采用CT sigma-delta ADC的65nm CMOS多模耐阻塞GNSS接收机

2013 IEEE Asian Solid-State Circuits Conference (A-SSCC) Pub Date : 2013-12-23 DOI:10.1109/ASSCC.2013.6691050

Nan Qi, Zheng Song, Zehong Zhang, Yang Xu, B. Chi, Zhihua Wang

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引用次数: 4

摘要

提出了一种完全集成的65nm CMOS多模无saw GNSS接收机，该接收机支持普通和高精度GNSS信号，带宽覆盖4MHz至20MHz。接收机采用电压采样射频前端和二阶连续时间(CT) σ - δ ADC来提供大的动态范围，并简化模拟基带电路。此外，还集成了片上I/Q校准以提高图像抑制比(IRR)，可通过FPGA手动或自动实现。运算放大器阵列用于模拟基带，其功耗可根据不同的操作模式进行扩展。该接收机实现3dB噪声系数、-31dBm带内1dB压缩点、-15dBm带外(OOB) 1dB脱敏点、43dB IRR和最大62dB SNDR ADC输出，窄带和宽带模式分别消耗40mW和52.5mW直流功率。

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A multi-mode blocker-tolerant GNSS receiver with CT sigma-delta ADC in 65nm CMOS

A fully-integrated multi-mode SAW-less GNSS receiver in 65nm CMOS is presented, which supports both ordinary and high precision GNSS signals with their bandwidth covering from 4MHz to 20MHz. The receiver employs a voltage sampling RF front-end and a 2nd-order continuous-time (CT) sigma-delta ADC to provide large dynamic range, as well as simplifying the analog baseband circuits. Besides, an on-chip I/Q calibration is integrated to improve the image rejection ratio (IRR), which can be realized manually or automatically with a FPGA. Op-amp arrays are used in the analog baseband, whose power consumption is scalable for different operation modes. The receiver achieves 3dB noise figure, -31dBm in-band 1dB compression point, -15dBm out-of-band (OOB) 1dB desensitization point, 43dB IRR and a maxim 62dB SNDR ADC outputs, while consuming 40mW DC power in the narrow-band and 52.5mW in the wide-band mode respectively.

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2013 IEEE Asian Solid-State Circuits Conference (A-SSCC)

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