论文信息 - Optimized E-Plane T-Junction Series Power Dividers

Optimized E-Plane T-Junction Series Power Dividers

A rigorous design theory for compact rectangrdar waveguide power dividers with unsymmetrical series E-plane T-junctions of suitably optimized different waveguide heights and distances is described. The method is based on field expansion in normalized eigenmodes which yield directly the modal S-matrix of two appropriate key building blocks. The immediate modal S-matrix combination of the individual structures includes the effects of all step discontinuities and their mutual higher order mode interaction. Computer-optimized -3.01 dB, -4.77 dB, and -6.02 dB power divider examples achieve about +-0.25 dB coupling deviation at the output ports, together with about 30 dB return loss at the input port, for the chosen design frequencies of 12 GHz, 31.6 GHz, and 15.5 GHz. The -4.77 dB power divider provides a bandwidth of about 8 percent. The theory is verified by measurements.

[1] Klaus Solbach,et al. The Status of Printed Millimeter-Wave E-Plane Circuits , 1983 .

[2] F. Arndt,et al. Field Theory Design of Rectangular Waveguide Broad-Wall Metal-Insert Slot Couplers for Millimeter-Wave Applications (Correction) , 1985 .

[3] E. D. Sharp,et al. An Exact Calculation for a T-Junction of Rectangular Waveguides Having Arbitrary Cross Sections , 1967 .

[4] E. Kuhn,et al. a mode-matching method for solving field problems in waveguide and resonator circuits , 1973 .

[5] F. Arndt,et al. Computer-Optimized Multisection Transformers Between Rectangular Waveguides of Adjacent Frequency Bands (Short Papers) , 1984 .

[6] H. Schmiedel,et al. Anwendung der Evolutionsoptimierung bei Mikrowellenschaltungen , 1981 .

[7] Jens Bornemann,et al. Waveguide E-plane integrated-circuit diplexer , 1985 .

[8] R. Levy. Zolotarev Branch-Guide Couplers , 1973 .

[9] R. Levy. Analysis of practical branch-guide directional couplers (Correspondence) , 1969 .

[10] F. Arndt,et al. Double-Plane Steps in Rectangular Waveguides and Their Application for Transformers, Irises, and Filters , 1982 .

[11] K. Kurokawa,et al. The Expansions of Electromagnetic Fields in Cavities , 1958 .