What are the energy-saving aspects of carrier-grade single-mode fiber patch cord distribution networks? ZR Fiber will give you some popular science.
Carrier-grade single-mode fiber patch cords
1. How to solve the heat dissipation problem of home wiring box?
When the distribution box contains fiber optic sockets and fiber optic network terminal equipment (such as: EPON, GPON, GEPON, fiber optic switches, etc.), the problem of heat dissipation will be encountered. According to the basic knowledge of thermal science, there are three ways of heat transfer: heat conduction, heat convection and heat radiation. For the information terminal box, the ideal way is heat conduction. However, in order to be beautiful, these information terminal boxes are basically designed to be wall-mounted, and the five sides cannot dissipate heat. Only the front box cover has the possibility of dissipating heat. At this time, it is necessary to fully consider the heat conduction channel in the design of the box body. Use the metal casing of the box cover to provide "heat sinks" for heat dissipation for active devices.
2. What are the energy-saving aspects of the carrier-grade single-mode fiber optic patch cord wiring network?
1) Since the optical fiber provides long-distance transmission capability, the wiring of multiple floors can be terminated in one wiring room for centralized wiring. The centralized wiring method can reduce the construction area occupied by the wiring room, reduce the decoration cost of the wiring room, and reduce the cost of the cabinet and backup power supply;
2) The centralized placement of equipment can improve port utilization, make network management and control more convenient, and system security stronger;
3) Since the centralized wiring reduces the number of contacts, it can improve network stability, facilitate maintenance and reduce maintenance costs, make fault handling faster, and shorten the duration of system failures, thereby correspondingly enhancing work efficiency, increasing revenue, and making customers more satisfied.
4) The power consumption of optical network equipment is many times lower than that of copper network equipment;
5) Natural resources used in the manufacture of optical cables;
6) The space occupied by miniaturized cables and connectors is reduced, thereby improving the cooling efficiency of the equipment room, reducing energy consumption and reducing the impact on the environment caused by energy consumption, etc., which make the optical fiber system appear more "green".
Of course, the more important thing is still that the optical fiber system can be more adaptable to the needs of various network applications in the future, so as to truly achieve "waiting for work", improve resource utilization and reduce overall investment costs.
3. How to ensure the safe operation of passive optical network?
As the passive optical network gradually penetrates into individual buildings and building groups, the structure of the integrated wiring system in the individual buildings and building groups will also change accordingly to better adapt to the application requirements of network equipment.
Carrier-grade single-mode fiber patch cord application scenarios
Through today's introduction, I believe that everyone has an understanding of the aspects of the energy saving of the carrier-grade single-mode fiber optic patch cord distribution network. If you want to know more about ZR fiber optic patch cords, customers are welcome to come and consult.
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