GSM/GPRS接收器前端与离散时间滤波器在90纳米数字CMOS

2005 IEEE Dallas/CAS Workshop on Architecture, Circuits and Implementtation of SOCs Pub Date : 2005-10-10 DOI:10.1109/DCAS.2005.1611170

Y. Ho, K. Muhammad, Meng-Chang Lee, C. Hung, J. Wallberg, C. Fernando, P. Cruise, R. Staszewski, D. Leipold, K. Maggio

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引用次数: 7

摘要

提出了一种用于GSM/GPRS无线电片上系统的90纳米数字CMOS射频接收机前端。该电路由低噪声放大器，跨导放大器和开关混频器组成，提供32.5 dB动态范围，数字可配置的电压增益为40 dB至7.5 dB。在混频器之后进行一系列抽取和离散时间滤波，并执行高线性二阶低通滤波以抑制近距离干扰。前端增益可以配置自动增益控制，以选择最佳设置，以形成噪声系数和线性之间的权衡，并补偿过程和温度变化。即使在数字开关活动下，40 dB最大增益时的噪声系数为1.8 dB, 34 dB增益时的噪声系数为+50 dBm IIP/sub 2/。输入匹配相对于多个增益的变化小于1 dB。电路总占地3.1 mm/sup 2/。LNA、TA和混频器在1.4 V电源电压下的功耗小于15.3 mA。

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A GSM/GPRS receiver front-end with discrete-time filters in a 90 nm digital CMOS

An RF receiver front-end for a GSM/GPRS radio system-on-chip in a 90 nm digital CMOS technology is presented. The circuit consisting of low noise amplifier, transconductance amplifier and switching mixer, offers 32.5 dB dynamic range with digitally-configurable voltage gain of 40 dB down to 7.5 dB. A series of decimation and discrete-time filtering follows the mixer and performs a highly-linear second-order low-pass filtering to reject close-in interferers. The front-end gains can be configured with an automatic-gain-control to select an optimal setting to form a trade-off between noise figure and linearity and to compensate the process and temperature variations. Even under the digital switching activity, noise figure at the 40 dB maximum gain is 1.8 dB and +50 dBm IIP/sub 2/ at the 34 dB gain. The variation of the input matching versus multiple gains is less than 1 dB. The circuit in total occupies 3.1 mm/sup 2/. The LNA, TA and mixer consume less than 15.3 mA at a supply voltage of 1.4 V.

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来源期刊

2005 IEEE Dallas/CAS Workshop on Architecture, Circuits and Implementtation of SOCs

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