase control, a 2-antenna 4-simultaneous beam phased array chip at 15 GHz. Also, a miniature 8×8 Butler Matrix with <; 3 dB loss in 0.13 um CMOS has been developed for multibeam applications. It is shown that silicon chips can be used to lower the cost of phased arrays with a significant impact at Ku, K and W-band applications where there is so little available space behind each antenna element due to the very small element area.
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关键词
cmos integrated circuits,antenna phased arrays,low-power electronics,matrix algebra,microwave antenna arrays,millimetre wave antenna arrays,multibeam antennas,radiofrequency integrated circuits,receiving antennas,silicon compounds,transmitting antennas,butler matrices,butler matrix,rfic,sige,t/r modules,antenna element,beam phased array chip,frequency 24 ghz,frequency 30 ghz to 50 ghz,frequency 34 ghz to 38 ghz,frequency 8 ghz to 16 ghz,highly dense microwave phased array,highly dense phased array,low power cmos phased array receiver,millimeter-wave phased array,multibeam applications,phase control,silicon chips,silicon technology,transmit phased array,silicon,chip,millimeter wave,gain,low power electronics,phased array
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