OCD-DPC1B-1412-C10W-H3P Profibus Multi-Turn Encoder, 10 mm Solid Shaft

We developed a custom solution for model OCD-DPC1B-1412-C10W-H3P. Selected when multi-turn absolute feedback is required via Profibus, using a 58 mm clamping flange and 10 mm solid shaft, with a stainless-steel mechanical package and no battery-based turn counting. Typical production lead time: 15 working days. The referenced configuration is a Profibus DPV0/DPV1/DPV2 Class 2 version with optical sensing, 12-bit single-turn resolution, 14-bit multi-turn resolution, and a mechanical gear-based multi-turn system without battery.

Key Specifications

• Interface: Profibus DPV0 / DPV1 / DPV2 Class 2
• Resolution: 12-bit single-turn + 14-bit multi-turn
• Code: binary
• Multi-turn: mechanical gear train, no battery
• Supply: 10–30 VDC
• Protection: IP66/IP67
• Structure: 58 mm clamping flange, 10 mm solid shaft, 20 mm shaft length
• Speed: up to 3000 rpm

Decision Snapshot

• Best for: Profibus-based distributed positioning systems needing multi-turn absolute feedback
• Key fit: 10 mm solid shaft, 58 mm clamping flange, stainless housing package
• Avoid if: the machine only needs incremental output or already uses another motion-bus standard; that conclusion follows from the listed Profibus-specific interface, bus topology, and connection hardware.

Custom Solution Photos

Encoder structure reference: 58 mm clamping flange, 10 mm solid shaft, stainless housing, radial gland connection box.

Bus Configuration & Communication

• Interface class: Profibus Class 2
• Transmission rate: up to 12 Mbaud
• Cycle time: ≥ 1 ms
• Functions: resolution, scaling, speed filter, preset, direction, limit switch, node number, teach mode, diagnostics

Primary integration risk: incorrect node addressing or termination-switch setup.
Best practice: confirm address setting, termination status, and bus-in / bus-out continuity before power-up. That judgment is grounded in the listed address-selection switch, termination DIP switch, and separate bus-in / bus-out wiring plan.

Mechanical & Installation Focus

• Housing: stainless steel
• Flange: stainless clamping flange
• Shaft: 10 mm solid, single-flat, 20 mm length
• Load capability: axial 40 N, radial 110 N

Primary mechanical value: corrosion-resistant stainless construction.
Primary mechanical constraint: shaft alignment and load condition still matter, because the published bearing life changes significantly with axial and radial load. That makes this version better suited for harsh environments, but not a license to ignore coupling quality.

Wiring & Bus Topology

• Connection: radial, 3 cable glands
• Signals: Bus A / Bus B, power supply, GND for bus in and bus out

Primary commissioning issue: bus-side setup, not sensing stability.
Check sequence: address → termination → bus continuity → power. That sequence follows directly from the published connection box hardware and line assignment.

Integration & Compatibility

• Designed for Profibus absolute encoder systems with configurable node and scaling functions
• Matches 58 mm clamping flange installations with 10 mm solid shaft
• Suitable for multi-turn positioning where stainless construction is part of the requirement
• Not suitable for incremental-only systems or non-Profibus control architectures; this is a selection conclusion based on the listed interface and wiring structure.

Lead Time

Typical production lead time: 15 working days. Custom adaptation can be developed around shaft fit, connection layout, and bus commissioning requirements.

Key Technical Data