−99dBc/Hz@10kHz 1MHz-step dual-loop integer-N PLL with anti-mislocking frequency calibration for global navigation satellite system receiver

机译：−99dBc / Hz @ 10kHz 1MHz步长的双环整数N PLL，具有防误锁频率校准，适用于全球导航卫星系统接收机

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In this paper, a low in-band phase noise integer-N CMOS frequency synthesizer is proposed for global navigation satellite system (GNSS) receiver. The synthesizer adopts dual-loop architecture, which consists of a double-balanced mixer and two full PLL loops, to reduce the divide ratio so as to lower the in-band phase noise. It achieves 1MHz resolution and -99 dBc/Hz@10kHz with fixed reference clock of 10MHz, which is compatible to commercial atomic frequency sources. Moreover, a novel adaptive frequency calibration policy is implemented to avoid mis-locking at the unwanted mirror frequency. The PLL is fabricated in 0.18-µm CMOS technology, covers most GPS, Galileo and Beidou-II bands and was integrated in a GNSS receiver with 46MHz intermediate frequency (IF).

机译：本文针对全球导航卫星系统（GNSS）接收机，提出了一种低带内相位噪声整数N CMOS频率合成器。该合成器采用双环路架构，该架构由一个双平衡混频器和两个完整的PLL环路组成，以降低分频比，从而降低带内相位噪声。它具有1MHz的分辨率和-99 dBc / Hz @ 10kHz，固定参考时钟为10MHz，与商业原子频率源兼容。而且，实现了新颖的自适应频率校准策略，以避免在不需要的镜像频率处的误锁定。 PLL采用0.18 µm CMOS技术制造，涵盖了大多数GPS，Galileo和Beidou-II频段，并集成在具有46MHz中频（IF）的GNSS接收器中。

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《2011 IEEE International Symposium on Circuits and Systems》|2011年|p.1876-1879|共4页
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Shi Congyin; Wang Chuan; Ye Le; Liao Huailin;
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1. Low-cost versus high-grade global navigation satellite system receivers: kinematic global positioning system-BeiDou navigation satellite system single-point positioning performance evaluation for vehicular urban navigation [J] . Guan Qinglin, Fan Chunming, Zheng Jishi, Journal of Applied Remote Sensing . 2019,第1期

机译：低成本与高档全球导航卫星系统接收器：运动态全球定位系统 - 北欧导航卫星系统单点定位绩效评估车辆城市导航
2. A Geometry-Based Cycle Slip Detection and Repair Method with Time-Differenced Carrier Phase (TDCP) for a Single Frequency Global Position System (GPS) + BeiDou Navigation Satellite System (BDS) Receiver [J] . Chuang Qian, Hui Liu, Ming Zhang, Sensors . 2016,第12期

机译：单频全球定位系统（GPS）+北斗导航卫星系统（BDS）接收器的基于几何的时差载波相位（TDCP）周期滑移检测和修复方法
3. A Geometry-Based Cycle Slip Detection and Repair Method with Time-Differenced Carrier Phase (TDCP) for a Single Frequency Global Position System (GPS) + BeiDou Navigation Satellite System (BDS) Receiver [J] . Chuang Qian, Hui Liu, Ming Zhang, Sensors . 2016,第12期

机译：单频全球定位系统（GPS）+北斗导航卫星系统（BDS）接收器的基于几何的时差载波相位（TDCP）周期滑移检测和修复方法
4. -99dBc/Hz@10kHz 1MHz-Step Dual-Loop Integer-N PLL with Anti-mislocking Frequency Calibration for Global Navigation Satellite System Receiver [C] . Congyin Shi, Chuan Wang, Le Ye, IEEE International Symposium on Circuits and Systems . 2011

机译：-99DBC / Hz @ 10kHz 1MHz - 步骤双环Integer-N PLL，用于全球导航卫星系统接收器的防误频率校准
5. Software radio implementation of multi-frequency global navigation satellite system receiver. [D] . Lu, Yu. 2006

机译：多频全球导航卫星系统接收机的软件无线电实现。
6. A Geometry-Based Cycle Slip Detection and Repair Method with Time-Differenced Carrier Phase (TDCP) for a Single Frequency Global Position System (GPS) + BeiDou Navigation Satellite System (BDS) Receiver [O] . Chuang Qian, Hui Liu, Ming Zhang, 2016

机译：单频全球定位系统（GPS）+北斗导航卫星系统（BDS）接收器的基于几何的时差载波相位（TDCP）周期滑移检测和修复方法
7. A Geometry-Based Cycle Slip Detection and Repair Method with Time-Differenced Carrier Phase (TDCP) for a Single Frequency Global Position System (GPS) + BeiDou Navigation Satellite System (BDS) Receiver [O] . Chuang Qian, Hui Liu, Ming Zhang, 2016

机译：基于几何的单频全球定位系统（Gps）+北斗导航卫星系统（BDs）接收机的时差载波相位（TDCp）周跳检测与修复方法

−99dBc/Hz@10kHz 1MHz-step dual-loop integer-N PLL with anti-mislocking frequency calibration for global navigation satellite system receiver

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