[1] Ferri, G., Guerrini, N.C., Low-voltage low-power CMOS current conveyors, Kluwer
Academic Publishers, London, 2003.
[2] Wilson, B., “Recent developments in current conveyors and current-mode circuits”, IEE
Proceedings Circuits, Devices and Systems, 137, 63-77, 1990.
[3] Wilson, B., “Trends in current conveyor and current-mode amplifier design”,
International Journal of Electronics, 73, 573-583, 1992.
[4] Baker, R.J., CMOS Circuit Design, Layout, and Simulation, Second Edition, Chapter 5,
New York: IEEE Press, 2005.
[5] Wilson, G., Chan, P.K., “Floating CMOS resistor”, Electronics Letters, 29, 306-307,
1993.
[6] Bhusan, M., Newcomb, R.W., “Grounding of capacitors in integrated circuits”,
Electronics Letters, 3, 148-149, 1967.
[7] Senani, R., Singh, V.K., “KHN-equivalent biquad using current conveyors”, Electronics
Letters, 31, 626-628, 1995.
[8] Yuce, E., Tokat, S., Minaei, S., Cicekoglu, O., “Stability Problems in Universal CurrentMode Filters”, Online published in International Journal of Electronics and
Communications (AEÜ), 2007.
[9] Minaei, S., Cicekoglu, O., Kuntman, H., Turkoz, S., “High output impedance currentmode lowpass, bandpass and highpass filters using current controlled conveyors”,
International Journal of Electronics, 88, 915-922, 2001.
[10] Minaei, S., Turkoz, S., “New current-mode current-controlled universal filter
implemented from single-output current controlled conveyors”, Frequenz, 54, 158-140,
2000.
[11] Sagbas, M., Fidanboylu, K., “Electronically tunable current-mode second-order universal
filter using minimum elements”, Electronics Letters, 40, 2-4, 2004.
[12] Shah, N.A., Rather, M.F., Iqbal, S.Z., “SITO electronically tunable high output
impedance current-mode universal filter”, Analog Integrated Circuits and Signal
Processing, 47, 335-338, 2006.
[13] Yuce, E., Minaei, S., Cicekoglu, O., “Universal current-mode active-C filter employing
minimum number of passive elements”, Analog Integrated Circuits and Signal
Processing, 46, 169-171, 2006.
[14] Minaei, S., Turkoz, S., “New current-mode current-controlled universal filter with single
input and three outputs”, International Journal of Electronics, 88, 333-337, 2001.
[15] Minaei, S. Yuce, E., “Universal current-mode active-C filters employing only plus-type
current controlled conveyors”, Frequenz, 60, 134-137, 2006.
[16] Minaei, S., Turkoz, S., “Current-mode electronically current-controlled universal filter
using only plus-type current controlled conveyors and grounded capacitors”, ETRI
Journal, 26, 292-296, 2004.
[17] Chang, C.M., Al-Hashimi, B.M., Ross, J.N., “Unified active filter biquad structures”, IEE
Proceedings Circuit Devices and Systems, 151, 272-277, 2004.
[18] Shah, N.A., Iqbal, S.Z., “Current-mode active-only universal filter’, International Journal
of Electronics, 90, 407-411, 2003.
[19] Khan, I.A., Zaidi, M.H., “Multifunctional translinear-C current-mode filter’, International
Journal of Electronics, 87, 1047-1051, 2000.
[20] Abuelma’atti, M.T., Tasadduq, N.A., “New current-mode current-controlled filters using
the current-controlled conveyor”, International Journal of Electronics, 85, 483-488, 1998.
[21] Fabre, A., Saaid, O., Barthelemy, H., “On the frequency limitations of the circuits based
on second generation current conveyors”, Analog Integrated Circuits and Signal
Processing, 7, 113-129, 1995.
[22] Fabre, A., Saaid, O., Wiest, F., Boucheron, C., “High frequency applications based on a
new current controlled conveyor”, IEEE Transactions on Circuits and Systems-I:
Fundamental Theory and Applications, 43, 82-91, 1996.
[23] Minaei, S., Sayin, O.K., Kuntman, H., “A new CMOS electronically tunable current
conveyor and its application to current-mode filters”, IEEE Transactions on Circuits and
Systems Part-I: Regular Papers, 53, 1448-1457, 2006.
[24] Mahmoud, S.A., Hashiesh, M.A., Soliman, A.M., “Low-voltage digitally controlled fully
differential current conveyor”, IEEE Transactions on Circuits and Systems Part-I: Regular
Papers, vol. 52, no. 10, pp. 2055-2064, 2005.
[25] Yuce, E., Minaei, S., Cicekoglu, O., “Resistorless floating immittance function simulators
employing current controlled conveyors and a grounded capacitor”, Electrical
Engineering, 88, 519-525, 2006.
Thank you for copying data from http://www.arastirmax.com
