A 0.4 V Low Frequency Voltage-Controlled Ring Oscillator Using DTMOS Technique
الموضوعات : Majlesi Journal of Telecommunication DevicesSaber Izadpanah tous 1 , Ensieh Asghari 2 , Reza Pourandoost 3 , Behrooz Razeghi 4
1 - Sadjad Institute for Higher Education
2 - Sadjad Institute for Higher Education
3 - Sadjad Institute for Higher Education
4 - Ferdowsi University
الکلمات المفتاحية: en,
ملخص المقالة :
In this paper, an ultra-low power ultra-low voltage five-stage low frequency voltage–controlled single-ended ring oscillator using dynamic threshold voltage MOSFET (DTMOS) is presented. The proposed oscillator is designed and simulated using TSMC 0.18μm RF CMOS technology with 0.4 V power supply. In this design all transistors working at the sub-threshold (weak inversion) region. The output frequency ranges from 26.6-210.5 kHz with control voltages of 0 V to 0.4 V. Its power consumption and phase noise at a 100 kHz offset at the minimum(maximum) oscillation frequency is respectively 6.42nW (8.62 nW) and -120.5 dBc/Hz (-113.15 dBc/Hz).
[1] R. Chebli, X. Zhao, and M. Sawan, “A wide tuning range voltage-controlled ring oscillator dedicated to ultrasound transmitter”, 16th International Conference on Microelectronics, pp. 313-316, December 2004.
[2] G. Jovanovi´c, M. Stojˇcev, Z. Stamenkovic, “A CMOS Voltage Controlled Ring Oscillator with Improved Frequency Stability”, Scientific Publications of the State University of Novi Pazar, Series A: Applied Mathematics, Informatics and mechanics, vol. 2, no. 1, pp. 1-9, 2010.
[3] S. Farzeen, G. Ren, and Ch. Chen, “An ultra-low power ring oscillator for passive UHF RFID transponders”, 53rd IEEE International Midwest Symposium on Circuits and Systems, pp. 558-561, August 2010.
[4] M. Parvizi, A. Khodabakhsh, and A. Nabavi, “Low power high-tuning range CMOS ring oscillator VCOs”, IEEE International Conference on Semiconductor Electronics, pp. 40-44, November 2008.
[5] T. Li, B. Ye, and J. Jiang, “0.5 V 1.3 GHz voltage controlled ring oscillator,” IEEE International Conference ASIC, pp. 1181-1184, October 2009.
[6] D. Pacheco Bautista and M. Linares Aranda, “A low power and high speed CMOS voltage-controlled ring oscillator”, IEEE International Symposium on Circuits and Systems, vol.4, pp.752-755, May 2004.
[7] P. Lucchi, M. Borgarino, J.B Begueret, and G. Jacquemod, “Low phase noise 130nm CMOS ring VCO”, 9th IEEE International NEWCAS Conference, pp.89-92, June 2011.
[8] M.S. Jahan, J.H. Holleman, and S.S Rajput, “An ultra-low-power 400 MHz VCO for MICS band application”, International conference on electrical and computer engineering, pp. 318-321, December 2010.
[9] F. Assaderaghi, D. Sinitsky, S. Parke, J. Bokor, P. K. Ko, and C. Hu, “A dynamic threshold voltage MOSFET (DTMOS) for ultra-low voltage operation,” International Electron Devices Meeting, Technical Digest, pp. 809–812, 1994.
[10] F. Assaderaghi, D. Sinitsky, S. Parke, J. Bokor, P.K. Ko, Hu. Chenming, “Dynamic Threshold-Voltage MOSFET (DTMOS) for Ultra-Low Voltage VLSI,” IEEE Transaction on Electron Device, Vol. 44, No. 3, pp. 414-422, 1997.
[11] F. Assaderaghi, “DTMOS: Its derivatives and variations, and their potential applications,” International Conference on Microelectronic, pp. 9–10, 2000.
[12] S. Voldman, D. Hui, D. Young, R. Williams, D. Dreps, J. Howard, M. Sherony, F. Assaderaghi, G. Shahidi, “Silicon-on-insulator dynamic threshold ESD networks and active clamp circuitry”. Electrical Overstress/Electrostatic Discharge Symposium, pp. 29-40, 2000.
[13] B. Razavi, Design of Analog CMOS Integrated Circuits. New York, NY: McGraw-Hill, 2001.
[14] E. Kargaran, M. Sawan, Kh. Mafinezhad, H. Nabovati, “Design of 0.4V, 386nW OTA Using DTMOS Technique for Biomedical Applications,” 55th IEEE International Midwest Symposium on Circuits and Systems, pp. 270–273, 2012.
[15] R. J. Baker, CMOS Circuit Design, Layout, and Simulation. John Wiley and Sons, 2010.
[16] S.Y. Lee, and. J.Y. Hsieh, “Analysis and implementation of a 0.9 V voltage-controlled oscillator with low phase noise and low power dissipation,” IEEE Transaction on Circuits and Systems-Express briefs, vol. 55, no. 7, pp. 624-627, July 2008.