A tailored compatible encoder solution can be developed for HOG 163 DN 1024 I 38H7 in maintenance, retrofit, replacement, and upgrade work. This version uses the smallest listed shaft code in the current model group, combining a 38 mm H7 shaft coding with 1024 ppr HTL incremental output and terminal box connection. Typical production lead time: 15 working days. The engineering task is to preserve both the smaller shaft-side fit and the original higher-voltage signal interface.
Technical Overview of the HOG 163 DN 1024 I 38H7 Encoder
This model belongs to a heavy-duty optical incremental encoder platform with K1, K2, and K0 outputs plus complementary channels. It is coded for 1024 pulses per revolution, HTL output with inverted signals, and shaft code 38H7. The electrical platform supports 9...30 VDC supply for the HTL version and is rated for output frequencies up to 120 kHz. The enclosure is designed for industrial duty with IP56 protection and wide operating temperature capability.
The connection is through a terminal box, which supports direct field termination and stable cable management in industrial retrofit projects.
Industrial Integration Considerations
Compared with the larger shaft versions in the same series, the 38H7 coded version may be used in installations where shaft diameter is smaller but the mechanical environment still demands a heavy-duty encoder platform. During engineering review, shaft fit, torque arm arrangement, and terminal box position should still be treated as core compatibility items.
The HTL output stage should also remain consistent with the original electrical design. Where the controller was configured around higher-voltage incremental signals, matching the same output stage helps preserve stable signal processing and reduces interface uncertainty during replacement.
Custom Compatible Encoder Solution
For HOG 163 DN 1024 I 38H7, a custom compatible encoder solution should preserve the 38H7 shaft coding, 1024 ppr output, HTL signal stage with inverted channels, and terminal box connection concept. This provides practical engineering continuity across shaft fit, field wiring, and controller input compatibility.
Since the datasheet coding uses 38H7 as a defined shaft option, the final shaft configuration should still be confirmed during engineering review so the installed application remains correctly matched.
Custom Solution Photos
Lead Time and Custom Development
Typical production lead time: 15 working days.
Custom development should check shaft coding, HTL interface expectations, pulse count, terminal box layout, and torque arm selection. These are the main factors in maintaining field installation continuity for this version.
Typical Technical Parameters
| Parameter | Specification |
|---|---|
| Encoder Type | Incremental encoder |
| Model | HOG 163 DN 1024 I 38H7 |
| 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 | Hollow shaft coded as 38H7 |
| Shaft Diameter / Code | 38H7 |
| 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 |
