Contamination‐Free Manufacturing: Tool Component Qualification, Verification and Correlation with Wafers
作者:
Samantha H. Tan,
Ning Chen,
Shi Liu,
Kefei Wang,
期刊:
AIP Conference Proceedings
(AIP Available online 1903)
卷期:
Volume 683,
issue 1
页码: 289-293
ISSN:0094-243X
年代: 1903
DOI:10.1063/1.1622484
出版商: AIP
数据来源: AIP
摘要:
As part of the semiconductor industry “contamination‐free manufacturing” effort, significant emphasis has been placed on reducing potential sources of contamination from process equipment and process equipment components. Process tools contain process chambers and components that are exposed to the process environment or process chemistry and in some cases are in direct contact with production wafers. Any contamination from these sources must be controlled or eliminated in order to maintain high process yields, device performance, and device reliability. This paper discusses new nondestructive analytical methods for quantitative measurement of the cleanliness of metal, quartz, polysilicon and ceramic components that are used in process equipment tools. The goal of these new procedures is to measure the effectiveness of cleaning procedures and to verify whether a tool component part is sufficiently clean for installation and subsequent routine use in the manufacturing line. These procedures provide a reliable “qualification method” for tool component certification and also provide a routine quality control method for reliable operation of cleaning facilities. Cost advantages to wafer manufacturing include higher yields due to improved process cleanliness and elimination of yield loss and downtime resulting from the installation of “bad” components in process tools. We also discuss a representative example of wafer contamination having been linked to a specific process tool component. © 2003 American Institute of Physics
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