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Intelligent cyclic ADC principles of functioning, optimisation and analysis

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of the paper is a presentation of conceptual backgrounds of a new approach to design and analysis of high-efficient intelligent analog-to-digital converters (ADC). Particularities of intelligent conversion, methods of its practical implementation and advantages over conventional methods of conversion are discussed. The analysis is carried out on the example of "intelligent" cyclic ADC (IC ADC), which employ, as the prototype, the architecture of known cyclic ADC developed by Analog Devices Inc. [1, 2]. There is shown the method of extension of the proposed approach for development of more advanced versions of IC ADC with extended range of application and processing possibilities. The paper generalizes the results of previous investigations.
Słowa kluczowe
Rocznik
Strony
335--355
Opis fizyczny
Bibliogr. 23 poz., rys.
Twórcy
Bibliografia
  • 1. Goodenough F.: Next-generation 12-, 14-bit IC ADCs sample signals. Electronic Design, vol. 37, no. 4, Penton Publishing, Cleveland, OH, US, 1989, pp. 121-123.
  • 2. Analog-digital conversion. (Editored monograph, Ed. W. Kester), ADI Central Applications Department, US, 2004.
  • 3. Van de Plasche R.: Integrated analog-to-digital and digital-to-analog converters. Boston, Kluwer Academic Publishers, 1994.
  • 4. Platonov A., Jędrzejewski K., Jasnos J.: Mathematical and computer models in multi-pass ADC design and optimization. Proceedings of 4th Int. Conf. ADDA&EWADC 2002, Prague, Czech Republic 2002, pp. 247-250.
  • 5. Platonov A., Małkiewicz Ł.: Analytic design of cyclic low energy ADC with sub-optimal estimates calculation. IMEKO XVII World Congress, Dubrovnik, Croatia, 22-27 June, 2003, pp. 141-146.
  • 6. Platonov A., Małkiewicz Ł. Jędrzejewski K.: Adaptive CADC optimisation, modelling and testing. Proc. of 13 Int. Symp. IMEKO on Measurem. for Research and Industry Applications and 9th Workshop on ADC Modelling and Testing, vol. 2 , Athens, Greece, 29 Sept. - 1 Oct. 2004, pp. 817-821.
  • 7. Platonov A., Jędrzejewski K., Jasnos J.: Design and analysis of algorithmic multi-pass A/D converters with theoretically highest resolution and rate of conversion. Measurement, vol. 30, no. 3, 2004, pp. 267-278.
  • 8. Jędrzejewski K., Platonov A.: Mathematical modeling in analysis of influence of internal converters nonlinearity on IC ADC performance. Metrology and Measurement Systems, no. 4, 2005, pp. 343-359.
  • 9. Jasnos J.: Analysis and application of modified sub-optimal algorithms to IC ADC design. Proc. of 14th Int. Symp. on Measurem. for Research and Industry Applic. and 10th Workshop on ADC Modelling and Testing, Gdynia-Jurata, Poland, 2005, pp. 567-571.
  • 10. Platonov A. A., Małkiewicz Ł. M.: Analytical and empirical ENOB in evaluation and analysis of cyclic /D converters performance. Proc. of 5th Int. Conf. ADDA’2005, Limerick, Ireland 2005, pp. 325-330.
  • 11. Platonov A., Jędrzejewski K., Małkiewicz Ł., Jasnos J.: Principles of optimisation, modelling and testing of intelligent cyclic A/D converters. Measurement, vol. 39, no. 3, pp. 213-231, 2006.
  • 12. Platonov A. A.: Analytical methods of analog-digital adaptive estimation systems design. Publ. House of Warsaw University of Technology, series “Electronics”, vol. 154, Warsaw, 2006 (in Polish).
  • 13. Platonov A. A.: Optimal identification of regression-type processes under adaptively controlled observations. IEEE Trans. on Signal Processing, vol. 42, no. 9, Sept.1994, pp. 2280-2291.
  • 14. Heubi A., Balsiger P., Pellandini F.: Micro power "relative precision" 13-bit cyclic RSD A/D converter. Proc. of Int. Symp. on Low Power Electronics and Design, Monterrey, USA, Aug. 1996, pp. 253-257.
  • 15. Platonov A.: Multi-Pass Analog-Digital Converter. Intern. Patent Application No. PCT/PL03/00041, on Europe, USA, Japan, Canada, Priority data 22.04.2002, Journ,. of the World Intel. Property Organisation (WIPO), Int. Publ. No. WO 2003/090359 A3, Publication dates: 30.10.2003, 22.04.2004.
  • 16. IEEE Standard 1241-2000 for terminology and test methods for analog-to-digital converters. IEEE Inc., NY, 2001.
  • 17. Widrow B.: Statistical analysis of amplitude-quantized sampled data system, Trans. AIEE, Part II, Application and Industry, vol. 79, Jan. 1961, pp. 555-569.
  • 18. Bennet W.: Spectra of quantized signals, Bell System Technique Journal, vol. 27, no. 3, 1948, pp. 446-472.
  • 19. Małkiewicz Ł., Platonov A.: Methods of Additional Improvement of Intelligent CADC Performance, IEEE Int. Conf. on Instrumentation and Measurement Technology (IMTC-2007), May 2007, Warsaw, Poland (submitted for publication).
  • 20. Platonov A. A.: Information properties of sub-optimal cyclic ADC with algorithmic estimates forming. Proc. of Polish-Czech-Hungarian Workshop on Circuit Theory and Applications, Warsaw, Sept. 2002, pp. 89-94.
  • 21. Balakrishan A. V.: Kalman filtering theory. Optimization software. Inc. Publ. Div., New York, 1984.
  • 22. Platonov A., Małkiewicz Ł. M.: Particularities of the cyclic A/D converters ENOB definition and measurement. IEEE Int. Conf. on Instrumentation and Measurement Technology (IMTC-2006), 24-27 April 2006, Sorrento, Italy (CD-ROM).
  • 23. Platonov A.: Intelligent ADC. Principles of functioning, optimisation and analysis. Int. Conf. on Signals and Electronic Systems, ICSES’2006, Łódź, 17-20 Sept., 2006, pp. 315-318.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BSW1-0026-0002
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