Fisher positioner feedback deviation adjustment method

First, Fisher locator feedback deviation problem
Fisher positioner is a kind of high precision positioning equipment, which is widely used in laser positioning, robot navigation and other fields. However, in use, sometimes there will be a feedback bias problem, which is manifested as a large positioning error or the wrong deviation direction.
Second, multi-channel correction method
For the Fisher locator feedback deviation problem, we can use the multi-channel correction method to adjust the corresponding steps as follows:

1. Go to the Fischer locator Settings screen and find the calibration options.
2. Connect the debugging device and select multi-channel calibration.
3. Calibrate several times to obtain feedback data in different directions and record the corresponding deviation value.
4. Collate the obtained data and make corresponding feedback deviation compensation.
5. Check whether the adjustment results meet the requirements.
   Third, precautions
   When making feedback deviation adjustment, the following points need to be noted:

1. Because the feedback data of Fisher locator is affected by many factors, it is necessary to carry out multiple calibration to obtain more accurate data.
2. When recording feedback data, it is necessary to follow a fixed direction and sequence to ensure the accuracy and standardization of data.
3. When compensating for feedback deviation, it is necessary to adjust according to the actual situation and test the corresponding effect.
4. When sorting out data, it is necessary to select appropriate data processing methods according to the actual situation to ensure the reliability and accuracy of data.

Iv. Conclusion
By using the multi-channel correction method to adjust the feedback deviation of Fisher positioner, the positioning accuracy can be effectively improved and the positioning error can be reduced, and more reliable and accurate data support can be provided for the application of laser positioning, robot navigation and other fields.