The optical link identification device is a fast testing equipment used for fiber optic communication systems, mainly used to verify the key performance indicators of fiber optic links (such as length, loss, optical return loss, and power), and automatically track common fault causes within a few seconds.
The optical link analyzer is a professional handheld testing tool used by fiber optic technicians to quickly verify, detect, and locate fiber optic link faults. Its core function is to obtain key parameters of the link (such as length, loss, optical return loss, power) within seconds through single ended testing, and automatically analyze the cause of the fault, significantly improving the efficiency of fiber optic deployment, opening, and maintenance.
The optical link analyzer adopts non-invasive single ended testing technology, which can quickly calculate link parameters by emitting specific wavelength optical signals and analyzing reflected light characteristics without disconnecting the link or connecting to the other end equipment. Its intelligent diagnostic function is based on built-in algorithms, which can automatically identify common fault types (such as fusion loss, connector dirt, macro bending, fiber breakage, etc.) and provide corrective action recommendations..
core functionality
Quick verification link: Through single ended testing, various KPIs of the fiber optic link can be displayed within 3 seconds without the need for complex settings.
Fault tracking and localization: Built in technology can automatically detect link issues (such as fusion, connector, or macro bending faults) and locate breakpoints.
Multi scenario applicability: Suitable for FTTX installation, service activation, maintenance and repair scenarios, supporting uninterrupted service testing.
Portability and battery life: Equipped with rechargeable batteries, it can be used continuously for over 10 hours when fully charged, making it suitable for outdoor work.
This device significantly improves the efficiency of technical personnel and reduces maintenance costs by simplifying the testing process.
Portability and ease of use:
Compact design, built-in light source, power meter, and rechargeable battery, supporting independent on-site use or cloud storage of data in combination with mobile app.
Zero setting requirements, automatically selecting wavelengths and adjusting test parameters, reducing operational barriers.