Frequency multiplication by 3/2 is proposed as a means to expand the frequency generation capabilities of a single LC VCO. Fractional frequency multiplication is obtained by cascading a broadband injection locked modulo- two divider and a multiply-by-three circuit based on edge combining. The proposed solution is inductorless, thus very compact. It allows the generation of all frequencies from 2.7 to 6.1 GHz with a performance suitable for cellular standards. It shows a phase noise floor below -150dBc/Hz and a spurious level below -35dBc. The multiplier by 3/2 consumes 5 mA and the VCO draws 10 mA from a 1.2 V supply. The additional power consumption due to the multiplier trades with the small area penalty and the flexibility of this solution, compared to the use of multiple LC VCOs.
A 2.7–6.1 GHz CMOS local oscillator based on frequency multiplication by 3/2
BEVILACQUA, ANDREA;
2012
Abstract
Frequency multiplication by 3/2 is proposed as a means to expand the frequency generation capabilities of a single LC VCO. Fractional frequency multiplication is obtained by cascading a broadband injection locked modulo- two divider and a multiply-by-three circuit based on edge combining. The proposed solution is inductorless, thus very compact. It allows the generation of all frequencies from 2.7 to 6.1 GHz with a performance suitable for cellular standards. It shows a phase noise floor below -150dBc/Hz and a spurious level below -35dBc. The multiplier by 3/2 consumes 5 mA and the VCO draws 10 mA from a 1.2 V supply. The additional power consumption due to the multiplier trades with the small area penalty and the flexibility of this solution, compared to the use of multiple LC VCOs.
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