Abstract
In the paper a new method of Random Telegraph Signal (RTS) noise identification is presented. The method is based on a standardized histogram of i nstantaneous noise values and processing by Gram-Charlier series. To find a device generating RTS noise by the presented method one should count t he number of significant coefficients of the Gram- Charlier series. This would allow to recognize the t ype of noise. There is always one (first) significant coefficient ( c0) representing Gaussian noise. If additional coefficients cr (where r > 0) appear it means that RTS noise (two-level as well as multiple- level) is detected. The coefficient representing the Gaussian component always has the h ighest value of all. The application of this method will be presented on the example of four devices, each with di fferent noise (pure Gaussian noise signal, noise signal with two-level RTS noise, noise signal with three- level RTS noise and noise signal with not precisely visible occurrence of RTS noise). K eywords: RTS noise, Gram-Charlier series, semiconductor devices, optocouplers.
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