Title :
A polysilicon transistor technology for large capacity SRAMs
Author :
Ikeda, S. ; Hashiba, S. ; Kuramoto, I. ; Katoh, H. ; Ariga, S. ; Yamanaka, T. ; Hashimoto, T. ; Hashimoto, N. ; Meguro, S.
Author_Institution :
Hitachi Ltd., Tokyo, Japan
Abstract :
A polysilicon PMOS cell technology is discussed. Bottom-gated polysilicon PMOS transistors are stacked over NMOS transistors, and a 17 mu m/sup 2/ cell size is realized with a 0.6 mu m design rule. In order to achieve high-performance polysilicon PMOS, both gate oxide and channel polysilicon thicknesses of the PMOS are reduced to 40 nm. A 0.4 mu m length gate-to-drain offset structure is adopted. Moreover, two novel approaches to O/sub 2/ plasma treatment prior to metal H/sub 2/-N/sub 2/ anneal and oxidation of channel polysilicon have been found to be effective for achieving excellent polysilicon PMOS characteristics. As a result, polysilicon PMOS which has a 25 fA off-current (V/sub d/=-5 V, V/sub g/=0 V) and a 0.1 nA on-current (V/sub d/=-5 V, V/sub g/=-2 V) has been realized.<>
Keywords :
MOS integrated circuits; SRAM chips; elemental semiconductors; integrated circuit technology; silicon; 0.1 nA; 0.6 micron; 25 fA; 40 nm; O/sub 2/ plasma treatment; PMOS cell technology; PMOSFET/NMOSFET stack; channel polysilicon thicknesses; fabrication; gate oxide; large capacity SRAMs; memory cell design; metal H/sub 2/-N/sub 2/ anneal; oxidation; polycrystalline Si; polysilicon transistor technology; static RAM; Annealing; MOSFETs; Oxidation; Plasma properties;
Conference_Titel :
Electron Devices Meeting, 1990. IEDM '90. Technical Digest., International
Conference_Location :
San Francisco, CA, USA
DOI :
10.1109/IEDM.1990.237066
