Factors Driving Fiber Cable Connectivity Under the IoT
The Internet of Things (IoT) is a relatively new technology trend and it is rapidly evolving. To both the consumers and enterprises, IoT devices require faster, more reliable networks to support them. The emergence of fiber optic networks can enable enterprise to take full use of the benefits of the IoT for rapid development. Below we discuss how fiber cable connections are enabling the Internet of Things to flourish.
Fiber Cable Connection Requirements for IoT
The Internet of Things has penetrated every aspect of our lives and is changing our behavior habits. Based on this, more and more enterprises are undergoing digital transformation, which also puts forward higher requirements for the network bearing of the Internet of Things. Fiber cable connection also needs to keep pace with the evolution of IoT devices. Here are a few factors driving IoT development.
Shifts in Data Center Network Architecture
The existing network infrastructure is no longer sufficient to meet the development of the Internet of Things, which has led to huge pressure on data storage and processing in data centers. More importantly, the bandwidth requirements of IoT come from various aspects, including low-bandwidth and high-bandwidth applications. Like daily mobile phone reservation services, AI recognition, etc., all of them require data centers to receive and process data.
It is precisely because of the growing demand for the IoT that the data center network architecture has evolved from the traditional three-tier network to the spine-leaf architecture to facilitate fast access and processing of data and reduce network latency. And to adapt to this changing trend, fiber cable connection solution has also evolved from the traditional cabling scheme to structured cabling, which improves the data transmission efficiency of the data center.
5G Speed and Latency Requirements
The vigorous development of 5G has also affected data centers to a certain extent. Data centers require higher performance to serve large numbers of users. So how will data centers be optimized and upgraded for 5G networks that support IoT-critical applications? The solution could be to build data centers in areas where IoT applications are busy increasing data transmission speed. But to further meet the requirements of key IoT applications, the 5G standard reduces the latency standard of the radio access network by a factor of 10, which in turn poses a huge challenge to the data center.
Therefore, increasing the computing speed of data centers requires not only faster switches and more processors but also cabling solutions that support higher network transmission rates, such as 40G/100G/400G fiber fiber cable connection solutions.
Customer Expectations for Seamless Upgrades
With the explosive growth of data, enterprises need to use different hardware, software facilities, and deployment solutions to build IoT projects. While the customer demand for hardware and software facilities will continue to grow, and the requirements will be higher and higher. As the IoT connection infrastructure, optical fiber cabling should also fully take into account the customer's expansion of future business goals while achieving existing business goals.
Therefore, the fiber cable connection solution of the data center needs to consider the demand for network capacity brought about by the ever-increasing data transmission rate. This is also the reason why more and more customers want to achieve a seamless upgrade of data centers. Meeting future capacity needs is also critical for data centers.
Fiber Cable Connection Ready Under IoT Development
Three Key Factors of IoT Fiber Cable Connection
Generally, from a fiber cable connection perspective, IoT cabling must address three key areas: rate, power, and distance.
Rate refers to the transmission rate that guarantees the throughput required for the IoT device to operate normally and avoids network delays.
Power refers to whether IoT terminals are powered by low-voltage power using Power over Ethernet (PoE) technology, and the low-voltage output capability they require.
Distance refers to the maximum length of cabling required to connect all components.
Choosing optical fiber cabling in an IoT project will be a very smart decision. The fiber cable connection solution offers several advantages over copper cables, such as faster speeds and longer distances. Although fiber cables are more expensive than copper cables, they have a longer lifespan.
Fiber Cable Connection Verification and Maintenance
After the deployment of the IoT project is completed, the fiber cable connection needs to be verified and maintained. Considering there are three key factors required for an IoT project that vary widely, you have to perform comprehensive verification and maintenance of the cabling to ensure that they are not a performance-impacting defect, including the IoT endpoints, sensors, and uplinks to all switches.
Another step to test IoT devices is to see whether there will be bottlenecks between access layer switches and the wireless access points (WAPs) when they are in highly dense wireless IoT deployments. If an IoT project needs to support WiFi 6 or WiFi 6E to deploy higher density wireless networks, you must retest the optic fiber cabling before running.
Fiber Cable Connection for a Better IoT
Data centers, 5G, and customer demand are all driving IoT growth, and IoT cannot take its stride forward without greater bandwidth and network reliability. The fiber cable connection solutions also need to constantly evolve to ensure the security and reliability of the IoT devices. Of course, fiber cable verification and maintenance are not ignored after the fiber optic cabling is installed, which is a further consideration for the normal operation of the network.