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引用次数: 6
摘要
本文介绍了用于微波放大器的CMOS器件的线性度增强。该方法基于改进的三阶跨导(gm3)对消技术,器件采用0.13 μ m CMOS工艺制造。对于采用gm3对消技术的NMOS器件,其三阶互调失真(IMD3)比传统单器件提高了15 dB。成功地评估了两个ka波段CMOS放大器的线性化和不线性化。对64-QAM调制信号进行线性化后,测量到的IMD3提高了14 dB,相邻通道功率比(ACPR)提高了7 dB。此外,线性化方案易于应用于微波放大器和混频器设计,而无需额外的直流功耗。
Linearity enhancement of CMOS device using a modified third-order transconductance cancellation technique for microwave amplifier
This paper presents linearity enhancement of CMOS device for microwave amplifier applications. The proposed method is based on a modified third-order transconductance (gm3) cancellation technique and the device is fabricated in a 0.13 µm CMOS process. For the NMOS device with the proposed gm3 cancellation technique, the third-order intermodulation distortion (IMD3) is improved by 15 dB as compared to the conventional single device. Two Ka-band CMOS amplifiers with and without the linearization are successfully evaluated. With the linearization, the measured IMD3 is enhanced by 14 dB, and the adjacent channel power ratio (ACPR) of the amplifier is improved by 7 dB for a 64-QAM modulation signal. Moreover, the linearization scheme is easily applied to the microwave amplifier and mixer designs without extra dc power consumption.
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