The Optical Switch provides reliable optical path control and redundancy with high isolation, low insertion loss, and excellent stability. Designed with an epoxy-free optical path and compliant with Telcordia GR-1209/1221, it ensures long-term reliability for fiber repeater, metro/long-haul networks, and military communication systems.
The PLC Splitter is a compact and reliable passive optical component designed for even power distribution across multiple fibers. It features low insertion loss, low polarization-dependent loss, and flat wavelength performance, ensuring stable transmission over a wide wavelength range. Available in 2 to 64-channel configurations and packaged in a high-quality stainless tube, it provides flexible integration for FTTH/FTTB/FTTC, CATV, PON, and other telecommunication network systems.
The Variable Optical Attenuator (VOA) is designed to precisely control optical power in fiber communication systems. It offers a wide attenuation range, low insertion loss, and excellent spectral flatness for stable and accurate performance. Its compact design, low polarization dependence, and high precision make it ideal for power equalization and system calibration in both laboratory and field environments.
The Optical Jumper Cord is a high-performance fiber patch cable designed for reliable and low-loss optical connections. It provides high return loss, low insertion loss, and exceptional durability—up to 500 times longer than standard patch cords. Compliant with ITU-T G.652D and G.657 standards, and available in various connector types, it ensures stable and long-term performance in diverse fiber network environments.
The Optical Power Meter is a compact, portable device designed to measure optical signal power with precision—operating in the same manner as an RF power meter. It supports link budget analysis, MUX/DEMUX, and transceiver (SFP) testing, offering reliable performance for both field and laboratory use. With its lightweight design, rechargeable battery, and data storage capability, it ensures convenient and efficient optical network testing.