A Method for Continuous Tuning of MOSFET–RC Filters with Extended Control Range

[1] GIANNINI, V.—CRANINCKX, J.—AMICO, S. D.—BASCHIROTTO, A. : Flexible baseband analog circuits for software-defined radio front-ends, IEEE J. Solid-State Circuits 42 (2007).10.1007/978-1-4020-6538-5Search in Google Scholar

[2] ISHIHARA, N.—AMAKAWA, S.—KAZUYA, M. : : RF CMOS integrated circuit: History, current status and future prospects, IEICE transactions on Fundamentals of Electronics, Communications and Computer Sciences 94 (2011).Search in Google Scholar

[3] HWANG, J. H.—LEE, M. Y.—JEONG, C. Y.—YOO, C. : Active-RC channel selection filter tunable from 6 kHz to 18 MHz for software-defined radio, IEEE International Symposium on Circuits and Systems (2005).Search in Google Scholar

[4] KIM, B.—DAEIK, K. : Low-voltage current-mode integrator for channel selection filter, IEICE Electronics Express 11 (2014).10.1587/elex.10.20130845Search in Google Scholar

[5] SOTNER, R.—JERABEK, J.—HERENCSAR, N.—PROKOP, R.—LAHIRI, A.—DOSTAL, T.—VRBA, K. : FirstOrder Transfer Sections with ReconnectionLess Electronically Reconfigurable HighPass, AllPass and Direct Transfer Character, Journal of Electrical Engineering 67 No. 1 (2016).Search in Google Scholar

[6] KURAHASHI, P.—HANUMOLU, P. K.—TEMES, G. C.—MOON, U. K. : Design of low-voltage highly linear switched-R-MOSFET-C filters, IEEE J. Solid-State Circuits 42 (2007).10.1109/JSSC.2007.900280Search in Google Scholar

[7] TSIVIDIS, Y.—BANU, M.—KHOURY, J. : Continuous-time MOSFET-C filters in VLSI, IEEE J. Solid-State Circuits 21 (1986).10.1109/JSSC.1986.1052478Search in Google Scholar

[8] LIU, J.—FAHMY, A.—KIM, T.—MAGHARI, N. : A fully synthesized 0.4 V 77dB SFDR reprogrammable SRMC filter using digital standard cells, IEEE Custom Integrated Circuits Conference (2015).10.1109/CICC.2015.7338426Search in Google Scholar

[9] SUNGHO, B.—JEONG, S.—SUNKI, M.—HWANG, M. W.—KYUTAE, L.—TENTZERIS, E. M. : A 0.56 MHz Active-RC LPF with Fine Gain Steps Using Binary Interpolated Resistor Banks, IEICE transactions on electronics 94 (2011).10.1587/transele.E94.C.1328Search in Google Scholar

[10] KOUSAI, S.—HAMADA, M.—ITAKURA, T. : A Novel Automatic Quality Factor Tuning Scheme for a Low-Power Wideband Active-RC Filter, IEICE transactions on Fundamentals of Electronics, Communications and Computer Sciences 92, yr2009.10.1587/transfun.E92.A.411Search in Google Scholar

[11] KOUSAI, S.—HAMADA, M.—ITO, R.—ITAKURA, T. : A 19.7 MHz, fifth-order active-RC Chebyshev LPF for draft IEEE802. 11n with automatic quality-factor tuning scheme IEEE J. Solid-State Circuits.Search in Google Scholar

[12] ASLANZADEH, H. A.—PANKRATZ, E. J.—SNCHEZ-SINENCIO, E. : A 1-V+ 31 dBm IIP3, reconfigurable, continuously tunable, power-adjustable active-RC LPF, IEEE J. Solid-State Circuits 44 (2009), 495.10.1109/JSSC.2008.2011037Search in Google Scholar

[13] ITO, R.—IAKURA, T. : Phase compensation techniques for low-power operational amplifiers, IEICE transactions on electronics 93 (2010).10.1587/transele.E93.C.730Search in Google Scholar

[14] SUZUKI, T.—TAKAO, O.—YONEYAMA, T. : Design and simulation of 4Q-multiplier using linear and saturation regions of MOSFET complementally, IEICE transactions on Fundamentals of Electronics, Communications and Computer Sciences 85 (2002).Search in Google Scholar