NEW DXCCII-BASED GROUNDED SERIES INDUCTANCE SIMULATOR TOPOLOGIES

In this paper, five grounded series inductance simulator topologies are proposed. All proposed circuits employing a minimum number of DXCCII and passive components. The proposed topologies realized all grounded parallel inductance variations. To demonstrate the performance of the presented DXCCII based parallel inductance simulators, we use one of the circuits to construct a current mode multifunction filter. Simulation results are given to confirm the theoretical analysis. The proposed DXCCII and its applications are simulated using CMOS 0.35 μm technology.

Keywords:

Analog MOS Integrated Circuit inductance simulator, DXCCII,

PDF

___

1 blank line (10-point font with single spacing) R., Senani “Active Simulation of Inductors Using Current Conveyors,” Electronics Lett., vol. 14, pp. 483-484, 1978. A.N., Paul and D., Patranabis “Active Simulation of Grounded Inductors Using a Single Current Conveyor,” IEEE Trans. on Circuits and Systems, vol. 28, pp. 164-165, 1981. W.,Surakampontorn and P., Thitimajshima “Integrable Electronically Tunable Current Conveyors,” IEE Proc., Pt. G, vol. 135, pp. 71-77, 19 I.A., Khan, M.T., Ahmed and N., Minhaj “Novel Technique for Immitance Simulation–Realisation of Some All-Active Simulators,” Int’l J. of Electronics, vol. 72, pp. 431-441, 1992. C.L., Hou, R.D., Chen, Y.P., Wu, and P.C., Hu “Realization of Grounded and Floating Immitance Function Simulators Using Current Conveyors,” Int’l J. of Electronics, vol. 74, pp. 917-923, 1993. C.M., Chang, H.Y., Wang and C.C., Chien “Realization of Series Impedance Functions Using one CCII+,” Int’l J. of Electronics, vol. 76, pp. 8385, 1994. S.I., Liu and C.Y., Yang “Higher-Order Immitance Function Synthesis Using CCIIIs,” Electronics Lett., vol. 32, pp. 2295-2296, 1996. A., Fabre, H., Amrani and O., Saaid “CurrentMode Bandpass Filters with Q Magnification,” IEEE Trans. on Circuits and Systems-II, vol. 43, pp. 839-842, 1996. O., Çiçekoğlu “Active Simulation of Grounded Inductors with CCII+s and Grounded Passive Elements,” Int’l J. of Electronics, vol. 85, pp. 455462, 1998. H., Kuntman, M., Gülsoy and O., Çiçekoğlu “Actively Simulated Grounded Lossy Inductors Using Third Generation Current Conveyors,” Microelectronics J., vol. 31, pp. 245-250, 2000 H.Y., Wang and C.T., Lee, “Systematic Synthesis of R-L and C-D Immitances Using CCIII, Int’l J. of Electronics, vol. 87, pp. 293-301, 2000. G., Ferri and N., Guerrini “High-Valued Passive Element Simulation Using Low-Voltage LowPower Current Conveyors for Fully Integrated Applications,” IEEE Trans. on Circuits and Systems-II, vol. 48, pp. 405-409, 2001. E., Yuce “Grounded inductor simulators with improved low frequency performances”, IEEE Transactions on Instrumentation and Measurement, 57(5), 1079–1084, 2008. M., Incekaraoglu and U.Cam, “Realization of series and parallel R-L and C-D impedances using single differential voltage current conveyor”, Analog Integrated Circuits and Signal Processing, 43, 101–104, 2005. E., Yuce and S., Minaei “A modified CFOA and its applications to simulated inductors, capacitance multipliers, and analog filters”, IEEE Transactions