Split-polysilicon CMOS process for multi-megabit dynamic memories incorporating stacked container capacitor cells

摘要

This invention is a process for manufacturing dynamic random access memories using stacked container capacitor cells in a split- polysilicon CMOS manufacturing flow. The split-polysilicon flow denotes that N- channel and P-channel transistor gates are formed from a single conductive layer (typically a doped polysilicon layer) using separate masking steps. The focus of this invention is a CMOS manufacturing process flow which permits P-channel source/drain doping subsequent to capacitor formation. A main feature of the process is the deposition and planarization of a thick insulative mold layer subsequent to N-channel device patterning, but prior to P-channel device patterning. In one embodiment of the process, portions of this insulative layer overlying the P-channel transistor regions are removed during the storage-node contact etch. Thus, a low-aspect-ratio etch can be employed to pattern P- channel devices, and a blanket P+ implant may be performed without implanting the P-type impurity into source/drain regions of the N-channel devices. Another important feature of the invention is the incorporation of P-channel gate sidewall spacers and offset P-channel implants into the process flow.