HD Technologies – superior condition monitoring effectiveness

Condition monitoring with High Definition (HD) technologies provides exceptional pre-warning times, thus maximizing the planning horizon for maintenance and repairs. In turn, this enables fully utilizing asset life, cutting repair costs, and minimizing the consequences of unplanned downtime.

In addition to traditional vibration monitoring of gears and bearings, our HD condition monitoring technologies can also distinguish signals originating from the production process itself, which can be used to optimize the process.

Benefits

Follow the damage throughout its entire development
Obtain extraordinarily early warning - weeks and even months more than other technologies
Predictive and proactive maintenance with a maximized planning horizon
Identify gear and bearing damages using exceptionally clear spectrums and time signals
Take advantage of HD vibration data for process optimization

HD ENV

High Definition Enveloping technique – takes vibration monitoring to a new level and integrates easily into existing industrial infrastructures.

Close-up of ball bearings in gray and white

SPM HD

High Definition Shock Pulse Method – shock pulse monitoring in a very broad RPM range, including ultra-low speed applications.

Close-up of ball bearings in dark steel gray

HD Order Tracking

High Definition Order Tracking – provides reliable data and crystal clear measuring results even when RPM varies greatly during measurement.

The difference is in the data

The ability to present disturbance-free condition data in high definition quality sets HD technologies apart from others. Our HD technologies offer the most advanced visualization technology available in condition monitoring.

Cleverly engineered and patented digital signal processing algorithms extract and enhance the signals of interest from dominant, overall machinery signals.

Data in the form of ones and zeros on a hexagon pattern in blue, black and white

HD condition monitoring technologies detect gear and bearing faults very early on in the damage process, making it possible to closely monitor the development of the damage through all its stages