The HOG 163 DN 1024 I 60H7 encoder can be supported through a custom compatible solution for maintenance, retrofit, replacement, and upgrade projects. This version uses a 60 mm H7 through hollow shaft together with 1024 ppr HTL incremental feedback and terminal box connection. Typical production lead time: 15 working days. The engineering focus is to preserve the original pulse logic, signal level, and shaft-side installation conditions so that field replacement remains predictable.
Technical Overview of the HOG 163 DN 1024 I 60H7 Encoder
This model belongs to a heavy-duty optical incremental encoder platform with through hollow shaft design and terminal box electrical connection. Its coded configuration identifies a 60 mm H7 bore, 1024 ppr, and HTL output stage with inverted signals. The encoder provides K1, K2, and K0 reference pulse outputs plus complementary channels for industrial quadrature processing and speed or position evaluation.
The platform is rated for output frequencies up to 120 kHz, protection class IP56, and operating temperatures from -40 to +85 °C. These features support industrial feedback applications where environmental stability and long-term service robustness are required.
Industrial Integration Considerations
A 60 mm shaft version often appears in equipment where shaft diameter and available installation space must be balanced carefully. For retrofit work, the shaft fit, terminal box direction, and torque arm length should be reviewed together, because each of these influences field installation continuity.
The HTL output stage is equally important where the original electronics were selected for 9...30 VDC encoder operation. In those systems, preserving the same output level and complementary signal structure helps avoid interface uncertainty during recommissioning.
Custom Compatible Encoder Solution
For HOG 163 DN 1024 I 60H7, a custom compatible encoder solution should preserve the 60 mm H7 through hollow shaft, 1024 ppr output, HTL signal stage with inverted channels, and terminal box connection concept. This approach supports engineering compatibility across both the mechanical and electrical sides of the installation.
Any original accessory arrangement, insulated torque arm selection, or field grounding practice should be confirmed during engineering review so the final configuration stays aligned with the installed machine layout.
Custom Solution Photos
Lead Time and Custom Development
Typical production lead time: 15 working days.
Custom development should confirm bore size, HTL compatibility, pulse count, terminal box layout, and torque arm geometry. These are the main checkpoints for preserving field installation continuity on this model.
Typical Technical Parameters
| Parameter | Specification |
|---|---|
| Encoder Type | Incremental encoder |
| Model | HOG 163 DN 1024 I 60H7 |
| 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 | 60 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 |
