MCBTA AKTİF ELEMANI KULLANILARAK AKIM MODLU DİKGEN SİNÜSOİDAL OSİLATÖR DEVRESİ TASARIMI

Bu çalışmada, Değiştirilmiş Akım Geriyönlü Geçiş-iletkenliği Kuvvetlendiricisi (Modified Current Backward Transconductance Amplifier-MCBTA) aktif elemanı kullanılarak yeni bir akım modlu dikgen sinusoidal osilatör (quadrature oscillator) devresi tasarımı gerçekleştirilmiştir. Önerilen dikgen sinusoidal osilatör devresi iki adet MCBTA, iki adet bir ucu topraklı kapasite elemanı ve bir adet bir ucu topraklı direnç elemanından oluşmaktadır. Önerilen devrenin akım çıkış uçları yüksek çıkış empedansına sahiptir ve ard arda bağlanmaya uygun yapıdadır. Osilasyon şartı bir direnç elemanı ile ve/veya MCBTA aktif elemanının geçiş iletkenliği parametresi (gm) ile kontrol edilebilmektedir. Önerilen devrenin doğruluğu PSPICE simülasyonları gerçekleştirilerek gösterilmiştir. MCBTA aktif elemanının CMOS gerçeklemesi TSMC 0.25 µm üretim parametreleri için gerçekleştirilmiş ve simülasyon sonuçları elde edilmiştir.

Anahtar Kelimeler:

Dikgen Sinüsoidal Osilatör Devresi, Değiştirilmiş Akım Geriyönlü Geçiş-iletkenliği Kuvvetlendiricisi, Aktif Devreler, Analog Tümdevreler, Akım Modlu Devreler

CURRENT MODE QUADRATURE OSCILLATOR CIRCUIT DESIGN USING MCBTA ACTIVE COMPONENT

In this study, a new current-mode quadrature sinusoidal oscillator circuit using modified current backward transconductance amplifier (MCBTA) are introduced. A new quadrature sinusoidal oscillator circuit employs two MCBTAs, two grounded capacitors and one grounded resistor. The current outputs of the proposed circuit provide high-frequency sinusoidal oscillation in quadrature at high impedance current output terminals of the MCBTAs. The oscillation condition of the proposed quadrature oscillator is controlled by one resistor and/or (gm) transconductance value of MCBTAs. The validity of the proposed circuits is verified PSPICE simulations. CMOS implementation of the MCBTA is performed for TSMC 0.25 µm process parameters and simulation results are obtained.

Keywords:

Quadrature Sinusoidal Oscillator Circuit, Modified Current Backward Transconductance Amplifier, Active Networks, Analog Integrated Circuits, Current-Mode Circuits.,

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Abaci, A., Yuce, E., 2017. Modified DVCC based quadrature oscillator and lossless grounded inductor simulator using grounded capacitor(s). Int. J. Electron. Commun. (AEÜ), 76, 86–96.
Abdalla, K.K., Bhaskar, D.R., Senani, R., 2012. Configuration for realising a current-mode universal filter and dual-mode quadrature single resistor controlled oscillator. IET Circuits Devices Syst., 6(3), 159–167.
Abuelma’atti, M. T., 1992. Grounded Capacitor Current-Mode Oscillator Using Single Current Follower. IEEE Trans. Circuits and Systems-I: Fundamental Theory and Applications, 39, 1018-1020.
Abuelma’atti, M. T., 2017. Recent Developments in Current-Mode Sinusoidal Oscillators: Circuits and Active Elements. Arab J. Sci. Eng. 42, 2583–2614.
Ayten, U. E., Sagbas, M., Sedef, H., 2010. Current mode leapfrog ladder filters using a new active block. AEÜ-International Journal of Electronics and Communications, 64-6, 503-511.
Ayten, U.E., Sagbas, M., Herencsar, N., Koton, J., 2012. Novel Floating General Element Simulators Using CBTA. Radioengineering, 21-1, 11-19.
Ayten, U.E., Sagbas, M., Minaei, S., 2014. Realization of Low-Voltage Modified CBTA and Design of Cascadable Current-Mode All-Pass Filter. Radioengineering, 23-1, 523-531.
Biolek, D., Lahiri, A., Jaikla, W., Siripruchyanun, M., Bajer, J., 2011. Realization of electronically tunable voltage-mode/current-mode quadrature sinusoidal oscillator using ZC-CG-CDBA. Microelectronics Journal, 42, 1116–1123.
Cakir, C., Cam, U., Cicekoglu, O., 2005. Novel Allpass Filter Configuration Employing Single OTRA. IEEE Tran. On Circuits and Systems-II: Express Briefs, 52-3, 122-125.
Chen, H.P., Wang, S.F., Ku, Y.T., 2015. CCCCTA Based Resistorless Voltage and Current Mode Quadrature Oscillator. IEICE Electronic Express, 12(13), 1-12.
Fabre, A., Longuemard, J.P., 1990. Sine-wave oscillator with quadrature output currents. Int. Journal of Electronics, 68, 399-404.
Ferri, G., Guerrini, N.C., 2003. Low-Voltage Low-Power CMOS Current Cunveyors. Kluwer Academic Publishers, London.
Herencsar, N., Koton, J., Vrba, K., Lahiri, A., Ayten, U. E., Sagbas, M., 2011. A new compact CMOS realization of sinusoidal oscillator using a single modified CBTA. 21st International Conference Radioelektronika, Brno, Czech Republic, 41-44.
Herencsar, N., Lahiri, A., Vrba, K., Koton, J., 2012. An electronically tunable current-mode quadrature oscillator using PCAs. International Journal of Electronics, 99(5), 609–621.
Herencsar, N., Sotner, R., Metin, B., Koton, J., Vrba, K., 2013. VDDDA – New ‘Voltage Differencing’ Device for Analog Signal Processing. Electrical and Electronics Engineering (ELECO), 8th International Conference on, Bursa, Turkey, 17-20.
Herencsar, N., Koton, J., Lahiri, A., Ayten, U.E., Sagbas, M., 2018. Resistorless Current-Mode First-Order All-Pass Filter with Electronic Tuning Employing Low-Voltage CBTA and Grounded Capacitor. Journal of Circuits, Systems and Computers, 27(2), 1850031 [21 pages].
Horng, J.W., 2002. Current differencing buffered amplifiers based single resistance controlled quadrature oscillator employing grounded capacitors. IEICE Trans. Fundamental, E85-A2, 1416-1419.
Ibrahim, M.A., Minaei, S., Yuce, E., 2012. All-pass sections with rich cascadability and IC realization suitability. Int. J. Circ. Theor. Appl, 40, 461–472. Jaikla, W., Siripruchyanun, M., Bajer, J., Biolek, D., 2008. A Simple Current-Mode Quadrature Oscillator Using Single CDTA. Radioengineering, 17, 33–40. Jantakun, A., Jaikla, W., 2015. Active-only current-mode first-order allpass filter and its application in quadrature oscillator. Indian Journal of Pure Applied Physics, 53, 557-563.
Jin, J., Wang, C., 2012. Single CDTA-based current-mode quadrature oscillator. Int. J. Electron. Commun. (AEÜ), 66, 933– 936.
Jin, J., Wang, C., 2014. CDTA-based electronically tunable current-mode quadrature oscillator. International Journal of Electronics, 101(8), 1086–1095.
Jin, J., Wang, C., 2014. Current-mode universal _lter and quadrature oscillator using CDTAs. Turk J Elec Eng & Comp Sci., 22, 276- 286.
Kaewdang, K., Surakampontorn, W., 2007. On the realization of electronically current-tunable CMOS OTA. AEÜ-Int. J. Electron. Commun., 61, 300 – 306.
Keskin, A.U., Biolek, D., 2006. Current-mode quadrature oscillator using current differencing transconductance amplifiers (CDTA). IEE Proc. Circuits Devices Syst., 153-3, 2140-218.
Keskin, A.U., Aydin, C., Hancioglu, E., Acar, C., 2006. Quadrature Oscillator Using Current Differencing Buffered Amplifiers (CDBA). Frequenz, 60, 21-23.
Kumari, S., Gupta, M., 2017. Design and analysis of high Transconductance Current Follower Transconductance Amplifier (CFTA) and its applications. Analog Integr. Circ. Sig. Process., 93, 489–506.
Kumngern, M., Dejhan, K., 2009. DDCC-Based Quadrature Oscillator with Grounded Capacitors and Resistors. Active and Passive Electronic Components, 1–4.
Lahiri, A., 2012. Current-mode variable frequency quadrature sinusoidal oscillators using two CCs and four passive components including grounded capacitors. Analog Integr. Circ. Si.g Process., 71, 303–311.
Li, Y., 2015. Systematic Derivation for Quadrature Oscillators Using CCCCTAs. Radioengineering, 24(2), 535-543.
Maheshwari, S., Agrawal, D., 2017. Cascadable and Tunable Analog Building Blocks Using EX-CCCII. Journal of Circuits, Systems, and Computers, 26(6), 1750093 (16 pages).
Minhaj, N., 2007. Current conveyor-based voltage-mode two-phase and four-phase quadrature oscillator. Int. Journal of Electronics, 94-7, 663-669.
Ngiamvibool, W. S., Jantakun, A., 2014. Quadrature oscillator using CCCCTAs and grounded capacitors with amplitude controllability. International Journal of Electronics, 101(12), 1737–1758.
Prasad, D., Bhaskar, D.R., Singh, A.K., 2011. Electronically Controllable Grounded Capacitor Current-Mode Quadrature Oscillator Using Single MO-CCCDTA. Radioengineering, 20(1), 354-359.
Sagbas, M., Ayten, U.E., Sedef, H., 2010. Current and voltage transfer function filters using a single active device. IET Circuits Devices and Systems, 4-1, 78-86.
Sagbas, M., Ayten, U.E., Herencsar, N., Minaei, S., 2013. Current and Voltage Mode Multiphase Sinusoidal Oscillators Using CBTAs. Radioengineering, 22(1), 24-33.
Sagbas, M., Ayten, U.E., Sedef, H., Minaei, S., 2017. Modified Gorski-Popiel Technique and Synthetic Floating Transformer Circuit Using Minimum Components. Journal of Circuits, Systems, and Computers, 26(1), 1750013 (21 pages).
Satipar, D., Intani, P., Jaikla, W., 2017. Electronically Tunable Quadrature Sinusoidal Oscillator with Equal Output Amplitudes during Frequency Tuning Process. Hindawi Journal of Electrical and Computer Engineering, Article ID 8575743, 10 pages.
Siripruchyanun, M., 2015. A CMOS Electronically Controllable Current-Mode Sinusoidal Quadrature Oscillator Using Single DDCCTA and Grounded Passive Elements. Telecommunications and Signal Processing (TSP), 38th International Conference on, Prague, Czech Republic, 9-11.
Sotner, R., Jerabek, J., Prokop, R., Vrba, K., 2011. Current Gain Controlled CCTA and its Application in Quadrature Oscillator and Direct Frequency Modulator. Radioengineering, 20-1, 317-326.
Sotner, R., Lahiri, A., Kartci, A., Herencsar, N., Jerabek, J., Vrba, K., 2013. Design of Novel Precise Quadrature Oscillators Employing ECCIIs with Electronic Control. Advances in Electrical and Computer Engineering, 13(2), 65-72.
Sotner, R., Jerabek, J., Herencsar, N., 2013. Voltage Differencing Buffered/Inverted Amplifiers and Their Applications for Signal Generation. Radioengineering, 22(2), 490-504.
Sotner, R., Jerabek, J., Langhammer, L., Polak, J., Herencsar, N., Prokop, R., Petrzela, J., Jaikla, W., 2015. Comparison of Two Solutions of Quadrature Oscillators With Linear Control of Frequency of Oscillation Employing Modern Commercially Available Devices. Circuits Syst Signal Process, 34, 3449–3469.
Summart, S., Thongsopa, C., Jaikla, W., 2015. New current-controlled current-mode sinusoidal quadratureoscillators using CDTAs. Int. J. Electron. Commun. (AEÜ), 69, 62–68.
Tangsrirat, W., Surakampontorn, W., 2009. Single-Resistance-Controlled Quadrature Oscillator and Universal Biquad Filter Using CFOAs. AEU–International Journal of Electronics and Communications, 63, 1080–1086.
Tangsrirat, W., Tanjaroen, W., 2010. Current-mode sinusoidal oscillator with independent control of oscillation frequency and condition using CDTAs. Indian Journal of Pure Applied Physics, 48, 363-366.
Thitimahatthanagusol, P., Saetiaw, C., Thosdeekoraphat, T., Thongsopa, C., Summart, S., 2017. CCCIIs-Based First-Order All-Pass Filter and Quadrature Oscillators. Journal of Circuits, Systems, and Computers, 26(6), 1750094(18 pages).
Toker, A., Özcan, S., Kuntman, H., Çiçekoğlu, O., 2001. Supplementary all-pass sections with reduced number of passive elements using a single current conveyor. Int. Journal of Electronics, 88. 969-976.
Yesil, A., Kacar, F., Gurkan, K., 2016. Design And Experimental Evaluation Of Quadrature Oscillator Employing Single FB–VDBA. Journal of Electrical Engineering, 67(2), 137–142.
Yesil, A., Konalb, M., Kacar, F., 2017. Electronically Tunable Quadrature Oscillator Employing Single Differential Difference Transconductance Amplifier. Acta Physica Polonica A, 132, 843-845.