Title :
LCP Characterization of Broadband RF Performance With Consideration of Fabrication Tolerances for CSLP Substrate Suitability
Author :
Patterson, C.E. ; Ajoian, J.V. ; Papapolymerou, John ; May, Gary S.
Author_Institution :
Sch. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
This paper discusses the development of a chip scale level package substrate using liquid crystal polymer (LCP) laminates to support wideband millimeter-wave transmission lines and layer-to-layer transitions. To evaluate the reproducibility of RF performance on LCP in large-panel processing, an iterative design, simulation, fabrication, and test cycle is implemented. Inspection and verification methods are utilized to correlate variation in fabrication tolerances with simulation performance. With subsequent evaluations of fabricated substrates, a database is compiled to update design models and provide an estimate of RF performance yield based on fabrication tolerances. For the first time, a statistical analysis is presented for large-panel LCP fabrication tolerances using printed circuit board supplier techniques.
Keywords :
broadband networks; chip scale packaging; laminates; liquid crystal polymers; millimetre wave devices; millimetre wave integrated circuits; printed circuit manufacture; printed circuits; statistical analysis; transmission lines; CSLP substrate suitability; LCP characterization; LCP laminates; broadband RF performance; chip scale level package substrate; design models; inspection methods; iterative design; large-panel LCP fabrication tolerances; large-panel processing; layer-to-layer transitions; liquid crystal polymer laminates; printed circuit board supplier techniques; simulation performance; statistical analysis; test cycle; wideband millimeter-wave transmission lines; Fabrication; Impedance; Metals; Power transmission lines; Radio frequency; Substrates; Design for manufacturability; fabrication; layered manufacturing; organic materials;
Journal_Title :
Components, Packaging and Manufacturing Technology, IEEE Transactions on
DOI :
10.1109/TCPMT.2013.2247465
