Values are stored in detection units (e.g., 1 μm → multiply mm by 1000).
This is the logical question every experienced machinist asks. The answer lies in FANUC’s real-time architecture:
This parameter defines the maximum allowable deviation (in detection units) between the commanded position and the actual position while the machine is at a standstill. If the axis drifts or is pushed beyond this limit, the system triggers a Servo Alarm 410 (Excessive Position Error). Key Details & Troubleshooting
: Often set higher than Parameter 1826 (In-Position Width) to allow for minor settle time, but small enough to detect genuine mechanical issues. Troubleshooting "Excess Error Stop" (Alarm 410)
Values are stored in detection units (e.g., 1 μm → multiply mm by 1000).
This is the logical question every experienced machinist asks. The answer lies in FANUC’s real-time architecture: fanuc parameter 1829
This parameter defines the maximum allowable deviation (in detection units) between the commanded position and the actual position while the machine is at a standstill. If the axis drifts or is pushed beyond this limit, the system triggers a Servo Alarm 410 (Excessive Position Error). Key Details & Troubleshooting Fanuc parameter 1829 — Detailed write-up Values are
: Often set higher than Parameter 1826 (In-Position Width) to allow for minor settle time, but small enough to detect genuine mechanical issues. Troubleshooting "Excess Error Stop" (Alarm 410) fanuc parameter 1829
