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Abstrakty
The aim of this work was to elaborate two-dimensional behavioral modeling method of thick-film resistors working in low-temperature conditions. The investigated resistors (made from 5 various resistive inks: 10 resistor coupons, each with 36 resistors with various dimensions), were measured automatically in a cryostat system. The low temperature was achieved in a nitrogen-helium continuous-flow cryostat. For nitrogen used as a freezing liquid the minimal temperature possible to achieve was equal to −195.85 °C (77.3 K). Mathematical model in the form of a multiplication of two polynomials was elaborated based on the above mentioned measurements. The first polynomial approximated temperature behavior of the normalized resistance, while the second one described the dependence of resistance on planar resistors dimensions. Special computational procedures for multidimensional approximation purpose were elaborated. It was shown that proper approximation polynomials and sufficiently exact methods of calculations ensure acceptable modeling errors.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
212--225
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
- Faculty of Microsystem Electronics and Photonics, Wrocław University of Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, Poland
autor
- Faculty of Microsystem Electronics and Photonics, Wrocław University of Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, Poland
Bibliografia
- 1. Pierce J.W., Kuty D.W., Larry J.R., 3rd European Hybrid Microelectronic Conference, Avignon, 1981, p. 283.
- 2. Dziedzic A., Microelectron Reliab, 42 (2002), 709.
- 3. Tugnawat Y., Kuhn W., 12th NASA Symposium on VLSI Design, Coer d’Alene, Idaho, 2005, p. 1.
- 4. Buchanan E.D., Benford D.J., Forgione J.B., Moseley S.H., Wollack E.J., Cryogenics, 52 (2012), 550.
- 5. Pike G.E., Seager C.H., J. Appl. Phys., 48 (1977), 5152.
- 6. Halder N.C., Electrocomp. Sci. Technol., 11 (1983), 21.
- 7. Licznerski B.W., 5th European Hybrid Microelectronics Conference, Stresa, 1985, p. 389.
- 8. Dziedzic A., Golonka L.J., Licznerski B.W., 7th Czechoslovak Conference on Electronics and Vacuum Physics, Bratislava, 1985, p. 855.
- 9. Chiou B.-S., Sheu J.-Y., J. Electron. Mater., 21 (1992), 575.
- 10. Kusy A., Physica B, 240 (1997), 226.
- 11. Crosbie G.M., Johnson M., Trela W., J. Appl. Phys., 84 (1998), 2913.
- 12. Golonka L.J., Dziedzic A., Henke M., 43rd International Colloquium, Vol. 2, Ilmenau, 1998, p. 203.
- 13. Yang P., Rodriguez M.A., Kotula P., Miera B.K., Dimos D., J. Appl. Phys., 89 (2001), 4175.
- 14. Woodcraft A.L., Sudiwala R.V., Wakui E., Paine C., J. Low Temp. Phys., 134 (2004), 925.
- 15. Lake Shore Cryotronics, Inc., Lstc Appendixd_1.Pdf, Www.Lakeshore.Com.
- 16. Cosmo De V., Gush H., Halpern M., Leung A., Rev. Sci. Instrum., 58 (1987), 441.
- 17. Jacob J.M., Application and Design with Analog Integrated Circuits, A Prentice-Hall Co., Reston, Virginia, 1982.
- 18. Balik F., Sommer W., Elektronika, 51 (3) (2011), 84.
- 19. Goryachev M., Galliou S., Imbaud J., Abbe P.H., Cryogenics, 6 (2013), 1.
- 20. Golonka L.J., Int. J. Hybri. Microelectron., 4 (1981), 405.
- 21. Edward L.N.M., O’Brien T.G., Microelectronics Conference, Melbourne, 1991, p. 112.
- 22. Stecher G., Hybri. Circ., 17 (1988), 24.
- 23. Balik F., Golonka L.J., Jurewicz R.J., 15th Conference ISHM-Poland, Cracow, 1991, p. 5.
- 24. Balik F., Golonka L.J, Jurewicz R.J., Transactions of the Technical University of Kosice, 3 (1993), 106.
- 25. Microsim Pspice A/D, Circuit Analysis Reference Manual, MicroSim Co., 1995.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-dc460727-3ce6-4a60-8109-d3e132aa3fd8