DC-20 GHz differential transmit/receieve DP4T switching matrix for radar-based target detection

A. Azhari, T. Kikkawa
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引用次数: 4

Abstract

A DC-20 GHz differential transmit/receive (T/R) double-pole-four-throw (DP4T) switching matrix has been developed on standard 65 nm CMOS process for the first time for ultra-wideband radar based tumor detection. The measured input and output matching bandwidth are 0–20 GHz where both the input and output return losses are greater than 10 dB. Measured average insertion loss from Tx or Rx port to different output ports are 2.72 dB, 3.6 dB, 4.5 dB and 5.9 dB at 3 GHz, 6 GHz, 10 GHz and 17 GHz, respectively, with a power consumption of less than 1 mW. When the output ports were connected to PCB connectors, 0–18 GHz matching bandwidth was obtained by flip chip mounting, quarter wavelength microstripline impedance matching and optimization of the thickness and dielectric constant of printed circuit board.
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用于雷达目标探测的dc - 20ghz差分发射/接收DP4T切换矩阵
首次在标准65nm CMOS工艺上开发了dc - 20ghz差分发射/接收(T/R)双极四掷(DP4T)开关矩阵,用于超宽带雷达肿瘤检测。测量的输入输出匹配带宽为0 ~ 20ghz,输入输出回波损耗均大于10db。在3 GHz、6 GHz、10 GHz和17 GHz频段,从Tx或Rx端口到不同输出端口的平均插入损耗分别为2.72 dB、3.6 dB、4.5 dB和5.9 dB,功耗小于1 mW。当输出端口连接到PCB连接器时,通过倒装、四分之一波长微带线阻抗匹配以及优化印刷电路板的厚度和介电常数,获得0-18 GHz的匹配带宽。
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