Add to ORKGInternational audienceSubstrate Integrated Waveguide (SIW) provides a better Q-factor compared with the other planar techniques. Its integration capabilities and fabrication cost are other benefits that make it attractive. But SIW filters are bulkier than their equivalents achieved in microstrip technology. This paper reports on the association of two solutions to reduce size and make SIW even more attractive: LTCC technology to stack cavities and high permittivity substrate. The objective is to demonstrate the possibility to build high performance X-band filter on a ceramics through a multi-layer approach. The solution is tested on a X band-dedicated 6th-order filter with drastic specifications for space application
International audienceAbstract This paper presents a novel miniaturized substrate integrated wavegui...
Abstract—This paper presents a novel third-order cross-coupled rectangular cavity filter by using st...
A Ka-band substrate integrated waveguide bandpass filter has been designed and fabricated using low ...
International audienceSubstrate Integrated Waveguide (SIW) provides a better Q-factor compared with ...
International audienceSubstrate Integrated Waveguide (SIW) enhances the Q-factor compared with class...
International audienceThis paper introduces an effective way to buildefficient miniature C-band filt...
International audienceThis paper introduces an effective way to buildefficient miniature SIW (Substr...
In this paper, the substrate integrated waveguide (SIW) resonator is designed to study the influence...
Copyright © 2013 B. Wu et al. This is an open access article distributed under the Creative Commons ...
Low temperature co-fired ceramic (LTCC) is the favored manufacturing technology for millimeter-wave ...
International audienceIn this paper, focus is on a comparative study of two topologies of bandpass f...
This review provides an overview of the technological advancements and miniaturization trends in Sub...
This paper reports on a surface mountable 41.5GHz waveguide narrow band-pass filter with a -3dB band...
International audienceThis paper deals with the design of Q-band filtersusing a low-cost multilayere...
International audienceAbstract This paper presents a novel miniaturized substrate integrated wavegui...
Abstract—This paper presents a novel third-order cross-coupled rectangular cavity filter by using st...
A Ka-band substrate integrated waveguide bandpass filter has been designed and fabricated using low ...
International audienceSubstrate Integrated Waveguide (SIW) provides a better Q-factor compared with ...
International audienceSubstrate Integrated Waveguide (SIW) enhances the Q-factor compared with class...
International audienceThis paper introduces an effective way to buildefficient miniature C-band filt...
International audienceThis paper introduces an effective way to buildefficient miniature SIW (Substr...
In this paper, the substrate integrated waveguide (SIW) resonator is designed to study the influence...
Copyright © 2013 B. Wu et al. This is an open access article distributed under the Creative Commons ...
Low temperature co-fired ceramic (LTCC) is the favored manufacturing technology for millimeter-wave ...
International audienceIn this paper, focus is on a comparative study of two topologies of bandpass f...
This review provides an overview of the technological advancements and miniaturization trends in Sub...
This paper reports on a surface mountable 41.5GHz waveguide narrow band-pass filter with a -3dB band...
International audienceThis paper deals with the design of Q-band filtersusing a low-cost multilayere...
International audienceAbstract This paper presents a novel miniaturized substrate integrated wavegui...
Abstract—This paper presents a novel third-order cross-coupled rectangular cavity filter by using st...
A Ka-band substrate integrated waveguide bandpass filter has been designed and fabricated using low ...