0.13 μm CMOS的24 GHz 4通道相控阵接收机

2008 IEEE Radio Frequency Integrated Circuits Symposium Pub Date : 2008-07-15 DOI:10.1109/RFIC.2008.4561454

Tiku Yu, Gabriel M. Rebeiz

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引用次数: 17

摘要

在0.13 μ m CMOS上实现了一个集成的24 GHz 4通道相控阵接收器前端。采用全射频架构，功耗低，芯片面积小。有源移相器是基于两个准正交矢量和一个微分矢量调制器。每个相控阵通道在2.5 GHz带宽下的测量增益为15 dB, NF为6.5 dB, IIP3为-13 dBm，输入P1dB为-25 dBm。在21-24.5 GHz频段，16个相位的相位误差小于5度rms，增益误差小于0.5 dB。测量到的S11和S22在15-35 GHz频段分别低于-10 dB和-15 dB。整个阵列从1.5 V电源消耗80 mA，占地面积为2.11 x 1.43 mm2 (3 mm2)。据我们所知，这是首次在毫米波频率下实现全rf CMOS相控阵，并且拓扑结构可以轻松缩放到大量元件(N = 8-16)。

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A 24 GHz 4-channel phased-array receiver in 0.13 μm CMOS

An integrated 24 GHz 4-channel phased-array receiver front-end is implemented in 0.13 mum CMOS. An All-RF architecture is adopted and results in low power consumption and very small chip area. The active phase shifters are based on two quasi-quadrature vectors and a differential vector modulator. Each phased-array channel has a measured gain of 15 dB for a 2.5 GHz bandwidth, a NF of 6.5 dB, an IIP3 of -13 dBm and an input P1dB of -25 dBm. The measured 16 phase states exhibit < 5deg rms phase error and < 0.5 dB rms gain error at 21-24.5 GHz. Measured S11 and S22 are below -10 dB and -15 dB, respectively, at 15-35 GHz. The entire array consumes 80 mA from a 1.5 V supply and occupies an area of 2.11 x 1.43 mm2 (3 mm2). To our knowledge, this is the first implementation of an All-RF CMOS phased array at mm-wave frequencies and the topology can be easily scaled to a large number of elements (N = 8-16).

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2008 IEEE Radio Frequency Integrated Circuits Symposium

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