Highly Efficient Class-C CMOS VCOs, Including a Comparison With Class-B VCOs

Luca Fanori; Pietro Andreani

doi:10.1109/JSSC.2013.2253402

Highly Efficient Class-C CMOS VCOs, Including a Comparison With Class-B VCOs

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Abstract

This paper presents two class-C CMOS VCOs with a dynamic bias of the core transistors, which maximizes the oscillation amplitude without compromising the robustness of the oscillation start-up, thereby breaking the most severe trade-off in the original class-C topology. An analysis of several different oscillators, starting with the common class-B architecture and arriving to the proposed class-C design, shows that the latter exhibits a figure-of-merit (FoM) that is closest to the ideal FoM allowed by the integration technology. The class-C VCOs have been implemented in a 90 nm CMOS process with a thick top metal layer. They are tunable between 3.4 GHz and 4.5 GHz, covering a tuning range of 28%. Drawing 5.5 mA from 1.2 V, the phase noise is lower than -152 dBc/Hz at a 20 MHz offset from a 4 GHz carrier. The resulting FoM is 191 dBc/Hz, and varies less than 1 dB across the tuning range.

Original language	English
Pages (from-to)	1730-1740
Journal	IEEE Journal of Solid-State Circuits
Volume	48
Issue number	7
DOIs	https://doi.org/10.1109/JSSC.2013.2253402
Publication status	Published - 2013

Subject classification (UKÄ)

Electrical Engineering, Electronic Engineering, Information Engineering

Free keywords

Class-C
CMOS
dynamic-bias
low phase noise
start-up
VCO

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10.1109/JSSC.2013.2253402

Cite this

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title = "Highly Efficient Class-C CMOS VCOs, Including a Comparison With Class-B VCOs",

abstract = "This paper presents two class-C CMOS VCOs with a dynamic bias of the core transistors, which maximizes the oscillation amplitude without compromising the robustness of the oscillation start-up, thereby breaking the most severe trade-off in the original class-C topology. An analysis of several different oscillators, starting with the common class-B architecture and arriving to the proposed class-C design, shows that the latter exhibits a figure-of-merit (FoM) that is closest to the ideal FoM allowed by the integration technology. The class-C VCOs have been implemented in a 90 nm CMOS process with a thick top metal layer. They are tunable between 3.4 GHz and 4.5 GHz, covering a tuning range of 28%. Drawing 5.5 mA from 1.2 V, the phase noise is lower than -152 dBc/Hz at a 20 MHz offset from a 4 GHz carrier. The resulting FoM is 191 dBc/Hz, and varies less than 1 dB across the tuning range.",

keywords = "Class-C, CMOS, dynamic-bias, low phase noise, start-up, VCO",

author = "Luca Fanori and Pietro Andreani",

year = "2013",

doi = "10.1109/JSSC.2013.2253402",

language = "English",

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pages = "1730--1740",

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issn = "0018-9200",

publisher = "IEEE - Institute of Electrical and Electronics Engineers Inc.",

number = "7",

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T1 - Highly Efficient Class-C CMOS VCOs, Including a Comparison With Class-B VCOs

AU - Fanori, Luca

AU - Andreani, Pietro

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N2 - This paper presents two class-C CMOS VCOs with a dynamic bias of the core transistors, which maximizes the oscillation amplitude without compromising the robustness of the oscillation start-up, thereby breaking the most severe trade-off in the original class-C topology. An analysis of several different oscillators, starting with the common class-B architecture and arriving to the proposed class-C design, shows that the latter exhibits a figure-of-merit (FoM) that is closest to the ideal FoM allowed by the integration technology. The class-C VCOs have been implemented in a 90 nm CMOS process with a thick top metal layer. They are tunable between 3.4 GHz and 4.5 GHz, covering a tuning range of 28%. Drawing 5.5 mA from 1.2 V, the phase noise is lower than -152 dBc/Hz at a 20 MHz offset from a 4 GHz carrier. The resulting FoM is 191 dBc/Hz, and varies less than 1 dB across the tuning range.

AB - This paper presents two class-C CMOS VCOs with a dynamic bias of the core transistors, which maximizes the oscillation amplitude without compromising the robustness of the oscillation start-up, thereby breaking the most severe trade-off in the original class-C topology. An analysis of several different oscillators, starting with the common class-B architecture and arriving to the proposed class-C design, shows that the latter exhibits a figure-of-merit (FoM) that is closest to the ideal FoM allowed by the integration technology. The class-C VCOs have been implemented in a 90 nm CMOS process with a thick top metal layer. They are tunable between 3.4 GHz and 4.5 GHz, covering a tuning range of 28%. Drawing 5.5 mA from 1.2 V, the phase noise is lower than -152 dBc/Hz at a 20 MHz offset from a 4 GHz carrier. The resulting FoM is 191 dBc/Hz, and varies less than 1 dB across the tuning range.

KW - Class-C

KW - CMOS

KW - dynamic-bias

KW - low phase noise

KW - start-up

KW - VCO

U2 - 10.1109/JSSC.2013.2253402

DO - 10.1109/JSSC.2013.2253402

M3 - Article

SN - 0018-9200

VL - 48

SP - 1730

EP - 1740

JO - IEEE Journal of Solid-State Circuits

JF - IEEE Journal of Solid-State Circuits

IS - 7

ER -

Highly Efficient Class-C CMOS VCOs, Including a Comparison With Class-B VCOs

Abstract

Subject classification (UKÄ)

Free keywords

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