Geodesic
Compact microwave power limiter with HTSC element
Žurnal Sibirskogo federalʹnogo universiteta. Matematika i fizika, Tome 11 (2018) no. 1, pp. 35-39.

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A design of microwave power limiter having a structure of three-pole microstrip filter is developed. In the device outer resonators are coupled through an inner resonator containing high-temperature superconducting film. Prototype of the device with central frequency 7.9 GHz and relative bandwidth 9% has insertion loss 1.5 dB in the open state and suppress a signal not less 30 dB in the limitation state.
Keywords: power limiter, microwave, damping pole, microstripe structure
Mots-clés : HTSC. 
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Ilya V. Govorun; Alexsander A. Leksikov; Alexey M. Serzhantov. Compact microwave power limiter with HTSC element. Žurnal Sibirskogo federalʹnogo universiteta. Matematika i fizika, Tome 11 (2018) no. 1, pp. 35-39. http://geodesic.mathdoc.fr/item/JSFU_2018_11_1_a4/

[1] Yu.A. Budzinskiy, S.V. Bykovskiy, V.E. Kotov, O.A. Savrukhin, “On the increase of the frequency band of cyclotron protective device”, CriMiCo'2014 (Sevastopol, Russia, 2014)

[2] A.T. Findikoglu, D.W. Reagor, K.O. Rasmussen, A.R. Bishop, N. Gronbech-Jensen, Q.X. Jia, Y. Fan, C. Kwon, L.A. Ostrovsky, “Electrodynamic properties of coplanar waveguides made from high-temperature superconducting YBaCuO electrodes on nonlinear dielectric SrTiO$_{3}$ substrates”, Journal of Applied Physics, 3 (1999), 1558–1568 | DOI

[3] J.C. Booth, D.A. Rudman, R.H. Ono, “Self-Attenuating Superconducting Transmission Line for Use as a Microwave Power Limiter”, IEEE Trans. on Appl. Supercond., 2 (2003), 305–310 | DOI

[4] A.A. Kalenyuk, “Nonlinear microwave response of a superconducting YBa2Cu3O7 microstrip transmission line with a constriction”, Low Temperature Physics, 2 (2009), 105–111 | DOI

[5] B.A. Belyaev, I.V. Govorun, A.A. Leksikov, A.M. Serzhantov, “Receiver Protecting Device Based on Microstrip Structure with High-Temperature Superconductor Film”, Technical Physics Letters, 3 (2012), 211–214 | DOI

[6] B.A. Belyaev, I.V. Govorun, A.A. Leksikov, A.M. Serzhantov, “Investigation of the special features of the coupling coefficient microstrip asymmetric hairpin resonators at frequencies of the second passband”, Russian Physics Journal, 10 (2013), 1215–1221 | DOI

[7] B.A. Belyaev, A.M. Serzhantov, “Features coupling coefficients of quartewave microstrip resonators”, Journal of communications technology and electronics, 3 (2004), 275–281

[8] B.A. Belyaev, I.V. Govorun, A.A. Leksikov, A.M. Serzhantov, An.A. Leksikov, “Reflective power limiter for X-band with HTSC Switching element”, IEEE Transactions on applied superconductivity, 7 (2016), 1–6 | DOI

[9] A.V. Smirnov, M.S. Karmantsov, K.V. Smirnov, Y.B. Vakhtomin, M.A. Tarkhov, D.V. Masterov, S.A. Pavlov, A.E. Parafin, “Terahertz response of thin-film YBCO bolometers”, Technical Physics, 12 (2012), 1716–1719 | DOI