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Second order current-mode quadrature oscillators using OTAs

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Warianty tytułu
PL
Oscylator prądowy drugiego rzędu wykorzystujący wzmacniacze transkonduktancyjne
Języki publikacji
EN
Abstrakty
EN
This article presents new current-mode quadrature oscillator circuits using OTA which are designed from block diagram. The proposed circuits consist of three OTAs and two grounded capacitors. The circuits have high output impedance appropriate for cascade connection application in current mode technique which is capable to directly drive load. The oscillators use only grounded capacitor which is very appropriate for further development into an integrated circuit. In addition, the condition of oscillation can be adjusted orthogonally from the frequency of oscillation. The results of PSPICE simulation program are corresponding to the theoretical analysis.
W artykule opisano nowy prądowy generator wykorzystujący OTA – operacyjny transkonduktancyjny wzmacniacz. Układ składa się z trzech wzmacniaczy i dwóch uziemionych kondensatorów. Obwód ma dużą impedancję wyjściową.
Rocznik
Strony
156--160
Opis fizyczny
Bibliogr. 40 poz., rys., tab., wykr.
Twórcy
  • School of Electronic Engineering, Suranaree University of Technology, 111 Suranaree Avenue, Muang, Nakhon Ratchasima, 30000, Thailand
autor
  • School of Electronic Engineering, Suranaree University of Technology, 111 Suranaree Avenue, Muang, Nakhon Ratchasima, 30000, Thailand
autor
  • Department of Computer Technology, North Eastern Technological College, Muang District, Khon Kean, 40000, Thailand
autor
  • Department of Electronics and Telecommunication Engineering. Rajamangala University of Technology Isan, Khon-Kean Campus, Muang District, Khon-Kean, 40000, Thailand
Bibliografia
  • [1] Khan I. A., Khawaja S., An integrable gm-C quadrature oscillator, International Journal of Electronics, 87 (2000), 1353-1357
  • [2] Toumazou C., Lidgey F. J., Haigh D.G., Analogue IC design: the current-mode approach, London: Peter Peregrinus, 1990
  • [3] Cam U., Token A., Cicekoglu O., Kuntmam H., Current-mode high output impedance sinusoidal oscillator configuration employing single FTFN, Analog Integrated Circuits and Signal Processing, 24 (2000), 231-238
  • [4] Bhusan M., Newcomb R.W. Grounding of capacitors in integrated circuits, Electronics Letters, 3 (1969), 148-149
  • [5] Soliman A. M., New grounded capacitor current mode bandpass low-pass filters using two balanced output ICCII, Journal of Active and Passive Electronic Devices, 3 (2008), 175-184
  • [6] Yuce E., Minael S. A., A modified CFOA and its applications to simulated inductors, Capacitance Multipliers, and Analog Filters, IEEE Transaction on Circuits and Systems I, 55 (2008), 266-275
  • [7] Abuelma’atti M. T., Al-Zaher H. A., Current-mode sinusoidal oscillators using single FTFN, IEEE Transaction on Circuits and Systems-II: Analog and Digital Signal Processing, 46 (1999), 69-74
  • [8] Soliman A. M., Current mode universal filter, Electronics Letters, 31 (1995), 1420–1421
  • [9] Horng J. W., Current-mode and transimpedance-mode universal biquadratic filter using multiple outputs CCIIs, Indian Journal of Engineering and Materials Sciences, 17 (2010) 169-174
  • [10] Abuelma’atti M. T., A new minimum component active-C OTAbased linear voltage (current)-controlled sinusoidal oscillator, IEEE Transactions on Instrumentation and Measurement, 39 (1990), 795-797
  • [11] Linares-Barranco B., Serrano-Gotarredona T., Ramos-Martos J., Ceballos-Caceres J., Miguel Mora J., Linares-Barranco A., A precise 900 quadrature OTA-C oscillator tunable in the 50–130- MHz range, IEEE Transactions on Circuits and Systems I, 51 (2004) 649-663
  • [12] Odame K. M., Hasler P., An efficient oscillator design based on OTA nonlinearity, Proc. of the IEEE International Symposium on Circuits and Systems (ISCAS 2007), (2007), 921-924
  • [13] Pranayanuntana P., Khwankaew W., An electronically adjustable amplitude of OTA-Based sinusoidal nonlinear oscillator, International Conference on Digital Image Processing, (2009), 335-340
  • [14] Das B. P., Watson N., Liu Y. H., Bipolar OTA based voltage controlled sinusoidal oscillator, International Conference on Circuits, Systems , Signals, (2010), 101-105
  • [15] Linares-Barranco B., Rodriguez-Vazquez A., Sanchez-Sinencio E., Huertas J. L., CMOS OTA-C high-frequency sinusoidal oscillators, IEEE Journal of Solid-state Circuits, 26 (1991), 160-165
  • [16] Abuelma’atti M. T., Almaskati R. H., Digitally programmable active-C OTA-based oscillator, IEEE Transactions on Instrumentation and Measurement, 37 (1988), 320-322
  • [17] Prommee., Angkeaw K., Chanwutitum J., Dejhan K., Dual input all-pass networks using MO-OTA and its application, Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology, (2007), 129-132
  • [18] Nacaroglu A., Ercelebi E., Effects of parasitic elements on oscillation frequency, Turkish Journal of Electrical Engineering & Computer Sciences, 7 (1999), 39-44
  • [19] Sotner R., Jerabek J., Petrzela J., Dostal T., Vrba K., Electronically tunable simple oscillator based on single-output and multiple-output transconductor, IEICE Electronic Express, 6 (2009), 1476-1482
  • [20] Linares-Barranco B., Rodriguez-Vazquez A., Sanchez-Sinencio E., Huertas J. L., 10MHz CMOS OTA-C voltage-controlled quadrature oscillator, Electronics Letters, 25 (1989), 765-767
  • [21] Singh V., Equivalent forms of dual-OTA RC oscillators with application to grounded-capacitor oscillators, IEE Proceedings- Circuits, Devices and Systems, 153 (2006), 95-99
  • [22] Linares-Barranco B., Rodriguez-Vazquez A., Huertas J. L., Sanchez-Sinencio E., Hoyle J. J., Generation and design of sinusoidal oscillators using OTAs, IEEE International Symposium on Circuits and Systems, (1988), 2863-2866
  • [23] Linares-Barranco B., Rodriguez-Vbquez A., Sanchez-Sinencio E., Huertas J. L., Generation, design and tuning of OTA-C highfrequency sinusoidal oscillators, IEE Proceedings-Circuits, Devices and Systems, 139 (1992), 557-568
  • [24] Tao Y., Fidler K. J., Generation of canonic multiple current output OTA sinusoidal oscillators with non-interacting controls, IEEE International Symposium on Circuits and Systems, (1998), 96- 99
  • [25] Senani R., New electronically tunable OTA-C sinusoidal oscillator, Electronics Letters, 25 (1989), 286-287
  • [26] Abuelma’atti M. T., New minimum component electronically tunable OTA-C sinusoidal oscillators, Electronics Letters, 25 (1989), 1114-1115
  • [27] Abuelma’atti M. T., Khan M. H., New minimum-component OTA-based sinusoidal oscillators, Active and Passive Electronic Components, 19 (1996), 33-40
  • [28] Rodrguez-Vazqueza A., Linares-Barranco B., Huertas J. L., Sanchez-Sinencio E, On the design of voltage-controlled sinusoidal oscillators using OTAs, IEEE Transactions on Circuits and Systems, 37 (1990), 198-211
  • [29] Masood-ul-Hasan et al., Oscillation-based DFT for secondorder OTA-C filters, IEEE International Symposium on Circuits and Systems, (2008), 720-723
  • [30] Senani et al R., Systematic generation of OTA-C sinusoidal oscillators, Electronics Letters, 26 (1990), 1457-1459
  • [31] Hakan K., Aydin O., On the realization of DO-OTA-C oscillators, Microelectronics Journal, 29 (1998), 991-997
  • [32] Linares-Barranco B., Sanchez-Sinencio E., Rodriquez- Vazquez A., Huertas J. L., Very high frequency CMOS OTA-C quadrature oscillators, IEEE International Symposium on Circuits and Systems, (1990), 3189-3192
  • [33] Kwawsibsam A., Sreewirote B., Jaikla W., Third-order voltagemode quadratrue oscillator using DDCC and OTAs, International Conference on Circuits, System and Simulation, (2011), 317-321
  • [34] Galan J., Carvajal R. G., Munoz F., Torralba A., Ramirez-Angulo J., A low-power low-voltage OTA-C sinusoidal oscillator with more than two decades of linear tuning range, International Symposium on Circuits and Systems, I-677 - I-680, 2003
  • [35] Abuelma’atti M.T., A new electronically tunable integrable CCIIOTA-Based Active-C Oscillator, European Transactions on Telecommunications, 2 (1991), 353-355
  • [36] De Lima J. A., A linearly-tunable OTA-C sinusoidal oscillator for low-voltage applications, European Transactions on Telecommunications IEEE International Symposium on Systems, II-408-II-411, 2002
  • [37] Menbari B., Suratgar A. A., A low- power low-voltage VCO with wide range tuning controlled by adaptive neural network, European Transactions on Telecommunications IEEE International Frequency Control Symposium and Exposition, (2006), 567-574
  • [38] Loizos D.N., Sotiriadis P.P., A quadrature sinusoidal oscillator with phase-preserving linear frequency control and independent static amplitude control, European Transactions on Telecommunications IEEE International Symposium on Circuits and Systems, (2006), 5043-5046
  • [39] Summart S., Thongsopa C., Jaiklaa w., OTA based currentmode sinusoidal quadrature oscillator with non-interactive control, Przeglad Elektrotechniczny (Electrical Review), 88 (2012), 14-17
  • [40] Frey D., Log-domain filtering: an approach to current-mode filtering, IEE Proceedings-Circuits, Devices and Systems, 140 (1993), 406-416
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e5acacf6-49ea-4869-8802-d6b6ddff281b
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