TS-SEN-MINI
Based on own proprietary technology Terna designs and manufactures high precision sensors.
Tailor-made for heavy machinery our state-of-the-art Inertial Measurement Units (IMU)* provide accurate and precise data in the roughest working conditions.
Our CANOpen, calibrated, robust and durable IMU's are open and compatible with 3rd party systems.
TS-SEN-MINI
| Specifications | Factory calibrated |
|---|---|
| IP 69K | |
| Input voltage range 9-36V DC | |
| Vibration: ISO16750-3 (IX, VII) | |
| Data output | Acceleration |
| Rate of turn | |
| Orientation | |
| Angles | |
| Quaternions | |
TS-SEN-MINI excels at providing precise data on linear acceleration and angular rate. As one of the most compact IMU's on the market for heavy machinery TS-SEN-MINI enables smooth installation and seamless operation over entire fleets.
Delivered in a robust anodized aluminium case and tested to satisfy IP69K certification TS-SEN-MINI offers excellent durability and performance.
*) An Inertial Measurement Unit (IMU) is made up of six complementary sensors arrayed on three orthogonal axes, each axis has an accelerometer and gyroscope which allows an IMU to measure its precise relative movement in 3D space. The accelerometers measure linear acceleration, and the gyroscopes measure rotational acceleration. This information allows the IMU to measure its precise relative movement in 3Dspace. IMU measurements are also able to provide an angular solution about the three axes.
TS-SEN-MINI excels at providing precise data on linear acceleration and angular rate. As one of the most compact IMU's on the market for heavy machinery TS-SEN-MINI enables smooth installation and seamless operation over entire fleets.
TS-SEN-MINI
| Specifications | Factory calibrated |
|---|---|
| IP 69K | |
| Input voltage range 9-36V DC | |
| Vibration: ISO16750-3 (IX, VII) | |
| Data output | Acceleration |
| Rate of turn | |
| Orientation | |
| Angles | |
| Quaternions | |
*) An Inertial Measurement Unit (IMU) is made up of six complementary sensors arrayed on three orthogonal axes, each axis has an accelerometer and gyroscope which allows an IMU to measure its precise relative movement in 3D space. The accelerometers measure linear acceleration, and the gyroscopes measure rotational acceleration. This information allows the IMU to measure its precise relative movement in 3Dspace. IMU measurements are also able to provide an angular solution about the three axes.