Title :
Retrograde well and epitaxial thickness optimization for shallow- and deep-trench collar merged isolation and node trench SPT DRAM cell and CMOS logic technology
Author :
Voldman, S. ; Marceau, M. ; Baker, A. ; Adler, E. ; Geissler, S. ; Slinkman, J. ; Johnson, J. ; Paggi, Mirko
Author_Institution :
IBM Corp., Essex Junction, VT, USA
Abstract :
A comprehensive study of design point constraints on n-well and epitaxial design for a CMOS trench DRAM/SRAM/logic process is presented. Design criteria and guidelines, derived from experimentation and process/device simulation, are based on the following considerations: trench DRAM storage node capacitance, DRAM leakage mechanisms, retention time, n-well electrical parametrics, pnp bipolar current gain, latchup, and electrostatic discharge (ESD) performance. The methodology is discussed for achieving optimum power, signal, retention time, performance, reliability and ESD performance.<>
Keywords :
CMOS integrated circuits; DRAM chips; circuit reliability; digital simulation; electrostatic discharge; logic CAD; logic arrays; semiconductor process modelling; CMOS logic technology; deep-trench collar merged isolation; design point constraints; electrostatic discharge; epitaxial thickness optimization; latchup; leakage mechanisms; n-well electrical parametrics; node trench SPT DRAM cell; pnp bipolar current gain; process/device simulation; reliability; retention time; retrograde well; shallow-trench collar merged isolation; storage node capacitance; substrate plate trench; CMOS integrated circuits; Circuit reliability; DRAM chips; Design automation; Electrostatic discharges; Logic arrays; Semiconductor process modeling; Simulation;
Conference_Titel :
Electron Devices Meeting, 1992. IEDM '92. Technical Digest., International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-0817-4
DOI :
10.1109/IEDM.1992.307482
