Title :
Parametric study of latchup immunity of deep trench-isolated, bulk, nonepitaxial CMOS
Author :
Bhattacharya, Suryanarayana ; Banerjee, Sanjay K. ; Lee, Jack C. ; Tasch, Al F., Jr. ; Chatterjee, Amitava
Author_Institution :
Microelectron. Res. Center, Texas Univ., Austin, TX, USA
fDate :
4/1/1992 12:00:00 AM
Abstract :
The improvement of latchup immunity in bulk, nonepitaxial CMOS with deep trench isolation has been demonstrated using numerical simulation. Through a proper design of trench dimensions and layout, it is shown that the holding voltage can be increased to a level above the power supply voltage (3.3 V in deep-submicrometer CMOS), yielding latchup-free CMOS even for nonepitaxial substrates. The holding voltage is strongly influenced by the current flow patterns in the conductivity-modulated well and substrate regions, which are affected by trench depth, layout parameters, and the tank and p+/n+ emitter doping concentrations. The deep trench makes the current flow patterns two-dimensional, and this causes parametric dependencies that cannot be explained from simple trench-isolation techniques. Design issues that are unique to deep trench isolation have been identified
Keywords :
CMOS integrated circuits; carrier density; integrated circuit technology; carrier concentration; current flow patterns; deep trench isolation; equipotential contours; holding voltage; latchup immunity; nonepitaxial CMOS; numerical simulation; p+/n+ emitter doping concentrations; trench dimensions; trench layout; Analytical models; CMOS technology; Geometry; Isolation technology; Lifting equipment; Parametric study; Power supplies; Substrates; Thyristors; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
