We have developed a custom solution for model OCD-PPA1G-0710-S06S-PRT, built around a compact 58 mm synchronous flange, Ø6 mm solid shaft, and a parallel push-pull multiturn output structure with a connector-based outlet. This configuration is intended for systems that still acquire position through direct bit-level inputs rather than SSI or fieldbus communication, while requiring multiturn absolute feedback in a very compact shaft-mounted package. The platform provides 10-bit singleturn + 7-bit multiturn Gray-code output, making it suitable for control architectures that prefer direct parallel acquisition without protocol-side complexity. Typical production lead time: 15 working days.
Technical Key Parameters
- Interface: Parallel (push-pull)
- Resolution: 10 bit singleturn + 7 bit multiturn
- Mounting: Ø58 mm synchronous flange
- Shaft: Ø6 mm solid shaft, 10 mm length
- Supply voltage: 10–30 VDC
Custom Solution Photos
The configuration reflects a compact shaft-type encoder structure with connector-based output and direct parallel bit transmission for controller-side multiturn acquisition.
Wiring and Installation Notes
This model uses a parallel push-pull output, so long-term stability depends more on wiring discipline across multiple conductors than on protocol settings. In practice, stable but incorrect position values are more often caused by bit-order mistakes, undefined control lines, or inconsistent ground reference than by encoder failure. The connection concept includes multiple position bits plus Latch, DIR, Power Supply, and GND, so commissioning should verify signal assignment before controller-side scaling or logic is finalized. On this type of interface, incorrect direction behavior often looks like a counting or gearing problem, so the DIR function should be checked first whenever the position value changes in the wrong sense.
Because this version uses an M23 26-pin connector rather than a fixed cable, field wiring quality depends heavily on correct mating, strain control, and verified pin mapping. In practice, connector-based versions simplify service access but make startup errors more likely if pin assignment is assumed rather than confirmed. Mechanically, the Ø6 mm shaft and 10 mm shaft length require accurate alignment and a controlled coupling fit. This is a compact platform with moderate shaft-load capability, so coupling mismatch usually becomes a long-term issue earlier than the electronics do.
Application and Integration Notes
This configuration is typically used in compact automation modules, positioning units, and controller architectures that still rely on direct parallel absolute inputs instead of serial communication. Its practical value lies in combining multiturn Gray-code output with a very small 6 mm shaft interface and a service-friendly connector layout, which can simplify maintenance access in tight installations.
Compared with SSI or fieldbus encoders, this model reduces communication complexity but increases the importance of connector-side wiring accuracy and I/O discipline. In practice, it is selected when the control hardware already supports direct parallel position acquisition and where a compact shaft-mounted encoder is preferred over a serial or networked alternative.
Custom Encoder Solution
- Compact 58 mm synchronous-flange structure for limited installation space
- 10 + 7 bit multiturn Gray-code output for direct controller-side position acquisition
- Ø6 mm solid shaft for very small-drive mechanical integration
- M23 26-pin connector for service-friendly field wiring access
Lead Time and Custom Development
This model is configured based on confirmed shaft geometry, multiturn output requirements, and parallel integration logic. Typical production lead time: 15 working days.
Key Technical Data
| Item | Specification |
|---|---|
| Interface | Parallel, push-pull |
| Resolution | 10 bit + 7 bit |
| Supply voltage | 10–30 VDC |
| Mounting | Ø58 mm synchronous flange |
| Shaft | Ø6 mm solid shaft, 10 mm length |
| Connection | M23, 26-pin |
| Max speed | 3000 rpm |
| Protection | IP65 |
Technical Summary
The engineering value of OCD-PPA1G-0710-S06S-PRT lies in its combination of a compact 58 mm synchronous-flange structure, Ø6 mm shaft, and multiturn parallel absolute output with a service-friendly connector-based outlet. It is best suited for installations where direct controller-side position acquisition is required across multiple revolutions, but serial communication would add unnecessary integration overhead. In practical applications, the main success factors are correct bit assignment, stable direction logic, verified connector pin mapping, and accurate small-shaft alignment.
