Title :
Improvements in polysilicon etch bias and transistor gate control with module level APC methodologies
Author :
Williams, David A. ; Locander, Aaron R. ; Herrera, Ted ; Garza, John D. ; Parker, Cynthia K.
Author_Institution :
Technol. Manuf. Group, Intel Corp., Chandler, AZ, USA
Abstract :
The targeting of transistor gate length is a primary driver of device performance. The targeting of the physical gate critical dimension (CD) greatly impacts the electrical gate dimension. Traditionally, continual monitoring and manual offsets to compensate for lithographic and etch equipment variability have been used to control gate CDs. This paper discusses how advanced process control techniques were applied to the 0.13-μm polysilicon (poly) patterning process. Both scanner and etch equipment were controlled using a combination of feedforward and feedback loops. As a result, significant engineering labor was saved, and gate CD 3 sigma results improved 12%, correlating to improved device performance and enhanced yield.
Keywords :
etching; feedforward; lithography; optimised production technology; process control; semiconductor device manufacture; 0.13 micron; electrical gate dimension; etch equipment; feedback loop; feedforward loop; lithography; module level APC methodologies; optimised production technology; physical gate critical dimension; polysilicon etch bias; process control; scanner equipment; semiconductor device manufacture; transistor gate control; transistor gate length; Driver circuits; Feedback loop; Helium; Lithography; Manufacturing; Monitoring; Process control; Semiconductor device manufacture; Transistors; Wet etching; Etching; lithography; process control; semiconductor device manufacture;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
DOI :
10.1109/TSM.2005.858490
