High-speed optical networks enabling cockpit video, sensor communication, and data acquisition across ARINC-818 and Ethernet aviation frameworks.
Inside advanced aircraft, aviation fiber optic networks deliver low-latency, uncompressed video and sensor data through ARINC-818 and Ethernet backbones.
OptoSpan’s QSFP+, CFP, and 100G-class transceivers maintain stable high-rate transmission over single-mode and multimode fibers extending up to ten kilometers. High-bandwidth optical performance across long distances enables efficient high-speed transmission up to 100G over aircraft and ground infrastructures, ideal for modern flight decks requiring synchronized data visualization and response.
Flexible fiber compatibility for multiple configurations supports 850 nm multimode and 1310 nm single-mode optics, offering broad compatibility across aircraft backbone lengths and connector standards in mixed fleet environments.
Reliable connectivity that supports cabin entertainment systems, seat electronics, and maintenance diagnostics using lightweight optical infrastructure.
OptoSpan’s aviation fiber cables deliver seamless data for entertainment displays, passenger connectivity, and maintenance communication. Using SFP and SFP+ transceivers, including BiDi single-strand options, they simplify routing where conduits are tight yet performance must remain uninterrupted.
BiDi optics combine transmit and receive on one fiber strand, reducing cable volume and weight while sustaining bandwidth for seat and cabin systems.
Supports real-time video, Wi-Fi, and infotainment delivery without interference, providing smooth user experiences on commercial and private aircraft networks.
Delivers high-accuracy data streams for onboard diagnostic systems and line-replaceable units, reducing aircraft downtime and improving operational reliability.
Engineered optical assemblies providing robust performance for ground testing, data logging, and analysis in flight-simulation or air traffic control.
For aviation testing, aerospace fiber optic systems bridge data between instrumentation racks and analysis consoles. OptoSpan’s armored and tactical jumpers withstand heavy handling, vibration, and exposure to fluids commonly found in hangar and lab environments.
Armored outer layers resist impact, bending, and accidental compression from tools or equipment during frequent aircraft testing and reconfiguration.
Maintains consistent optical integrity for real-time data acquisition, ensuring precise results in sensor validation and system calibration tasks.
Tactical assemblies allow quick re-routing and reuse, providing versatile optical connectivity across multiple prototype or maintenance configurations.
Its adaptable composition simplifies cable routing through narrow conduits and avionics bays without risking fiber strain or signal degradation.
Tailored fiber optic systems engineered for aircraft, hangars, and airport infrastructures, combining rugged durability with precise customization for critical aviation networks.*
OptoSpan develops advanced aviation fiber assemblies and transceivers built to perform in the toughest conditions, from flight decks and cargo bays to maintenance facilities and control centers. Each component is optimized for data reliability, EMI protection, and integration within aerospace systems.
Collaborate with OptoSpan engineers to design a customized aviation fiber optic network that enhances reliability and performance.
