An all-digital offset PLL architecture

2010 IEEE Radio Frequency Integrated Circuits Symposium Pub Date : 2010-05-23 DOI:10.1109/RFIC.2010.5477376

R. Staszewski, S. Vemulapalli, K. Waheed

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引用次数: 13

Abstract

We propose an all-digital offset PLL architecture in which the RF oscillator output is frequency translated through rotation of its quadrature phases before being fed back for the phase comparison with the frequency reference. This eliminates spurious tones caused by the finite resolution of the phase detection process when the synthesized frequency is very close to the integer-N multiple of the reference frequency. The phase detection in the ADPLL is performed by a time-to-digital converter (TDC), whose typical resolution of 10–30 ps is sufficient for the GSM-quality RF operation. While the TDC quantization noise does not normally produce significant phase noise degradation, the near-integer-N condition makes the loop ill-behaved such that the total quantization energy falls close to dc and will not get filtered by the loop filter. In addition, due to the frequency relationship change between aggressors and victims, an important class of spurs due to parasitic coupling is also eliminated. The hardware overhead is very small and the digital implementation does not degrade other RF parameters. The technique is validated in a 65-nm CMOS transceiver.

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全数字偏移锁相环结构

我们提出了一种全数字偏移锁相环架构，其中射频振荡器输出通过旋转其正交相位进行频率转换，然后反馈用于与频率参考进行相位比较。当合成频率非常接近参考频率的整数n倍时，这消除了由相位检测过程的有限分辨率引起的杂音。ADPLL中的相位检测由时间-数字转换器(TDC)执行，其典型分辨率为10-30 ps，足以满足gsm质量的RF操作。虽然TDC量化噪声通常不会产生明显的相位噪声退化，但近整数n条件使环路表现不佳，使得总量化能量接近dc，不会被环路滤波器滤波。此外，由于攻击者和受害者之间的频率关系变化，由于寄生耦合而产生的一类重要杂散也被消除了。硬件开销非常小，并且数字化实现不会降低其他射频参数。该技术在65纳米CMOS收发器中得到验证。

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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2010 IEEE Radio Frequency Integrated Circuits Symposium

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