Affiliation:
1. Department of Electronics and Instrumentation Engineering, Shri G. S. Institute of Technology and Science Indore, India
Abstract
This paper proposed a fully MOS-based voltage-controlled oscillator (VCO)
with tuning range and low phase noise, replacing the most often used
NMOS-based inductor-capacitor tank arranged in cross-coupled topology with a
high-Q active inductor. This study mainly focuses on VCO design using a
MOS-based active inductor and is implemented and verified using UMC 180nm
CMOS technology. The proposed VCO is resistorless and consists of an active
inductor, two MOS capacitors, and the buffer circuits. The fundamental
principle of this MOS-based VCO concept is to use MOS based inductor to
replace the passive inductor, which is an active inductor that gives less
area and low power usage. At 1 MHz frequency offset, the phase noise
achieved by this proposed configuration is -102.78dBc/Hz. In the proposed
VCO architecture, the frequency tuning range is 0.5GHz to 1.7GHz. This VCO
design can accomplish this acceptable tuning range by altering the
regulating voltage from 0.7V to 1.8V. This suggested architecture of
proposed VCO design has the power consumption of 9mW with a 1.8V supply
voltage. The suggested VCO has been shown to be a good fit for low-power RF
circuit applications while preserving acceptable performance metrics.
Publisher
National Library of Serbia
Subject
General Materials Science
Reference26 articles.
1. J.-C. Huang, N.-S. Yang, S. Wang, "An Ultra-Compact 0.5~3.6-GHz CMOS VCO with High-Q Active Inductor," In Proceedings of the 1st European Microwave Conference in Central Europe, May 2019.
2. R. Mehra, R.C. Gurjar, "LC VCO using Active Inductor for low phase noise and wide tuning range," International Journal of Innovative Research in Science Engineering and Technology, vol. 5, no. 7, pp. 13345-13350, July 2016.
3. S. Singh and R. C. Gurjar, "A low power, low phase noise VCO using cascoded active inductor," In Proceedings of the International Conference on Information, Communication, Instrumentation and Control (ICICIC), 2017.
4. J. Laskar, R. Mukhopadhyay, and C.-H. Lee, "Active inductor-based oscillator: A promising candidate for low-cost low-power multi-standard signal generation," In Proceedings of the IEEE Radio Wireless Symp., Jan. 2007, pp. 31-34.
5. D. Zito, D. Pepe, A. Fonte, "13 GHz CMOS Active Inductor LC VCO," IEEE Microwave and Wireless Components Letters, vol. 22, no. 3, pp. 138-140, 2012.