News

SDK to Offer Low Defect SiC Wafers

October 04, 2015 by Jeff Shepard

Showa Denko (SDK) has developed a new grade of SiC epitaxial wafers for power devices with very low defect density. SDK will this month start commercial shipments of the new grade, in two different sizes 100mm and 150mm in diameter, under the trade name of High-Grade Epi (HGE). Power modules for high-voltage, high-current applications mainly contain devices with the structure of SBD (Schottky barrier diode) and transistors with the structure of MOSFET (metal-oxide-semiconductor field-effect transistor). While SiC is increasingly used in SBD, it is difficult to use SiC in MOSFET.

As MOSFET's oxide film, formed on the surface of an epitaxial wafer, is used in device operations, finer surface defect (SD) and various types of crystal defects, including basal plane dislocation (BPD), considerably affect the yield and product quality.

For automotive applications, meanwhile, large chips measuring around 10mm square are made out of epitaxial wafers. This is because one device needs to handle a current as high as 100A. To prevent deterioration in the production yield of such large chips, the defect density of epitaxial wafers should be controlled within 0.1/cm2.

In the new HE product HGE, SDK has succeeded in controlling the number of SD within 0.1/cm2 (one-third the current level of SDK's conventional product) and of BPD within 0.1/cm2 (one-hundredth or less compared with conventional product).

As a result, it is now possible to almost eliminate device defects attributable to BPD (assuming the use of a 10mm square chip). SDK believes that the new product will greatly contribute to the commercialization and market expansion of full SiC power modules that combine SiC-SBD and SiC-MOSFET.

Using the HGE technology, SDK has also succeeded in producing SiC epitaxial wafers with film thickness of 100µm or more, having low levels of defect density and good uniformity. SDK will start commercial shipments of these SiC epitaxial wafers for use in power generation/transmission systems.