9.4 A 28nm CMOS digital fractional-N PLL with −245.5dB FOM and a frequency tripler for 802.11abgn/ac radio

机译：9.4一个28nm CMOS数字小数N分频PLL，具有-245.5dB FOM和一个用于802.11abgn / ac无线电的三倍频器

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The fast adaptation of WiFi 802.11ac 256-QAM mode requires RF clocks with very low integrated phase error to deliver good EVM performance. On the other hand, smaller area and lower power are always desired for lower cost and longer battery life. This work presents a 28nm CMOS LO design for dual-band 802.11abgn/ac radio with overall architecture shown in Fig. 9.4.1. It addresses the aforementioned challenges with a low-noise integrated XTAL oscillator, a fractional-N digital PLL utilizing 1) background reference clock-doubler duty-cycle error correction and quantization noise cancellation, 2) non-periodic DCO dithering and compensation, and an offset LO frequency plan based on a self-mixing frequency tripler. The PLL design achieves 0.36° integrated phase error or 0.17ps rms jitter while consuming 9.5mW, leading to a record FOM of -245.5dBforfrac-N PLLs.

机译：WiFi 802.11ac 256-QAM模式的快速适应性要求RF时钟具有非常低的集成相位误差，才能提供良好的EVM性能。另一方面，为了降低成本和延长电池寿命，总是需要较小的面积和较低的功率。这项工作提出了一种用于双频802.11abgn / ac无线电的28nm CMOS LO设计，其总体架构如图9.4.1所示。它通过低噪声集成XTAL振荡器，使用1）背景参考时钟倍频器占空比误差校正和量化噪声消除，2）非周期性DCO抖动和补偿以及1个背景噪声的分数N数字PLL解决了上述挑战。基于自混频三倍频器的失调LO频率计划。 PLL设计实现了0.36°的积分相位误差或0.17ps rms的抖动，同时消耗9.5mW，forfrac-N PLL的FOM达到创纪录的-245.5dB。

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《IEEE International Solid- State Circuits Conference》|2015年|1-3|共3页
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Xiang Gao; Tee Luns; Wanghua Wu; Kun-Seok Lee; Paramanandam Arvind Anumula; Jha Anuranjan; Liu Norman; Chan Edwin; Li Lin;
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1. An Ultracompact 9.4–14.8-GHz Transformer-Based Fractional-N All-Digital PLL in 40-nm CMOS [J] . Augusto Ximenes, Gerasimos Vlachogiannakis, Robert Bogdan Staszewski IEEE Transactions on Microwave Theory and Techniques . 2017,第11期

机译：基于40nm CMOS的基于超紧凑型9.4-14.8 GHz变压器的小数N全数字PLL
2. A —244-dB FOM High-Frequency Piezoelectric Resonator-Based Cascaded Fractional-N PLL With Sub-ppb-Order Channel-Adjusting Technique [J] . Sho Ikeda, Hiroyuki Ito, Akifumi Kasamatsu, IEEE Journal of Solid-State Circuits . 2017,第4期

机译：基于亚ppb级通道调整技术的基于—244 dB FOM高频压电谐振器的级联小数N分频PLL
3. CMOS VCO's for PLL frequency synthesis in GHz digital mobile radio communications [J] . Thamsirianunt M., Kwasniewski T.A. IEEE Journal of Solid-State Circuits . 1997,第10期

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4. 9.4 A 28nm CMOS digital fractional-N PLL with ?245.5dB FOM and a frequency tripler for 802.11abgn/ac radio [C] . Xiang Gao, Tee Luns, Wanghua Wu, IEEE International Solid- State Circuits Conference . 2015

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5. A CMOS Sigma-Delta Digital Intermediate Frequency to Radio Frequency Transmitter. [D] . Han, Yongping. 2012

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9.4 A 28nm CMOS digital fractional-N PLL with −245.5dB FOM and a frequency tripler for 802.11abgn/ac radio

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