A structured cabling network is a system for connecting different components. There are many different types of cabling systems. Some of them are called backbone cabling and others are called subsystems. Let’s look at some of the important ones and their applications. There are many different standards and guidelines that govern the installation and use of cabling systems.
Structured cabling system
Structured cabling system is the cabling infrastructure of a building or campus. It is comprised of standardized components, known as subsystems. These components include optical cabling and twisted pair cabling. They can also include patch panels and cables. For a building or campus, structured cabling can increase the overall network security and reliability.
One of the benefits of structured cabling is that it makes it easier for IT professionals to troubleshoot problems. This reduces downtime. It also helps them document configurations and plan for future infrastructure expansion. Using structured cabling can also reduce energy resources and installation costs. It is also highly reliable and can accommodate modern technologies.
A structured cabling network is critical for a business. It allows companies to upgrade their technologies and increase their business performance. A properly functioning network enhances the productivity and efficiency of the entire workforce. In addition, it increases network coverage and reliability, enabling maximum output.
Backbone cabling
Backbone cabling networks are typically used to connect two separate areas of a building. They consist of transmission media, main cross-connects, and intermediate cross-connects. These systems are most commonly used in data centers. Backbone cabling is usually installed to connect telecommunications rooms and work areas on different floors. It may be made of UTP, STP, or Coaxial cable and must meet ANSI/TIA/EIA specifications.
When planning a backbone cabling network, it is important to consider how the network will be laid out. This type of network cabling must meet performance demands, but it must be as short as possible. Many backbone cables are installed horizontally because they are less expensive. However, the purpose of the cabling system will determine the best type of cable for your network. Understanding your cabling requirements will help you make the best decisions for your needs and save money.
Equipment room
The equipment room is a centralized location that houses complex structured cabling equipment. This area is also where termination devices for wiring systems are placed. It is a more sophisticated area of a building than the telecommunications room. In addition to telecommunications equipment, the equipment room also houses computer equipment. Backbone cabling connects this room to the rest of the building.
A structured cabling network consists of six essential components: the backbone cabling, work area, telecommunications closet, equipment room, and entrance facility. Structured cabling systems comply with ISO/IEC 11801, which is a global standard. It includes patch panels and jumpers to connect endpoint devices to the network infrastructure.
Subsystems
In structured cabling network subsystems, the data and signal transmission is performed through the wiring cables. These cables are terminated and managed in a management subsystem, which is typically located on a floor. The management subsystem is composed of switching and cross-linked equipment. The equipment is then connected to information sockets in each work area. The subsystem also includes a hub or switch for connecting different subsystems. Short cables, called jumpers, are used to connect individual equipment to horizontal cabling outlets.
The most common use for structured cabling installation is in educational facilities, which are often large and include many buildings. These facilities use an extensive amount of technology and therefore require a cabling job that can handle the high-power demands of such facilities. The cabling job requires a reliable network that is easy to manage and troubleshoot.
