A 6.0-13.5 GHz Alias-Locked Loop Frequency Synthesizer in 130 nm CMOS

Jinghang Liang; Zhiyin Zhou; Jie Han; Duncan G. Elliott

A 6.0-13.5 GHz Alias-Locked Loop Frequency Synthesizer in 130 nm CMOS

Jinghang Liang, Zhiyin Zhou, Jie Han, Duncan G. Elliott

Published: 01 Jan 2013, Last Modified: 28 Jan 2025IEEE Trans. Circuits Syst. I Regul. Pap. 2013EveryoneRevisionsBibTeXCC BY-SA 4.0

Abstract: A 6.0-13.5 GHz alias-locked loop (ALL) frequency synthesizer is designed and simulated in 130 nm CMOS. Using an aliasing divider, the ALL architecture makes it possible to create high-speed frequency synthesis circuits without relying on a traditional divider clocked at fVCO in the feedback path. In this implementation, a new architecture of high frequency ring oscillator is proposed with a feedforward path and selectable modes of operation for different frequency ranges. This ring oscillator provides both a high oscillating frequency and a wide tuning range. Simulation results have shown that the design synthesizes the desired frequencies and consumes 30.01 mW @ 13.0 GHz with a 1.2 V power supply.

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