Title :
Advanced multilayer thick-film technology for cost-effective millimetre-wave multi-chip modules
Author :
Samanta, K.K. ; Robertson, I.D.
Author_Institution :
Inst. of Microwave & Photonics, Leeds Univ., UK
Abstract :
This paper describes the novel application of photoimageable thick film technology for the realization of multilayer millimeter-wave multi-chip modules at a low cost. The dielectric material has been characterized first time up to 110 GHz with a novel technique. TFMS and CPW transmission lines have been characterized with a loss of 0.2 dB/mm and 0.3 dB/mm respectively at 80 GHz. High Q multilayer lumped components have been designed and modeled up to 40 GHz with excellent performance. A 3 GHz lumped element filter has remarkably low pass band loss of 0.3 dB with high stop band attenuation (>40 dB), and yet is highly miniaturized. Multilayer passive components have been designed and characterised up to 65 GHz and the performances are comparable to many reported results for thin film processes and even micro machined transmission lines.
Keywords :
coplanar transmission lines; dielectric materials; dielectric thin films; micromachining; microstrip circuits; microstrip filters; microwave filters; millimetre wave filters; millimetre wave imaging; millimetre wave integrated circuits; multilayers; thick film circuits; 3 GHz; 80 GHz; CPW transmission line; TFMS; cost-effective module; dielectric material; lumped element filter; micromachined transmission line; millimetre-wave multichip module; multilayer lumped component; passive component; photoimageable thick-film technology; thin film process; Band pass filters; Coplanar waveguides; Costs; Dielectric materials; Low pass filters; Millimeter wave technology; Nonhomogeneous media; Propagation losses; Thick films; Transmission lines;
Conference_Titel :
High Frequency Postgraduate Student Colloquium, 2005
Print_ISBN :
0-7803-9500-X
DOI :
10.1109/HFPSC.2005.1566349
