Abstract
Substrate integrated waveguides reduce the losses and increase the quality factor of resonators in communication filters when compared with traditional planar technologies, while maintaining their low-cost and low-profile characteristics. Empty substrate integrated waveguides go one step further, removing the dielectric of the substrate. One of these transmission lines is the empty substrate integrated coaxial line (ESICL), which has the advantage of being a two-conductor structure. Thus, it propagates a transversal electric and magnetic (TEM) mode, which reduces the dispersion and the bandwidth limitation of other one conductor empty substrate integrated waveguides. Continuous profile filters, at the cost of being long structures, are very easy to manufacture and design (usually no optimization is needed), and they are highly insensitive to manufacturing tolerances. In this work, a simple continuous profile filter, with a stop band response, is designed for the first time using novel ESICL technology. The influence of the design parameters on the insertion losses and fractional bandwidth is discussed. A prototype has been successfully manufactured and measured. A sensitivity analysis shows the high tolerance of the proposed stop band filter to manufacturing errors.
Highlights
Over recent years, a great number of substrate integrated circuits [1] have been developed.The characteristics of these circuits are midway between the characteristics of waveguide technologies and planar circuits
The filter was designed to have the stop band centered at 11 GHz
A stop band continuous profile filter was implemented for the first time in an empty substrate integrated coaxial line (ESICL)
Summary
A great number of substrate integrated circuits [1] have been developed.The characteristics of these circuits are midway between the characteristics of waveguide technologies and planar circuits. Several passive components developed in these technologies, including filters [4,5], ultra-wideband filters [6,7], antennas [8,9], transitions and tapers [10,11], baluns [12,13], couplers [14,15], power dividers [16], and new transmission lines [3,17,18,19,20], have been proposed Their quality factor and losses are better than those of the planar circuits, these characteristics can be further improved
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