Difference between revisions of "NVGate Torsional"

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*The non cyclic behaviour of a shaft can be analysed by :  
*The non cyclic behaviour of a shaft can be analysed by :  
* The [[NVGate Synchronous Order Analysis|order analysis]] plug-in, providing order profiles
** The [[NVGate Synchronous Order Analysis|order analysis]] plug-in, providing order profiles
* By the [[NVGate Time Domain Analysis|time domain analysis]] for RPM over revolution profiles
** By the [[NVGate Time Domain Analysis|time domain analysis]] for RPM over revolution profiles
* The [[NVGate FFT Analyzer|FFT analyser]] plug-in for displaying the Shaft view to visualize the evolution of speed during one revolution.<br>
** The [[NVGate FFT Analyzer|FFT analyser]] plug-in for displaying the Shaft view to visualize the evolution of speed during one revolution.<br>


*The torsional behaviour of a shaft ([https://en.wikipedia.org/wiki/Torsional_vibration#Crankshaft_torsional_vibration crankshaft], alternator) or a driving belt (service belt) being excited by its acyclic motion. In such a case the phenomena are analysed order by order using the cross-phase tracking capabilities of the SOA Plug-in. In this case 2 or more torsional inputs are used: in different location of the shaft or on each pulley driven by the belt.<br>
*The torsional behaviour of a shaft ([https://en.wikipedia.org/wiki/Torsional_vibration#Crankshaft_torsional_vibration crankshaft], alternator) or a driving belt (service belt) being excited by its acyclic motion. In such a case the phenomena are analysed order by order using the cross-phase tracking capabilities of the SOA Plug-in. In this case 2 or more torsional inputs are used: in different location of the shaft or on each pulley driven by the belt.<br>

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