ASC AiSys - Model VibroTherm -Smart Sensor System
The ASC AiSys VibroTherm smart sensor system provides a robust solution for the simultaneous acquisition and analysis of vibrations and temperature. It utilizes a triaxial accelerometer based on MEMS technology with a capacitive operating principle, offering a customizable measurement range between ±2 g and ±40 g, and allows sampling rates up to 4 kHz per axis. The system supports accelerations measurement with a 20-bit resolution, while temperature is monitored from -40°C to +125°C with a 50 Hz sampling rate and 15-bit resolution. Enclosed in a rugged IP68-rated aluminum casing, it features a CAN bus interface and offers configurable cables for flexible installation. Ideal for real-time condition monitoring, the ASC AiSys VibroTherm enables predictive maintenance by leveraging historical and real-time data analysis, making it valuable for digital twin applications, which optimize process automation and enhance operational efficiency.
Technology:
The smart sensor system ASC AiSys VibroTherm enables time-synchronous acquisition and analysis of accelerations and temperature. In addition, FIR and IIR filters as well as algorithms for extracting feature vectors are already preconfigured. The triaxial accelerometer of the sensor system is based on proven MEMS technology with a capacitive operating principle, offering a configurable measuring range between ±2 g and ±40 g and allows sampling rates of up to 4 kHz per sensitive direction. The integrated electronics enable the acquisition of accelerations with a resolution of 20 bits. The temperature is measured between -40 ° C and +125 ° C with a sampling rate of up to 50 Hz achieving a resolution of 15 bits.
Housing:
The smart sensor systems feature a lightweight, reliable aluminum housing with protection class IP68 and an integrated cable with configurable length as well as a standardized CAN bus interface including already assembled DSUB connector at the cable end.
Applications:
The smart sensor systems ASC AiSys VibroTherm monitor the properties and behavior of components, vehicles or machines, especially when critical vibrations as well as oil temperatures on motors, bearings or gears have to be acquired and analyzed synchronously. Therefore, those systems are ideally suited for condition monitoring in real time. However, the real intelligence consists in merging the historical and current data and using this to determine the future development of the critical parameters. Especially, these analyzes enable predictive maintenance solutions but are also used in digital twins which help to automate process flows and thus make them more efficient.