Title :
Analysis and Design of a Novel Low-Loss Hollow Substrate Integrated Waveguide
Author :
Lukui Jin ; Lee, Razak Mohd Ali ; Robertson, Ian
Author_Institution :
Sch. of Electron. & Electr. Eng., Univ. of Leeds, Leeds, UK
Abstract :
In this paper, a novel hollow substrate integrated waveguide (HSIW) is presented for realizing low-loss millimeter-wave (mm-wave) transmission lines embedded in multi-chip modules. A new analysis method for the HSIW is proposed by treating it as a combination of a two-dielectric loaded rectangular waveguide (RWG) and standard substrate integrated waveguide, where an effective dielectric constant, εe, is introduced. An HSIW prototype in the Ka-band is fabricated using a progressive-lamination low-temperature co-fired ceramic technique. The measured results agree well with theoretical calculations and simulations. An average of 0.009-dB/mm loss is achieved in Ka-band, which is comparable to an air-filled RWG. This shows that the technique has great potential for further development to realize highly integrated mm-wave modules.
Keywords :
ceramic packaging; dielectric waveguides; dielectric-loaded waveguides; laminations; millimetre wave circuits; multichip modules; network synthesis; rectangular waveguides; substrate integrated waveguides; transmission lines; HSIW prototype; air-filled RWG; dielectric constant; integrated mmwave module; low-loss hollow substrate integrated waveguide; low-loss millimeter-wave transmission line; mmwave transmission line; multichip module; progressive-lamination low-temperature cofired ceramic technique; two-dielectric loaded rectangular waveguide; Cutoff frequency; Dielectric constant; Dielectric losses; Equations; Hollow waveguides; Substrates; Millimeter-wave (mm-wave) circuits; multichip modules; transmission lines;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2014.2328555
