Title :
Experimental characterization of Si micropillar based evaporator for advanced vapor chambers
Author :
Mengyao Wei ; Somasundaram, S. ; Bin He ; Qian Liang ; Chuan Seng Tan ; Wang, E.N.
Author_Institution :
Low Energy Electron. Syst. (LEES) IRG, Singapore-MIT Alliance for Res. & Technol. (SMART) Centre, Singapore, Singapore
Abstract :
Advanced thermal management technologies have become more and more essential in semiconductor industries in order to spread high heat flux from integrated circuits and ensure a reliable operation of the devices. Vapor chamber has been extensively studied since it has superior heat dissipation capabilities in comparison with other cooling techniques. Among the components of a vapor chamber, evaporator has proven to be the governing factor in enhancing the entire vapor chamber´s performance. In this paper, silicon based cylindrical micropillar based evaporators were fabricated and characterized inside a vacuum chamber. Geometric influence on the micropillar evaporator´s heat transfer performance were investigated. Higher pillar diameter/ pitch ratio, higher aspect ratio and low wick array lengths are required for more efficient heat spreading.
Keywords :
cooling; integrated circuit packaging; integrated circuit reliability; thermal management (packaging); advanced thermal management technology; advanced vapor chambers; aspect ratio; cooling technique; device operation reliability; geometric influence; heat dissipation capability; heat flux; heat spreading; heat transfer performance; integrated circuits; low-wick array lengths; pillar diameter-pitch ratio; semiconductor industries; silicon cylindrical micropillar-based evaporator; vacuum chamber; Arrays; Heat transfer; Heating; Liquids; Resistance; Silicon; Temperature measurement;
Conference_Titel :
Electronics Packaging Technology Conference (EPTC), 2014 IEEE 16th
Conference_Location :
Singapore
DOI :
10.1109/EPTC.2014.7028412
