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Simple Wide Frequency Range Impedance Meter Based on AD5933 Integrated Circuit

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
As it contains elements of complete digital impedance meter, the AD5933 integrated circuit is an interesting solution for impedance measurements. However, its use for measurements in a wide range of impedances and frequencies requires an additional digital and analogue circuitry. This paper presents the design and performance of a simple impedance meter based on the AD5933 IC. Apart from the AD5933 IC it consists of a clock generator with a programmable prescaler, a novel DC offset canceller for the excitation signal based on peak detectors and a current to voltage converter with switchable conversion ratios. The authors proposed a simple method for choosing the measurement frequency to minimalize errors resulting from the spectral leakage and distortion caused by a lack of an anti-aliasing filter in the DDS generator. Additionally, a novel method for the AD5933 IC calibration was proposed. It consists in a mathematical compensation of the systematic error occurring in the argument of the value returned from the AD5933 IC as a result. The performance of the whole system is demonstrated in an exemplary measurement.
Słowa kluczowe
Rocznik
Strony
13--24
Opis fizyczny
Bibliogr. 16 poz., rys., tab., wykr.
Twórcy
autor
  • Wrocław University of Technology, Faculty of Microsystem Electronics and Photonics, Z. Janiszewskiego street 11/17, 50-372 Wrocław, Poland
autor
  • Wrocław University of Technology, Faculty of Microsystem Electronics and Photonics, Z. Janiszewskiego street 11/17, 50-372 Wrocław, Poland
autor
  • Wrocław University of Technology, Faculty of Microsystem Electronics and Photonics, Z. Janiszewskiego street 11/17, 50-372 Wrocław, Poland
autor
  • Wrocław University of Technology, Faculty of Microsystem Electronics and Photonics, Z. Janiszewskiego street 11/17, 50-372 Wrocław, Poland
Bibliografia
  • [1] AD5933 1MSPS, 12-Bit Impedance Converter, Network Analyser. Datasheet for Analog Devices, Rev. E. http://www.analog.com. (2013 May).
  • [2] Chen, C. J., Liu, J. T., Chang, S. J., Lee, M. W., Tsai, J. Z. (2012). Development of a portable impedance detection system for monitoring the growth of mouse L929 cells. Journal of the Taiwan Institute of Chemical Engineers, 43, 678-684.
  • [3] Schwarzenberger, T., Wolf, P., Brischwein, M., Kleinhans, R., Demmel, F., Lechner, A., Becker, B., Wolf, B. (2011). Impedance sensor technology for cell-based assays in the framework of a high-content screening system. Physiological Measurement, 32, 977-993.
  • [4] Wang, M. H., Kao, M. F., Jang, L. S. (2011). Single HeLa and MCF-7 cell measurement using minimized impedance spectroscopy and microfluidic device. Review of Scientific Instruments, 82.
  • [5] Berney, H., O'Riordan, J. J. (2008). Impedance Measurement Monitors Blood Coagulation. Analog Dialogue, 42-08.
  • [6] Broeders, J., Duchateau, S., Van Grinsven, B., Vanaken, W., Peeters, M., Cleij, T., Thoelen, R., Wagner, P., De Ceuninck, W. (2011). Miniaturised eight-channel impedance spectroscopy unit as sensor platform for biosensor applications. Physica Status Solidi A, 208, 1357-1363.
  • [7] Seoane, F., Ferreira, J., Sanchez, J. J., Bragos, R. (2008). An analog front-end enables electrical impedance spectroscopy system on-chip for biomedical applications. Physiological Measurement, 29, 267-278.
  • [8] Bogonez-Franco1, P., Bayes-Genis, A., Rosell, J., Bragos, R., (2010). Performance of an implantable impedance spectroscopy monitor using ZigBee. Journal of Physics: Conference Series, 224.
  • [9] Ferreira, J., Seoane, F., Lindecrantz, K. (2011). AD5933-based electrical bioimpedance spectrometer.Towards textile-enabled applications. Conference proceedings: 33rd Annual International Conference of the IEEE Engineering in Medicine and Biology Society. 3282-3285.
  • [10] Margo, C., Katrib, J., Nadi, M., Rouane, A. (2013). A four-electrode low frequency impedance spectroscopy measurement system using the AD5933 measurement chip. Physiological Measurement, 34, 391-405.
  • [11] Melwin, A., Rajasekaran, K. (2013). Implementation of Bioimpedance Instrument Kit in ARM7.International Journal of Advanced Research in Computer Science and Software Engineering, 3, 5, 1271-1273.
  • [12] Hoja, J., Lentka, G. (2010). Interface circuit for impedance sensors using two specialized single-chip microsystems. Sensors and Actuators A: Physical, 163, 1, 191-197.
  • [13] Hoja, J., Lentka, G. (2013). A Family of New Generation Miniaturized Impedance Analyzers for Technical Object Diagnostics. Metrology and Measurement Systems, XX, 1, 43-52.
  • [14] Grimnes, S., Martinsen, O.G. (2000). Bioimpedance & bioelectricity basics. Academic Press, London, UK.
  • [15] Schwan, H. P. (1994). Electrical properties of tissues and cell suspensions: mechanisms and models.Engineering in Medicine and Biology Society, 1994. Engineering Advances: New Opportunities for Biomedical Engineers. Proceedings of the 16th Annual International Conference of the IEEE, 1, A70-A71.
  • [16] Analog Devices (2007). Evaluation Board for the 250 kSPS 12-bit Impedance Converter Network Analyzer, Preliminary Technical Data EVAL-AD5934EB.
Uwagi
EN
This work was supported by Wrocław University of Technology statutory grant no. S40036.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fcbe770b-3d2e-4686-a806-59485705b886
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