Abstract
Recently, Empty Substrate Integrated Waveguide (ESIW) technology was proposed for embedding empty waveguides into planar substrates in order to improve their performance. A low-loss and narrow-band transition from microstrip to an increased height ESIW with 4 layers was presented in a previous work, and used to implement a very high-quality factor bandpass filter at Q-band. With such a narrow-band transition, based on a quarter-wavelength transformer, a very narrow-band filter response with resonators having a quality factor of 1000 was achieved. In this paper, in order to overcome the narrow-band and the 4-layers output restrictions, and extend the practical use of such increased height ESIWs beyond narrow-band filters, we present a novel wideband transition from microstrip to an increased height ESIW with an arbitrary number of layers. A full suite of wideband transitions to increased height ESIWs, built with different number of substrate layers ranging from 3 to 8, has been designed in this work to operate at Ka-band, though they can be easily transferred to other bands if the dimensions of the transition are properly scaled. To illustrate this, the original Ka-band transitions have been mapped to Ku-band, with excellent results. In order to test the proposed design method, a prototype of a 4-layer structure has been fabricated at Ka-band, achieving a good performance in the whole useful bandwidth of the ESIW.
Highlights
Over the last few years, several technologies have been proposed for the implementation of Substrate Integrated Circuits (SICs), in order to merge planar and non-planar structures for achieving high-performance integrated devices used in high-frequency applications
In this paper, a new wideband transition for integrating increased-height Empty Substrate Integrated Waveguide (ESIW) is proposed in order to overcome the present narrow-band restriction, and extend the practical use of such increasedheight ESIWs beyond narrowband filters
A new wideband transition that covers all the usable bandwidth for ESIWs of increased height is presented in this paper
Summary
Over the last few years, several technologies have been proposed for the implementation of Substrate Integrated Circuits (SICs), in order to merge planar and non-planar structures for achieving high-performance integrated devices used in high-frequency applications. In this paper, a new wideband transition for integrating increased-height ESIWs is proposed in order to overcome the present narrow-band restriction, and extend the practical use of such increasedheight ESIWs beyond narrowband filters. This new wideband transition covers the entire useful mono-mode bandwidth of the integrated ESIW and, as a result, can be used to integrate wideband devices in full bandwidth applications.
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