Novel electronically controllable grounded series/parallel lossy inductor simulator configurations
暂无分享,去创建一个
[1] M. Srivastava,et al. Voltage mode quadrature oscillator employing single VDTA and grounded passive elements , 2014 .
[2] R. Nandi. Inductor simulation using a current conveyor , 1977, Proceedings of the IEEE.
[3] Data Ram Bhaskar,et al. Electronically Controllable Fully-Uncoupled Explicit Current-Mode Quadrature Oscillator Using VDTAs and Grounded Capacitors , 2013 .
[4] R. L. Ford,et al. Active filters and oscillators using simulated inductance , 1966 .
[5] Raj Senani. New tunable synthetic floating inductors , 1980 .
[6] Raj Senani,et al. New grounded simulated inductance circuit using a single PFTFN , 2009 .
[7] Erkan Yuce. Novel lossless and lossy grounded inductor simulators consisting of a canonical number of components , 2009 .
[8] Ching-Ting Lee,et al. Realisation of R-L and C-D immittances using single FTFN , 1998 .
[9] ÇamUğur,et al. Realization of Series and Parallel R-L and C-D Impedances Using Single Differential Voltage Current Conveyor , 2005 .
[10] Data Ram Bhaskar,et al. Universal Current-Mode Biquad Filter Using a VDTA , 2013 .
[11] Shahram Minaei,et al. Positive/negative lossy/lossless grounded inductance simulators employing single VDCC and only two passive elements , 2014 .
[12] Hakan Kuntman,et al. New Simple CMOS Realization of Voltage Differencing Transconductance Amplifier and Its RF Filter Application , 2011 .
[13] Oguzhan Cicekoglu,et al. Novel Lossless Grounded Inductance Simulators Employing only a Single First Generation Current Conveyor , 2003 .
[14] Firat Kaçar,et al. New lossless inductance simulators realization using a minimum active and passive components , 2010, Microelectron. J..
[15] A. J. Prescott. Loss-compensated active gyrator using differential-input operational amplifiers , 1966 .
[16] Data Ram Bhaskar,et al. Universal voltage-mode biquad filter using voltage differencing transconductance amplifier , 2016 .
[17] Data Ram Bhaskar,et al. New Grounded and Floating Simulated Inductance Circuits using Current Differencing Transconductance Amplifiers , 2010 .
[18] Yuh-Shyan Hwang,et al. Realisation of R-L and C-D impedances using a current feedback amplifier and its applications , 1994 .
[19] R. Nandi. Insensitive grounded-capacitor simulation of grounded inductors using current conveyors , 1979 .
[20] Raj Senani. Active simulation of inductors using current conveyor , 1978 .
[21] B. Metin,et al. Supplementary Inductance Simulator Topologies Employing Single DXCCII , 2011 .
[22] Data Ram Bhaskar,et al. Grounded and Floating Inductance Simulation Circuits Using VDTAs , 2012 .
[23] R. Nandi. Active inductances using current conveyors and their application in a simple bandpass filter realisation , 1978 .
[24] Hakan Kuntman,et al. CFOA-Based Lossless and Lossy Inductance Simulators , 2011 .
[25] D. Biolek,et al. Active Elements for Analog Signal Processing: Classification, Review, and New Proposals , 2008 .
[26] Shahram Minaei,et al. Limitations of the Simulated Inductors Based on a Single Current Conveyor , 2006, IEEE Transactions on Circuits and Systems I: Regular Papers.
[27] Uğur Çam,et al. Realization of Series and Parallel R-L and C-D Impedances Using Single Differential Voltage Current Conveyor , 2005 .
[28] D. Patranabis,et al. Active simulation of grounded inductors using a single current conveyor , 1981 .
[29] Hakan Kuntman,et al. Novel Two OTRA-Based Grounded Immitance Simulator Topologies , 2004 .