240 GHz and 272 GHz fundamental VCOs using 32 nm CMOS technology

Naftali Landsberg; Eran Socher

doi:10.1109/TMTT.2013.2288942

240 GHz and 272 GHz fundamental VCOs using 32 nm CMOS technology

Naftali Landsberg, Eran Socher

School of Electrical Engineering

Tel Aviv University

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

Abstract

Two fundamental oscillators, a 240 GHz and a 272 GHz are demonstrated using the IBM CMOS 32 nm process. The design of both oscillators was based on a Colpitts differential topology, where parasitic capacitances of the device are used as a part of the inductor-capacitor tank. The design process and consideration is discussed, as well as the measurement procedures. A simplified model predicting the output power of the voltage-controlled oscillator (VCO) and its phase noise is presented, and comparison to the measured results is discussed. An output power level of 0.2 mW (-7 dBm) was realized for the 240 GHz oscillator, with total power consumption of 13.3 mW and a total tuning range of 13.5 GHz achieved by changing both the gate and drain bias. The 272 GHz oscillator achieved a lower power level of about -22 dBm, with a total power consumption of only 7 mW.

Original language	English
Article number	6670796
Pages (from-to)	4461-4471
Number of pages	11
Journal	IEEE Transactions on Microwave Theory and Techniques
Volume	61
Issue number	12
DOIs	https://doi.org/10.1109/TMTT.2013.2288942
State	Published - Dec 2013

Keywords

CMOSFET circuits
Microwave oscillators
Phase noise
Silicon on insulator technology
Submillimeter wave circuits
Voltage-controlled oscillators

All Science Journal Classification (ASJC) codes

Radiation
Condensed Matter Physics
Electrical and Electronic Engineering

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10.1109/TMTT.2013.2288942

Cite this

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title = "240 GHz and 272 GHz fundamental VCOs using 32 nm CMOS technology",

abstract = "Two fundamental oscillators, a 240 GHz and a 272 GHz are demonstrated using the IBM CMOS 32 nm process. The design of both oscillators was based on a Colpitts differential topology, where parasitic capacitances of the device are used as a part of the inductor-capacitor tank. The design process and consideration is discussed, as well as the measurement procedures. A simplified model predicting the output power of the voltage-controlled oscillator (VCO) and its phase noise is presented, and comparison to the measured results is discussed. An output power level of 0.2 mW (-7 dBm) was realized for the 240 GHz oscillator, with total power consumption of 13.3 mW and a total tuning range of 13.5 GHz achieved by changing both the gate and drain bias. The 272 GHz oscillator achieved a lower power level of about -22 dBm, with a total power consumption of only 7 mW.",

keywords = "CMOSFET circuits, Microwave oscillators, Phase noise, Silicon on insulator technology, Submillimeter wave circuits, Voltage-controlled oscillators",

author = "Naftali Landsberg and Eran Socher",

year = "2013",

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doi = "10.1109/TMTT.2013.2288942",

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T1 - 240 GHz and 272 GHz fundamental VCOs using 32 nm CMOS technology

AU - Landsberg, Naftali

AU - Socher, Eran

PY - 2013/12

Y1 - 2013/12

N2 - Two fundamental oscillators, a 240 GHz and a 272 GHz are demonstrated using the IBM CMOS 32 nm process. The design of both oscillators was based on a Colpitts differential topology, where parasitic capacitances of the device are used as a part of the inductor-capacitor tank. The design process and consideration is discussed, as well as the measurement procedures. A simplified model predicting the output power of the voltage-controlled oscillator (VCO) and its phase noise is presented, and comparison to the measured results is discussed. An output power level of 0.2 mW (-7 dBm) was realized for the 240 GHz oscillator, with total power consumption of 13.3 mW and a total tuning range of 13.5 GHz achieved by changing both the gate and drain bias. The 272 GHz oscillator achieved a lower power level of about -22 dBm, with a total power consumption of only 7 mW.

AB - Two fundamental oscillators, a 240 GHz and a 272 GHz are demonstrated using the IBM CMOS 32 nm process. The design of both oscillators was based on a Colpitts differential topology, where parasitic capacitances of the device are used as a part of the inductor-capacitor tank. The design process and consideration is discussed, as well as the measurement procedures. A simplified model predicting the output power of the voltage-controlled oscillator (VCO) and its phase noise is presented, and comparison to the measured results is discussed. An output power level of 0.2 mW (-7 dBm) was realized for the 240 GHz oscillator, with total power consumption of 13.3 mW and a total tuning range of 13.5 GHz achieved by changing both the gate and drain bias. The 272 GHz oscillator achieved a lower power level of about -22 dBm, with a total power consumption of only 7 mW.

KW - CMOSFET circuits

KW - Microwave oscillators

KW - Phase noise

KW - Silicon on insulator technology

KW - Submillimeter wave circuits

KW - Voltage-controlled oscillators

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DO - 10.1109/TMTT.2013.2288942

M3 - مقالة

SN - 0018-9480

VL - 61

SP - 4461

EP - 4471

JO - IEEE Transactions on Microwave Theory and Techniques

JF - IEEE Transactions on Microwave Theory and Techniques

IS - 12

M1 - 6670796

ER -

240 GHz and 272 GHz fundamental VCOs using 32 nm CMOS technology

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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