Inverse modeling of two-dimensional MOSFET dopant profile via capacitance of the source/drain gated diode

Author

Yeow, Y.T.

Volume

47

Issue

7

fYear

2000

fDate

7/1/2000 12:00:00 AM

Firstpage

1385

Lastpage

1392

Abstract

This paper proposes and demonstrates a new approach to two-dimensional (2-D) dopant profile extraction for MOSFETs by treating the source/drain-to-substrate junction as a gated diode. The small-signal capacitance of the diode measured as a function of gate and source/drain bias is used as the target to be matched in an inverse modeling process. It is shown that this capacitance allows both the substrate dopant profile in the channel region and the source/drain-to-substrate profile parallel to the surface to be evaluated with a single set of measurement data. Experimental results for n-MOSFET´s with drawn channel length =1 μm and 0.265 μm are presented. Comparison of other electrical measurement with simulation data based on the extracted profile is also given

Keywords

MOSFET; capacitance; doping profiles; semiconductor device models; 0.265 micron; 1 micron; MOSFET; inverse model; parameter extraction; small-signal capacitance; source/drain gated diode; two-dimensional dopant profile; Capacitance measurement; Chemical analysis; Data mining; Electric variables measurement; Inverse problems; MOSFET circuits; Numerical simulation; Semiconductor diodes; Substrates; Two dimensional displays;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/16.848281

Filename

848281