Title :
A New Balanced-to-Balanced Power Divider/Combiner
Author :
Xia, Bin ; Wu, Lin-Sheng ; Mao, Junfa
Abstract :
In this paper, a new balanced-to-balanced power divider/combiner is proposed. By using matrix transformation, two three-port networks for the odd- and even-mode circuit models are deduced, based on the constraint rules of the mixed-mode S -parameters. In order to satisfy the two required scattering matrices simultaneously, the resistances of lumped elements, the characteristic impedances and electrical length of transmission lines are selected appropriately. Then, a planar microstrip structure is designed to realize the proposed balanced-to-balanced power divider/combiner with equal power division. The theoretical, simulated and measured results all show a good mixed-mode performance. In the measurement, the maximum differential-mode transmission coefficient is -3.2 dB, the best differential-mode isolation is 47.2 dB, and the fractional bandwidth of its operating band is approximately 20.8%.
Keywords :
S-matrix theory; S-parameters; power combiners; power dividers; transmission lines; balanced-to-balanced power divider-combiner; characteristic impedances; electrical length; even-mode circuit models; lumped elements; matrix transformation; maximum differential-mode transmission coefficient; mixed-mode S-parameters; odd-mode circuit models; planar microstrip structure; power division; scattering matrices; three-port networks; transmission lines; Bandwidth; Integrated circuit modeling; Mathematical model; Noise; Power dividers; Scattering; Transmission line matrix methods; Balanced-to-balanced circuit; common mode; differential mode; matrix transformation; power divider/combiner;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2012.2203926
