Diplexers and Multiplexers

 

[Coaxial Multiplexers]  Coaxial_multiplexers

[1] Mole, "A numerically optimized contiguous diplexer," IEEE MTT-S Int. Microw. Symp. Dig., 285-286, 1979.

 

[Waveguide Diplexers]  WG-Diplexers

[1] Morini, "Analysis and synthesis of millimeter E-plane diplexers in rectangular waveguide," Proc. 24th European Microwave Conf., 1351-, 1994.

[2] Morini, "Constraints to the optimum performance and bandwidth limitations of diplexers employing symmetric three-port junctions," IEEE T-MTT, 44(2), 242-, 1996.

[3] Morini, "Analysis of compact E-plane diplexers in rectangular waveguide," IEEE T-MTT, 43(8), 1834-, 1995.

[4] Morini, "Design of 'optimum' three port symmetrical junctions for diplexer application," Proc. IEEE MTT-S Int. Microwave Symp., 739-, 1994.

[5] Morini, "A novel matched diplexer configuration in E-plane technology," Proc. IEEE MTT-S Int. Microwave Symp., 1077-, 1993.

[6] Morini, "A new look at the practical design of compact diplexers," IEEE T-MTT, 54(9), 3515-, 2006.

[7] Connor, "Elimination of fine tuning in high power, low-PIM diplexers for combined transmit/receive antenna," Proc. IEE Colloquium on Microwave Filters and Multiplexers, 4/1-4/6, 10 Nov. 1990.

[8] Levy, "Synthesis of non-contiguous diplexers using broadband matching theory," Proc. IEE Colloquium on Microwave Filters and Multiplexers, 6/1-6/3, 10 Nov. 1990.

[9] Nguyen, "Design and performance of a W-band broadband finline diplexer with over 20 GHz bandwidth," IEEE MTT-S Int. Microw. Symp. Dig., 349-352, 1985.

[10] Yao, "Waveguide and ridge waveguide T-junctions for wide band applications," IEEE MTT-S Int. Microw. Symp. Dig., 601-506, 1993.

[11] Meng, "Direct synthesis of general Chebyshev bandpass filters with a frequency variant complex load," IEEE MTT-S Int. Microw. Symp. Dig., 433-436, 2010.

[12] Vahldieck, "Computer-aided design of parallel-connected millimeter-wave diplexers/multiplexers," IEEE MTT-S Int. Microw. Symp. Dig., 435-438, 1988.

[13] Vanin, "Computer-aided design of Y-junction waveguide diplexers," PIER C, 17, 203-218, 2010.

[14] Wu, "A direct syntheis approach for microwave filters with a complex load and its application to direct diplexer design," IEEE T-MTT, 55(5), 1010-1017, May 2007.

[15] Amari, "Diplexer design using pre-synthesized waveguide filters with strongly dispersive inverters," IEEE MTT-S Int. Microw. Symp. Dig., 1627-1630, 2001.

[16] Bornemann, "Efficient full-wave CAD of waveuige diplexers," Proc. ANTEM'96, 591-594, 1996.

[17] Parikh, "Multi-carrier multipactor analysis of high power antenna TX-TX diplexer for SATCOM application," slides.

[18] Haine, "Direct design formulas for asymmetric bandpass channel diplexers," IEEE T-MTT, 25(10), 807-815, Oct. 1977.

 

[Waveguide Multiplexers]  WG-Multiplexers

[1] Morini, "New formulas for the initial design in the optimization of T-junction manifold multiplexers," Proc. IEEE MTT-S Int. Microwave Symp., 1025-, 1997.

[2] Kirilenko, "Waveguide diplexer and multiplexer design," IEEE T-MTT, 42(7), 1393-, 1994.

[3] Connor, "Design and performance of a Ku-band 8 channel contigous OMUX for satellite application," Proc. IEE Colloquium on Microwave Filters and Multiplexers, 12/1-12/5, 10 Nov. 1990.

[4] Zhang, "Ridge waveguide divider junctions for wide-band multiplxer applications," IEEE MTT-S Int. Microw. Symp. Dig., 1225-1228, 2006.

[5] Rong, "Millimeter-wave Ka-band H-plane diplexers and multiplexers," IEEE T-MTT, 47(12), 2325-2330, 1999. (important)

[6] García-Lamperéz, "Efficient electromagnetic optimization of microwave filters and multiplexers using rational models," IEEE T-MTT, 52(2), 508-523, Feb. 2004.

[7] García-Lamperéz, "Analytical synthesis of microwave multiport networks," IEEE MTT-S Int. Microw. Symp. Dig., 455-458, 2004.

[8] Zhu, "A theorm on complex-normalized reflection coefficient and its application," IEEE T-CS, 36(9), 1238-1244, Sept. 1989.

[9] Zhang, "Ridge waveguide coupled stripline resonator filters and multiplexers," IEEE MTT-S Int. Microw. Symp. Dig., 681-684, 2006.

[10] Dittloff, "Rigorous design of septate E-plane multiplexers with printed circuit elements," IEEE MTT-S Int. Microw. Symp. Dig., 431-435, 1988.

[12] Skaik, "Synthesis of multiple output coupled resonator circuits using coupling matrix optimization," IET Microw. Antennas Propagat., 5(9), 1081-1088, 2011.

[13] Cohen, "Millimeter wave multiplexer with printed circuit elements for the 88 to 100 GHz frequency range," IEEE MTT-S Int. Microw. Symp. Dig., 233-235, 1984.

[14] Rhodes, "Design of general manifold multiplexers," IEEE T-MTT, 27(2), 111-123, Feb. 1979.

[15] Rhodes, "A design procedure for bandpass channel multiplexers connected at a common junction," IEEE T-MTT, 28(3), 246-253, Mar. 1980.

[15] Cameron, "Design of manifold-coupled multiplexers," IEEE Microw. Mag., 46-59, Oct. 2007.

[16] Atia, "Computer-aided design of waveguide multiplexers," IEEE T-MTT, 332-336, Mar. 1974.

[17] Liang, "A rigorous three plane mode-matching technique for characterizing waveguide T-junctions, and its application in multiplexer design," IEEE T-MTT, 39(12), 2138-2147, Dec. 1991.

 

[Conductor Loss in Waveguide Components]  WG-Conductor_loss

[1] Taroncher, "Accurate consideration of ohmic losses in passive waveguide circuits for microwave and millimeter-wave applications," Proc. IEEE MELEON, 16-19 May 2006, 180-.

[2] Taroncher, "Efficient and accurate consideration of ohmic losses in waveguide diplexers and multiplexers," IEEE MTT-S Int. Microw. Symp. Dig., 1241-1244, 2006.

 

[Microstrip Diplexers and Multiplexers]  MS-Diplexers_and_multiplexers

[1] Ning, "A new multiple-frequency millimeter diplexer using microstrip periodic-stub," Proc. IET Int. Conf. Wireless, Mobile and Multimedia Network, 1-3, 6-9 Nov. 2006.

[2] Alseyab, "Design procedure for multioctave combline-filter multiplexers," IEE Proc. H - Microw. Opt. Antennas, 127(6), 346-353, 1980.

 

[Stripline Multplexers]  Stripline_multiplexers

[1] Cadiou, "An 11-18 GHz four-channel DBR multiplexer for electronic warfare systems," Proc. 39th European Microw. Conf., 679-682, 2009.

 

[Suspended Substrate Multplexers]  SS-Multiplexers

[1] Rhodes, "Suspended substrate filters and multiplexers," Proc. 16th European Microw. Conf., 8-18, 1986.

 

[Multiplexer Theory]  Multiplexer_theory

[1] Rhodes, "A generalized multiplexer theory," IEEE T-MTT, 27(2), 99-101, Feb. 1979.

 

[Theses]

[1] Zhang, Modeling and Design of Microwave-Millimeterwave Fiters and Multiplexers, Ph. D. diss., U. Maryland, 2006.

[2] Ofli, Analysis and Design of Microwave and Millimeter-Wave Filters and Diplexers, Ph. D. diss., Bilkent U. (Turkey), 2004.

[3] Hansmman, An Investigation of Coupling Mechanisms in Narrowband Microwave Filters, M.S. thesis, U. Stellenbosch (South Africa), 2008.

[4] Zayniyev, Development of Planar Filters and Diplexers for Wireless Transceiver Front Ends, Ph. D. diss., U. Westminster, 2010.

[5] Skaik, Synthesis of Coupled Resonator Circuits with Multiple Outputs using Coupling Matrix Optimization, Ph. D. diss., U. Birmingham, 2011.