it looks like i already forgot what i graphed
Z=V(voltage point)*normalizer -- sets all references to a default unit value (1V)
relative scaler log10(Z)*relativeNormalizer -- resizes plots so they fit to same scale . . .
. . . so the smaller the "relativeNormalizer" is the worse the device performs (has greater fluctuation range)
so the "Z" re-plotted (for stepped current) ::
. . . the 1.67V µm 431 variant seems to perform best here in both current ranges (x431/x113)
- - - -
[Eop]
Z=V(voltage point)*normalizer -- sets all references to a default unit value (1V)
relative scaler log10(Z)*relativeNormalizer -- resizes plots so they fit to same scale . . .
. . . so the smaller the "relativeNormalizer" is the worse the device performs (has greater fluctuation range)
so the "Z" re-plotted (for stepped current) ::
. . . the 1.67V µm 431 variant seems to perform best here in both current ranges (x431/x113)
- - - -
[Eop]
No comments:
Post a Comment