Title :
The current-carrying corner inherent to trench isolation
Author :
Bryant, Andres ; Haensch, W. ; Geissler, S. ; Mandelman, Jack ; Poindexter, D. ; Steger, M.
Author_Institution :
IBM Technol. Products, Essex Junction, VT, USA
Abstract :
It is shown how the characteristics of the corner MOSFET inherent to trench isolation can be extracted from hardware measurements and how the corner device must be taken into account when extracting MOSFET channel characteristics. For NFETs it is found that the corner´s threshold voltage, substrate sensitivity, and sensitivity to well doping are all smaller than the channel´s. The results imply that for low-standby-power logic applications requiring high performance, it may become necessary to locally control the well doping at the corner. However, the corner´s reduced substrate sensitivity and width independence can provide a significant advantage in a DRAM cell.<>
Keywords :
MOS integrated circuits; insulated gate field effect transistors; DRAM cell; MOSFET; NFETs; channel characteristics extraction; corner device; current-carrying corner; hardware measurements; low-standby-power logic applications; substrate sensitivity; threshold voltage; trench isolation; well doping; Doping; Hardware; Isolation technology; Lifting equipment; Logic devices; MOSFET circuits; Random access memory; Silicon; Threshold voltage; Time measurement;
Journal_Title :
Electron Device Letters, IEEE
