A 900 MHz integrated discrete-time filtering RF front-end

1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC Pub Date : 1996-02-08 DOI:10.1109/ISSCC.1996.488511

D. Shen, Chien-Meen Hwang, B. Lusignan, B. Wooley

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引用次数: 8

Abstract

The authors introduce a radio receiver architecture that avoids external intermediate frequency (IF) filters, while maintaining the selectivity required for narrowband frequency-multiplexed channels. The receiver is based on a subsampling architecture and operates in the 800-900 MHz range. It is a potential candidate for use in applications such as portable mobile data systems, personal communications devices, and cordless telephony. This receiver differs from a superheterodyne architecture in that the mixer is replaced by a sampling circuit and the intermediate frequency filters are replaced by a cascade of downsampling stages employing discrete-time filtering. The process of subsampling, sampling the input signal at a rate lower than the highest frequency components of the input signal, performs a function equivalent to mixing. Because the input is bandlimited by an analog RF filter, the Nyquist criterion is satisfied as long as the sampling rate is more than twice the bandwidth of this filter. The noise filter following the low noise amplifier (LNA) limits the noise bandwidth to prevent wideband noise from aliasing into the signal band and increasing the noise floor.

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900mhz集成离散时间滤波射频前端

作者介绍了一种无线电接收机结构，该结构避免了外部中频(IF)滤波器，同时保持了窄带频率复用信道所需的选择性。该接收机基于子采样架构，工作在800-900 MHz范围内。它是在诸如便携式移动数据系统、个人通信设备和无绳电话等应用中使用的潜在候选者。该接收机与超外差架构的不同之处在于，混频器由采样电路代替，中频滤波器由采用离散时间滤波的级联下采样级代替。子采样的过程，以低于输入信号的最高频率分量的速率对输入信号进行采样，执行相当于混合的功能。由于输入受到模拟RF滤波器的带宽限制，因此只要采样率大于该滤波器带宽的两倍，就满足奈奎斯特准则。低噪声放大器(LNA)后的噪声滤波器限制噪声带宽，以防止宽带噪声混叠到信号频带中，增加噪声底。

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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来源期刊

1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC

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