Title :
Bias temperature reliability of n/sup +/ and p/sup +/ polysilicon gated NMOSFETs and PMOSFETs
Author :
Abadeer, W. ; Tonti, W. ; Hànsch, W. ; Schwalke, U.
Author_Institution :
IBM Technol. Products, Essex Junction, VT, USA
Abstract :
A comparison of bias temperature reliability for submicron p/sup +/ and n/sup +/ polysilicon gated devices is presented. An instability associated with the p/sup +/ polysilicon gated devices that gives a negative Delta V/sub t/ and an interface-state buildup for positive bias temperature (+BT) was observed. This instability is explained in terms of the amount of the hydrogen-bonded component of moisture that remains in the gate electrode. It is further shown that a proper postmetallization anneal will significantly reduce this instability. Therefore, it is concluded that high BT reliability for p/sup +/ polysilicon gated devices can be achieved with process controls and actions that reduce the moisture in the device-active area. These controls provide an adequate reliability margin in dual work-function designs.<>
Keywords :
annealing; environmental degradation; hot carriers; insulated gate field effect transistors; interface electron states; reliability; semiconductor device testing; work function; CMOS n-well; NMOSFETs; PMOSFETs; Si; bias temperature reliability; dual work-function designs; interface-state buildup; lifetime reliability; n/sup +/ polysilicon; p/sup +/ polysilicon; polysilicon gated devices; positive bias temperature; postmetallization anneal; process controls; trapped moisture; Annealing; CMOS technology; Degradation; MOSFETs; Metallization; Moisture; Silicon; Stress measurement; Substrates; Temperature;
Conference_Titel :
Reliability Physics Symposium, 1993. 31st Annual Proceedings., International
Conference_Location :
Atlanta, GA, USA
Print_ISBN :
0-7803-0782-8
DOI :
10.1109/RELPHY.1993.283289
