Affiliation:
1. Infineon Technologies AG
2. Fraunhofer Institute for Integrated Systems and Device Technology IISB
Abstract
Mechanical blade dicing is a state-of-the-art technique for the chip separation of SiC devices. Due to the hardness of SiC this technique suffers from low feed rate and high wear of the diamond coated dicing blade, resulting in the risk of uncontrolled tool breakage during the dicing process. With the upcoming transition to 150 mm diameter of SiC wafers this technique will most probably reach its limit. For dicing SiC wafers of those diameters on a productive scale three alternative dicing technologies are considered in this paper: ablation laser dicing, Stealth Dicing and Thermal Laser Separation. All these methods are based on laser processing. The benefits of these technologies are discussed in detail and compared to the classical mechanical diamond blade dicing, including a brief summary of first experimental results on each of the three laser dicing technologies.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference4 articles.
1. S. Abdullah et al., Step cut for dicing laminated wafer in a QFN package, Solid State Science and Technology, Vol. 16, No 2 (2008) 198-206.
2. Hamamatsu, Stealth Dicing Technology and Applications, technical information, Mar. (2005).
3. Dirk Lewke et al., High quality and high speed cutting of 4H-SiC JFET wafers including PCM structures by using Thermal Laser Separation, MRS Spring Meeting, Symposium DD, (2014).
4. Dirk Lewke et al., Thermal Laser Separation – a Novel Dicing Technology Fulfilling the Demands of 4H-SiC Volume Manufacturing, presented at ECSCRM 2014, Grenoble.
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