Study of non-solder, low cost and high performance flip chip QFN package using ultra thin Pd PPF

Autor: Se Chuel Park, Sung-Kwan Paek, Chul-Lae Cho
Rok vydání: 2004
Předmět:
Zdroj: IEEE/CPMT/SEMI 28th International Electronics Manufacturing Technology Symposium, 2003. IEMT 2003..
DOI: 10.1109/iemt.2003.1225874
Popis: For the development of semiconductor package, size reduction and high performance are driving forces. As increasing hand held products and green round issue, all package companies are interesting in study of package using lead free solder. As the today's package trend, many kinds of flip chip packages are developed using lead free solder. In most of flip chip packages, lead free solder or Au has been employed mainly as wafer bump, and Sn or Ag plated leadframe based on copper as a substrate. Solder as an interconnection material has been adopted. This study describes the performance of low cost, non-solder and green round package using flip chip interconnection technology on a Pd pre-plated leadframe (Pd PPF). The conventional leadframe couldn't be heated over 270 because of copper peel off. Although Pd-PPF could be workable in higher temperature than other type Cu leadframes, Conventional Pd-PPF showed that the poor thermal resistance for flip chip bonding process at high temperature. Therefore, in this study, newly developed a high quality and ultra thin Pd-PPF (AuAg finished Pd PPF) could provide proper surface condition and soluble substances. This leadframe could be applied to flip chip interconnection in wide temperature range. In conception of low cost, the electroless Ni/Au bump was used for flip chip interconnection with AuAg finished Pd PPF. The shear force of direct-bonded package was 23.05 mgf//spl mu/m/sup 2/. We used thermal compression bonding method and bonding condition is as following: chip temperature 380 and leadframe 380. As leadframe temperature being increased, shear force of the package was very steeply increased. The interconnected layer between the bump and the pre-plated leadframe was composed of Ni/AuAg/Pd/Ni.
Databáze: OpenAIRE