A custom compatible encoder solution can be provided for HOG 163 DN 1024 I 50H7 for maintenance, retrofit, replacement, and upgrade projects. This version uses a 50 mm H7 through hollow shaft together with 1024 ppr HTL incremental feedback and terminal box connection. Typical production lead time: 15 working days. The compatible solution should preserve the original shaft fit, signal level, and field wiring arrangement so that machine integration remains consistent.
Technical Overview of the HOG 163 DN 1024 I 50H7 Encoder
This model is part of an optical sensing incremental encoder platform designed for heavy-duty industrial use. It provides K1, K2, and K0 signals plus inverted channels and is coded for 1024 pulses per revolution, HTL output stage, and a 50 mm H7 through hollow shaft. The platform supports output frequency up to 120 kHz and is built for demanding environments with IP56 protection and a robust housing structure.
The terminal box connection supports direct field termination and is particularly useful where existing wiring, shielding, and cable handling practices need to remain unchanged during replacement.
Industrial Integration Considerations
A 50 mm through hollow shaft version is often used where shaft diameter, torque arm space, and enclosure access must all be balanced. For retrofit work, the shaft fit, anti-rotation arrangement, and terminal box orientation should be confirmed during engineering review to avoid secondary site modification.
HTL output continuity is also essential where the existing controller, counter card, or monitoring module expects a higher-voltage incremental encoder. Matching the original signal level can improve commissioning stability and preserve the existing electrical architecture.
Custom Compatible Encoder Solution
For HOG 163 DN 1024 I 50H7, a custom compatible encoder solution should preserve the 50 mm H7 bore, 1024 ppr pulse structure, HTL output with inverted signals, and terminal box connection concept. This supports direct replacement logic and reduces the need for mechanical or electrical adaptation in the field.
Where the machine uses special torque arm accessories, insulated fittings, or grounding kits, those items should be included in the engineering review so the final configuration remains suitable for the installed conditions.
Custom Solution Photos
Lead Time and Custom Development
Typical production lead time: 15 working days.
The main development checkpoints are shaft diameter, HTL compatibility, pulse count, terminal box wiring, and torque arm geometry. This review helps preserve field installation continuity and control-side stability.
Typical Technical Parameters
| Parameter | Specification |
|---|---|
| Encoder Type | Incremental encoder |
| Model | HOG 163 DN 1024 I 50H7 |
| Resolution | 1024 ppr |
| Output Signals | K1, K2, K0 + inverted |
| Output Stage | HTL with inverted signals |
| Supply Voltage | 9...30 VDC |
| Sensing Principle | Optical |
| Shaft Type | Through hollow shaft |
| Shaft Diameter | 50 mm H7 |
| Connection Type | Terminal box |
| Reference Signal | Zero pulse, width 90° |
| Output Frequency | ≤120 kHz |
| Protection Rating | IP56 |
| Operating Temperature | -40...+85 °C |
| Max. Speed | ≤6000 rpm |
