A circuit model for evaluating plasma-induced charging damage in bulk and SOI technologies

Author

Hook, Terence B. ; Chou, Anthony ; Khare, Mukesh ; Mocuta, Anda

Author_Institution

IBM Microelectron., Essex Junction, VT, USA

fYear

2000

fDate

2000

Firstpage

30

Lastpage

33

Abstract

We describe a circuit-based model of charging damage, in which the plasma characteristics are modeled with simple plasma equations, and devices on the wafer are modeled with standard FET compact models. A circuit solver is then used to determine the nodal potentials and currents. We first use this approach for bulk technology and illustrate some aspects of the model, examining oxide thicknesses of 2.3 nm, 3.5 nm, and 6.8 nm. We then apply the model to understand charging in an SOI technology, where the interconnections may be quite complex and all nodes are independent of the wafer substrate. Although SOI circuits are generally immune to charging damage, some bulk-like behavior may be induced by introducing differential electron shading. Results from the model are compared with data, and then the usefulness of the model in analyzing complex circuits is described

Keywords

plasma materials processing; semiconductor process modelling; silicon-on-insulator; surface charging; FET circuit model; SOI technology; bulk technology; electron shading; gate oxide; plasma charging damage; Circuit simulation; Electrons; Equations; Plasma density; Plasma devices; Plasma properties; Plasma simulation; Plasma sources; Plasma temperature; Semiconductor device modeling;

fLanguage

English

Publisher

ieee

Conference_Titel

Plasma Process-Induced Damage, 2000 5th International Symposium on

Conference_Location

Santa Clara, CA

Print_ISBN

0-9651577-4-1

Type

conf

DOI

10.1109/PPID.2000.870585

Filename

870585