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sharpkimberlyAug 25, 2025
What causes hysteresis in ATI Technologies Axia80-M20 Accessories?
- GGeorge HahnAug 26, 2025
Hysteresis in ATI Technologies Accessories is caused by mechanical coupling or internal failure.
What causes hysteresis in ATI Technologies Axia80-M20 Accessories?
Hysteresis in ATI Technologies Accessories is caused by mechanical coupling or internal failure.
What to do if ATI Technologies Axia80-M20 sensor is not streaming measurement data?
Verify the ATI Technologies Accessories sensor is correctly installed. Ensure the robot mounting and tool adapter plates are installed on the proper side of the sensor.
General| Brand | ATI Technologies |
|---|---|
| Model | Axia80-M20 |
| Category | Accessories |
| Language | English |
Defines DANGER, WARNING, CAUTION, and NOTICE notifications used in the manual.
Advises verifying sensor rating for expected loads and awareness of dynamic forces.
Warns against modification, probing openings, overloading, and contacting IP64 seals.
Discusses sensor mounting, tool side attachment, and considerations for interface plates.
Provides guidance on routing the sensor cable, bending radius, and cable management techniques.
Details the process of attaching the sensor to the robot arm and mounting interface plate, including torque values.
Explains the pin assignments for the sensor's M8 and M12 connectors and associated cables.
Outlines the steps for performing an initial and annual accuracy check of the sensor.
Advises on protecting the sensor from moisture, water, and electromagnetic fields to maintain IP64 rating.
Details how to convert raw sensor counts into force and torque values using calibration factors.
Explains the low-pass filter settings, cutoff frequencies, and provides attenuation charts.
Explains how to measure forces and torques at a reference point other than the sensor's origin.
Details the sensor's status code bitmap, describing various error conditions and their meanings.
Explains methods for setting up IP addresses, including static and DHCP configurations.
Provides step-by-step instructions for connecting to the sensor's web pages using Windows networking settings.
Provides access to sensor serial number, calibration details, force/torque units, and tool transformation settings.
Allows viewing and editing the system's Ethernet networking options, including IP settings and RDT.
Stresses the need for periodic calibration to maintain traceability and recommends annual accuracy checks.
Lists symptoms related to powering up issues and their potential causes and resolutions.
Addresses common communication problems, such as IP address assignment and network detection.
Identifies common causes for incorrect force/torque readings, including data streaming, range errors, and noise.
Offers tips to optimize network performance and prevent data loss, such as direct connections and OS optimization.
