DocumentCode
3482632
Title
Improved pumping strategy for ion implanter end stations
Author
Lessard, Philip A. ; Ash, Gary S. ; Unger, Robert
Author_Institution
CTI-Cryogenics, Mansfield, MA, USA
fYear
1996
fDate
16-21 Jun 1996
Firstpage
387
Lastpage
389
Abstract
The variety and complexity of ion implants required in modern semiconductor fabrication has placed increasing burdens on high vacuum pumps on the end stations of implanters. More high energy and high current implants, combined with increasingly stringent process requirements for greater uniformity of implant and higher product throughput, mean a requirement for a pumping scheme that yields high speed (and, more importantly, constancy of speed), while maintaining high tool availability. In this paper, we trace the logic that leads to these requirements and describe the resultant pumping scheme that uses high hydrogen speed cryopumps, a regeneration scheduling strategy that minimizes tool downtime, and improved regeneration methodologies that restore full pump capacity and speed in minimum time. When applied to operating fab tools, these techniques have resulted in significantly increased implanter availability, as well as improved process results
Keywords
cryopumping; integrated circuit manufacture; ion implantation; process control; vacuum control; constancy of speed; high energy high current implants; high hydrogen speed cryopumps; high pumping speed; high vacuum pumps; implant uniformity; implanter availability; improved pumping strategy; ion implanter end stations; product throughput; regeneration methodologies; regeneration scheduling strategy; semiconductor fabrication; tool availability; tool downtime minimization; Ash; Availability; Cryogenics; Fabrication; Geometry; Hydrogen; Implants; Logic; Resists; Throughput;
fLanguage
English
Publisher
ieee
Conference_Titel
Ion Implantation Technology. Proceedings of the 11th International Conference on
Conference_Location
Austin, TX
Print_ISBN
0-7803-3289-X
Type
conf
DOI
10.1109/IIT.1996.586357
Filename
586357
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