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Transformation of Voltage Mode Filter Circuit Based on Op-Amp to Circuit Based on CCII 被引量:1

Transformation of Voltage Mode Filter Circuit Based on Op-Amp to Circuit Based on CCII
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摘要 In this paper, firstly we demonstrate the use of nodal admittance matrix to convert a low-pass band-pass filter based on operational amplifier(op-amp) to a circuit based on a second-generation current conveyor(CCII). This technique allows us to get eight presumptions of filter circuits. Secondly, we present a novel architecture circuit of CCII, which can operate at low supply voltage of ±0.75 V. All simulations are performed by TSPICE models. The simulation results show that this circuit has a low impedance at terminal X(R X=1.01 Ω), a very high input impedance at terminal Y, and wide bandwidth current and voltage. The center frequency of the proposed filter is variable on the interval [157 k Hz, 196 MHz]. In this paper, firstly we demonstrate the use of nodal admittance matrix to convert a low-pass band-pass filter based on operational amplifier(op-amp) to a circuit based on a second-generation current conveyor(CCII). This technique allows us to get eight presumptions of filter circuits. Secondly, we present a novel architecture circuit of CCII, which can operate at low supply voltage of ±0.75 V. All simulations are performed by TSPICE models. The simulation results show that this circuit has a low impedance at terminal X(R X=1.01 Ω), a very high input impedance at terminal Y, and wide bandwidth current and voltage. The center frequency of the proposed filter is variable on the interval [157 k Hz, 196 MHz].
作者 Thouraya Ettaghzouti Néjib Hassen Kamel Besbes
机构地区 Micro-Electronics and Instrumentation Laboratory
出处 《Journal of Electronic Science and Technology》 CAS CSCD 2015年第1期60-67,共8页 电子科技学刊(英文版)
关键词 Filter nodal admittance matrix norator nullator Filter,nodal admittance matrix,norator,nullator
分类号 TN722.77 [电子电信—电路与系统] TN713 [电子电信—电路与系统]
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参考文献22

  • 1A. M. Soliman, “Generation of CCII and ICCII based Wien oscillators using nodal admittance matrix expansion,” Int. Journal of Electronics and Communications, vol. 64, no. 10, pp. 971-977, 2010.
  • 2A. M. Soliman, “Generation of current conveyor based oscillators using nodal admittance matrix expansion,” Analog Integrated Circuits and Signal Processing, vol. 65, pp. 43-59, 2010.
  • 3R. A. Saad and A. M. Soliman, “Generation, modeling, and analysis of CCII-based gyrators using the generalized symbolic framework for linear active circuits,” Int. Journal of Circuit Theory and Applications, vol. 36, no. 3 pp. 289-309, 2008.
  • 4I. A. Awad and A. M. Soliman, “On the voltage mirrors and the current mirrors,” Analog Integrated Circuits and Signal Processing, vol. 32, no. 1, pp. 79-81, 2002.
  • 5J. A. Svoboda, “Current conveyors, operational amplifiers and Nullors,” IEE Proceedings, vol. 136, no. 6, pp. 317 -322, 1989.
  • 6A. Carlosenat and G. S. Moschytz, “Nullators and norators in voltage to current mode transformations,” Int. Journal of Circuit Theory and Applications, vol. 21, no. 4, pp. 421-424, 1993.
  • 7C.-M. Chang and R-C. Chen, “Realization of current-mode transfer function using second-generation current conveyors,” Int. Journal of Electronics, vol. 71, no. 5, pp. 809-815, 1991.
  • 8I. A. Awad and A. M. Soliman, “Inverting second generation current conveyors: the missing building blocks, CMOS realizations and applications,” Int. Journal of Electronics, vol. 86, no. 4, pp. 413-432, 1999.
  • 9A. S. Sedra and K. C. Smith, “A second generation current conveyor and its applications,” IEEE Trans, on Circuit Theory, vol. 17, no. 1, pp. 132-134, 1970.
  • 10A. M Soliman, “Current mode filters using two output inverting CCII,” Int. Journal of Circuit Theory and Applications, vol. 36, no. 7, pp. 875-881, 2008.

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Journal of Electronic Science and Technology
2015年 第1期

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