A class-CVCO based Σ–Δ fraction-N frequency synthesizer with AFC for 802.11ah applications 被引量：2

A class-CVCO based Σ–Δ fraction-N frequency synthesizer with AFC for 802.11ah applications

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摘要 A 1.4-2 GHz phase-locked loop （PLL） ∑-△ fraction-N frequency synthesizer with automatic fre- quency control （AFC） for 802.1 lah applications is presented. A class-C voltage control oscillator （VCO） ranging from 1.4 to 2 GHz is integrated on-chip to save power for the sub-GHz band. A novel AFC algorithm is introduced to maintain the VCO oscillation at the start-up and automatically search for the appropriate control word of the switched-capacitor array to extend the PLL tuning range. A 20-bit third-order ∑-△ modulator is utilized to reduce the fraction spurs while achieving a frequency resolution that is lower than 30 Hz. The measurement results show that the frequency synthesizer has achieved a phase noise of 〈 -120 dBc/Hz at 1 MHz offset and consumes 11.1 mW from a 1.7 V supply. Moreover, compared with the traditional class-A counterparts, the phase noise in class-C mode has been improved by 5 dB under the same power consumption. A 1.4-2 GHz phase-locked loop （PLL） ∑-△ fraction-N frequency synthesizer with automatic fre- quency control （AFC） for 802.1 lah applications is presented. A class-C voltage control oscillator （VCO） ranging from 1.4 to 2 GHz is integrated on-chip to save power for the sub-GHz band. A novel AFC algorithm is introduced to maintain the VCO oscillation at the start-up and automatically search for the appropriate control word of the switched-capacitor array to extend the PLL tuning range. A 20-bit third-order ∑-△ modulator is utilized to reduce the fraction spurs while achieving a frequency resolution that is lower than 30 Hz. The measurement results show that the frequency synthesizer has achieved a phase noise of 〈 -120 dBc/Hz at 1 MHz offset and consumes 11.1 mW from a 1.7 V supply. Moreover, compared with the traditional class-A counterparts, the phase noise in class-C mode has been improved by 5 dB under the same power consumption.

作者俞小宝韩思阳靳宗明王志华池保勇

机构地区 Institute of Microelectronics

出处《Journal of Semiconductors》 EI CAS CSCD 2015年第9期115-120,共6页 半导体学报（英文版）

关键词 phase-locked loop （PLL） class-C VCO frequency synthesizer low power 802.11 ah TRANSCEIVER phase-locked loop （PLL） class-C VCO frequency synthesizer low power 802.11 ah transceiver

分类号 TN74 [电子电信—电路与系统]

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Journal of Semiconductors

2015年第9期

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A class-CVCO based Σ–Δ fraction-N frequency synthesizer with AFC for 802.11ah applications 被引量：2

参考文献11

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