Title :
Analyses of thermal stresses and control schemes for fast temperature ramps of batch furnaces [IC manufacture]
Author :
Fan, Yong-Hui ; Qiu, Taiqing
Author_Institution :
Dept. of Mech. Eng., MIT, Cambridge, MA, USA
fDate :
11/1/1997 12:00:00 AM
Abstract :
This work studies fast temperature ramps of batch furnaces under different control schemes based on thermal and stress analyses. A thermal model is first developed to predict temperature distributions on silicon wafers during ramping processes. Thermoelastic model of stresses is then used to predict the onset of slip-line generation under dynamic conditions. Three control schemes, one based on a maximum allowable within-wafer temperature difference, one with a constant cooling rate, and the third based on the condition for onset of slip generation, are then analyzed. The results show that in order to achieve the highest ramp rates while maintaining defect-free wafer processing, the ultimate criterion for temperature control of the furnaces should be the condition for the onset of defect generation instead of the conventional scheme based on constant ramp rates
Keywords :
batch processing (industrial); cooling; dislocations; elemental semiconductors; furnaces; integrated circuit manufacture; silicon; stress analysis; temperature control; temperature distribution; thermal analysis; thermal stresses; IC manufacture; Si; Si wafers; batch furnaces; constant cooling rate; control schemes; defect generation; defect-free wafer processing; dynamic conditions; fast temperature ramps; slip-line generation onset; temperature control; temperature distributions; thermal model; thermal stresses; thermoelastic model; Cooling; Furnaces; Predictive models; Semiconductor device modeling; Silicon; Stress control; Temperature control; Temperature distribution; Thermal stresses; Thermoelasticity;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
