CTi - Model CS-IM100/200 -Inertial Measurement Unit (IMU)
The CS-IM100/200 Inertial Measurement Unit is a 9 degree-of-freedom (DOF) inertial measurement device. The 3-axis accelerometer can be used to sense gravitational acceleration as well as motion. Rotation-rate can be sensed by the 3-axis gyroscope and the magnetometer provides 3-axis measurements of the magnetic field. This calibrated MEMS sensing combination provides a wealth of dynamic measurements to support a wide range of applications. The CS-IMxxx is a cost effective option packaged with a robust housing, interface options, and a simple set up.
CS-IM100/200 has an anodized aluminum case. These sensors are tested to satisfy IP67 certification and can temporarily be immersed in 1 meter depth of water.
CS-IM100/200 has two LEDs that show the communication status of sensors while receiving data, sending data or computing offline.
The 6-Pin connectors of CS-IM100/200 are IP67 certified and guarantee the consistency of data communication in harsh environments. Output supported protocols are URAT, USB, RS232, RS422, Wireless, & RS485 w/wo multi-drop networked.
- Power source: 4.1-38 VDC
- Output data rate: 1Hz to 200 Hz selectable
- Data format: ASCII / Binary
- Power consumption: 50 mA (@ 5 V)
- GUI Software: CTi Sensor Connect®
- Dimension: 1.65" x 2.15" x 1.00"
- AcceLerometer range: ±2 g / ±4 g / ±8 g selectable
- Accelerometer in-run bias: <10 pg
- Gyroscope range: ±250/500/1000/2000 °/s selectable
- Gyroscope angle random walk: 1.4 °/\hr
- Magnetometer range: ±800 \}J
- Magnetometer noise density: 0.06 (jT/\`Hz
- Power source: 4.1-38 VDC
- Output data rate: 1Hz to 2 KHz selectable
- Data format: ASCII /Binary
- Power consumption: 80 mA (@ 5 V)
- GUI Software: CTi Sensor Connect®
- Dimension: 1.65" x 2.15" x 1.00"
- Accelerometer range: ±2 g / ±4 g / ±8 g selectable
- Accelerometer in-run bias: <5 \jq
- Gyroscope range: ±125/250/500/1000/2000 % selectable
- Gyroscope angle random walk: 0.35 °/Vhr
- Magnetometer range: ±800 pT
- Magnetometer noise density: 0.06 |jT/\`Hz