Chih-Kung Chang

Microlens design for compact lens system

This paper is about the definition and requirement of Compact lens system. One important application of the CMOS image sensor module is to capture a still image or continuous images when it is bundled with cellular phones (embedded, not add-on module). This type of application is related to the so-called “compact lens system.” We will make a description of image forming at pixel and image forming at chip and introduce the experiments of microlens shift. The discussion of the experimented results will include several factors: a) the color filter stack thickness b) the IC stack thickness c) fill factor d) the shape of photo diode. At last, check what problems may happen in actual microlens shift applications. From all above, we can understand the requirement of compact lens system.

Planarization wrinkle in CIS color filter process

The mechanism of planarization wrinkle defect in complementary metal oxide semiconductor (CMOS) color filter process is discussed in this paper. The wrinkle phenomena occurred as the planarization resist thickness decreased and became worse after high temperature baking was implemented. In experiment, the effect of factors on the wrinkle with KLA scanning such as resist thickness, soft bake temperature and time after resist coating and development puddle time were analyzed. From the data, the wrinkle is connectable with the developer penetration into and break through the resist film. Some solutions can be applied to solve this problem. Strengthening the resist film by increasing expose energy to get higher degree of polymerization is the best solution. Increasing resist thickness also can inhibit wrinkle but it is limited by the overall stack height for optimizing microlens focal length. Prolonging the soft bake time and reducing the puddle time of development to eliminate the penetration effect of developer are not obvious.