基于电流复用压控振荡器和对称电荷泵的2.4 ghz低功耗高性能频率合成器

2013 IEEE Radio Frequency Integrated Circuits Symposium (RFIC) Pub Date : 2013-06-02 DOI:10.1109/RFIC.2013.6569538

Ye Zhang, Lei Liao, M. Wei, Jan Henning Mueller, B. Mohr, A. Atac, Yifan Wang, M. Schleyer, R. Wunderlich, R. Negra, S. Heinen

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引用次数: 7

摘要

本文介绍了一种低功耗高性能频率合成器。基于电流复用VCO架构，系统整体功耗显著降低，相位噪声性能优异。通过预调谐机制解决了由不对称压控振荡器引起的幅值不平衡问题，该预调谐机制自动为特定频率通道选择正确的频段。此外，对称电荷泵(CP)可以最大限度地减少电流不匹配和相位偏移。频率合成器完全集成在130纳米CMOS技术中，消耗5.8 mW。测量结果表明，在1 MHz偏移相位噪声，450 fs rms抖动下，性能为-130 dBc/Hz。参考杂散小于-75dB，在1Mbps GFSK信号作为两点调制发射机的情况下工作成功。

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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A 2.4-GHz low power high performance frequency synthesizer based on current-reuse VCO and symmetric charge pump

This paper presents a low power high performance frequency synthesizer. Based on the current-reuse VCO architecture, the whole system power consumption is significantly saved with excellent phase noise performance. Imbalance amplitude problems caused by the unsymmetrical VCO are solved by the pre-tuning mechanism, which automatically chooses the correct frequency band for the certain frequency channel. Besides, the symmetric charge pump (CP) can minimize the current mismatches and phase offset. The frequency synthesizer is fully integrated in 130-nm CMOS technology consuming 5.8 mW. Measurement results show performance of -130 dBc/Hz at 1 MHz offset phase noise, 450 fs rms jitter. The reference spur is below -75dB, and it operates successfully with 1Mbps GFSK signals as the two-point modulated transmitter.

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2013 IEEE Radio Frequency Integrated Circuits Symposium (RFIC)

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