A wideband beamformer for a phased-array 60GHz receiver in 40nm digital CMOS

K. Raczkowski, W. Raedt, B. Nauwelaers, P. Wambacq
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引用次数: 58

Abstract

For high-data-rate wireless communication in the 7GHz band around 60GHz, the IEEE 802.15.3c standard [1] provides channels with a 0.88GHz bandwidth for the AV-OFDM mode. For the single-carrier modes, the ECMA 387 standard [2] foresees the possibility of bonding together adjacent channels, yielding higher data-rates. Radios for these 60GHz standards often use phased antenna arrays to relax the link budget. A phased-array receiver needs a variable phase shift on each antenna path and a combiner that sums the signals from the individual paths after phase shifting. The beamforming circuitry presented here handles 4 paths. It can operate both with one 0.88GHz channel and with bonding of two such channels. Phase shifts are realized with a resolution better than 20°. Bandwidth is high thanks to the use of current amplifiers with very low input impedance.
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一种用于40nm数字CMOS相控阵60GHz接收机的宽带波束形成器
对于60GHz左右的7GHz频段的高数据速率无线通信,IEEE 802.15.3c标准[1]为AV-OFDM模式提供了0.88GHz带宽的信道。对于单载波模式,ECMA 387标准[2]预见了将相邻信道结合在一起的可能性,从而产生更高的数据速率。这些60GHz标准的无线电通常使用相控天线阵列来放松链路预算。相控阵接收机需要在每个天线路径上有一个可变的相移和一个组合器,该组合器在相移后对来自各个路径的信号进行求和。这里给出的波束形成电路处理4个路径。它既可以工作在一个0.88GHz信道上,也可以工作在两个这样的信道上。相移的分辨率优于20°。由于使用了输入阻抗非常低的电流放大器,带宽很高。
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