Edge and bevel automated defect inspection for 300mm production wafers in manufacturing

In this paper, we describe a solution for wafer edge and bevel apex defect inspection for a 300 mm semiconductor automated fab. Traditionally, we have used an advanced macro inspection solution for topside wafer inspection. The automated tool revealed that defects surfacing after the back end of lin...

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Hauptverfasser:	Morillo, J.D., Houghton, T., Bauer, J.M., Smith, R., Shay, R.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Chemical processes Copper Degradation Inspection Manufacturing automation Planarization Production Semiconductor device manufacture Semiconductor films Testing
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creator	Morillo, J.D. Houghton, T. Bauer, J.M. Smith, R. Shay, R.
description	In this paper, we describe a solution for wafer edge and bevel apex defect inspection for a 300 mm semiconductor automated fab. Traditionally, we have used an advanced macro inspection solution for topside wafer inspection. The automated tool revealed that defects surfacing after the back end of line (BEOL) copper chemical mechanical polish planarization (Cu CMP) process were significantly impacting yields. We suspected that particles and film on the edge and bevel were flaking off on to the top of the wafers, causing the yield degradation. However, we needed more information from the edge to confirm our hypothesis. Since offline manual edge analysis was not cost-effective for larger wafer sampling, we sought to develop an inline bevel inspection at the CMP sector that was fast, cost-effective, and integrated with the advanced macro inspection tool. We also established a long-term goal of expanding the process into an all-surfaces inspection within one manufacturing operation step. This paper describes how we integrated the top-down macro and edge bevel inspection into a single automated operation, enhancing data collection and our ability to take corrective action. The process includes full top and complete edge bevel inspection of less than 10 percent of each lot. Although we ran sample tests to inspect edges after numerous processes, this paper focuses on BEOL Cu CMP inspection, including data collection and corrective actions. We also highlight the benefits of edge inspection, and the new level of automated process control. As a result of edge inspection, we have taken corrective actions that have reduced defects on the edge bevel, and improved wafer final test yields by 10 percent from the baseline
doi_str_mv	10.1109/ASMC.2005.1438766
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Traditionally, we have used an advanced macro inspection solution for topside wafer inspection. The automated tool revealed that defects surfacing after the back end of line (BEOL) copper chemical mechanical polish planarization (Cu CMP) process were significantly impacting yields. We suspected that particles and film on the edge and bevel were flaking off on to the top of the wafers, causing the yield degradation. However, we needed more information from the edge to confirm our hypothesis. Since offline manual edge analysis was not cost-effective for larger wafer sampling, we sought to develop an inline bevel inspection at the CMP sector that was fast, cost-effective, and integrated with the advanced macro inspection tool. We also established a long-term goal of expanding the process into an all-surfaces inspection within one manufacturing operation step. This paper describes how we integrated the top-down macro and edge bevel inspection into a single automated operation, enhancing data collection and our ability to take corrective action. The process includes full top and complete edge bevel inspection of less than 10 percent of each lot. Although we ran sample tests to inspect edges after numerous processes, this paper focuses on BEOL Cu CMP inspection, including data collection and corrective actions. We also highlight the benefits of edge inspection, and the new level of automated process control. 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This paper describes how we integrated the top-down macro and edge bevel inspection into a single automated operation, enhancing data collection and our ability to take corrective action. The process includes full top and complete edge bevel inspection of less than 10 percent of each lot. Although we ran sample tests to inspect edges after numerous processes, this paper focuses on BEOL Cu CMP inspection, including data collection and corrective actions. We also highlight the benefits of edge inspection, and the new level of automated process control. 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Traditionally, we have used an advanced macro inspection solution for topside wafer inspection. The automated tool revealed that defects surfacing after the back end of line (BEOL) copper chemical mechanical polish planarization (Cu CMP) process were significantly impacting yields. We suspected that particles and film on the edge and bevel were flaking off on to the top of the wafers, causing the yield degradation. However, we needed more information from the edge to confirm our hypothesis. Since offline manual edge analysis was not cost-effective for larger wafer sampling, we sought to develop an inline bevel inspection at the CMP sector that was fast, cost-effective, and integrated with the advanced macro inspection tool. We also established a long-term goal of expanding the process into an all-surfaces inspection within one manufacturing operation step. This paper describes how we integrated the top-down macro and edge bevel inspection into a single automated operation, enhancing data collection and our ability to take corrective action. The process includes full top and complete edge bevel inspection of less than 10 percent of each lot. Although we ran sample tests to inspect edges after numerous processes, this paper focuses on BEOL Cu CMP inspection, including data collection and corrective actions. We also highlight the benefits of edge inspection, and the new level of automated process control. As a result of edge inspection, we have taken corrective actions that have reduced defects on the edge bevel, and improved wafer final test yields by 10 percent from the baseline</abstract><pub>IEEE</pub><doi>10.1109/ASMC.2005.1438766</doi><tpages>4</tpages></addata></record>
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Chemical processes Copper Degradation Inspection Manufacturing automation Planarization Production Semiconductor device manufacture Semiconductor films Testing
title	Edge and bevel automated defect inspection for 300mm production wafers in manufacturing
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