SENSORS
Key features
- Bi-axial MEMS inclinometer and tri-axial MEMS accelerometer integrated into a single device with a significant cost advantage and making data correlation even more precise and reliable
- Sensors remotely configurable as inclinometers, accelerometers, or both
- Key features configuration, including full scale, sampling, and smart interrogation mode, modifiable even after installation
- Different formats and types of power supply to better adapt to the context and monitoring distance
- Sensors provided in pre-wired chains designed ad hoc for ease of installation in the field.
bi-axial MEMS inclinometer
The Sacertis bi-axial MEMS inclinometer is based on MEMS technology and allows for high-resolution angle measurement.
The sensor data is digitized and transmitted over long distances, up to several hundred meters, through a dedicated data bus.
After digital sampling and filtering, the inclinometer data is pre-processed in the Gateway for the extraction of synthetic parameters and the detection of anomalies in near-real time. The data is also transferred to the Cloud for post-processing in the time domain.
The sensors can be connected sequentially in pre-wired chains to measure inclinations at different points of the structure being monitored.
Key features
- Different communication protocols depending on the specific application.
- Temperature acquisition for subsequent thermal compensation
- Adaptable periodic sampling for different applications
- Configurable remotely
- Remote firmware updating
- Reduction of disturbances (Ultra Low Noise Reduction)
- Arm® 32-bit Cortex®-M4 CPU with FPU
- Different formats and types of power supply to better adapt to the context and distance of monitoring.
- Sensors supplied in pre-wired chains designed for easy field installation.
ACCELEROMETER TRIAXIAL MEMS
The triaxial accelerometer is based on MEMS technology and uses a high-performance data bus to send data to the Sacertis Gateway.
The sampling frequency of the accelerometer signal can be adjusted depending on the application.
Each accelerometer is synchronized with a common clock for the entire sensors network, located in the Gateway. After sampling and digital filtering, accelerometer data is pre-processed in the Gateway for the extraction of synthetic vibration parameters, real-time anomaly detection, and smart selection of the most significant data. The data is transferred to the Cloud for post-processing operations in the time or frequency domain.
Sensors are connected in pre-wired chains on the same bus, even over long distances, up to several hundred meters. The number of accelerometers that can be concatenated on the same bus depends on the total length, sampling frequency, and network topology.
Key features
- Power supply at 230VAC or +24VDC
- Temperature acquisition for subsequent thermal compensation
- Adaptable sampling frequency for different applications
- Configurable remotely
- Firmware update remotely
- Noise reduction (Ultra Low Noise Reduction)
- Arm® 32-bit Cortex®-M4 CPU with FPU
- Measurement axes: x, y, z
- Resolution: 16 bit
- Full-scale range: ± 2.0g, ± 6.0g
- RoHS compliant
- IP68 protection degree
- Operating temperature: -40°/+85°
Our Products
Sensors
Thanks to our years of experience in the field of monitoring and diagnostics, Sacertis has acquired unparalleled know-how that we have applied to the sensors used in our systems.
Cloud
Gateway
Dashboard
THIRD-PARTY SENSORS
