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Improving linearity in MOS varactor based VCOs by means of the output quiescent bias point

This paper presents a CMOS based LC tank VCO topology improving the tuning range linearity. The VCO tuning range is linearized with PMOS varactors which remain in the inversion region for an extended range of the control voltage. This is achieved with the design of the quiescent operating point in t...

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Bibliographic Details
Published in:Integration (Amsterdam) 2016-09, Vol.55, p.274-280
Main Authors: Gonzalez-Diaz, Victor R., Sanchez-Gaspariano, Luis A., Muñiz-Montero, Carlos, Alvarado-Pulido, Jose J.
Format: Article
Language:English
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Summary:This paper presents a CMOS based LC tank VCO topology improving the tuning range linearity. The VCO tuning range is linearized with PMOS varactors which remain in the inversion region for an extended range of the control voltage. This is achieved with the design of the quiescent operating point in the VCO's output nodes with a value close to the voltage rails, letting the varactors to behave quasi linearly in the achievable VCO tuning range. The experimental results of a VCO in a CMOS 0.35µm process show a linear tuning range improvement of 75% of the control voltage in the (1.43–1.55)GHz range, with a minimum VCO gain variation compared to similar architectures. The results show a phase noise improvement from −94dBc/Hz to −124dBc/Hz @600kHz offset from the carrier with an overall reduced amplitude noise for the VCO. •The VCO shows an improvement of linearity for the tuning range.•The improvement is a consequence of the output quiescent point design.•The comparison includes the VCO gain linearity, not considered in many works.•Experimental results in a CMOS 0.35um attest the improvement in linearity.
ISSN:0167-9260
1872-7522
DOI:10.1016/j.vlsi.2016.08.003