A temperature-compensated CMOS voltage-controlled oscillator

Zhi Ming Lin; Kuei Chen Huang; Mei Yuan Liao; Jun Da Chen

A temperature-compensated CMOS voltage-controlled oscillator

Zhi Ming Lin, Kuei Chen Huang, Mei Yuan Liao, Jun Da Chen

Department of Computer Science and Information Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

A CMOS ring-oscillator VCO with temperature compensated has been designed by using 0.6 μm CMOS technology. The proposed VCO is controllable from 224 MHz to 974 MHz with a good linearity between the output and the control voltage. The obtained temperature coefficient is 86.3 ppm/°C in the 15 125°C range. The power consumption of this VCO is 8.3 mW.

Original language	English
Title of host publication	Advances in Physics, Electronics and Signal Processing Applications
Publisher	World Scientific and Engineering Academy and Society
Pages	104-106
Number of pages	3
ISBN (Print)	9608052173
Publication status	Published - 2000 Dec 1

All Science Journal Classification (ASJC) codes

Engineering(all)

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title = "A temperature-compensated CMOS voltage-controlled oscillator",

abstract = "A CMOS ring-oscillator VCO with temperature compensated has been designed by using 0.6 μm CMOS technology. The proposed VCO is controllable from 224 MHz to 974 MHz with a good linearity between the output and the control voltage. The obtained temperature coefficient is 86.3 ppm/°C in the 15 125°C range. The power consumption of this VCO is 8.3 mW.",

author = "Lin, {Zhi Ming} and Huang, {Kuei Chen} and Liao, {Mei Yuan} and Chen, {Jun Da}",

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N2 - A CMOS ring-oscillator VCO with temperature compensated has been designed by using 0.6 μm CMOS technology. The proposed VCO is controllable from 224 MHz to 974 MHz with a good linearity between the output and the control voltage. The obtained temperature coefficient is 86.3 ppm/°C in the 15 125°C range. The power consumption of this VCO is 8.3 mW.

AB - A CMOS ring-oscillator VCO with temperature compensated has been designed by using 0.6 μm CMOS technology. The proposed VCO is controllable from 224 MHz to 974 MHz with a good linearity between the output and the control voltage. The obtained temperature coefficient is 86.3 ppm/°C in the 15 125°C range. The power consumption of this VCO is 8.3 mW.

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