It’s well known that network technology is changing, but the critical aspect can’t be changed or replaced—patch panel cable management. If the key component is missing, the data transmission will be interrupted and fail to arrive at the destination. Patch panels, as the nerve center of a network system, can ensure the signal to work in ordered and friendly way. But how to install patch panel? And what’s the patch panel installation guide? This article will give you several suggestions.
Types of Patch Panel
Patch panels are available in copper and fiber cables. And designed with different port types and uses, patch panels from FS.COM are divided into 24 LC fiber port patch panel, 24 port SC fiber patch panel, 48 port LC fiber patch panel and so on, and copper patch panel can fall into 24 port cat6 shielded/unshielded patch panel, 24 port cat5e shield/unshielded patch panel and 24 port blank keystone patch panel. Here, we will take the 48 port LC fiber patch panel as the example to explain the patch panel installation.
48 Port LC Fiber Patch Panel
With the size of 19”×1.73”, this fiber optic patch panel is suitable for installing on the 19 inch server rack. It has duplex LC adapters that allow a two-way data transmission between the connecting devices. The 48 port LC fiber patch panel uses C.R.S powder coating, which is fully in line with national environmental standards, can be placed indoors. High density port design makes it connect 96 OM3 or OM4 fibers at most, which is much more than the 24 port patch panel.
Patch Panel Installation Guide
Only follow the right steps can achieve a reliable network. There are two aspects of patch panel installation guide for your reference.
Planning. A successful work starts with a good planning. You should figure out the issues, the network speed, distribution location, and cables length. Make sure you know the specification and design of the patch panel installation.
Preparation. Preparation work can reduce disconnect time. Prepare the main tools, 1U rack mount fiber enclosure, 48 port LC fiber patch panel and screws. Check the cable length for ensuring the cables that could be long enough to pull. And label the ports to identify different cables, in order to guarantee the technicians to have clear information on what they need to do.
Installation of 48 Port LC Patch Panel in a Server Rack
First, we should install the 48 port LC patch panel in the 1U rack mount fiber optic enclosure. Remove the front panel of 1U rack mount fiber enclosure, then install 48 port LC patch panel and fasten the screw.
Second, fix the equipment in the server rack. And leave some space between the patch panel and other devices, for cables management and future change.
Third, try to connect OM3 or OM4 cables to the patch panel in one pull, which helps to protect the bend radius. Comb and bundle the cables, and put them into the patch panel trunking, then cover it with top panels.
Last, don’t forget to clean the work area when you finish the patch panel installation, because the optical fibers are sensitive to dust and dirt. Therefore, try to keep clean when working with fiber optic cables to make them achieve their full performance.
FS.COM offers a vast selection of patch panel installation products and accessories that meet the international standards for supporting your network needs. For more details, please contact us via sales@fs.com.
It’s well known that server room has become an important indicator of one’s healthy network. Although wireless technology can avoid the possibility of cable clutter when compared with the wired connection, sever rooms still have lots of network cables, fiber optic cables and peripheral wiring. Thus server room cabling nightmare may appear if the big amount of cables on the server rack is disordered. For installers and engineers, it’s important to avoid server room cabling nightmare to ensure a well operated network center.
Reasons to Avoid Server Room Cabling Nightmare
Often times, the server room cabling nightmare is related to crowding and stacking things. For example, new equipment may be piled up around or on the top of the old equipment. Disordered cables look like a big bowl of spaghetti that may wreak havoc on the server environment.
It costs you in equipment wear and tear. When the excessive cables and extra equipment are placed together in a server rack, it may result in equipment overheating since the cables block the airflow or ventilation, generating much heat and stress, which may eventually lead to slow-down and even shorten the life of all equipment.
It costs you time and money. The fiber cables and power cables will easily become twisted if the cables are not managed well. In turn, this will cost you a large amount of time to dig through the server mess when you want to change the specific or broken cables.
Tips for Organizing Server Room Cabling
To avoid server room cabling nightmare, here are several tips for you to organize the cabling.
Make the server room dust-free. Dust not only makes the room look dirty, it also can fall into the hardware and cause equipment failure especially when it piles up inside the hardware vents. Therefore, the heat can’t be dissipated from the equipment which will lead to overheating. Thus, the server room should be cleaned every day to prevent dust accumulation.
Apply sound cable management. Poor cable management will not make positive effects on network system, instead, it may cause hardware malfunction. Proper cable management tips contain the colored labels for identifying, suitable fiber optic enclosures for cable managing. In this way, the cables can be protected from winding.
Spacing the equipment. When you decide to set up the server room, make sure that you have planed where to place the racks. A suitable distance should be measured between each rack for air dissipation and future expansion. In addition, the location of equipment such as fiber optic patch panel and switches in a rack should be considered.
End Server Room Cabling Nightmare with FS.COM Equipment
There are several equipment from FS.COM to help you maintain a neat and tidy server room, avoiding server room cabling nightmare.
42U Server Cabinet
42U black server cabinet can accommodate all 19 inch EIA standard networking equipment, providing additional space at the rare for cable management. It consists of several major components, top panel, split side panel, equipment rail, and perforated front door. In the back, it adopts the design of air mesh which allows ventilation and heat dissipation. The cabinet uses SPCC cold roll steel material, firm and durable. It’s the simplest way to handle hundreds of cables.
1U Rack Mount Fiber Enclosure
1U rack mount high density fiber enclosure is available for 4 fiber adapters or cassettes that can connect 96 fibers. The body is made of SPCC cold-rolled steel plate, finished with electrostatic powder spraying. It can maximize the use of limited space in a rack to protect and manage fiber cables with easy installation.
Server room cabling nightmare is the greatest challenge in the network system. To solve this problem, it should be done with the professional network solution supplier FS.COM. For more details, please visit FS.COM.
Data centers are the repositories in today’s online world, and they’re also regarded as the heart that may pump the lifeblood of one’s business. Inside the data center, numerous issues may break the center, so if anything goes wrong, so does the business. Wrong cabling is one of the issues that may be ignored by most people. But with patch panel labels, technicians can simplify troubleshooting and increase management efficiency.
Label Standard
Clear labeling is the groundwork of a professionally installed network system. There is a set of standards named TIA/EIA-606 that aims at fully addressing the administrative demand for telecommunication equipment, cabling system, and other telecommunication infrastructure. For example, the original TIA/EIA-606-A have defined the general administration, but haven’t had specific needs of data center’s design and installation. Another version, TIA/EIA-606-B is backward compatible with the traditional version A, with a purpose of being a universal labeling standard that applies to all types of premises. And in the set of standards, they have explicitly stated that in one building especially the multiple telecommunication spaces, hardware like patch panels, IDC blocks, and copper or fiber cables should be labeled and recorded.
Importance of Patch Panel Labels
Achieving traceability is the main reason for using patch panel labels. Within one server rack, fiber optic patch panel is commonly used for horizontal cable management that acts as the unit to connect and route circuits for monitoring, interconnecting and testing. Patch panel labels include the patch panel identifier. If practical, each port of a patch panel should be labeled. Using patch panel label accelerates the traceability of the relevant cable links. It helps when the technicians need to find the specific cables.
Labels on Patch Panel
Labels can be used for all patch panels. Here is an example, 24 port blank keystone patch panel on FS.COM, which permits users to create a mix connection of voice, data, and video. The empty design of this Ethernet patch panel makes it possible to accommodate various snap-in jacks, so the users can insert cat5e or cat6 adapters based on actual needs. Beyond the empty port, there are white plates where you can paste the adhesive labels to mark the cables. Users can quickly find the specific cable that needs to change or upgrade, increasing working efficiency. Some adhesive labels are also available in FS.COM: P-type and winding type cable label.
P-type Adhesive Label
FS.COM provides P-type cable adhesive label paper in red color. It’s a simple identification that is resistant to water, oil, and scratch. Besides, it will not generate debonding in a low-temperature environment and easy to peel off.
Winding type Adhesive Label
Winding type cable label from FS.COM uses an easy wrap-around design, providing a clear and simple identification. With the design of non-slip, it can be pasted on patch panels for cables records and placement instructions. For the best practice, all labeling should be visible especially doing the maintenance.
Conclusion
Patch panel labels are the effective-cost solution to solve network operation breakdown. When it comes to modifying, repairing and upgrading anything, labeling makes it convenient for your job. For more input on the data center, get in touch with the experts at FS.COM.
Server rack is such a useful kit to deploy in the large data centers. Commonly, there are two basic methods to build a structured cabling system. One is to have a patch panel in the rack, and the other one is to use the switch. Both the two methods are beneficial to managing fiber cables. Today, we will talk about the first one, server rack patch panel.
Why Use Patch Panel on Server Rack
The reason is simple: installing patch panel on server rack can make a proper cable management. This is crucial to build a better network system and ensure a well running status as it provides the technological backbone. First, without a patch panel, all cables may be in jumble and increase the risk of cable congestion. It may lead to connection fault and even the losses to the enterprises. Second, disordered cables can cause clogged airflow, which is harmful to hardware safety. We know, all electric devices will generate heat when they run. So it needs more space for air flow to cool. Server rack patch panel is such a good way by managing different port densities and speeds in one high density patch panel, then the valuable rack space is saved. The approach can actually promote the air flow and protect the hardware.
Considerations When Organizing Server Rack Patch Panel
Here are a few facts to consider when you organize sever rack patch panel.
Equipment location. According to the convenience and available space, choose the rack location. Find the cold spots in the room, then place the rack front facing the cold area that can offer the maximum cooling for the hardware. In addition, make sure that there is enough space around to conduct any service.
Manage copper and fiber cables separately. Try to run copper cables on one side and fiber cables on the other side. Thus copper and fiber cables will not mix. Besides, if the cables lay closely, it may cause interference or crosstalk. Managing the cables separately can help to make an easier access to the equipment when it needs to be upgraded or changed.
Best Selections of Server Rack Patch Panel
Server rack patch panel is one kind of horizontal cable management. Traditionally, a majority of data center equipment uses 19 inch wide design. Now I will introduce some equipment from FS.COM for your reference.
45U black server cabinet can accommodate all 19 inch EIA standard networking equipment, like FHD fiber enclosures, MTP cassette, and FHU patch panels. This server rack includes a welded and assembled steel frame construction with a static loading capacity of 3527lbs. The design of perforated doors allows maximum airflow to be drawn through the server cabinet, which is good for maintaining the devices installed on the cabinet.
The unshielded 24 port blank keystone patch panel is an ideal tool to manage both copper and fiber cables, so you can customize your patch panel and create a perfect mix connection based on your specific applications. This patch panel adopts the design of removable rear cable manager, which is conducive to uninstall and install. And it can be labeled for easy connection identification.
All these are good practice of server rack patch panel. When you need to set up a data center, welcome to FS.COM to select the best products for your network system.
Structured cabling installation is the main part of a flexible structured cabling system that will support different hardware uses and satisfy current and future demands. Since the thousands of forms of online data transfer, and the gathering of business intelligence has made a significant influence on today’s commerce, the companies want reliable and structured cabling installation to hold the infrastructure of data connections. Now, I want to share something about its installation with you.
Importance of Structured CablingInstallation
A proper structured cabling installation gives a universal platform on which you can build the overall information strategy, supporting multiple voices, data and media system, regardless of who manufactures these. In essence, compared with traditional point to point cabling system, the structured cabling system is more neat and organized. It has many benefits for one’s network operations.
Support future upgrade. High bandwidth is the most significant benefit of the structured cabling, which makes it a reliable infrastructure for business data growth. With structured cabling, you can ensure connectivity of the enterprise while business divests into new technological areas and equipment.
Reduce cabling bulk and congestion. The organized and planned cabling system can accommodate smaller diameter trunk cabling, and makes a cleaner cable management.
Reduce installation time and cost. Using a structured cabling system, users just need to plug the equipment cables into the matched sockets when upgrade or change the network. No need to buy additional wires or adapters.
Tips for Structured Cabling Installation
Since the structured cabling is the critical part of one’s network, here are several tips for the proper installation.
Planning comes first. In this stage, you must have a comprehensive understanding of your actual needs, figure out a solution based on the location, cabling types, and the needed equipment. Planning the installation will enable the actual work and operations run more smoothly.
Follow the cabling standards. When you install the cables, please follow the cabling standards because there are standards that have specified the multiple cables for different uses. Following the standards will greatly improve the efficiency of cables and data networks.
Remember the maintenance is important. Once the cables are installed, the maintenance becomes important. Buy a server rack or other equipment to manage and maintain the cables, which will save you lots of money and time in reality.
Choose the Right Equipment for Structured Cabling Installation
Vertical cable management and horizontal cable management are the two methods used in structured cabling installation. Choose the right equipment is the top priority. There is some equipment from FS.COM.
Single sided and dual sided vertical cable manager are available on FS.COM. This 45U 4.9" wide plastic single sided vertical cable manager is designed with flexible fingers to protect cable radius against damage. It can route cables vertically either on the front or back of racks. With a PVC cover, the equipment can avoid the dust and increase service life.
1U 19inch blank rack mount fiber patch panel is commonly used for horizontal cable management. It offers different choices for one’s application by being separated into patch panel, D-rings and lacer bar. This equipment is a cost effective cable management solution used in high density cabling system in data centers and telecommunication rooms.
From the above, we know structured cabling is the backbone of all business. FS.COM is the "one stop shop" for all cabling installation.
Patch panel cable management is a common practice in network system. This because technology develops at an unbelievable speed, consequently, today’s server rooms are featured with a large number of different bandwidth-intensive devices, such as clustered storage systems, blade servers, virtualization applications or some other backup devices. These devices are all interconnected via network cables or cable management tools. Besides, it’s known that challenges in server rooms arise not only with trying to pursue the increasing demand of higher performance and flexibility in order to achieve a scalable and manageable cabling infrastructure, but also with evolving cabling industry standards, which sometimes may determine future’s cabling offerings standards for technological growth. To solve those problems, patch panel cable management is a wise choice in the physical plant.
Benefits of Patch Panel Cable Management
Patch panel cable management describes how fiber cables are connected and managed in a patch panel. Fiber optic patch panel is a very popular cable management tool used for wiring fiber cables in an organized way. And a correct patch panel cable management will deliver several advantages, which will enhance one’s network availability.
Reduced signal interference. Patch panel makes the cables in their corresponding positions, that means the cables will not interfere with each other. This can greatly reduce the crosstalk and interference between cables and ensure cables’ performance.
Improved serviceability. Patch panel allows technicians to recognize which cable should be changed or upgraded easily, minimizing working time and improving safety.
Cooler function. Thanks to the fix positions of cables in a patch panel, there is more space within a rack for air flowing. It brings down the whole equipment running temperature.
A roadmap for growth. Labels on the patch panel is an effective cable management which gives the direction to technicians to scale and adapt to changes in cabling infrastructure as well as reducing service time.
Tips for Patch Panel Cable Management
Here are several patch panel cable management tips for network installers.
Start with measuring. Remember the adage “Measure twice, cut once”. Measure the cables’ length needed for a patch panel carefully, to avoid messy cabling and expensive cable waste.
Don’t forget the labels. Just take some time to mark clearly on the connection point, which will pay off in the long run.
End with testing. After connecting cables via patch panel, test each cable by using a quality tester. If the test doesn’t pass 100%, reconfigure the cable. Believe me, this step will avoid lots of extra work in the end.
Patch Panel Cable Management Solutions
Patch panels are available in different categories based on various ports and designs. Confused about which one will work for your application? FS.COM is the right way for your cabling design. The following are the two products sold well from FS.COM.
24 port fiber patch panel is the best choice for small LAN cable management. This 24 port LC duplex fiber patch panel with a max cable capacity of 48 OS2 single mode fibers is suitable for 1U high 19 inch frame rack mount or cabinet. The ports are in the upright design with folded sides, providing a cold aisle orientation for cables.
Wall mount patch panel is a wise practice in the limited room. This fiber optic wall mount patch panel can hold 4 standard FHD series adapter panels. The max cables capacity of this type is 96 fibers. Equipped with slack spools, strain relief and silica gel stopple, the wall mount patch panel can protect cables bend radius and prevent dust.
FS.COM patch panel cable management tools are ideally designed to store, protect and terminate fiber cables and connectors. Need help with setting up a patch panel cable management? FS.COM is the definitive choice for all your optical fiber needs.
Rack cabling may be the backbone of one’s information technology operation. All data or signal are delivered by the cables, so maintaining and running the critical circuits that are managed by these cables are of great importance. Any mishandled cables on the key link paths can lead to bad results, such as data transmission errors or performance issues. So how to organize and protect fiber cables? This 1U rack mount enclosure will help you. First, let’s look at the structure of 1U rack mount enclosure.
Structure of 1U Rack Mount Enclosure
Before we properly use fiber optic patch panel, we should have a better understanding of its structure. The following 1U rack mount patch panel is from FS.COM. It can support 4 fiber adapter panels or MTP/MPO fiber optic cassette. The top cover can be removed, which is convenient when installing the adapter or cassette. Inside the enclosure, there is nothing except two fixed screw holes position, which enables users to settle the panels or cassettes. Each rack mount enclosure is shipped with an accessory pack that includes mounting screws, spools, bend radius brackets for proper installation and cable ties for cable management.
Devices Used for 1U Rack Mount Enclosure Inside Cabling
There is a video to show clearly how 1U rack mount fiber enclosure inside cabling works. Here, we need 24 fiber optical splice tray, LC fiber adapter panel and spliced fiber pigtail.
Splice tray is a device used with other equipment to hold and protect optical fibers. This 24 fiber optical splice tray is equipped with self-contained slacking and spooling, mechanical splice holder, self-stacking modules with side latches and clear plastic hinged cover, designed to safely route and store optical fiber.
LC fiber adapter panel is designed for use with FHD series rack mount enclosures, providing a good protection for cables.
Fiber pigtails are used in terminating fiber cables through fusion splicing, in order to achieve accurate mounting for precision alignment of fiber optical components.
1U Rack Mount Enclosure Inside Cabling Installation
According to the video, the installation can be divided into two parts, fiber optic splice tray installation and cassette or adapter installation.
Step one, install fiber optic splice tray first. Undoing the screw to remove the top cover. Put 24 fiber optical splice tray into the 1U rack mount enclosure, and align the screws at the screw holes, then use a screw to fix it. Position another splice tray upright the fixed one. The 1U enclosure can hold 4 splice trays. Last, use a cable tie to make sure the fiber cords at the right location.
Step two, install cassette or adapter. Place slack spools over plastic rivets studs on sliding tray in a new 1U enclosure, and use screw to fix slack spools. Then insert LC fiber adapter panels into the enclosure. Unplug dust caps and connect the fiber pigtails. Note that make the pigtails go through the grommet for dust prevention. Finally, close the top cover.
FS.COM developed the 1U rack mount enclosure inside cabling installation to guarantee the smooth operation and efficient cable management of customers’ network. More details, please visit FS.COM.
Most people know that data amount has grown exponentially due to the increase in mobile computing, the rise of social networks and the spread of information technology into almost all areas of private and work life. And for network operators, they require a structured cabling solution for fiber and copper as well as an efficient analysis and implementation of ongoing capacity expansion. However, someone may be still confused about why a structured cabling solution is essential?
Why We Need a Structured Cabling Solution?
There are four reasons to use a structured cabling solution, bend radius protection, cable routing paths, cable access, physical protection, because these four aspects can directly make influences on network’s performance.
Bend radius protection. When fiber bends exceed the specified minimum bend diameter can fracture, resulting in service failure and increasing network operating costs. Thus protecting the bend radius can enhance cables’ long term reliability and reduce signal attenuation.
Cabling routing paths. A right path is beneficial for decreasing the probability of bend loss and long term cable failures. So it’s important to make access to individual cables simple and safe.
Cable access. A good structured cabling should allow each cable to be plugged in or removed simply without damage. Besides, this will help to maintain bend radius protection.
Physical protection. All cables should be protected from accidental or physical damage, otherwise, the whole network may break down.
FS.COM Equipment for a Structured Cabling Solution
FS.COM offers both horizontal cable management and vertical cable management so your network will not behave like a spaghetti bomb exploded near your servers. Here is some equipment you may use for building structured cabling.
45U adjustable open frame rack. It’s typically used for server room and data center rack applications and designed to house 19inch standard mounting device.
Cable manager. Vertical cable manager and horizontal cable manager are available. We choose 45U dual sided vertical cable manager that can be used for both front and back cabling. And 1U metal horizontal cable manager with brush strip, it increases overall air flow within cabinet while helping to prevent equipment from overheating. The steel construction and black powder coat finish fights provides durability, resists corrosion. Besides, there are 1U metal horizontal cable manager with 5 D-rings and 1U plastic horizontal cable manager with finger duct, which can provide a large supported area to organize and route cables.
Equipment for connecting fiber optic cables such as 1U FHD fiber enclosure, FHU MTP-LC breakout patch panel, FHX ultra high density fiber enclosure. There are different types of fiber optic patch panel with different connectors, port numbers on FS.COM. In addition, standard or customized fiber adapters panels can also be found on FS.COM. You can choose based on your need.
Copper cabling equipment includes 1U shielded or unshielded patch panel, and 24 port blank keystone patch panel. These are used for connecting copper cables.
Installation of a Structured Cabling Solution
Here is a video gives a quick look at data center structured cabling solution of fiber or copper system.
First, place the 45U adjustable open frame rack in the spacious room. Then insert the 45U dual sided vertical cable manager to handle the cables vertically.
Second, deal with the fiber optic cables. Install the fiber optic equipment on the rack. Choose the suitable fiber patch panel to connect the matched fiber optic cables. For example, LC fibers should be linked to the LC adapter panel, otherwise, the network can not work.
Third, install the 1U copper patch panel on the rack. Then plug in CAT5e and CAT6 cables in turn. Make the copper cables go through the fingers of horizontal or vertical cable managers. This step aims at protecting cables and perfecting the structured cabling.
A good structured cabling solution helps increase network system performance and improve maintenance and serviceability of cables. With the right tools, you don’t need to worry about how to sort in the maze of sloppy cabling, you can build a network that is flexible enough to reconfigure and upgrade. Hope FS.COM will be your first choice to buy fiber equipment.
As we know, proper cable management is part of one’s network’s performance and effectiveness. However, do you know what is the most difficult area of cable management? It’s the area on the equipment rack itself. You can manage the overhead cables by mounting them to the superstructure, and use a simple raceway-type solution to deal with the underfloor cables. But how to handle the rest cables vertically? Absolutely, You need a vertical cable manager. Vertical cable manager is used to house and organize fiber and copper cabling for good vertical cable management.
What IsVertical Cable Manager?
Like the name implies, vertical cable manager is the equipment installed vertically. It can be installed on both sides of a rack or cabinet so that it can be called dual sided vertical cable manager. This kind of vertical cable management makes the utmost of the extra space of rack’s two sides to route fiber optic cables or patch cables effectively, while creating no impact on access to the equipment in the rack.
Why We Use Dual Sided Vertical Cable Manager?
Some persons may ask, for cable management, I have selected the fiber patch panel, rack or cabinet to manage cables. Why do I still need to use the dual sided vertical cable manager? Let me answer it, because they are different cable management tools. Fiber optic patch panel is used to manage the equipment through the network cabling system. Data or signal can be delivered within a fiber patch panel, thus the data or signal can reach to the equipment successfully. A rack is the facility storing fiber patch panel, hard disk drivers and some computer correlation equipment. The dual sided vertical cable manager is just applied for tidying cabling which is along the sides of a rack. Remember, this equipment is not related directly with the network.
Using a dual sided vertical cable manager, technicians can snap off fingers, minimize downtime, maximize space, which brings a good network environment.
How to Use Dual Sided Vertical Cable Manager?
Here is a video to show you how the dual sided vertical cable manager works. It takes 45U 4.9" Wide Plastic Dual Sided Vertical Cable Manager from FS.COM as an example. This product uses an oval hole design, making it easy for front-to-back cable routing. Flexible fingers on both sides ensure optimum cable radius not to damage cables. And to protect cables from damage or dust, the cable manager uses a PVC cover. After knowing the features of the product, let’s see how it works.
First, install the dual sided vertical cable manager. Put the plastic cable guide part on a flat surface. Then place the other cable guide over the connector brackets and press firmly until fully seated.
Second, position the cable manager next to the rack. Use the inserted brackets mount the vertical manager solidity to the rack. You can couple two 22.5U sections together. After that, insert each door into the hinges and press it tightly until it quickly settles.
Last, route cables through fingers of the dual sided vertical cable management.
Conclusion
Dual sided vertical cable manager is the compact and versatile solution in the server room or data center. With rich experience in this realm, FS.COM is engaged in offering best and excellent quality products of vertical cable management.
In cabling system, patch panel is used for cable management. But how? In short, when the patch cables are connected with telecommunication equipment, they have to go through the adapters in the patch panel to achieve the wiring function. Here, patch panel functions as the protector of cables or pigtails. Commonly, patch panel can be divided into different categories according to different ports, 12 port patch panel, 24 port patch panel and 48 port patch panel. And for small LAN network, the best option is 24 port patch panel especially the 24 port blank keystone patch panel.
What Is 24 Port Blank Keystone Patch Panel
24 port blank keystone patch panel, also known as the unloaded patch panel, is one option of 24 port copper patch panel. Typically, instead of the pre-positioned connectors design, it adopts the design of 24 individual empty holes which allow users install the connectors based on their own needs to link different copper cables. The empty holes are called keystone jacks that can be terminated to the cables such as shield or unshield CAT5e or CAT6, and then quickly inserted into the patch panel. This type of patch panel is designed to support the distribution of voice, data, and video for commercial or residential applications. FS.COM offers 24 port unshielded blank keystone patch panel, it’s suitable for any standard 19 inch relay rack, cabinet or wall bracket. With a flat style and clear port number, cable management becomes easier. And its removable cable manager will allow users to fix cables simply.
Reasons to Use Blank Keystone Patch Panel
Compared with the traditional patch panel, blank keystone patch panel enjoys several advantages, which actually encourage people to choose blank keystone patch panel.
More flexible design. No keystone jack is pre-installed into the blank keystone patch panel, so it can be customized based on specific application. FS.COM 24 port blank keystone patch panel accepts all RJ45 modules, which means technicians will not struggle with the decision whether to use CAT5e or CAT6 when they need the versatility of running different types of networking cable on one project. The blank keystone accommodates a wide variety of easy to snap-in modules, making configuration flexibility.
Better cost-effectiveness. The special design and easy installation make a low initial investment cost. Use one blank keystone patch panel, users can connect CAT5e and CAT6 simultaneously without buying theCAT5e patch panel and CAT6 patch panel. Besides, with pre-labeled ports and write-on areas on the front, the blank keystone patch panel helps trace and identify cable runs to stay in order.
Install 24 Port Blank Keystone Patch Panel for Ethernet Cabling
First, prepare the equipment. No extra tools are required except the essential equipment, 24 port blank keystone patch panel, CAT5e and CAT6 RJ45 insert modules.
Second, to fit one’s need, choose the proper quantity of different RJ45 modules. Then insert them onto the 24 port blank keystone patch panel one by one.
Third, screw the assembled 24 port blank keystone patch panel in a 19 inch rack. Plug the CAT5e cables into the CAT5e coupler keystone insert module and insert CAT6 cables into the CAT6 module, then handle the cables in sequence.
Last, take a visual inspection of the equipment to make sure everything works well.
Conclusion
24 port blank keystone patch panel provides connectivity for RJ45 insert modules data services, playing an important role in supporting the cloud. For your convenience, FS.COM offers different types of blank keystone patch panel to help technicians finish your networking project on budget and on time.