多音阵列发射机中的反向互调

2020 IEEE BiCMOS and Compound Semiconductor Integrated Circuits and Technology Symposium (BCICTS) Pub Date : 2020-11-16 DOI:10.1109/BCICTS48439.2020.9392972

Anton N. Atanasov, M. S. O. Alink, F. V. Vliet

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引用次数: 5

摘要

现代频谱和线性要求迫使5G相控阵发射机系统以较低的功率效率运行，因为它们不能再使用大量滤波。为了降低发射机的线性要求，我们考虑了在不同频率下工作的紧密间隔的辐射元件组成的阵列的情况。从一个元件到另一个元件的耦合音调产生反向互调失真(RIMD)。我们解释了如何在功率放大器(PA)中创建RIMD，并推导出RIMD组件的功率估计。我们提供了一组x波段GaAs PA的测量结果，并在RIMD和IMD之间进行了直接比较。我们表明，RIMD具有高达非常高的反向功率水平的三阶行为，为5G和雷达等多音阵列系统中更高的输出功率操作以及更简单和更低功率的预失真开辟了前景。

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Reverse Intermodulation in Multi-Tone Array Transmitters

The modern spectral, and thereby linearity, requirements force 5G phased-array transmitter systems to operate at reduced power efficiency, as they can no longer use voluminous filtering. To reduce the linearity requirements of the transmitter, we consider the case of an array consisting of closely spaced radiating elements operating at different frequencies. The coupled tones from one element to another create reverse intermodulation distortion (RIMD). We explain how RIMD is created within a power amplifier (PA), and derive an estimate for the power of the RIMD components. We provide a set of measurements for an X-Band GaAs PA and draw a direct comparison between RIMD and IMD. We show that RIMD has a third-order behaviour up to very high reverse power levels, opening up the perspective for higher output power operation as well as simpler and lower-power predistortion in multi-tone array systems such as 5G and radar.

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来源期刊

2020 IEEE BiCMOS and Compound Semiconductor Integrated Circuits and Technology Symposium (BCICTS)

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