EncoderWorks provides a custom compatible replacement solution for 14-14361-100 focused on maintaining 100 PPR incremental feedback behavior, A/B/0 signal mapping, and heavy-duty mechanical installation compatibility. The replacement challenge is not only reproducing the pulse output, but also preserving controller-side counting logic, quadrature phase relationship, and stable operation under demanding industrial environments. An incremental encoder may generate pulses while incorrect scaling, signal level, or phase interpretation still causes position calculation errors.
System Limits
The primary replacement boundary for this model is maintaining the original pulse count and feedback frequency relationship with the controller. The 14-14361-100 uses 100 PPR incremental output with A/B phase signals and reference pulse signals. Pulse count scaling, quadrature direction, output circuit compatibility, and controller counter settings must be matched because incorrect PPR selection or signal interpretation can result in position deviation or incorrect machine movement.


The mechanical integration boundary includes shaft coupling, flange mounting, and industrial environment stability. This encoder uses a heavy-duty housing structure with a shaft designed for demanding applications, together with a clamping flange mounting interface. Shaft alignment, coupling stability, cable routing, shielding, and grounding continuity should be maintained because mechanical stress or electrical interference can affect long-term feedback reliability.
Wiring & Installation
The incremental interface requires verification of A, B, 0 reference signals, supply voltage, output circuit, and shield connection. The configuration uses a 9-core cable with differential/complementary signal wiring according to the selected output configuration. Incorrect phase sequence, unsuitable controller input level, poor shielding, or improper grounding may result in unstable counting, direction errors, or signal loss at higher operating speeds.
During replacement installation, the mechanical mounting and cable protection should be checked against the existing machine structure. The encoder is designed for industrial environments with high shock and vibration requirements, so shaft loading, flange fixing, cable bending radius, and grounding method should be considered together to maintain reliable feedback performance.
Custom Compatible Solution
- Match 100 PPR incremental feedback and controller-side counting requirements.
- Preserve A/B/0 phase relationship and direction detection behavior.
- Adapt heavy-duty flange mounting and mechanical installation requirements.
- Validate output voltage compatibility, signal integrity, shielding, and grounding conditions.
Typical production lead time: 15 working days.
Key Data
| Parameter | Specification |
|---|---|
| Model | 14-14361-100 |
| Encoder Type | Incremental Rotary Encoder |
| Resolution | 100 PPR |
| Output Signal | A / B / 0 Incremental |
| Output Circuit | Push-pull / RS422 Options |
| Supply Voltage | 10–30 VDC (Output dependent) |
| Connection | 9-core Cable |
| Cable Length | 2 m |
| Protection | IP66 |
| Mechanical Focus | Heavy-duty shaft and flange adaptation |
| Main Replacement Focus | 100 PPR scaling, signal mapping, and mechanical compatibility |

