Mucha I.,Current operational amplifiers: Basic architectures, properties, exploitation and future, Analog Integrated Circuits and Signal Processing, Vol.24, pp.243-255, 1995
Schauman, R., Valkenburg, M. E., Design of analog filters. Oxford University Press, New York, 2001.
Donald, T. C., David, J. C., Jason, R. G., A high frequency integrable band- pass filter configuration, IEEE Transaction on Circuits and Systems-II, Vol. 44, pp. 856-860, 1997.
Cicekoglu, O., Kuntman, H., S. Berk , Single CII+ based all-pass filters, Int. Journal of Electronics, Vol.86, pp. 947- , 1988.
Çam, U., Cicekoglu, O., Gulsoy, M., Kuntman, H., New voltage and current mode first-order all-pass filters using single FTFN, Frequenz, Vol.7-8, pp. 179, 2000.
Higashimura, M., Fukai, Y., Realization of all-pass and notch filters using a single current conveyor, Int. Journal of Electronics, Vol.65, pp. 823- , 1988.
Toker, A., Ozoguz, S., Cicekoglu, O., Acar, C., Current mode all-pass filters using current differencing buffered amplifier and new high-Q band-pass filter configuration, IEEE Transaction on Circuits and Systems-II, Vol. 47, pp. 954, 2000.
Fabre, A., Third generation current conveyor: A new helpfull active element, Electronics Letters, Vol.31, pp.338-339, 1995.
Sudanshu, M., Iqbal, A. K., Novel first order allpass section using single CCIII, Int. Journal of Electronics, Vol.88, pp. 778, 2001.
Wang, H. Y., Lee, C. T., Systematic synthesis R-L and C-D immitances using single CCIII, Electronics Letters, Vol.87, pp.293-294, 2000.
Minai, S., A new high performance CMOS third generation current conveyor (CCIII) and its application, Electrical Engineering, Vol.8, pp.147- , 2003.
Ahmet, M. T., Khan, I. A., Minhej, N., On transconductance quadrature oscillators, Int. Journal of Electronics, Vol.83(2), pp. 201-207, 1997.
THIRD GENERATION CURRENT CONVEYOR BASED CURRENT-MODE FIRST ORDER ALL-PASS FILTER AND QUADRATURE OSCILLATOR
Year 2008,
Volume: 8 Issue: 1, 529 - 535, 02.01.2012
Mucha I.,Current operational amplifiers: Basic architectures, properties, exploitation and future, Analog Integrated Circuits and Signal Processing, Vol.24, pp.243-255, 1995
Schauman, R., Valkenburg, M. E., Design of analog filters. Oxford University Press, New York, 2001.
Donald, T. C., David, J. C., Jason, R. G., A high frequency integrable band- pass filter configuration, IEEE Transaction on Circuits and Systems-II, Vol. 44, pp. 856-860, 1997.
Cicekoglu, O., Kuntman, H., S. Berk , Single CII+ based all-pass filters, Int. Journal of Electronics, Vol.86, pp. 947- , 1988.
Çam, U., Cicekoglu, O., Gulsoy, M., Kuntman, H., New voltage and current mode first-order all-pass filters using single FTFN, Frequenz, Vol.7-8, pp. 179, 2000.
Higashimura, M., Fukai, Y., Realization of all-pass and notch filters using a single current conveyor, Int. Journal of Electronics, Vol.65, pp. 823- , 1988.
Toker, A., Ozoguz, S., Cicekoglu, O., Acar, C., Current mode all-pass filters using current differencing buffered amplifier and new high-Q band-pass filter configuration, IEEE Transaction on Circuits and Systems-II, Vol. 47, pp. 954, 2000.
Fabre, A., Third generation current conveyor: A new helpfull active element, Electronics Letters, Vol.31, pp.338-339, 1995.
Sudanshu, M., Iqbal, A. K., Novel first order allpass section using single CCIII, Int. Journal of Electronics, Vol.88, pp. 778, 2001.
Wang, H. Y., Lee, C. T., Systematic synthesis R-L and C-D immitances using single CCIII, Electronics Letters, Vol.87, pp.293-294, 2000.
Minai, S., A new high performance CMOS third generation current conveyor (CCIII) and its application, Electrical Engineering, Vol.8, pp.147- , 2003.
Ahmet, M. T., Khan, I. A., Minhej, N., On transconductance quadrature oscillators, Int. Journal of Electronics, Vol.83(2), pp. 201-207, 1997.
Ün, M., & Kaçar, F. (2012). THIRD GENERATION CURRENT CONVEYOR BASED CURRENT-MODE FIRST ORDER ALL-PASS FILTER AND QUADRATURE OSCILLATOR. IU-Journal of Electrical & Electronics Engineering, 8(1), 529-535.
AMA
Ün M, Kaçar F. THIRD GENERATION CURRENT CONVEYOR BASED CURRENT-MODE FIRST ORDER ALL-PASS FILTER AND QUADRATURE OSCILLATOR. IU-Journal of Electrical & Electronics Engineering. January 2012;8(1):529-535.
Chicago
Ün, Mahmut, and Fırat Kaçar. “THIRD GENERATION CURRENT CONVEYOR BASED CURRENT-MODE FIRST ORDER ALL-PASS FILTER AND QUADRATURE OSCILLATOR”. IU-Journal of Electrical & Electronics Engineering 8, no. 1 (January 2012): 529-35.
EndNote
Ün M, Kaçar F (January 1, 2012) THIRD GENERATION CURRENT CONVEYOR BASED CURRENT-MODE FIRST ORDER ALL-PASS FILTER AND QUADRATURE OSCILLATOR. IU-Journal of Electrical & Electronics Engineering 8 1 529–535.
IEEE
M. Ün and F. Kaçar, “THIRD GENERATION CURRENT CONVEYOR BASED CURRENT-MODE FIRST ORDER ALL-PASS FILTER AND QUADRATURE OSCILLATOR”, IU-Journal of Electrical & Electronics Engineering, vol. 8, no. 1, pp. 529–535, 2012.
ISNAD
Ün, Mahmut - Kaçar, Fırat. “THIRD GENERATION CURRENT CONVEYOR BASED CURRENT-MODE FIRST ORDER ALL-PASS FILTER AND QUADRATURE OSCILLATOR”. IU-Journal of Electrical & Electronics Engineering 8/1 (January 2012), 529-535.
JAMA
Ün M, Kaçar F. THIRD GENERATION CURRENT CONVEYOR BASED CURRENT-MODE FIRST ORDER ALL-PASS FILTER AND QUADRATURE OSCILLATOR. IU-Journal of Electrical & Electronics Engineering. 2012;8:529–535.
MLA
Ün, Mahmut and Fırat Kaçar. “THIRD GENERATION CURRENT CONVEYOR BASED CURRENT-MODE FIRST ORDER ALL-PASS FILTER AND QUADRATURE OSCILLATOR”. IU-Journal of Electrical & Electronics Engineering, vol. 8, no. 1, 2012, pp. 529-35.
Vancouver
Ün M, Kaçar F. THIRD GENERATION CURRENT CONVEYOR BASED CURRENT-MODE FIRST ORDER ALL-PASS FILTER AND QUADRATURE OSCILLATOR. IU-Journal of Electrical & Electronics Engineering. 2012;8(1):529-35.