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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Zrównoważony integrator strojony prądowo wykorzystujący technikę CAPRIO
Języki publikacji
Abstrakty
This paper describes the improvement of an integrable fully-balanced wide-frequency current-turnable integrator with Caprio technique. The architecture of the circuit is relatively simple and symmetrical with different signals. The circuit of our interest are the integrator circuits as the basic functional circuit for current mode filters and the Caprio technique translated to integrator for an implementation of low input impedance differential current input. After the hand setting of the circuit parameters of Caprio technique, they were optimized to improve total harmonic distortion and intermodulation performance. The proposed conversion circuit is simple, very suitable for application and implementing. Experimental and simulation results found in a good with theoretical analysis are included.
W artykule opisano zrównoważony, szerokoczęstotliwościowy integrator wykorzystujący technikę CAPRIO. Układ może być stosowany w filtrach z wejściem prądowym o małej impedancji.
Wydawca
Czasopismo
Rocznik
Tom
Strony
136--139
Opis fizyczny
Bibliogr. 22 poz., rys., tab., wykr.
Twórcy
autor
- Faculty of Engineering, Mahasarakham University, Tambon Khamriang, Kantharawichai District, Maha Sarakham 44150 Thailand
autor
- Faculty of Engineering, Mahasarakham University, Tambon Khamriang, Kantharawichai District, Maha Sarakham 44150 Thailand
Bibliografia
- [1] V. Gopinathan, M. Tarsia, and D. Chio, “Design considerations and implementation of a programmable high-frequency continuous-time filter and variable-gain amplifier in submicrometer CMOS,” IEEE Journal of Solid State Circuits, 34(1999), no. 12, 1698–1707.
- [2] G. Groenewold, “Optimal dynamic range integrators,” IEEE Transactions on Circuits and Systems: Fundamental Theory and Applications, 39(1992), no. 8, 614–627.
- [3] M.A. Al-Alaoui, “A differential integrator with a built-in highfrequency compensation,” IEEE Transactions on Circuits and Systems: Fundamental Theory and Applications, 45(1998), no. 5, 517–522.
- [4] Z.Y. Chang, D.H. Haspeslagh, and J. Verfaillie, “A highly linear CMOS Gm-C band-pass filter with on-chip frequency tuning,” IEEE Journal of Solid State Circuits, 32(1997), no. 3, 388–397.
- [5] A.L. Karsilayan and M.A. Tan, “Current-Mode Tunable Integrator for Low Voltage Applications,” Electronics Lefters, 31(1995), no.18, 1525-1526.
- [6] P.Visocchi, J. Taylor and A. Betts, “Fully Balanced Tunable GaAs MESFET OTA-C Integrator Suitable for High Precision Filtering Applications,” Electronics Letters, 28(1992), no.6, 537-539.
- [7] P. Visocchi, J. Taylor and A. Betts, “Novel Tunable GaAs MESFET OTA-C Integrator Suitable for High Precision Filtering Applications,” Circuits and Systems, 1(1992), 212-215
- [8] R. Nandi and U.C. Sarker, “Precise Frequency Compensation of Tunable Active-RC Integrator,” Electronics Letters, 27(1991), no.9, 751-753.
- [9] R. Schaumann, M.S. Ghausi and K.R. Laker, “Design of Analogue Filters Passive, Active RC and Switched Capacitor,” Prentice-Hall, Chapter 7, (1990).
- [10] R. Caprio, “Precision differential voltage-current converter,” IEE Electronics Letter, 9(1973), no.6, 147–149.
- [11] C. Toumazou, J. Lidgey and D. Haigh, “Analogue IC Design: the Current-Mode Approach,” Peter Peregrinus Ltd., (1990), 71-74.
- [12] P.R. Gray and R.G. Meyer, “Analysis and Design of Analog Integrated Circuits,” John Wiley & Sons, New York, (1993).
- [13] M.T. Abuelma'atti, “Harmonic and intermodulation performance of current-feedback bipolar-transistor differential amplifiers,” Int. J. Electron., 57(1984) 247-251,
- [14] D. Feucht, “Handbook of Analog Circuit Design,” Academic Press, New York, (1990).
- [15] H. Tanimoto, M. Koyama and Y. Yoshihihiro, “Realization of a 1-V active filter using a linearization technique employing plurality of emitter-coupled pairs,” IEEE J. Solid-State Circuits, 26(1991), 937-945.
- [16] H.-Y.M. Pan and E.L. Lawrence, “Highly Linear Bipolar Transconductor For Broadband High-Frequency Applications with Improved Input Voltage Swing,” IEEE Circuits and Systems, 2007, 713-716.
- [17] M.T. Abuelma'atti, “Linearization techniaues for bipolar emitter-copled pairs: a comparative study,” Microelectronics Journal, 27(1996), 583-590.
- [18] J. Karki, “Fully-Differential Amplifiers,” Applicaition Report, Taxas instruments, (2002).
- [19] W. Sa-ngiamvibool, “A 10.7-MHz Fully Balanced, Q-of-267, 103-dB-Dynamic-Range Current-Tunable Gm-C Bandpass Filter,” Przeglad Elektrotechnicany, 89(2013), no. 10, 204-209.
- [20] T. Ali, O. Serdar, C. Oguzhan, and A. Cevdet, “Current-Mode All-pass Filters UsingCurrent Differencing Buffered Amplifier and a New High-Q bandpass Filter Configuration,” IEEE Trans. Circuits and Systems II, 47(2000), no.9, 949-954.
- [21] D.T. Comer, D.J. Comer and J.R. Gonzzalez, “A High Frequency Integrable Bandpass Filter Configuration,” IEEE Trans. Circuit and System II, 44(1997), no.10, 856-861.
- [22] OrCAD, “PSpice User's Manual” , Windows, OrCAD, Inc. (1998).
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d27f1edf-8074-4cd3-a299-24eb349d7cf8