Abstract
Although several bandpass filters have been designed in the recently proposed empty substrate integrated waveguide (ESIW) technology to improve the quality factor and reduce losses with respect to those in SIW and planar technologies, all structures exhibit narrowband properties and none uses the design concept applied in this paper. The idea has been to insert a dielectric element in an ESIW section (DE-ESIW), which can work as a dielectric resonator or impedance inverter depending on the propagation nature of the fundamental mode. Thus, two novel Chebyshev bandpass filters for narrow and wide bandwidths based on this design concept have been designed in this paper in ESIW technology. The narrow bandpass filter has been realized by inserting four dielectric resonators in an evanescent ESIW section and using a coupling matrix synthesis method, whereas the wideband bandpass filter has been implemented by including six dielectric line sections in an ESIW line propagating the fundamental mode and applying a stepped impedance synthesis approach. A novel wideband microstrip to ESIW transition using cubic Bezier curves has also been designed for the successful integration of both narrow and wideband filters with other microstrip components. EM simulation and measurement frequency responses on manufactured prototypes have shown the versatility of the dielectric elements to efficiently implement narrowband and wideband ESIW bandpass filters, using the proposed design techniques based on coupling matrix and stepped impedances, respectively.
Highlights
Microwave filters play an important role in the communication systems used in different sectors of activity
A TRL calibration kit has been fabricated for de-embedding the effects of the SMA connectors and microstrip to empty substrate integrated waveguide (ESIW) transitions from the measurements of the proposed bandpass filters [40]
The measured S-parameters of the ESIW bandpass filters under tests are referred to this plane, de-embedding the effects of the SMA connectors and microstrip to ESIW transitions
Summary
Microwave filters play an important role in the communication systems used in different sectors of activity (agriculture, defense, security, telecommunications, etc.). Among the different kinds of filters and technologies, bandpass filters and substrate integrated circuits (SICs) are key elements in many microwave applications. Bandpass filters allow limiting the bandwidth in input/output stages of microwave communication systems, providing low loss in the passband and rejecting out-of-band frequencies. Narrowband bandpass filters are used to decrease the noise bandwidth and achieve a better sensitivity, while wideband devices are applied in applications that need transferring higher data rates. It is important to integrate them with other components of the system Due to these constrains, SICs can be good candidates for such applications. SICs can be good candidates for such applications They have reduced sizes and weights with respect to the classical waveguide technology and exhibit higher quality factors than printed technology. Among the different SIC structures [7]-[15], the substrate integrated waveguide (SIW)
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