SAMM Direct Type Fiber Optic OTDR Launch Box | Multi Mode G651.OM3 | SC UPC/SC UPC | 150 meters
The SAMM Direct Type Fiber Optic OTDR Launch Box is an advanced tool designed for accurate and reliable fiber optic testing, specifically for multi-mode fibers. This launch box is ideal for use with OM3 multi-mode fibers, ensuring high performance and precision in your optical testing procedures.
Key features of the SAMM Direct Type Fiber Optic OTDR Launch Box include:
- Multi-Mode Fiber: Utilizes G651.OM3 multi-mode fiber, known for its superior bandwidth and performance over longer distances compared to OM1 and OM2. This makes it suitable for high-speed and high-bandwidth network testing.
- Connector Type: Equipped with SC UPC/SC UPC connectors, which provide secure and reliable connections essential for accurate OTDR measurements and minimizing potential errors during testing.
- Length: Offers 150 meters of fiber length, providing sufficient range for comprehensive field testing and network verification across various environments and applications.
- Enhanced Accuracy: Engineered to reduce signal loss and reflections, ensuring precise OTDR readings and dependable results for thorough evaluation of multi-mode fiber networks.
- Durable Construction: Constructed from high-quality materials to endure field use, the launch box is designed to withstand challenging conditions while maintaining performance and reliability.
- User-Friendly: Simple to set up and operate, allowing technicians to perform tests efficiently, which enhances productivity and reduces the time required for network assessments.
- Versatile Testing: Ideal for a range of fiber optic testing applications, including telecommunications, data centers, and network infrastructure projects, providing flexibility and effectiveness in network evaluations.
The SAMM Direct Type Fiber Optic OTDR Launch Box is an essential tool for professionals seeking high-precision testing of multi-mode fiber optic systems, offering exceptional performance and durability for accurate network analysis and maintenance.