Omron E32-T14 2M Fiber Optic Sensor
The Omron E32-T14 2M Fiber Optic Sensor is a square through-beam head engineered for long-distance detection in alignment and object sensing tasks using Omron CPU Unit systems. It delivers a 4,000 mm sensing range, supported by durable R25 fiber construction and a 2 m polyethylene cable. The side-view optical layout enables flexible mounting in narrow spaces while ensuring stable light transmission. With a rugged design and IP67 protection, it withstands challenging industrial environments such as packaging and assembly automation. Manufactured by Omron, part of the Omron Fiber Optic Sensor family under the Omron E32 Series.
| Brand | Omron |
| Product | Fiber Optic Sensor |
| Model Number | E32-T14 2M |
Omron E32-T14 2M Fiber Optic Sensor - Technical Specifications
| Specification | Value |
|---|---|
| Shape | Square |
| Sensing Distance | 4000 mm |
| Connection Method | Cable |
| Cable Length | 2 m |
| Sensing Method | Through-beam |
| Application | Long distance detection |
| Sensing Surface Orientation | Side-view |
| Tightening Torque | 0.49N Β· m |
| Temperature Range | -40-70 Β°C |
| Bending Radius | R25 |
| Material Core | Plastic |
| Material Sheath | Polyethylene |
| Degree Of Protection Ip | IP67 |
The Omron E32-T14 2M is a long-range through-beam fiber optic sensor head with a square design and side-view detection surface. It supports sensing distances up to 4000 mm, making it ideal for applications requiring extended detection in compact setups.
Equipped with R25 fiber and a 2-meter polyethylene cable, this sensor enables flexible routing and reliable signal performance over longer distances. The square housing design allows for secure mounting in side-view applications, especially in constrained or modular machine layouts.
Constructed with a durable plastic housing, the E32-T14 is rated IP67, allowing it to perform consistently even in harsh industrial conditions. Suitable for long-distance object detection in manufacturing, packaging, and logistics environments, this model balances robust sensing with space-efficient design and industrial-grade build quality.
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