Fiber Optic Cable Fault Tester

Product features:

This product adopts high-precision OTDR technology, with two optional test wavelengths of 1310nm and 1550nm, meeting the test needs of single-mode fiber optic cables. The dynamic range of 26dB/24dB ensures that it can detect long-distance fiber optic cable faults with low signal attenuation. The 4.3-inch touch screen supports intuitive operation, and one-key automatic test and fault analysis functions simplify the operation process. It can store more than 1000 sets of test records, and supports USB data export to upload test reports to computer or cloud platform for archiving. The portable design with a weight of only 1.8kg makes it easy for operators to carry it to outdoor or remote communication base stations for maintenance work.

Product specifications:

The tester uses OTDR technology, with test wavelengths of 1310nm and 1550nm, and dynamic ranges of 26dB and 24dB respectively. The detection range is 0-100km, with a measurement resolution of 0.01m. It is equipped with a 4.3-inch capacitive touch screen, supporting Chinese and English operation interfaces. The fuselage is made of aluminum alloy material, with dimensions of 220*150*80mm and a total weight of 1.8kg. It has a built-in 5000mAh lithium battery, providing 10 hours of continuous working time. The interface type is FC/PC standard optical interface, compatible with most fiber optic connectors on the market. The operating temperature range is -5℃~45℃, and the operating humidity is ≤85%RH without condensation. It supports USB 2.0 interface for data export and firmware upgrade.

Product application:

This fiber optic cable fault tester is widely used in fiber optic communication network maintenance, fiber optic line engineering construction, data center fiber optic wiring inspection, broadband network laying and other scenarios. It is suitable for communication network maintenance personnel, fiber optic engineering construction teams, data center operation and maintenance teams and other practitioners. By quickly locating fiber optic faults such as breakage, attenuation and connector loss, it helps to quickly restore normal communication services, reducing the impact of fiber optic faults on network operation and improving maintenance efficiency.