Omron Fibre Optic Sensor, 3000mm Detection Range, IP67 - E32-T11N 2M
This fibre optic sensor is designed for reliable detection in a wide range of applications. With a detection range of up to 3000mm, this plastic fibre optic sensor operates effectively within the temperature spectrum of -40°C to +70°C. Built to meet IP67 standards, this sensor is suitable for harsh environments, making it an ideal choice for industrial automation and control systems.
Features & Benefits
• Supports detection over a long range for versatile applications
• Constructed from plastic for lightweight durability
• IP67 rating ensures protection against dust and water ingress
• High temperature tolerance enables operation in extreme conditions
• Effective in providing reliable detection in various industrial settings
• Compatible with automation systems for enhanced efficiency
Applications
• Used in assembly lines for presence sensing of components
• Ideal for detecting materials in harsh environments
• Suitable for automated control systems in manufacturing
• Utilised in safety systems to ensure the presence of protective barriers
How does this sensor perform in outdoor environments?
With its IP67 rating, it provides excellent protection against moisture and dust, making it suitable for outdoor use in various weather conditions.
What operating temperature range can this sensor handle?
It functions effectively within temperatures ranging from -40°C to +70°C, making it adaptable to extreme temperature variations.
Can this sensor be used in robotics applications?
Yes, its long range and reliable performance make it an appropriate choice for robotics, especially in manufacturing and assembly processes.
What installation considerations are necessary for this sensor?
Ensure that the fibre optic cable is properly connected and the sensor is positioned within the specified detection range for optimal performance.
How does this sensor compare to traditional sensors in terms of durability?
The plastic build offers enhanced durability against physical impacts while remaining lightweight, providing a distinct advantage over traditional sensors.
