Research Article
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Year 2024, Volume: 12 Issue: 2, 753 - 758, 29.06.2024
https://doi.org/10.29109/gujsc.1487193

Abstract

References

  • [1] Mohammed AA, Mahmood, Z.K. and Demirel, H., New Z copy-current differencing transconductance amplifier active filter using FinFET transistor based current Mode Universal Filter. Global Journal of Engineering and Technology Advances, 18(02), pp.001-005, (2024).
  • [2] Demirel H and Ahmed A, “New FinFet Transistor Implementation of Floating and Grounded Inductance Simulator Based on Active Elements”., Gazi Journal of Engineering Sciences, vol. 9, no. 3, pp. 647–653, (2024).
  • [3] Mohammed AA, Demirel H, Mahmood ZK., Analysis fin field-effect transistor design with high-k insulators. Nexo Revista Científica. 31;36(06):892-905, (2023).
  • [4] Mohammed AA and Demirel H., Integration of Quadrature Oscillator and Floating Inductor in FinFET Transistor Design: Innovations and Applications. Iranian Journal of Electrical & Electronic Engineering, 19(04), p.1., (2023).
  • [5] Shakir AM, Design of Voltage Mode 6th Order Elliptic Band-pass Filter Using Z-Copy Current Follower Transconductance Amplifier) ZC-CFTA. Kirkuk University Journal-Scientific Studies, 12(2), pp.271-285, (2017).
  • [6] Ahmed A and Demirel H, Design Third order Sinusoidal Oscillator Employing Current Differencing Cascaded Trans conductance Amplifiers. Gazi University Journal of Science Part C: Design and Technology, 11(3), pp.735-743, (2023).
  • [7] Demirel H and Ahmed A, A Low-Power 30MHz, 6th Order Bandpass Differential Gm-C Filter on Chip Utilizing Floating Current Source. Kastamonu University Journal of Eng. and Sciences, 9(2), pp. 96-103, (2023).
  • [8] Feng J, Wang C, Zang M, & Ren Y, Realization of current-mode general nth-order filter based on current mirrors. 3rd International Conference on Advanced Computer Control. IEEE, 367-370, (2011).
  • [9] Senani R, Bhaskar DR, Singh VK, Sharma RK, Sinusoidal Oscillators and Waveform Generators Using Modern Electronic Circuit Building Blocks; Springer: Cham, Switzerland, (2016).
  • [10] Bhaskar DR, Sharma VK, Monis M, Rizvi SMI, New current-mode universal biquad filter. Microelectron. J. 30, 837–839, (1999).
  • [11] Prommee, P.; Khateb, F., High-performance current-controlled CDCCC and its applications. Indian J. Pure Appl. Phys. 1999, 52, 708–716, (2014).
  • [12] Lahiri AD, (MO)(I)CCCII based second-order sinusoidal oscillators, Radioeng., 20, 349–353, (2011).
  • [13] Horng JW, Current differencing buffered amplifiers based single resistance controlled quadrature oscillator employing grounded capacitors. IEICE Trans. Fundam. Electron. Commun. Comput. Sci., 8, 1416–1419, (2002).
  • [14] Lahiri A, Explicit-current-output quadrature oscillator using second-generation current conveyor transconductance amplifier. Radio engineering, 18, 522–526, (2009).
  • [15] Biolek D, Keskin AU, Biolkova, V. Grounded capacitor current mode single resistance - controlled oscillator using single modified current differencing trans conductance amplifier. IEE Proc. Circuits Devices Syst., 4, 496–502, (2010).
  • [16] Kumngern M, Lamun P, Dejhan K, Current-mode quadrature oscillator using current differencing transconductance amplifiers. Int. J. Electron., 99, 971–986, (2012).
  • [17] Jaikla W, Lahiri A, Resistor-less current-mode four-phase quadrature oscillator using CCCDTAs and grounded capacitors. AEÜ–Int. J. Electronics Communication, 66, 214–218, (2012).
  • [18] Sa-Ngiamvibool W, Jantakun A, Quadrature oscillator using CCCCTAs and grounded capacitors with amplitude controllability. Int. J. Electron. 101, 1737–1758, (2014).
  • [19] Prasad D, Srivastava M, Bhaskar DR, Electronically controllable fully uncoupled explicit current-mode quadrature oscillator using VDTAs and grounded capacitors. Circuits Syst. 4, 169–172, (2013).
  • [20] Prommee P, Dejhan K, An integrable electronic controlled sinusoidal oscillator using CMOS operational transconductance amplifier, Int. J. Electron. 89, 365–379. (2002).
  • [21] Maheshwari S, Khan IA, Current controlled third order quadrature oscillator. IEE Proc. Circuits Devices Syst. 152, 605–607, (2005).
  • [22] Lawanwisut S, Siripruchyanun M, High output-impedance current-mode third-order quadrature oscillator based on CCCCTAs. In Proceedings of the IEEE Region 10 Conference (TENCON ’09), Singapore, 23–26 November; pp. 1–4, (2009).
  • [23] Maheshwari S., Quadrature oscillator using grounded components with current and voltage outputs. IET Circuits Devices Syst. 2009, 3, 153–160.
  • [24] Horng JW, Lee H, Wu JY, Electronically tunable third-order quadrature oscillator using CDTAs. Radio engineering, 19, 326–330, (2010).
  • [25] Horng JW, Current/voltage-mode third order quadrature oscillator employing two multiple outputs CCIIs and grounded capacitors. Indian J. Pure Applied Physics, 49, 494–498, (2011).
  • [26] Chaturvedi B, Maheshwari S, Third-order quadrature oscillator circuit with current and voltage outputs. ISRN Electron, 385062, (2013).
  • [27] Pandey R, Pandey N, Komanapalli G, Anurag R, OTRA based voltage mode third order quadrature oscillator. ISRN Electron., 126471, (2014).
  • [28] Pandey N, Approach for third order uadrature oscillator realization. IET Circuits Devices Syst., 9,161–171, (2015).
  • [29] Maheshwari S, Singh SV, Chauhan DS, Electronically tunable low-voltage mixed-mode universal biquad filter. IET Circuits Devices Syst., 5, 149–158, (2011).
  • [30] Jaikla W, Siripongdee S, Suwanjan P, MISO current-mode biquad filter with independent control of pole frequency and quality factor, Radio engineering, 21, 886–891, (2012).
  • [31] Razavi B, A study of phase noise in CMOS oscillators. IEEE J. Solid State Circuits, 31, 331–343, (1996).

Current-mode Universal Filter using Fin type Field Effect Transistor (FinFET) Transistor-Based Multioutput Current Controlled Current Conveyor Transconductance Amplifiers

Year 2024, Volume: 12 Issue: 2, 753 - 758, 29.06.2024
https://doi.org/10.29109/gujsc.1487193

Abstract

For single digit nanometric dimensions, the fin type Field Effect Transistor (FinFET) transistor is a promising technology. FinFETs are utilized to reduce power consumption and boost performance since the two gate voltages may be regulated independently or dependently. This work investigates the design of multioutput current-controlled current conveyor transconductance amplifiers, or M.O.C.C.C.C.T.A.s. to carry out all standard operations, such as LP, HP, BS, BP, and AP. One of the circuit's features is its capacity to change the pole frequency electrically and independently by applying the proper input bias currents based on the quality factor. There are merely two grounded capacitors and two M.O.C.C.C.C.T.A.s in the simple circuit design. The recommended design is perfect for further development into an integrated circuit because it only contains grounded components and does not require any external resistors. The FinFET 7 nm PTM-MG model is used in LT-spice to simulate the suggested active filter circuit. The obtained findings are in good agreement with the theoretical prediction.

References

  • [1] Mohammed AA, Mahmood, Z.K. and Demirel, H., New Z copy-current differencing transconductance amplifier active filter using FinFET transistor based current Mode Universal Filter. Global Journal of Engineering and Technology Advances, 18(02), pp.001-005, (2024).
  • [2] Demirel H and Ahmed A, “New FinFet Transistor Implementation of Floating and Grounded Inductance Simulator Based on Active Elements”., Gazi Journal of Engineering Sciences, vol. 9, no. 3, pp. 647–653, (2024).
  • [3] Mohammed AA, Demirel H, Mahmood ZK., Analysis fin field-effect transistor design with high-k insulators. Nexo Revista Científica. 31;36(06):892-905, (2023).
  • [4] Mohammed AA and Demirel H., Integration of Quadrature Oscillator and Floating Inductor in FinFET Transistor Design: Innovations and Applications. Iranian Journal of Electrical & Electronic Engineering, 19(04), p.1., (2023).
  • [5] Shakir AM, Design of Voltage Mode 6th Order Elliptic Band-pass Filter Using Z-Copy Current Follower Transconductance Amplifier) ZC-CFTA. Kirkuk University Journal-Scientific Studies, 12(2), pp.271-285, (2017).
  • [6] Ahmed A and Demirel H, Design Third order Sinusoidal Oscillator Employing Current Differencing Cascaded Trans conductance Amplifiers. Gazi University Journal of Science Part C: Design and Technology, 11(3), pp.735-743, (2023).
  • [7] Demirel H and Ahmed A, A Low-Power 30MHz, 6th Order Bandpass Differential Gm-C Filter on Chip Utilizing Floating Current Source. Kastamonu University Journal of Eng. and Sciences, 9(2), pp. 96-103, (2023).
  • [8] Feng J, Wang C, Zang M, & Ren Y, Realization of current-mode general nth-order filter based on current mirrors. 3rd International Conference on Advanced Computer Control. IEEE, 367-370, (2011).
  • [9] Senani R, Bhaskar DR, Singh VK, Sharma RK, Sinusoidal Oscillators and Waveform Generators Using Modern Electronic Circuit Building Blocks; Springer: Cham, Switzerland, (2016).
  • [10] Bhaskar DR, Sharma VK, Monis M, Rizvi SMI, New current-mode universal biquad filter. Microelectron. J. 30, 837–839, (1999).
  • [11] Prommee, P.; Khateb, F., High-performance current-controlled CDCCC and its applications. Indian J. Pure Appl. Phys. 1999, 52, 708–716, (2014).
  • [12] Lahiri AD, (MO)(I)CCCII based second-order sinusoidal oscillators, Radioeng., 20, 349–353, (2011).
  • [13] Horng JW, Current differencing buffered amplifiers based single resistance controlled quadrature oscillator employing grounded capacitors. IEICE Trans. Fundam. Electron. Commun. Comput. Sci., 8, 1416–1419, (2002).
  • [14] Lahiri A, Explicit-current-output quadrature oscillator using second-generation current conveyor transconductance amplifier. Radio engineering, 18, 522–526, (2009).
  • [15] Biolek D, Keskin AU, Biolkova, V. Grounded capacitor current mode single resistance - controlled oscillator using single modified current differencing trans conductance amplifier. IEE Proc. Circuits Devices Syst., 4, 496–502, (2010).
  • [16] Kumngern M, Lamun P, Dejhan K, Current-mode quadrature oscillator using current differencing transconductance amplifiers. Int. J. Electron., 99, 971–986, (2012).
  • [17] Jaikla W, Lahiri A, Resistor-less current-mode four-phase quadrature oscillator using CCCDTAs and grounded capacitors. AEÜ–Int. J. Electronics Communication, 66, 214–218, (2012).
  • [18] Sa-Ngiamvibool W, Jantakun A, Quadrature oscillator using CCCCTAs and grounded capacitors with amplitude controllability. Int. J. Electron. 101, 1737–1758, (2014).
  • [19] Prasad D, Srivastava M, Bhaskar DR, Electronically controllable fully uncoupled explicit current-mode quadrature oscillator using VDTAs and grounded capacitors. Circuits Syst. 4, 169–172, (2013).
  • [20] Prommee P, Dejhan K, An integrable electronic controlled sinusoidal oscillator using CMOS operational transconductance amplifier, Int. J. Electron. 89, 365–379. (2002).
  • [21] Maheshwari S, Khan IA, Current controlled third order quadrature oscillator. IEE Proc. Circuits Devices Syst. 152, 605–607, (2005).
  • [22] Lawanwisut S, Siripruchyanun M, High output-impedance current-mode third-order quadrature oscillator based on CCCCTAs. In Proceedings of the IEEE Region 10 Conference (TENCON ’09), Singapore, 23–26 November; pp. 1–4, (2009).
  • [23] Maheshwari S., Quadrature oscillator using grounded components with current and voltage outputs. IET Circuits Devices Syst. 2009, 3, 153–160.
  • [24] Horng JW, Lee H, Wu JY, Electronically tunable third-order quadrature oscillator using CDTAs. Radio engineering, 19, 326–330, (2010).
  • [25] Horng JW, Current/voltage-mode third order quadrature oscillator employing two multiple outputs CCIIs and grounded capacitors. Indian J. Pure Applied Physics, 49, 494–498, (2011).
  • [26] Chaturvedi B, Maheshwari S, Third-order quadrature oscillator circuit with current and voltage outputs. ISRN Electron, 385062, (2013).
  • [27] Pandey R, Pandey N, Komanapalli G, Anurag R, OTRA based voltage mode third order quadrature oscillator. ISRN Electron., 126471, (2014).
  • [28] Pandey N, Approach for third order uadrature oscillator realization. IET Circuits Devices Syst., 9,161–171, (2015).
  • [29] Maheshwari S, Singh SV, Chauhan DS, Electronically tunable low-voltage mixed-mode universal biquad filter. IET Circuits Devices Syst., 5, 149–158, (2011).
  • [30] Jaikla W, Siripongdee S, Suwanjan P, MISO current-mode biquad filter with independent control of pole frequency and quality factor, Radio engineering, 21, 886–891, (2012).
  • [31] Razavi B, A study of phase noise in CMOS oscillators. IEEE J. Solid State Circuits, 31, 331–343, (1996).
There are 31 citations in total.

Details

Primary Language English
Subjects Circuits and Systems, Electrical Circuits and Systems
Journal Section Tasarım ve Teknoloji
Authors

Huseyin Demirel 0000-0003-2983-1425

Early Pub Date June 26, 2024
Publication Date June 29, 2024
Submission Date May 20, 2024
Acceptance Date May 30, 2024
Published in Issue Year 2024 Volume: 12 Issue: 2

Cite

APA Demirel, H. (2024). Current-mode Universal Filter using Fin type Field Effect Transistor (FinFET) Transistor-Based Multioutput Current Controlled Current Conveyor Transconductance Amplifiers. Gazi Üniversitesi Fen Bilimleri Dergisi Part C: Tasarım Ve Teknoloji, 12(2), 753-758. https://doi.org/10.29109/gujsc.1487193

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