Title :
Latch-Up Elimination in Bulk CMOS LSI Circuits
Author :
Schroeder, J.E. ; Ochoa, A., Jr. ; Dressendorfer, P.V.
Author_Institution :
Harris Corporation Melbourne, Florida (305) 724-7550
Abstract :
Inherent in the structure of bulk CMOS integrated circuits are four-layer parasitic paths that can become activated into a low impedance, high-current state, i.e., latch-up. Activation can be accomplished by photocurrents generated by ionizing radiation or by terminal over-voltage spikes. As loss of functionality or device destruction can result, latch-up is undesirable. This paper describes a method of latchup prevention by the use of n on n+ starting material. A graphical analysis is presented that aids in the understanding of the latch-up mechanism and provides insight into the elimination of that state. Experimental data in support of the model is presented.
Keywords :
Breakdown voltage; CMOS integrated circuits; Charge carrier lifetime; Impedance; Ionizing radiation; Laboratories; Large scale integration; Photoconductivity; Semiconductor device modeling; Thyristors;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.1980.4331097
