The new communication of comprehensive cabling in data centers is based on prescribed standards and is truly improved for environments suitable for centralized data centers. Usually, the horizontal cabling area serves as a dividing point between the two main cable types and between the horizontal and backbone. Integrated cabling includes patch panels, terminal modules, patch cords, and cables. It must be emphasized that these components should be viewed as a cohesive system, with all components designed to provide maximum capability and performance.

Comprehensive cabling in the computer room

（1） High reliability principle

The data center is the interconnection center of core equipment such as servers, network devices, and storage devices. The failure of any channel or port may cause the entire system to operate abnormally or even interrupt. Therefore, the reliability of the data center cabling system is extremely important. In addition to the commonly used equipment redundancy and physical backup, the cabling system itself must be composed of high-quality and highly reliable products.

（2） High density principle

Due to the fact that data centers are the core facilities of the entire enterprise or user unit, significant investment makes the usage space of data centers extremely valuable. Therefore, it is required that each type of equipment in the data center save space as much as possible. As the infrastructure of the data center, the cabling system adopts a small-sized and high-density solution, which can save valuable space for the data center and improve the overall efficiency of the data center.

(three)Principle of high security

Due to the centralized placement of equipment and the dense placement of cables in data centers, wiring is generally placed on elevated floors/In the open cable tray below. Due to the fact that communication cables are not wrapped like power cables, the fire rating and performance of the cables are crucial.

（4） Real time monitoring principle

The infrastructure of data center cabling can also be electronically monitored. The current popular electronic patch panel management system can provide administrators with interactive and real-time management of copper and fiber optic cable connections. Electronic patch panels are an effective supplement to network management software, mainly used for monitoring, real-time detection, viewing, and recording of jumpers. The electronic patch panel provides system administrators with status information for all connections

（5） Plug and play, quick deployment and installation principles

The pre connected fiber optic system is developed specifically for data center fiber optic cabling, aiming to provide a modular solution that meets high reliability, high density, factory termination, engineering testing, and facilitates easy and fast installation by installers.

1Wiring supervision

The laying of various cables is the most important step in comprehensive cabling. Therefore, in order to ensure that the cables are not damaged during the cabling process and the reliability and stability of the entire system performance, our company's engineers will work with construction personnel on site to complete the cable laying from start to finish. The laying process is strictly completed in accordance with CommScope standards and corresponding international regulations. From horizontal cables, backbone optical cables to the installation of each cabinet, high-quality engineering installation ensures the quality of wiring and guarantees the reliability and durability of the system.

2Wiring

To ensure that all indicators of the comprehensive cabling system meet the design specifications, our company's engineers will be responsible for installing the wiring and jumpers of the main and distribution cable racks and optical cables. The entire construction should be carried out in stages during the implementation phase and deadline, and all construction tasks should be completed before the specified time.

3Construction process requirements

The specifications and procedures for laying cables should meet the design requirements. The routing layout should comply with the construction design regulations.

1)When laying optical and electrical cables, a dedicated person should be assigned at each bend and junction box to guide and pull the cables according to unified command. The cables should be kept in a relaxed state during traction, and small loops and dead bends are strictly prohibited.

2)All wires must be labeled, and protective measures should be taken when cables are placed in positions that are susceptible to external damage on the routing.

3)The optical cable should be tied at the exit and turning points of the cable tray. Rubber hoses should be placed on the tied parts of the up and down walkways and climbing sections to avoid lateral pressure on the optical cable. Reserved optical cables with special requirements should be reserved according to the design requirements.

4)The environment for network cable splicing must be clean, and the connecting parts, tools, and materials of the optical cable should be kept clean to ensure the quality of splicing and sealing effect.

5)The cable binding should be firm, with moderate looseness, tightness, straightness, and straightness. The binding buckle should be neat and consistent, and the bending radius of the cable should not be less than the diameter of the cable20times

6)The placement of jumper wires should be moderately elastic, neat and smooth. The two ends of the wiring must have clear markings and must not be connected incorrectly. The interface should be tightly and securely connected with good contact. The plug-in terminals must not be broken or bent, and the cables should be fully wired after insertion, with a straight and neat appearance.