References
- Hong J-S. In: Chang K. (Ed.). Microstrip filters for RF/microwave applications. 2nd ed. Hoboken (NJ: Wiley); 2011. Chapter 5. “Lowpass and bandpass filters”, pp. 112–161
- Levy R, Cohn SB. A history of microwave filter research, design, and development. IEEE Trans Microw Theory Tech. 1984;32:1055–1067. doi: 10.1109/TMTT.1984.1132817
- Levy R. (Ed.). Classic works in RF engineering, vol. 2, microwave and RF filters. Norwood, MA: Artech House; 2007.
- Mongia RK, Bahl IJ, Bhartia P, et al. RF and microwave coupled-line circuits. Norwood (MA): Artech House; 2007.
- Matthaei GL, Young L, Jones EMT. Microwave filters, impedance matching networks and coupling structures. NY: McGraw-Hill; 1964 (Moscow: Swjaz-Press, 1971).
- Hao Z-C, Hong J-S. Ultrawideband filter technologies. IEEE Microw Mag. 2010;11(4):56–68. doi: 10.1109/MMM.2010.936494
- IEEE Trans Microw Theory Tech. (Special Issue) 1982;30(9):1297–1389. doi: 10.1109/TMTT.1982.1131250
- Sun S, Zhu L. Multiple-resonator-based bandpass filters. IEEE Microw Mag. 2009;10(2):88–98. doi: 10.1109/MMM.2008.931673
- Zhu L, Menzel SSW. Ultra-wideband (UWB) bandpass filters using multiple-mode resonator. IEEE Microw Wireless Compon Lett. 2005;15(11):796–798. doi: 10.1109/LMWC.2005.859011
- Sun S, Zhu L, Tan H-H. A compact wideband bandpass filter using transversal resonator and asymmetrical interdigital coupled lines. IEEE Microw Wireless Compon Lett. 2008;18(3):173–175. doi: 10.1109/LMWC.2008.916780
- Amari S. Synthesis of cross-coupled resonator filters using an analytical gradient-based optimization technique. IEEE Trans Microw Theory Tech. 2000;48(9):1559–1564. doi: 10.1109/22.869008
- Gao L, Zhang XY, Hu B-J, et al. Novel multi-stub loaded resonators and their applications to various bandpass filters. IEEE Trans Microw Theory Tech. 2014;62(5):1162–1172. doi: 10.1109/TMTT.2014.2314680
- Qiang J, Shi J, Cao Q, et al. Compact differential wideband bandpass filters based on half-wavelength lines. IEEE Microw Wireless Compon Lett. 2017;27(10):906–908. doi: 10.1109/LMWC.2017.2747123
- Chen C-J. A coupled-line coupling structure for the design of quasi-elliptic bandpass filters. IEEE Trans Microw Theory Tech. 2018;66(4):1921–1925. doi: 10.1109/TMTT.2017.2783378
- Arain S, Vryonides P, Abbasi MAB, et al. Reconfigurable bandwidth bandpass filter with enhanced out-of-band rejection using Pi-section-loaded ring resonator. IEEE Microw Wireless Compon Lett. 2018;28(1):28–30. doi: 10.1109/LMWC.2017.2776212
- Singh V, Killamsetti VK, Mukherjee B. Compact bandpass filter with quasi-elliptic response using stub loaded resonator. AEU Int J Electron Commun. 2017;72:174–177. doi: 10.1016/j.aeue.2016.12.012
- Chen H, Zhao H-F. A novel microstrip bandpass filter with an elliptic-function response using improved dual-stub resonator. J Electromagnetic Waves Appl. 2018;29(16):2224–2231. doi: 10.1080/09205071.2015.1090348
- Zhou LX, Hu W, Yin YZ, et al. Design of a novel wideband quasi-elliptic filter based on SIR and asymmetric coupled lines. J Electromagnetic Waves Appl. 2014;28(10):1194–1202. doi: 10.1080/09205071.2014.910143
- Ouyang X, Chu Q-X. High-order quasi-elliptic bandpass filters using mixed EM coupling hairpin-comb resonators. J Electromagnetic Waves Appl. 2011;25(14–15):1975–1984. doi: 10.1163/156939311798071992
- Cohn SB. The re-entrant cross section and wide-band 3-dB hybrid couplers. IEEE Trans Microw Theory Tech. 1963;11(7):254–258. doi: 10.1109/TMTT.1963.1125651
- Lavendol L, Taub JJ. Re-entrant directional coupler using strip transmission line. IEEE Trans Microw Theory Tech. 1965;13(5):700–701. doi: 10.1109/TMTT.1965.1126091
- Cristal EG. Re-entrant directional couplers having direct coupled center conductors. IEEE Trans Microw Theory Tech. 1966;14(4):207–208. doi: 10.1109/TMTT.1966.1126218
- Cristal EG. Nonsymmetrical coupled lines of reentrant cross section. IEEE Trans Microw Theory Tech. 1967;15(9):529–530. doi: 10.1109/TMTT.1967.1126526
- Cristal EG. Correction to “nonsymmetrical coupled lines of reentrant cross section”. IEEE Trans Microw Theory Tech. 1968;16(1):57. doi: 10.1109/TMTT.1968.1126605
- Gill PE, Murray W. Wright MH. Practical optimization. London: Academic Press; 1981; (Moscow: Mir-Press, 1985).
- Gorbachev AP, Potryasov II. Designing microwave devices with shielded elements. J Commun Techn Electr. 2000;45(4):462–466.
- Gorbachev AP, Tarasenko NV. The novel reentrant power splitters and bandstop elliptic filters, in Actual Problems of Electronic Instrument Engineering (APEIE), 13th International Scientific-Technical Conference on, Novosibirsk, 3–6 Oct. 2016, pp. 173–176 (http://ieeexplore.ieee.org/document/7806440).
- Atuchin VV, Gorbachev AP, Khrustalev VA, et al. The dual-band reentrant power splitter. AEU Int J Electron Commun. 2018;84:21–26. doi: 10.1016/j.aeue.2017.11.007
- Jones EMT, Bolljahn JT. Coupled-strip-transmission-line filters and directional couplers. IEEE Trans Microw Theory Tech. 1956;4(2):75–81. doi: 10.1109/TMTT.1956.1125022
- Frickey DA. Conversions between S, Z, Y, h, ABCD, and T parameters which are valid for complex source and load impedances. IEEE Trans Microw Theory Tech. 1994;42(2):205–211. doi: 10.1109/22.275248
- Cameron RJ, Kudsia CM, Mansour RR. Microwave filters for communication systems: fundamentals, design and applications. NJ: Wiley-Interscience; 2007.
- Otoshi TY. On the scattering parameters of a reduced multiport. IEEE Trans Microw Theory Tech. 1969;17(9):722–724. doi: 10.1109/TMTT.1969.1127045
- Monaco VA, Tiberio P. Computer-aided analysis of microwave circuits. IEEE Trans Microw Theory Tech. 1974;22(3):249–263. doi: 10.1109/TMTT.1974.1128208
- Kolundzija BM, Ognjanovic JS, Sarkar TK. WIPL-D: microwave circuit and 3D EM simulation for RF & microwave applications, software and user’s manual. Norwood (MA): Artech House; 2005.
- Bakharev SI, Volman VI, Lib YN, et al. Handbook on design of microwave circuits. Мoscow: Radio & Swjaz; 1982; (in Russian).
- Alekseev VG, Gridnev VN, Nesterov YI, et al. Technology of digital electronic devices, equipment and automation. Moscow: Wisshaya Shkola; 1984 ( in Russian).
- Gorbachev AP. The reentrant wide-band directional filter. IEEE Trans Microw Theory Tech. 2002;50(8):2028–2031. doi: 10.1109/TMTT.2002.801384
- Gorbachev AP, Malinko DA, Vasilenko AA. The reentrant wideband bandpass/bandstop elliptic filters, in Actual Problems of Electronic Instrument Engineering (APEIE), 10th International Conference on, Novosibirsk, 22–24 Sept. 2010, pp. 56–63. http://ieeexplore.ieee.org/document/5677345.
- Gorbachev AP, Churkin VS, Vasilenko AA. The modified Schiffman phase shifter, in Actual Problems of Electronic Instrument Engineering (APEIE), 10th International Conference on, Novosibirsk, 22–24 Sept. 2010, pp. 124–126 (http://ieeexplore.ieee.org/document/5677307).