The Temperature Insensitive and Electronic Tuning of Current-mode First-order Allpass Filters
doi: 10.14456/mijet.2019.3
Keywords:
First-order allpass filters, CCII, CCTA, grounded elementsAbstract
This article presents the three circuits of current-mode first-order allpass filters which are electronically tunable and temperature insensitive. The proposed circuits provide separate elements which are CCII, CCTA, grounded resistor and grounded capacitor. The pole frequency and phase response can be tuned by input bias currents of CCTA. Furthermore, low impedances of input and high impedances of output that are advantageous for use in current-mode configuration. In addition, the proposed allpass filters are temperature insensitive and the sensitivities are low. The PSPICE program was used to corroborate the performances of the proposed allpass filters. They show a good results and according to theoretical.
References
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[22] HERENCSAR, N., MINAEI, S., KOTON, J., YUCE, E., VRBA, K., New resistorless and electronically tunable realization of dual-output VM all-pass filter using VDIBA, Analog Integr Circ Sig Process, 2012, vol. 74, no. 1, p. 141 - 154.
[23] JAIKLA, W., SIRIPRUCHYANUN, M., BAJER, J., BIOLEK, D., A Simple Current-Mode Quadrature Oscillator Using Single CDTA, Radioengineering, 2008, vol. 17, no. 4, p. 33 – 40.
[24] KUMNGERN, M., Realization of electronically tunable first-order allpass filter using single-ended OTAs, Proceedings of IEEE Symposium on Industrial Electronics and Applications (ISIEA2012), 23-26 September 2012, Bandung, 2012, p. 100 – 103.
[25] SEDRA, A., SMITH, K. C., A Second-Generation Current Conveyor and Its Applications, IEEE Transactions on Circuit Theory, 1970, vol. 17, p. 132 - 134.
[26] PROKOP, R., MUSIL, V., New modern circuit block CCTA and some of its applications, Proceedings of the fourteenth international scientific and applied science conference - electronics ET'2005, Book 5. Sofia: TU Sofia, 2005, p. 93 – 98.
[27] LAHIRI, A., Explicite-current-output quadrature oscillator using second-generation current conveyor transconductance amplifier, Radioengineering, 2009, vol. 18, no. 4, p. 522 – 526.
[28] JANTAKUN, A., SIRIPRUCHYANUN, M., An electronically-controllable temperature-insensitive current-mode multifunction biquadratic filter based on DO-CCTA, Proceedings of the 33th Electrical Engineering Conference (EECON-33), Chiangmai, Thailand, December 2010, 2010, p. 1101 – 1104.
[29] PIPATTHIKORN, P., SATTHAPOL, P., PAYAKKUL, K., SRISAKULTEAW, S., SIRIPRUCHYANUN, M., A temperature-insensitive electronically controllable current-mode universal filter using principle of voltage to current converter, Proceedings of the 36th Electrical Engineering Conference (EECON-36), Kanchanaburee, Thailand, 11-13 December 2014, 2014, p. 621 - 624.
[30] JANTAKUN, A., PANIKHOM, S., The realization of grounded simulator based-on CCCTAs, RMUTI Journal Science and Technology, 2016, vol. 9, no. 1, p. 1-18.
[31] PSYCHALINOS, C., KASIMIS, C., KHATEB, F., Multiple-input single-output universal biquad filter using single output operational transconductance amplifiers, AEU - International Journal of Electronics and Communications, 2018, vol. 93, p. 360 – 367.
[32] ABACI, A., YUCE, E., Single DDCC based new immittance function simulators employing only grounded passive elements and their applications, Microelectronics journal, 2019, vol. 83, p. 94 – 103.
[2] IAMAREJIN, A., MANEEWAN, S., SUWANJAN, P., JAIKLA, W., Current-mode current gain first-order allpass filter employing CFTAs, Przeglad Elektrotechniczny, 2013, vol. 89, no. nr 2a/2013, p. 187 - 190.
[3] MANEEWAN, S., UDORN, N., DUNGMALAI, D., SILAPAN P., JAIKLA, W., A voltage-mode first order allpass filter based on VDTA, Advance in Electrical and Electronic Engineering, 2014, vol. 12, no. 1, pp. 40 - 46.
[4] MAHESHWARI S., Voltage-mode all-pass filters including minimum component count circuits, Active and Passive Electronic Component, 200, 7doi:10.1155/2007/79159.
[5] MOHAN, J., MAHESHWARI, S., CHAUHAN, D. S., Voltage-mode cascadable all-pass section using single active element and grounded passive component, Circuits and Systems, 2015, vol. 1, 1, p. 5 - 11.
[6] KUMNGERN K., LAMUN P., Allpass section-based mixed-mode quadrature sinusoidal oscillator, Proceedings of IEEE Int. con. Control System, Computing and Engineering, 29 Nov.-1 Dec 2013, Penang, Malaysia, 2013, p. 226 – 229.
[7] PANDEY, N., PANDEY, R., PAUL, S. K., A first order all pass filters and its application in a quadrature oscillator, Journal of Electron Devices, 2012, vol. 12, p. 772 – 777.
[8] PANDEY, R., PANDEY, N., MULLICK, R., YADAW, S., ANURANG, R., All pass network based MSO using OTRA, Advances in Electronics, 2015, http:/dx.doi.org/10.1155 /2015/382360.
[9] K. KUMNGERN, U. TORTEANCHAI, Current-tunable current-mode all-pass section using DDCC, Proceedings of Int. Con. Electronics Devices, Sys. and App., 25-27 April 2011, Kuala Lumpur, Malaysia, 2011, p. 217 – 220.
[10] PANDEY N., ARORA P., KAPUR S., MALHOTRA S., First order voltage mode MO-CCCCTA based all pass filter, Proceedings of 2011 International Conference on Communications and Signal Processing (ICCSP), Calicut, 2011, p. 535 - 537.
[11] SONGKLA, N. S., JAIKLA, W., Realization of electronically tunable current-mode first-order allpass filter and its application, World Academy of Science Engineering and Technology, 2012, vol. 6, p. 410 – 413.
[12] TANGSRIRAT, W., Cascadable current-mode first-order allpass filter using current controlled conveyors, Przeglad Elektrotechniczny, vol. 89, no. nr 1a/2013, 2012, p. 187 – 190.
[13] BAJER, B., BIOLEK, D., Voltage-mode electronically tunable all-pass filter employing CCCII+, one capacitor and differential input voltage buffer, Proceedings of IEEE 26th Convention of Electrical and Electronics Engineering, Israel, 17-20 November 2010, Eilat, Israel, 2010, p. 934 – 937.
[14] TSUKUTANI, T., TSUKUTANI, H., SUMI, Y., YABUKI, N., Electronically tunable first-order all pass section using OTAs, Proceedings of Int. Con. Computer App. and Industrial Electronics (ICCAIE2010), December 5-7, 2010, Kuala Lumpur, Malaysia, 2010, p. 548 – 511.
[15] JAIKLA, W., NOPPAKARN, A., LAWANWISUT, S., New gain controllable resistor-less current-mode first order allpass filter and its application, Radioengineering, vol. 21, no. 1, 2011, p. 312 – 316.
[16] KUMNGERN, K., CHANWUTITUM, J., An electronically tunable current-mode first-order allpass filter using a CCCCTA, Proceedings of the 2013 Int. con. Advanced Technologies for Communications (ATC’13), 16-18 October, 2013, Hochiminh, Vietnam, 2013, p. 733 – 736.
[17] TOKER, A., GUNES, E. O., OZOGUZ, S., New high-Q band-pass filter configuration using current controlled current conveyor based all-pass filters, Proceedings of the 8th IEEE Int. Con. Electronics, circuits and Systems, 2-5 September 2001, 2001, p.165 – 168.
[18] HERENCSAR, N., KOTON, J., VRBA, K., METIN, B., Fully cascadable dual-mode all-pass filter based on single DBTA, Proceedings of 35th Int. Con. Telecommunication and Signal Processing (TSP), 3-4 July 2012, Prague, 2014, p. 374 – 377.
[19] TANGSRIRAT, W., TANJAROEN, W., PUKKALANUM, T., Current-mode multiphase sinusoidal oscillator using CDTA-based allpass sections, Int. J. Electron. Commun. (AEU), 2009, vol. 63, no. 7, p. 616 – 622.
[20] HERENCSAR, N., KOTON, J., VRBA, K., METIN, B., Novel voltage conveyor with electronic tuning and its application to resistorless all-pass filter, Proceedings of 34th Int. Con. Telecommunication and Signal Processing (TSP2011), 18-20 Aug. 2011, Budapest, 2011, p. 265-268.
[21] BUDBOONCHU, B., PUKKALANUN, T., TANGSRIRAT, W., Resistorless voltage-mode first-order allpass section using single current-controlled conveyor transconductance amplifier, Indian Journal of Pure & Applied Physics, 2013,vol. 53, no. 5, p.498 – 503.
[22] HERENCSAR, N., MINAEI, S., KOTON, J., YUCE, E., VRBA, K., New resistorless and electronically tunable realization of dual-output VM all-pass filter using VDIBA, Analog Integr Circ Sig Process, 2012, vol. 74, no. 1, p. 141 - 154.
[23] JAIKLA, W., SIRIPRUCHYANUN, M., BAJER, J., BIOLEK, D., A Simple Current-Mode Quadrature Oscillator Using Single CDTA, Radioengineering, 2008, vol. 17, no. 4, p. 33 – 40.
[24] KUMNGERN, M., Realization of electronically tunable first-order allpass filter using single-ended OTAs, Proceedings of IEEE Symposium on Industrial Electronics and Applications (ISIEA2012), 23-26 September 2012, Bandung, 2012, p. 100 – 103.
[25] SEDRA, A., SMITH, K. C., A Second-Generation Current Conveyor and Its Applications, IEEE Transactions on Circuit Theory, 1970, vol. 17, p. 132 - 134.
[26] PROKOP, R., MUSIL, V., New modern circuit block CCTA and some of its applications, Proceedings of the fourteenth international scientific and applied science conference - electronics ET'2005, Book 5. Sofia: TU Sofia, 2005, p. 93 – 98.
[27] LAHIRI, A., Explicite-current-output quadrature oscillator using second-generation current conveyor transconductance amplifier, Radioengineering, 2009, vol. 18, no. 4, p. 522 – 526.
[28] JANTAKUN, A., SIRIPRUCHYANUN, M., An electronically-controllable temperature-insensitive current-mode multifunction biquadratic filter based on DO-CCTA, Proceedings of the 33th Electrical Engineering Conference (EECON-33), Chiangmai, Thailand, December 2010, 2010, p. 1101 – 1104.
[29] PIPATTHIKORN, P., SATTHAPOL, P., PAYAKKUL, K., SRISAKULTEAW, S., SIRIPRUCHYANUN, M., A temperature-insensitive electronically controllable current-mode universal filter using principle of voltage to current converter, Proceedings of the 36th Electrical Engineering Conference (EECON-36), Kanchanaburee, Thailand, 11-13 December 2014, 2014, p. 621 - 624.
[30] JANTAKUN, A., PANIKHOM, S., The realization of grounded simulator based-on CCCTAs, RMUTI Journal Science and Technology, 2016, vol. 9, no. 1, p. 1-18.
[31] PSYCHALINOS, C., KASIMIS, C., KHATEB, F., Multiple-input single-output universal biquad filter using single output operational transconductance amplifiers, AEU - International Journal of Electronics and Communications, 2018, vol. 93, p. 360 – 367.
[32] ABACI, A., YUCE, E., Single DDCC based new immittance function simulators employing only grounded passive elements and their applications, Microelectronics journal, 2019, vol. 83, p. 94 – 103.
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2019-06-30
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Doniesuan, K., Janda, T., & Jantakun, A. (2019). The Temperature Insensitive and Electronic Tuning of Current-mode First-order Allpass Filters: doi: 10.14456/mijet.2019.3. Engineering Access, 5(1), 20–27. Retrieved from https://ph02.tci-thaijo.org/index.php/mijet/article/view/10.14456.mijet.2019.3
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