Uses of Optoelectronic Composite Cables
Optoelectronic composite cables are a type of cable that integrates optical fiber and copper conductors, and are mainly used to transmit optical and electrical signals simultaneously. It is suitable for a variety of scenarios such as broadband access, equipment power consumption, and signal transmission, and can solve the limitations of traditional cables that transmit optical and electrical signals separately12.
The main uses of optoelectronic composite cables include:
Broadband access and communication systems: Optoelectronic composite cables are suitable for broadband access network systems, and can transmit data and electricity at the same time, solving the problems of broadband access, equipment power consumption, and signal transmission15.
Monitoring and security: In the construction of monitoring and security networks, optoelectronic composite cables transmit digital optical signals through optical fiber parts to achieve long-distance, high-quality video signal transmission, ensure stable transmission of video signals, and improve monitoring effects3.
Integrated wiring for power and communications: Suitable for insulated communication optical cables, transportation communication optical cable projects, square optical cable projects, power optical cable projects, etc., and can simultaneously transmit power signals, audio, video, Ethernet, etc., reducing wiring complexity and reducing costs45.
Features of optical fiber composite cables include:
High bandwidth and low loss: The optical fiber portion has high bandwidth and low loss, which is suitable for high-speed data transmission, such as network connections and data centers5.
Versatility: Integrates optical fiber and copper conductors, suitable for a variety of applications, including telecommunications, broadcasting, television, surveillance, audio/video production, and information technology5.
Space saving: Integrates multiple signal transmission channels into one cable, reducing space occupancy and cable layout clutter5.
Improves signal quality: Reduces the impact of electromagnetic interference (EMI) on signals, provides clearer audio and video quality, and more reliable data transmission5.
Easy to install and maintain: Integrates multiple connections into one cable, reducing the number of connection points, making installation and maintenance more convenient5.
In summary, with its versatility and efficiency, optical fiber composite cables have shown broad application prospects and advantages in multiple fields such as communications, surveillance, and power12.