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The photovaractor for optically controlled microwave circuits was designed and studied. The photovaractor module was fabricated as a planar p-i-n photodiode chip placed in a fibre optic matching receptacles. Study of C-V characteristics in the light illumination mode has shown that capacitance characteristics are strongly dependent on the light illumination power. These variations of the photovaractor diode capacitance are large enough to be used in optically controlled circuits such as oscillators, mixers and switchers.
Słowa kluczowe
Rocznik
Tom
Strony
14--17
Opis fizyczny
Bibliogr. 11 poz., rys.
Twórcy
autor
- Institute of Electronics, National Academy of Sciences of Belarus, Minsk, Belarus
autor
- Institute of Electronics National Academy of Sciences of Belarus 22 Lagoiski Trakt 220090 Minsk, Belarus
autor
- Institute of Electronics National Academy of Sciences of Belarus 22 Lagoiski Trakt 220090 Minsk, Belarus
autor
- Department of Physics Xiamen University Xiamen 361005, China
autor
- Institute of Electronics National Academy of Sciences of Belarus 22 Lagoiski Trakt 220090 Minsk, Belarus
autor
- Institute of Electronics National Academy of Sciences of Belarus 22 Lagoiski Trakt 220090 Minsk, Belarus
autor
- Department of Physics Xiamen University Xiamen 361005, China
autor
- Institute of Electronics National Academy of Sciences of Belarus 22 Lagoiski Trakt 220090 Minsk, Belarus
autor
- Institute of Electronics National Academy of Sciences of Belarus 22 Lagoiski Trakt 220090 Minsk, Belarus
Bibliografia
- [1] D. M. Krafcsik, S. A. Imhoff, D. E. Dawson, and A. L. Conti, “A dual-varactor analog phase shifter operating at 6–18 GHz”, IEEE Trans. Microw. Theory Techn., vol. 36, no. 12, pp. 1938–1941, 1988.
- [2] W. C. B. Peatman, T. W. Crowe, and M. Shur, “A novel Schottky/2-DEG diode for millimeter- and submillimeter-wave multiplier applications”, IEEE Electron. Dev. Lett., vol. 13, no. 1, pp. 11–13, 1992.
- [3] J. N. Poelker and R. S. Robertson, “A comparison of planar moped barrier diode performance versus Schottky diode performance In a single balanced, MIC mixer with low LO drive”, IEEE Trans. Microw. Theory Techn., vol. 43, no. 6, pp. 1241–1246, 1995.
- [4] M. J. W. Rodwell, M. Kamegawa, R. Yu, M. Case, E. Carman, and K. S. Giboney, “GaAs nonlinear transmission lines for picosecond pulse generation and millimeter-wave sampling”, IEEE Trans. Microw. Theory Techn., vol. 39, no. 7, pp. 1194–1204, 1991.
- [5] Z. Szczepaniak and B. Galwas, “Optically-controlled microwave phase-shifter”, in Proc. Symp. High Perfor. Electron Dev. Microw. & Optoelectron. Appl. (EDMO’99), London, U.K., Nov. 1999, pp. 290–292.
- [6] B. Galwas, “Photonic technology for microwave engineering”, In Proc. 12th Int. Conf. Microw. & Radar (MIKON), Krakow, Poland, May 1998, vol. 4, pp. 117–135.
- [7] Z. Varga, G. Jaro, and B. Erdos, “Optical control of microwave filters using photodiodes”, in Proc. 10th MICROCOLL Conf., Budapest, Hungary, March 1999, pp. 299–302.
- [8] Dong-Wook Kim, Jae-Jin Lee, Young-Se Kwon, and Song-Cheol Hong, “Characteristics of an area-variable varactor diode”, IEEE Trans. Microw. Theory Techn., vol. 44, no. 11, pp. 2053–2057, 1996.
- [9] C. K. Sun, C. T. Chang, R. Nguyen, and D. J. Albares, “Photovoltaic p-i-n diodes for RF control – switching applications”, IEEE Trans. Microw. Theory Techn., vol. 47, no. 10, pp. 2034–2036, 1999.
- [10] T. O. Budko, E. V. Gushchinskaya, Yu. S. Emelyanenko, and S. A. Malyshev, “Diffusion of zinc into an unpassivated surface of indium phosphide”, Phys. Stat. Sol. (a), vol. 111, pp. 451–456, 1989.
- [11] V. F. Andrievski and S. A. Malyshev, “High speed InGaAs photodetector modules for fibre optic communications”, in Proc. Workshop High Perfor. Electron Dev. Microw. & Optoelectron. Appl. (EDMO’97), London, U.K., Nov., 1997, pp. 335–339.
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Bibliografia
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bwmeta1.element.baztech-article-BPS2-0016-0072