Product Details:
Place of Origin | Beijing, China (Mainland) |
Brand Name | XPN sensors |
Model Number | AT205-SC |
Usage | Level Sensor |
Theory | Capacitance Sensor |
Output | Digital Sensor |
Detailed Product Description
AT205-SC inclinometer (accelerometer Tilt Sensor)
1、Characteristics of the Product
Silicon micro-machined sensor measures the two-axis inclination change by taking the horizontal plane as its reference plane.
The output angle uses the measurement datum as reference, which has been calibrated before leaving the factory.
The output angle uses the measurement datum as reference, which has been calibrated before leaving the factory. Many kinds include RS232、RS485、RS422.
By using the serial instructions, the users can reset the relative zero angle output position.
The products have two forms, which are shell packaging and OEM board. The products with shell package have the waterproof level of IP55, and with high resistance against external electromagnetic interference ability.
High ability to withstand shock and vibration.
2、Description of the production
AT205-S is digital tilt sensor digital tilt sensor,which also function by measuring the changes of static acceleration of gravity, and then convert them into angle changes. The measurement and output sensors are corresponding to the tilt and pitch angles of the horizontal plane. The measurement and output sensors are corresponding to the tilt and pitch angles of the horizontal plane.
The response speed of the angle sensor ranges from 1 times/sec to 30 times/sec, with a 8-ranks filter. And the users can set the relationship of stability and response speed of the angle according to what they need.
This product is mainly used for static and slow-changing dynamic measurement, and not suitable for the rapid—changing dynamic measurement. Usually, it works well if the carrier is in level condition or the changes of pitch angle is within 5°/sec. while if the changes exceed 10°/sec, the output angle will be inaccurate because of the effect of the acceleration of generated by the movement of the carrier. The vertical high-frequency vibration of the objects lighter than 0.5g will produce little effect on the angle data.
