Mobile Ion Charge Concentration - Keithley 4200A-SCS Reference Manual

Appendix D: Using a Model 82 C-V System
Interface trap capacitance CIT and density DIT
The density of interface traps (D
is determined by performing simultaneous high frequency and quasistatic C-V sweeps. The
measurements are extracted mostly from the depletion and inversion regions near mid-band.
Interface trap density is calculated from C
Where:
•
C = interface trap capacitance (F)
IT
•
D = interface trap density (cm
IT
•
C = quasistatic capacitance (F)
Q
•
C = high-frequency capacitance (F)
H
•
C = oxide capacitance (F)
OX
•
A = gate area (cm
•
q = electron charge (1.60219 × 10

Mobile ion charge concentration

Mobile ion contaminants in an oxide layer can cause problems in the manufacture and performance
of integrated circuits. To measure the concentration of mobile ions in the oxide layer, you can use the
triangular voltage sweep (STVS) method, developed by Keithley Instruments to monitor mobile ion
charge in MOS structures.
You can also use the flatband voltage shift or temperature-bias stress method to measure oxide
charge density.
D-56
) is a function of the silicon orientation and the fabrication process. It
it
as shown below (Nicollian and Brews 322).
IT
-2 -1
eV )
2
)
-19
coulombs)
Model 4200A-SCS Parameter Analyzer Reference Manual
4200A-901-01 Rev. C / February 2017