Carlos Sanchez-Cabello scite author profile

Carlos Sanchez-Cabello

5Publications

16Citation Statements Received

57Citation Statements Given

How they've been cited

How they cite others

Affiliations

Carlos III University of Madrid, Instituto de Salud Carlos III

Publications

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Analysis of Periodic Structures Made of Pins Inside a Parallel Plate Waveguide

et al. 2019

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In this work, we have analyzed different versions of periodic structures made with metallic pins located inside a parallel plate waveguide (PPWG), varying the symmetry and disposition of the pins. The analysis focuses on two main parameters related to wave propagation. On one hand, we have studied how the different proposed structures can create a stopband so that the parallel plate modes can be used in gap waveguide technology or filtering structures. On the other hand, we have analyzed the dispersion and equivalent refractive index of the first propagating transverse electromagnetic mode (TEM). The results show how the use of complex structures made with pins in the top and bottom plates of a PPWG have no advantages in terms of the achieved stopband size. However, for the case of the propagating mode, it is possible to find less dispersive modes and a higher range of equivalent refractive indices when using double-pin structures compared to a reference case with single pins.

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Ka-Band Diplexer for 5G mmWave Applications in Inverted Microstrip Gap Waveguide Technology

2020

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A new cost-efficient, low-loss Ka-band diplexer designed in inverted microstrip gap waveguide technology is presented in this paper. Gap waveguide allows to propagate quasi-TEM modes in the air between two metal plates without the need for contact between them by using periodic metasurfaces. The diplexer is realized by using a bed of nails as AMC (Artificial Magnetic Conductor), first modeled with a PMC (Perfect Magnetic Conductor) surface for design simplification, and two fifth order end-coupled passband filters (BPFs) along with a power divider. The experimental verification confirms that the two channels centered at 24 GHz and 28 GHz with 1 GHz of bandwidth show measured insertion losses of 1.5 dB and 2 dB and 60 dB of isolation between them. A slight shift in frequency is observed in the measurements that can be easily explained by the variation in the permittivity of the substrate.

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Optimized self-diplexed antenna in gap waveguide technology

Sanchez-Cabello

Rajo‐Iglesias

2015

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New EBG-filter design in inverted microstrip gap waveguide technology

Inclan-Sanchez

Sanchez-Cabello

Vazquez-Roy

et al. 2017

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Considerations of impedance sensitivity and losses in designing inverted microstrip gap waveguides

Pizarro

Sanchez-Cabello

Vazquez-Roy

et al. 2020

AEU - International Journal of Electronics and Communications

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