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Home › Selection & Replacement › OCD-PPA1G-0016-C12S-CRW Parallel Single-Turn Encoder, 12 mm Shaft

OCD-PPA1G-0016-C12S-CRW Parallel Single-Turn Encoder, 12 mm Shaft

EncoderWorks Team
8 monthsago

We developed a custom solution for model OCD-PPA1G-0016-C12S-CRW. Selected when high-resolution single-turn absolute feedback is required via parallel push-pull output, using a 58 mm clamping flange with 12 mm solid shaft, without adding multi-turn functionality or fieldbus communication. Typical production lead time: 15 working days. The referenced configuration is an optical single-turn version with 16-bit resolution, Gray code, 10–30 VDC supply, IP66/IP67 protection, and a 1 m radial PVC cable.

Key Specifications

  • Interface: parallel push-pull
  • Resolution: 16-bit single-turn
  • Code: Gray
  • Supply: 10–30 VDC
  • Protection: IP66/IP67
  • Structure: 58 mm clamping flange, 12 mm solid shaft, 20 mm shaft length
  • Cable: 1 m radial PVC
  • Speed: up to 3000 rpm

Decision Snapshot

  • Best for: high-resolution single-turn parallel absolute positioning systems
  • Key fit: 12 mm solid shaft, 58 mm clamping flange, 1 m radial cable
  • Avoid if: the application requires multi-turn retention or bus communication; that conclusion follows from the listed single-turn output structure and direct bit mapping.

Custom Solution Photos

OCD-PPA1G-0016-C12S-CRW Parallel Single-Turn Encoder, 12 mm Shaft-EncoderWorks
OCD-PPA1G-0016-C12S-CRW Parallel Single-Turn Encoder, 12 mm Shaft-EncoderWorks

Encoder structure reference: 58 mm clamping flange, 12 mm solid shaft, radial cable outlet.

Signal & Output Logic

  • Bit 1–16 parallel output
  • Includes Latch and DIR control
  • Direction configurable via cable or connector setting

Primary integration reason: direct controller-side reading of high-resolution single-turn absolute position without protocol conversion. Primary limitation: this structure is efficient for parallel control systems, but it is not suitable for multi-turn applications or networked motion-bus architectures. That conclusion follows from the published 16-bit output map and push-pull interface.

Wiring & Installation

  • Connection: 1 m radial PVC cable
  • Cable: AWG 26, 9.3 mm diameter
  • Minimum bend radius: 150 mm

Primary commissioning risk: controller-side signal mapping errors on bit order, Latch, and DIR logic. Primary mechanical constraint: coupling quality. The page lists axial and radial load capability together with varying bearing life under load, so shaft alignment should be treated as a first-step condition rather than a final correction.

Integration & Compatibility

  • Designed for single-turn parallel absolute encoder systems
  • Matches 58 mm clamping flange installations with 12 mm solid shaft
  • Suitable for direct high-resolution position reading without bus conversion
  • Not suitable for multi-turn systems or fieldbus architectures; this is a selection conclusion based on the listed interface and output type.

Lead Time

Typical production lead time: 15 working days.

Key Technical Data

ItemData
ModelOCD-PPA1G-0016-C12S-CRW
InterfaceParallel push-pull
TypeAbsolute single-turn
SensingOptical
Resolution16 bit
CodeGray
Supply10–30 VDC
ProtectionIP66/IP67
Flange58 mm clamping flange
Shaft12 mm solid
Shaft length20 mm
Cable1 m radial
Speed3000 rpm

The table above is compiled from the product page’s interface, electrical, mechanical, and connection data.

Industrial Encoder Technical Consultant

Contact Support

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Email: sividi360@outlook.com

Industrial Encoder Technical Consultant

Contact Support

WeChat: +86 150 5045 0799 (WhatsApp)

Email: sividi360@outlook.com

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