Fiber Cable Connection Enhances the Smart Building Experience
Smart buildings require extensive devices that support for communications to manage facility systems, including security systems, IoT facilities, wireless networks, and more. Therefore, planning the integrated wiring system of intelligent buildings is the top priority. Flexibility is key for smart buildings to meet existing network infrastructure and growing demands. Fiber cable connections are increasingly common in smart buildings. Why choose fiber optic cables? Several advantages of fiber optic cables are discussed here.
The Relationship Between Smart Building and Cabling System
As a part of smart buildings, the integrated cabling system is the key infrastructure and basic part of the smart building. It also has a great impact on the building construction process and after-maintenance. Flexibility, openness, and advancement are the features of the integrated cabling system. Its design not only needs to meet the existing network needs but also prepares for the growth of future data transmission needs.
The intelligence level of a smart building cannot be evaluated by its appearance or internal settings, but by an integrated cabling system, including technical applications, network layout, Internet of Things facilities, etc. The network system of a smart building is built through a cabling system, so the selection of cables becomes very important. Traditional buildings use vertical cabling to complete the network construction. When the network is upgraded or migrated and expanded, the wiring layout needs to be reconfigured. The emergence of structured cabling solves the problem, but what about the choice of cabling deployment? What are the differences between fiber cable connections and copper cable connections? Let's discuss it.
Smart Building Fiber Cable Connection Selections
There is still some discussion about cabling deployment in smart buildings. Whether you choose copper or fiber cables depends on the specific situation. The first thing to consider is whether the level of intelligence of the building requires a high-speed connection. Fiber cable connections are the best solution for meeting the highest transmission speed, long-distance transmission, and lowest network delay. Also, fiber optic cables are immune to electrical noise, eliminating some of the potential difficulties associated with interference.
Copper cables are more suitable for short-distance transmission because it is limited by physical resistance. On the other hand, due to the growing number of network device connections. Ethernet isn't just for data transmission, but more for device connections. The Ethernet POE technology that supports copper cables can enhance the transmission power by about three times through the IP network and can provide power for devices in smart buildings, which is the advantage of copper cables.
It is also a good solution to use optical fiber and copper cables for integrated cabling simultaneously. But in a modern network, data transmission becomes more and more important, and the selection of fiber cable connections is necessary.
Benefits of Fiber Cable Connection for Smart Buildings
Here we detail the advantages of fiber optic cable deployment in smart buildings.
Smart buildings have more and more demands for data transmission, such as video surveillance, file sharing, intelligent identification, or some cloud-based applications. The previous network bandwidth could not meet the current demand, and the integrated cabling must be redeployed while upgrading the network. And fiber cable connections have become the first choice for smart buildings. The high data relocation capability of fiber optic cables can enhance the user experience in buildings and also increase the efficiency of data-intensive applications.
Network security is also a critical point for smart buildings. Once information security leakage occurs, it will bring huge property losses to enterprises. As a result, protecting digital assets often becomes one of the top priorities for many businesses.
The main reason is that the fiber cable connection is relatively hidden and not easy to be found. If someone tries to break the fiber optic cable and takes the opportunity to access it, the signal of the fiber optic cable will disappear immediately, preventing data from being stolen. Secondly, the network equipment connected by optical fiber is in the core position of the building, which can be mainly protected and easy to maintain daily.
Network latency is very important for user experience. Once network latency occurs between buildings, it will affect the work efficiency of enterprises. Fiber cable connections transmit data through optical signals, which are faster and can reduce network latency. Whether it is only monitoring or smart access control, smart buildings improve efficiency and internal user experience.
The benefits of fiber cable connections in smart buildings are also their durability. Fiber optic cables are more durable than copper cables and can withstand the impact of extreme weather. In addition, fiber optic cables are immune to electromagnetic interference, reducing the possibility of unplanned downtime and improving network stability.
Optical fiber signal transmission is also an advantage. Because some users or conference rooms are far away from the signal source, problems such as network interruption may occur. Fiber optic cables do not attenuate signals over distance, and can even travel up to 25 miles. Therefore, choosing fiber cable connections is the perfect solution for smart buildings or enterprise factories.
The development of optical fiber cable makes its application in all walks of life more and more important, and even becomes the core technical support for network construction. The optical fiber network supports the high-speed network transmission and data analysis performance required by the Internet. Fiber cable connections in smart buildings can realize intelligent analysis and efficient data transmission of buildings, and simultaneously help to improve business efficiency and digital transformation of enterprises.