Dynamic Reduction of Power Consumption in Direct-RF Sampling Receivers with Variable Decimation

Yuka Nakamatsu, T. Kihara
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Abstract

The conventional direct radio frequency (RF) sampling receivers can not reduce their power consumption dynamically according to the power of input signals. The dynamic reduction enables them to decrease the total power consumption during operation to the level required for wireless terminals. We decrease the clock frequency of decimators in first-order recursive cascaded integrator-comb (CIC) filters after a time-interleaved ADC (TI-ADC) in a direct-RF sampling receiver, detecting higher power of input signals than the required sensitivity. Although the decimation slightly degrades the output signal-to-noise ratio (SNR) of the receiver, it reduces the power consumption of the digital building blocks. We design a 3.68-GS/s direct-RF sampling receiver, including analog and digital blocks, for Sub-GHz applications by using a 65-nm CMOS process. Simulations show that the receiver reduces a power consumption of 10.6 mW to 9.6 mW with a decimation factor of eight, whereas increasing the output SNR by 0.9 dB. This means that the receiver can decrease the power consumption, not degrading the output SNR, when receiving higher input power than the required level.
可变抽取直接射频采样接收机功耗的动态降低
传统的直接射频(RF)采样接收机不能根据输入信号的功率动态降低其功耗。动态降低使他们能够将操作期间的总功耗降低到无线终端所需的水平。我们在直接射频采样接收器中的时间交错ADC (TI-ADC)后降低一阶递归级联积分器(CIC)滤波器中抽取器的时钟频率,检测到比所需灵敏度更高的输入信号功率。尽管抽取略微降低了接收器的输出信噪比(SNR),但它降低了数字构建块的功耗。我们设计了一个3.68-GS/s的直接射频采样接收器,包括模拟和数字模块,用于Sub-GHz应用,采用65纳米CMOS工艺。仿真结果表明,该接收机将功耗降低10.6 mW至9.6 mW,抽取系数为8,同时将输出信噪比提高0.9 dB。这意味着当接收到高于所需水平的输入功率时,接收器可以降低功耗,而不会降低输出信噪比。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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