Optical-electric composite cable has many advantages, including light weight, small footprint, low procurement cost, convenient construction, fast transmission rate, strong anti-interference, and long transmission distance. The optical-electric composite cable has a small outer diameter, light weight, and small footprint, which allows it to be effectively deployed in a small space. In addition, the procurement cost of the optical-electric composite cable is low, the construction cost is low, and the network construction cost is relatively low, which helps to reduce the cost of the overall project. It has superior bending performance and good lateral pressure resistance, making construction more convenient.
The transmission rate of the optical-electric composite cable is higher than that of traditional copper wire and optical fiber, and it can achieve high-speed transmission of large amounts of data, which is a huge advantage for users who need to process large amounts of data. It also uses electromagnetic shielding technology, which can effectively resist external electromagnetic interference and ensure that the communication quality is not affected, which is especially important in areas with complex electromagnetic environments. In addition, the optical-electric composite cable can use electrical signals to amplify in the middle to achieve long-distance transmission, which is an important advantage for users who need long-distance communication.
Optical-electric composite cables are widely used in broadband access network systems, insulated communication optical cables, transportation and communication optical cable projects, square optical cable projects, overhead optical cable construction, power optical cable projects and high-altitude optical cable construction. Due to its various advantages, optical-electric composite cables have broad application prospects in future communications and power transmission.