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Difference between revisions of "NVGate Waterfall"
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→Waterfall profile display
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We saw in the previous section that a waterfall collect all-along the acquisition results from NVGate plug-ins, like a spectrum, in a single graph. Now if we connect to the waterfall a plug-in that is not delivering a complete trace, but a single scalar value, the collection during the acquisition off all these successive scalar values will result in a simple curve in the waterfall. This is what is called a '''Profile''' in NVGate.<br> | We saw in the previous section that a waterfall collect all-along the acquisition results from NVGate plug-ins, like a spectrum, in a single graph. Now if we connect to the waterfall a plug-in that is not delivering a complete trace, but a single scalar value, the collection during the acquisition off all these successive scalar values will result in a simple curve in the waterfall. This is what is called a '''Profile''' in NVGate.<br> | ||
A profile can be used to plot trend over the time for DC inputs, Overall RMS level and Bode plots of Orders over the RPM value of the shaft. | A profile can be used to plot trend over the time for DC inputs, Overall RMS level and Bode plots of Orders over the RPM value of the shaft.<br> | ||
In this section, I will show you how to display a profile of the [[NVGate_FFT_Analyzer#Display_available_results|Overall RMS level]] on a channel connected the the [[NVGate FFT Analyzer|FFT 1 plug-in]]. I will present the three same methods presented in the previous section. | In this section, I will show you how to display a profile of the [[NVGate_FFT_Analyzer#Display_available_results|Overall RMS level]] on a channel connected the the [[NVGate FFT Analyzer|FFT 1 plug-in]]. I will present the three same methods presented in the previous section. | ||