For 8.A225.68C2.C212, EncoderWorks can provide a custom compatible replacement solution for large-shaft PROFINET absolute encoder systems where the key checks are ø25 mm H7 shaft fit, torque-arm-side locking-ring access, 70 mm torque-arm preload, GSDML/device-name configuration, and three-M12 connector wiring. This model should not be handled like an encoder-side clamp version, because the AX adapter must be locked from the torque-arm side and the mechanical access, preload path, and housing movement risk are different. Typical production lead time: 15 working days.
This configuration combines a Kübler AX hollow-shaft adapter with a Sendix 5868 absolute multiturn encoder. The AX section provides a ø25 mm hollow-shaft bore, locking ring on the torque-arm side, and 70 mm torque arm. The encoder body provides PROFINET IO absolute position feedback through three radial M12 connectors using the PROFINET encoder protocol version 4.1. Replacement work should focus on shaft fit, clamp access, torque-arm alignment, device name, IP assignment, GSDML file, scaling parameters, preset behavior, diagnostics, and shield grounding.


System Limits
The first system limit is AX mechanical installation. The ø25 mm shaft must fit the H7 adapter bore without forcing the clamp, and the locking ring must remain accessible from the torque-arm side after installation. If the torque arm is preloaded or the clamp is tightened against shaft runout, the encoder housing can move slightly and create repeatability drift.
The second limit is PROFINET commissioning. The controller must preserve the original device name, IP setting, GSDML version, encoder profile behavior, scaling, preset value, counting direction, and diagnostic response. A replacement may appear online while still returning the wrong position if the stored configuration does not match.
The third limit is the AX operating envelope. The adapter is rated IP64, weighs about 3.5 kg, and has temperature-dependent speed limits. High shaft speed, high ambient temperature, or bracket stress can become the practical failure boundary before the PROFINET network itself becomes unstable.
Wiring & Installation
Before replacement, record the PROFINET device name, IP address, GSDML file, scaling parameters, preset value, counting direction, alarm handling, and diagnostic behavior from the controller project. Also record the three radial M12 connector assignments for PROFINET ports, supply voltage, ground, and shield connection.
During installation, confirm the ø25 mm H7 shaft fit, keep the locking ring on the torque-arm side, and align the 70 mm torque arm without preload. Route PROFINET and power cables away from inverter output wiring, maintain shield continuity through the M12 connectors, and avoid ground loops between the encoder housing, machine frame, and cabinet earth. After startup, verify device recognition, actual position value, direction, preset response, diagnostics, torque-arm movement, and repeatability over several machine cycles.
Custom Compatible Solution
EncoderWorks can configure the replacement around the installed shaft and PROFINET control system:
- Match the AX ø25 mm hollow-shaft adapter, torque-arm-side locking ring, 70 mm torque arm, and mounting envelope
- Preserve Sendix 5868 PROFINET IO protocol behavior, GSDML setup, scaling, preset, direction, and diagnostic response
- Adapt the three radial M12 connector layout, 10–30 VDC supply range, Ethernet wiring, and shield grounding
- Review clamp torque, shaft fit, torque-arm preload, IP64 installation limits, and temperature-speed operating margin
Key Data
| Item | Data |
|---|---|
| Model | 8.A225.68C2.C212 |
| Encoder type | Absolute multiturn encoder with AX hollow-shaft adapter |
| Encoder body | Sendix 5868 |
| Interface | PROFINET IO |
| Protocol | PROFINET encoder protocol version 4.1 |
| Supply voltage | 10–30 VDC |
| Bore | ø25 mm H7 hollow-shaft adapter |
| Locking ring position | Torque-arm side |
| Torque arm | 70 mm |
| Connection | 3× radial M12 connectors |
| Adapter protection | IP64 |
| Adapter weight | Approx. 3.5 kg |
| Starting torque | Max. 0.15 Nm at 23°C |

