A high throughput, noncontact system for screening silicon wafers predisposed to breakage during solar cell production

We describe a non-contact, on-line system for screening wafers that are likely to break during solar cell/module fabrication. The wafers are transported on a conveyor belt under a light source, which illuminates the wafers with a specific light distribution. Each wafer undergoes a dynamic thermal stress whose magnitude mimics the highest stress the wafer will experience during cell/module fabrication. As a result of the stress, the weak wafers break, leaving only the wafers that are strong enough to survive the production processes. We will describe the mechanism of wafer breakage, introduce the wafer system, and discuss the results of the time-temperature (t-T) profile of wafers with and without microcracks.