CFP last date
20 May 2024
Call for Paper
June Edition
IJCA solicits high quality original research papers for the upcoming June edition of the journal. The last date of research paper submission is 20 May 2024

Submit your paper
Know more
The week's pick
Responsive image
Enhancing Privacy Preservation: Multi-Attribute Protection with P-Sensitive K-Anonymity

Twinkle Patel Kiran Amin
Random Articles
Reseach Article

Single Active Element based Current-Mode All-Pass Filter

by Jitendra Mohan
journal cover thumbnail

International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 82 - Number 1
Year of Publication: 2013
Authors: Jitendra Mohan
10.5120/14080-2074

Jitendra Mohan . Single Active Element based Current-Mode All-Pass Filter. International Journal of Computer Applications. 82, 1 ( November 2013), 23-27. DOI=10.5120/14080-2074

@article{ 10.5120/14080-2074,
author = { Jitendra Mohan },
title = { Single Active Element based Current-Mode All-Pass Filter },
journal = { International Journal of Computer Applications },
issue_date = { November 2013 },
volume = { 82 },
number = { 1 },
month = { November },
year = { 2013 },
issn = { 0975-8887 },
pages = { 23-27 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume82/number1/14080-2074/ },
doi = { 10.5120/14080-2074 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T21:56:38.822565+05:30
%A Jitendra Mohan
%T Single Active Element based Current-Mode All-Pass Filter
%J International Journal of Computer Applications
%@ 0975-8887
%V 82
%N 1
%P 23-27
%D 2013
%I Foundation of Computer Science (FCS), NY, USA
Abstract

In this paper, a current-mode all-pass filter employing single multi-output dual-X second-generation current conveyor, a grounded resistor and a grounded capacitor is proposed. The circuit is as good as ideal for current-mode cascading by possessing low input and high output impedances. The use of grounded passive components makes the circuit, ideal for IC implementation. The effect of non-idealities and parasitics associated with the real MO-DXCCII implementation is also considered. The theoretical results are validated through PSPICE simulation program using 0. 35µm CMOS process parameters.

References
  1. S. J. G. Gift, "The application of all-pass filters in the design of multiphase sinusoidal systems", Microelectronics Journal, 31, 9–13, 2000.
  2. D. Biolek, R. Senani, V. Biolková, Z. Kolka, "Active elements for analog signal processing: classification, review, and new proposals", Radioengineering, 17, 2008.
  3. S. J. G. Gift, B. Maundy, "A novel circuit element and its application in signal amplification", International Journal of Circuit Theory and Applications, 36, 219-231, 2008.
  4. J. Mohan, S. Maheshwari, "Cascadable current-mode first-order all-pass filter based on minimal components", The Scientific World Journal, 2013, Article ID 859784, 5 pages, 2013.
  5. A. M. Soliman, "Realizations of an all-pass transfer functions using second generation current conveyor", Proceedings of the IEEE, 68, 1035, 1980.
  6. M. Higashimura, Y. Fukui, "Realization of current mode all-pass networks using a current conveyor", IEEE Trans. Circuits Syst. , 37, 660–661, 1990.
  7. M. Higashimura, "Current-mode all-pass filter using FTFN with grounded capacitor", Electronics Letters, 27, 1182–1183, 1991.
  8. A. M. Soliman, "Theorems relating to port interchange in current-mode CCII circuits", International Journal of Electronics, 82, 582–604, 1997.
  9. A. M. Soliman, "New current mode filters using current conveyors", International Journal of Electronics and Communications (AEÜ), 51, 275–278, 1997.
  10. A. Toker, S. Ozoguz, O. Cicekoglu, C. Acar, "Current-mode all-pass filters using current differencing buffered amplifier and a new high-Q band-pass filter configuration", IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing, 47, 949–954, 2000.
  11. I. A. Khan, S. Maheshwari, "A Simple first-order all-pass sections using a single CCII", International Journal of Electronics, 87, 303-306, 2000.
  12. S. Maheshwari, I. A. Khan, "Novel first order all-pass sections using a single CCIII", International Journal of Electronics, 88, 773–778, 2001.
  13. S. Kilinc¸ U. Cam, "Current-mode first-order all-pass filter employing single current operational amplifier", Analog Integrated Circuits and Signal Processing, 41, 47– 53, 2004.
  14. S. Minaei, M. A. Ibrahim, "General configuration for realizing current-mode first order all-pass filter using DVCC", International Journal of Electronics, 92, 347–356, 2005.
  15. J. W. Horng, C. L. Hou, C. M. Chang, W. Y. Chung, H. L. Liu, C. T. Lin, "High output impedance current-mode first-order all pass networks with four grounded components and two CCIIs", International Journal of Electronics, 93, 613-621, 2006.
  16. I. A. Khan, P. Beg, M. T. Ahmed, "First-order current mode filters and multiphase sinusoidal oscillators using CMOS MOCCIIs", The Arabian Journal for Science and Engineering, 32, No. 2C, 119-126, 2007.
  17. S. Maheshwari, "Novel cascadable current-mode first-order all-pass section", International Journal of Electronics, 94, 995–1003, 2007.
  18. S. Minaei, E. Yuce, "All grounded passive elements current-mode all-pass filter", Journal of Circuits, Systems and Computers, 18, 31–43, 2009.
  19. S. Minaei, E. Yuce, "Unity/Variable-gain voltage-mode/current-mode first-order all-pass filters using single dual-x second-generation current conveyor", IETE Journal of Research, 56, 305-312, 2010.
  20. J. W. Horng, C. L. Hou, Y. S. Guo, C. H. Hsu, D. Y. Yang, M. J. Ho, "Low input and high output impedances current-mode first-order all pass filter employing grounded passive components", Circuits and Systems, 3, 176-179, 2012.
  21. A. Zeki, A. Toker, "The Dual-X Current Conveyor (DXCCII): A new active device for tunable continuous-time filters," International Journal of Electronics, 89, 913-923, 2002.
  22. A. Zeki, A. Toker, "DXCCII-based tunable gyrator", International Journal of Electronics and Communications (AEÜ), 34, 59-62, 2005.
  23. S. Minaei, "Electronically tunable current-mode universal biquad filter using dual-x current conveyors", Journal of Circuits, Systems, and Computers, 18, 665–680, 2009.
  24. S. Minaei, E. Yuce, "A new full-wave rectifier circuit employing single dual-X current conveyor", International Journal of Electronics, 95, 777–784, 2008.
  25. A. Fabre, O. Saaid, H. Barthelemy, "On frequency limitations of the circuits based on second generation current conveyors", Analog Integrated Circuits and Signal Processing, 7, 113-129, 1995.
  26. J. Mohan, B. Chaturvedi, S. Maheshwari, "Novel current-mode all-pass filter with minimum component count", International Journal of Image, Graphics and Signal Processing (IJIGSP), 5, 32-37, 2013.
  27. J. Mohan, S. Maheshwari, "Two active elements based all-pass section suited for current-mode cascading" World Academy of Science, Engineering and Technology, International Journal of Electrical Engineering, 7, 1217 – 1221, 2013.
  28. S. Maheshwari, B. Chaturvedi, "High-input low-output impedance all-pass filters using one active element", IET: Circuits Devices and Systems, 6, 103-110, 2012.
  29. S. Maheshwari, B. Chaturvedi,. "Additional high input low output impedance analog networks", Active and Passive Electronic Components, 2013, Article ID 574925, 9 pages, 2013.
Index Terms

Computer Science
Information Sciences

Keywords

Active filters current conveyor all-pass filter analog signal processing.

Powered by PhDFocusTM