Title :
Numerical investigation on a body-centric scenario at W band
Author :
Jian Yang ; Parizi, Ali Razavi
Author_Institution :
Sch. of Electron. Eng. & Comput. Sci., Univ. of London, London, UK
Abstract :
The SIW (substrate integrated waveguide) technology makes use of metal vias in a dielectric substrate, electrically connecting two parallel metal plates, to make a waveguide. The main advantages of SIW are simple geometry, low manufacture cost and integratability with MMIC (monolithic microwave integrated circuit) or other circuits. It is often required to have E-plane bend components in the whole SIW circuits or antenna systems for the integration, for example, in multilayer configurations. However, it is difficult to make an E-plane bend by using only SIW technology. We present a new solution to E-plane bend for SIW circuits and antennas by combining the SIW technology and the so-called gap waveguide (or gapwave) technology in the paper, with the latter also realized in PCB (printed circuit board) technology, and therefore keeping its above-mentioned advantages.
Keywords :
microstrip antennas; microstrip circuits; microstrip discontinuities; substrate integrated waveguides; waveguide junctions; E-plane bend; MMIC; PCB; SIW circuit; antenna system; antennas; dielectric substrate; gap waveguide technology; gapwave technology; metal vias; monolithic microwave integrated circuit; parallel metal plate; printed circuit board; substrate integrated waveguide; Microwave circuits; Optical waveguides; Substrates; Waveguide discontinuities; BAN; FDTD; Path Loss; Ray-tracing; V band;
Conference_Titel :
Antennas & Propagation (ISAP), 2013 Proceedings of the International Symposium on
Conference_Location :
Nanjing
Print_ISBN :
978-7-5641-4279-7
