Design of a Low-Power Universal Gm-C Filter in Sub-Threshold Region
Subject Areas : Renewable energyMohammad Aghaei Jeshvaghani 1 , Mehdi Dolatshahi 2
1 - MSc /Najafabad Branch, Islamic Azad University
2 - Assistant Professor /Najafabad Branch, Islamic Azad University
Keywords: Inverter, CMOS, Gm-C, Universal Filter, sub-threshold,
Abstract :
In this paper, a second order universal filter with the ability of electronically tuning central frequency (ω0) and quality factor (Q), based on the inverter as transconductance block which realizes multi-mode responses (voltage, current, transconductance, transresistance) in sub-threshold region, is presented. Biasing transistors in sub-threshold region, reduces the power consumption of the proposed filter and the grounded capacitors are used to reduce the parasitic effects which is another advantage of the proposed filter circuit. Furthermore, low sensitivity of the performance of the proposed filter to the values of gmi , Ci is considered as another advantage of the proposed circuit. In addition, realizing the proposed filter based on the inverter circuit leads to a reduced value of layout area as well as power consumption. Finally, the proposed filter performance is simulated in HSPICE using 0.18 µm (LEVEL49) CMOS technology parameters. As it is shown in the paper, the proposed filter consumes only 64.69 nW power in a ±0.3V supply voltage.
[1] Xi. Zhu, Y. Sun, J. Moritz, ‘‘Design of current-mode gm-C MLF elliptic filters for wireless receivers’’, IEEE International Conference on Electronics Circuits and Systems ICECS., pp. 296-299, 2008.
[2] M. Yang, J. Liu, Y. Xiao, Y. Liao, ‘‘14.4 nw fourth-order band-pass filter for biomedical applications’’, Electronics Letters., Vol. 46, No. 14, pp. 973-974, 2010.
[3] A.J. Casson, V.E. Rodriguez, ‘‘A 60 pW gm C continuous wavelet transform circuit for portable EEG systems’’, IEEE Journal of Solid-State Circuits., Vol. 56, No. 6, pp. 1406–1415, 2011.
[4] C.C Hsu, W.S. Feng, ‘‘Structural design of current-mode biquad filters’’, International Journal of Electronics., Vol. 88, No. 1, pp. 41-51, 2001.
[5] T. Takao, S. Edasaki, S. Yasuaki, Y. Fukui, ‘‘Current-mode universal biquad filter using OTAs and DO-CCII’’, Frequenz., Vol. 60, No. 11-12, pp. 237–240, 2006.
[6] V.K. Singh, A.K. Singh, D.R. Bhaskar, R. Senani, ‘‘Novel mixed-mode universal biquad configuration’’, IEICE Electron Express, Vol. 2, No. 22, pp. 548-553, 2005.
[8] M.T. Abuelma’atti, Bentrcia, ‘‘A novel mixed-mode OTA-C universal filter’’, International Journal of Electronics., Vol. 92, No. 7, pp. 375–383, 2005.
[9] H. P. Chen, Y. Z. Liao, W. T. Lee, ‘‘Tunable mixed-mode OTA-C universal filter’’, Analog Integrated Circuits and Signal Processing., Vol. 58, No. 2, pp. 135-141, 2009.
[13] E.D.C. Cotrim, L.H.C. Ferreira, ‘‘An ultra-low-power CMOS symmetrical OTA for low-frequency Gm-C applications’’, Analog Integrated Circuits and Signal Processing., Vol. 71, No. 2, pp. 275-282, 2012.
[14] S.Y. Lee, C.J. Cheng, ‘‘Systematic design and modeling of a OTA-C filter for portable ECG detection’’, IEEE Transactions on Biomedical Circuits and Systems., Vol. 3, No. 1, pp. 53-64, 2009.
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