Difference between revisions of "NVGate Tachometer"

NVGate can set up several tachometer sources, including virtual tachometers in the case of multiple shafts. Tachometers are based on signals that provide pulses/revolution or from a CAN bus or from a voltage proportional to the angular velocity.

| On this window, only input tachometer and ext. synch tachometer are available. To use it, just open the GoToResults windows, then select the tachometer. [[File:tach3.png|framed|none]]  ||  For more advanced option, on ribbon/acquisition tab, the left button (''Select'') allows dispatching the different tachometer type to the plug-in analyzers. The others items open the corresponding event detection setup.[[File:tach1.png|framed|none]] ''Select:'' '' Shows the list of available tachometer sources and allows plugging it, to the plug-in, events and waterfall.

All tach can be used as source for the RPM and Delta RPM event type and/or for order analysis (Constant band tracking of the FFT plug-in and Synchronous Order Analysis plug-in analyzers), and/or as a reference for the waterfall plug-in.

|  You can display scalar value, or profile using GoToResult windows.[[File:tach5.png|600px|none]] First activate a tachometer in a window plug in. Second, A new tab is create : "tachometer". select the profile or scalar value  || For advanced results, use the: add/remove windows.

On NVGate we can set up several tachometer sources, including virtual tachometers in the case of multiple shafts. Tachometers are based on signals that provide pulses/revolution or from a CAN bus or from a voltage proportional to the angular velocity.

[[Image:Reports_Tools_Ribbons_354.png]]''Inputs:'' Opens the properties dialog for the tachometers based on a dynamic input

Used to define up to 4 tachometers using signal from fast analog input (from the Front-end or from the Player).

* '''Source:''': the tach input signal (NONE by default). The input signal can be any Front-end input in Connected mode on line or any Player track in Post-analysis mode (except for the DC input and the Ext. Sync. inputs or tracks). (note : on OR35V1, Input 5 to input 8 are not able to be set as source using an OR35 analyzer.)

* '''Max speed''': predefine a maximum angular speed to preset the scale and order tracking maxima. The limit of Max speed depends on the sampling frequency of the input signal and is equal to: 60 * Fe / (2 * 2.56) for the maximum. The Max speed setting is also used:

In acquisition mode, the tach Ext synch come frome the frond end.<br>

In post analyse, we connect player track on tachometer Ext synch ressource.<br>

Externals syncs are high speed levels comparator that provides accurate events date for the tachs and trigger. External sync is sampled at 64 time the Front-end sampling frequency in order to achieve higher precision in delay or phase measurements.

* '''Pre-''''''divider''': Hardware pre-divider is available after the edge detector and is used to reduce the frequency of the signal to be measured. When the tach is enabled, the measured speed take into account the pre-divider setting when displaying the true RPM value. The user can enter any integer value between 1 and 255. If tach is <nowiki>’</nowiki>On<nowiki>’</nowiki> this setting is linked to the <nowiki>’</nowiki>pulse/rev<nowiki>’</nowiki> setting.

* '''Post''''''-mutiplier:''' selection of the multiplier factor. It allows to generate an <nowiki>’</nowiki>ExtSync<nowiki>’</nowiki> signal which the pulse frequency is multiplied by the selected factor. The user can enter any integer value between 1 and 50. This is particularly used with slow time base as GPS or standard clock.

* '''Multiplier Hold off: '''defines the maximum time (expressed in percentage of the last period measured after multiplication) between a detected pulse and a simulated pulse. If a simulated pulse is detected before this time has expired since the detected pulse then this pulse is not added. By this way, the simulated signal is synchronize with the input signal. The user can enter any value between 1% and 99%.

* '''Mode: '''This setting allows selecting available signal generated by the Ext. synch input to be used by the NVGate analysis components.

|The input generates the instantaneous velocity measured with the F. to V converter from a pulses train. The torsional signal is considered as a dynamic input. It appears as Tors # in the inputs list (# being the Ext sync number)

|The detected pulses on the inputs will be used to synchronize the SOA re-sampling algorithm. The number of pulse/rev is f free and may be different from the SAO resolution.

If a pulse is detected before this time has expired since the last valid pulse then the new pulse is rejected. This is used to reject angular speed variations that are too large. This minimum time is in fact the maximum between the Hold off setting value and the value computed using the last tach period length and the Hold off (% period) setting value.

* to specify the limit of Y axis of the RPM profile result

* '''Hold off''': defines the minimum time (expressed in seconds) between two tach pulses used to measure angular speed. If a pulse is detected before this time has expired since the last valid pulse then the new pulse is rejected. This minimum time is in fact the maximum between the Hold off setting value and the value computed using the last tach period length and the Hold off  (% period) setting value. The user can enter any value between 0 and 36000s.

Up to 4 tachometers using signal from DC inputs can be activated. It<nowiki>’</nowiki>s particularly interesting if a tachometric transducer which delivers voltage proportional to rotational speed is used for the measurement (the sensitivity is in Volt/RPM). The actual speed is continuously known during the rotation. Be aware than phase measurement is not accurate with the method.

On acquisition mode, you need to activate a DC input on the frond tend, then activate the tach option

'''Tach:''' On / Off. Used to activate a tachometer with an RPM level proportional to the DC level

'''Max speed:''' defines the highest measured angular speed. speed higher than Max speed are rejected. By default Max speed is expressed in RPM.

* to specify the limit of Y axis of the RPM profile result

* to compute the limit of the maximum order of the SOA plug-in analyzer.

They can be activated and connected to a DC Input available in the signal loaded in the player.  The set up magnitude, sensitivity and offset allow to calibrate the DC Input in post analyze to obtain the correct values of the angular velocity.

Settings are the same than in acquisition mode

On post analysis, if you have record a tachometer on a dynamical input, you can extract the DC of this channels using the monitor, Then, define a DC tachomter with the value "monitor DC". The process is as follow :

Used to define up to 4 fractional tach, using data from the tach or the Ext Tach.

Virtual tach computes RPM speed for a not accessible shaft by using gear ratio setting.

The main application is in automtive : studying vibration due to a CVT gear box. We will first compute the speed of the belt with a [https://en.wikipedia.org/wiki/Continuously_variable_transmission continuously variable transmission (CVT)]deducing by the speed of the 2 shafts. Then, with this belt speed, we can deduce vibration due to this belt using waterfall or order traking technics.

This module allows computing tachometer information (Speed, Phase) relatively to 2 measured tachometers. Up to 4 different combined tach can be computed simultaneously. The combined tach can be used as any other standard tach.

* '''Max speed''': predefine a maximum angular speed to preset the scale and order tracking maxima. The limit of Max speed depends on the sampling frequency of the input signal and is equal to: 60 * Fe / (2 * 2.56) for the maximum. The Max speed setting is also used:

Constants and parameters can be defined (except ''pi'' and ''e'') using the = sign; eg: ''var1 = pi * 2'' or ''var2 = rpm1/2''. The constants may be defined once only.