A patch panel comes in handy when every IT technician’s ambition is to have effective wire management. A Cat6 patch panel is used to connect, schedule, and allocate cable links. This article will teach you all you need to know about patch panels.
What is the patch panel’s purpose?
Patch panels are sometimes known as patch bays or jack fields. An incoming and outgoing LAN line and other electronic, communication, and electrical systems on a network are connected via a patch panel. If you’re planning to build up a wired network with several wall ports, patch panels can give tidy, straightforward, and easy-to-manage options. Based on ports, these are the most widely used patch panels:
- Patch Panel with 12 Inputs and Outputs
- Patch Panel with 24 Inputs and Outputs
- Patch Panel with 48 Inputs and Outputs
By bundling numerous ports together, a Cat6 patch panel connects outgoing and incoming lines if you have a patch panel in your network and wish to reorganize the circuits, plugin, or unplug the patch cord in question.
The Importance of Patch Panels in Your Network
Patch panels are typically connected to network racks located beneath or above switches. A Cat6a patch panel also provides ports for connecting ethernet cables rapidly. A Cat6a patch panel can be configured for specific networks and comes in various sizes and configurations.
Patch panels are significant because if one fails, the entire network will fall.
The number of ports on the patch panels ranges from 12 to 96. Hundreds of ports may be required when dealing with massive networks. These fantastic gadgets assist technicians by giving flexible and convenient routing options and allowing for smooth networking.
Copper and fiber-optic patch panels
Patch panels are utilized in both fiber and copper cabling networks.
Let’s start with patch panels made of copper. The construction on one side uses 8-pin modular ports, while on the other side, 110-insulation displacement connection blocks are used. Wires coming into the patch panels have been severed. The 8-pin modular connector is inserted into the ports on the other side to correspond to the terminated wires. It’s worth noting that each pair of wires has its port in the copper Cat6a patch panel. In contrast, fiber patch panels require two ports for each pair.
Patch panels with shielding vs. patch panels without shielding
In environments where there is a lot of EMI interference, a shielded patch panel can be employed.
A shielded patch panel consists of a metal panel with snap-in protected keystone jacks. To provide improved signal transmission performance, shielded patch panels are typically utilized with shielded ethernet cables. The number of ports on a shielded Cat6 patch panel can be classified into three categories: 12-port, 24-port, and 48-port.
Patch panels with unshielded keystone jacks that snap into place are known as unshielded patch panels. Unshielded patch panels are separated into three kinds based on the number of ports: 12-port unshielded patch panel, 24-port unshielded patch panel, and 48-port unshielded patch panel to shielded patch panels.
As the demand for effective cabling rises at a rapid rate, patch panels are witnessing more developments. At New York Cables, we manufacture high-quality patch panels TIA/EIA approved and RoHS compliant. In addition, to ensure optimum performance, our patch panels have been rigorously tested in the field and the lab.
Patch Panels Have the Following Benefits:
Patch panels are a necessary component of any data center. A patch panel provides a host of advantages that make it well worth the investment. Some of the most notable benefits of employing patch panels are as follows:
Scalability: After installing a patch panel, you can easily add more devices without running new cables end-to-end.
Patch panels are often placed closer to the equipment, resulting in less cable congestion. Furthermore, it enables the use of a shorter patch cable. A fiber optic or other high-capacity link is used from the panel to the following network or the internet.
Patch panels aren’t called “smart” devices because they don’t do anything other than enable data transmission. It suggests that they are inexpensive.
Shorter cables, which are less expensive than longer ones, can be used with a patch panel. Instead of spending money on fiber optics, you can usually get to the patch panel with cheap cat-5 cables.
Easier Maintenance: If you ever need to run a test cable, test a port, or perform any other routine maintenance, you can do it much more quickly and with a lot less work than if each device had its wire flowing to its final destination.