A low phase noise FBAR based multiband VCO design

Guoqiang Zhang; Abhay Kochhar; Keiji Yoshida; Shuji Tanaka; Kenya Hashimoto; Masayoshi Esashi; Haruichi Kanaya; Ramesh K. Pokharel

doi:10.1587/elex.10.20130425

A low phase noise FBAR based multiband VCO design

Guoqiang Zhang, Abhay Kochhar, Keiji Yoshida, Shuji Tanaka, Kenya Hashimoto, Masayoshi Esashi, Haruichi Kanaya, Ramesh K. Pokharel

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

In this letter, design methodlogy of a low phase noise multiband film bulk acoustic resonator (FBAR) based voltage controlled oscillator (FBAR-VCO) is presented. It employs a 1.9GHz cross-coupled FBAR-VCO core, and extends oscillation to 0.65GHz, 0.98GHz, 1.96GHz and 3.92GHz by a divider and a multiplier. By analyzing the low frequency instability and proposing the solution based on a capacitor, cross-coupled architecture is employed in 1.9GHz FBAR-VCO core and phase noise degradation is extensively studied for extended frequencies. By considering the effect of transistors' size on the Q-factor and impedance of FBAR, excellent phase noise and high loop gain are obtained. The post-layout simulation shows the proposed multiband FBAR-VCO achieves the lowest phase noise below 150dBc/Hz at 1MHz offset frequency.

Original language	English
Article number	20130425
Journal	IEICE Electronics Express
Volume	10
Issue number	13
DOIs	https://doi.org/10.1587/elex.10.20130425
Publication status	Published - 2013

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Electrical and Electronic Engineering

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10.1587/elex.10.20130425

Cite this

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title = "A low phase noise FBAR based multiband VCO design",

abstract = "In this letter, design methodlogy of a low phase noise multiband film bulk acoustic resonator (FBAR) based voltage controlled oscillator (FBAR-VCO) is presented. It employs a 1.9GHz cross-coupled FBAR-VCO core, and extends oscillation to 0.65GHz, 0.98GHz, 1.96GHz and 3.92GHz by a divider and a multiplier. By analyzing the low frequency instability and proposing the solution based on a capacitor, cross-coupled architecture is employed in 1.9GHz FBAR-VCO core and phase noise degradation is extensively studied for extended frequencies. By considering the effect of transistors' size on the Q-factor and impedance of FBAR, excellent phase noise and high loop gain are obtained. The post-layout simulation shows the proposed multiband FBAR-VCO achieves the lowest phase noise below 150dBc/Hz at 1MHz offset frequency.",

author = "Guoqiang Zhang and Abhay Kochhar and Keiji Yoshida and Shuji Tanaka and Kenya Hashimoto and Masayoshi Esashi and Haruichi Kanaya and Pokharel, {Ramesh K.}",

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T1 - A low phase noise FBAR based multiband VCO design

AU - Zhang, Guoqiang

AU - Kochhar, Abhay

AU - Yoshida, Keiji

AU - Tanaka, Shuji

AU - Hashimoto, Kenya

AU - Esashi, Masayoshi

AU - Kanaya, Haruichi

AU - Pokharel, Ramesh K.

PY - 2013

Y1 - 2013

N2 - In this letter, design methodlogy of a low phase noise multiband film bulk acoustic resonator (FBAR) based voltage controlled oscillator (FBAR-VCO) is presented. It employs a 1.9GHz cross-coupled FBAR-VCO core, and extends oscillation to 0.65GHz, 0.98GHz, 1.96GHz and 3.92GHz by a divider and a multiplier. By analyzing the low frequency instability and proposing the solution based on a capacitor, cross-coupled architecture is employed in 1.9GHz FBAR-VCO core and phase noise degradation is extensively studied for extended frequencies. By considering the effect of transistors' size on the Q-factor and impedance of FBAR, excellent phase noise and high loop gain are obtained. The post-layout simulation shows the proposed multiband FBAR-VCO achieves the lowest phase noise below 150dBc/Hz at 1MHz offset frequency.

AB - In this letter, design methodlogy of a low phase noise multiband film bulk acoustic resonator (FBAR) based voltage controlled oscillator (FBAR-VCO) is presented. It employs a 1.9GHz cross-coupled FBAR-VCO core, and extends oscillation to 0.65GHz, 0.98GHz, 1.96GHz and 3.92GHz by a divider and a multiplier. By analyzing the low frequency instability and proposing the solution based on a capacitor, cross-coupled architecture is employed in 1.9GHz FBAR-VCO core and phase noise degradation is extensively studied for extended frequencies. By considering the effect of transistors' size on the Q-factor and impedance of FBAR, excellent phase noise and high loop gain are obtained. The post-layout simulation shows the proposed multiband FBAR-VCO achieves the lowest phase noise below 150dBc/Hz at 1MHz offset frequency.

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A low phase noise FBAR based multiband VCO design

Abstract

All Science Journal Classification (ASJC) codes

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