• TCAD Examples

    TCAD Examples

mos2ex18.in : Negative Bias Temperature Instability of a Silicon pMOSFET

Requires: SSuprem 4/S-Pisces
Minimum Versions: Athena 5.22.3.R, Atlas 5.32.0.R

This example creates a pMOSFET and models the degradation caused by stressing at negative gate bias and elevated temperature. After relaxing the device the permanent component of the degradation is shown. The actual size of the degradation is enhanced compared to reality, for the purposes of illustration. The example shows how to :

  • Create a PMOS structure using Athena syntax
  • Set up the 2-stage Negative Bias Temperature Instability model
  • Do a transient simulation of stress and relaxation at elevated temperature.
  • Obtain Id-Vg curves using loaded structure files with saved trap state occupations.

The input file consists of four separate runs, the first starts Athena
go athena
which uses commands similar to those in mos2ex12 to create an example pMOSFET structure. The next section starts Atlas
go atlas
and sets up the interface traps at a density of 1e12 per c.c. on the INTTRAP statement. The particular model used is the 4-state stochastic model GRA.4.STO. This is described in detail in the Atlas users manual. The traps at each interface point are divided into GRA.SAMPLES subtraps, and the parameters for each one are chosen from a random uniform distribution, determined from the specified mean value and variance parameters. The set of
statements cause the values of the trap occupation probabilities at the particular location on the interface be written to the log file. The location parameters must position the probe exactly on an interface to obtain correct values. The traps are initialised to all be in the precursor state, and then a transient simulation is done at negative gate bias with the device biased to conduct. At various points the structure file is saved, the TRAPS parameter on the OUTPUT statement ensures that the current occupation probabilities of all the subtraps are saved to the file. In the next section starting Atlas again
go atlas
the structure file corresponding to the device after 100 s of stressing is read in. On a transient ramp the the gate and drain bias are quickly reduced to zero and a transient simulation with the device in this relaxed state is run to 1000 seconds. The structure file is saved at the end of the run. In the final section starting Atlas again
go atlas
the mesh is read in and the simulation flags set. The deck then loops 6 times between the statements loop steps=6 and l.end to read in a sequence of saved structure files and obtain the Id-Vg characteristics of the virgin device and the degraded devices. The degradation is partially recoverable, after 1000 s of realxation the degradation is better than it is immediately after 100 s of stressing. This is due to structural relaxation of some traps back to the precursor state, whilst some remain as charged interface (Pb) states.
To load and run this example, select the Load button in DeckBuild > Examples. This will copy the input file and any support files to your current working directory. Select the Run button in DeckBuild to execute the example.

Input Files
Output Results
These examples are for reference only. Every software package contains a full set of examples suitable for that version and are installed with the software. If you see examples here that are not in your installation you should consider updating to a later version of the software.
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