Features | DigivibeMX Version 10
Multi-language Support
DigivibeMX® 10 supports more languages. Now it’s available in four languages: English, Spanish, Turkish, French and Chinese.
This new feature allows to download new language packages or update current ones.
SBS Balancing Mode
Easy-to-use function designed to perform balancings on the field as well as on balancing machines. The system uses a tracking filter to identify the RPM in a specified range so small changes on the speed don’t affect the balancing process. Balancing speed range: 100 – 120,000 RPM in a very intuitive interface.
Automated Channel Switching*
The new DigivibeMX 10 even makes the process of balancing in two planes easy. Now, it’s possible to make it sequential by switching between channels 1-A and 1-B avoiding an incorrect measure of each plane.
There are two modes to implement this feature:
- Sequential Switching (automatic): Make a new balance, set up the record time and start a new recording in plane one; at the end of the recording the software automatically switches the channel on the interface and start recording plane two.
- Manual Switching: You can switch between channel 1-A and 1-B (on interface) by clicking over the polar graphic corresponding to plane one and plane two respectively (in DigivibeMX). When recording, the software will acquire the signal on that plane.
*This feature is only available with the Interface I-600
Polar graphics are visual representations of the balancing vector positions. They are useful for locating the correction masses.
DigivibeMX M10 has many balancing tools, including:
- Single plane balancing calculator
- 2-plane balancing calculator
- Serial balancing
- Residual unbalance
- Balancing quality grade calculator
- Split weights
- Combine weights
- Drill depth
- Plate size
- Trial mass calculator
- Radius change
DigivibeMX M10 is able to generate automatic balancing reports on Microsoft Word, so it is very easy to edit them. It includes:
- Values for each run are set in a table
- Evolution trend of the balancing process in RMS and filtered values
- FFT cascade for each plane
- Time domain signals in a cascade format for each plane
- Polar graphs
- Final spectrum
