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 Is Vertical 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.

The world changes continuously, and data network has advanced much faster than anyone can keep up. Technicians are tired of dealing with the messy network, and may feel extreme anxiety about the inability to make an organized and structured cabling environment. Fiber optic enclosures are the glue that can connect cables together for delivering data or voice to multimedia and network services like LAN, WAN and ADSL. FS.COM 1U rack mount fiber patch panel cabling solution is the ideal method for easy cable management, including 1U patch panel, FHU 1U 24 port patch panel, and 1U lacer panel and lacing bar.

Function of Rack Mount Fiber Patch Panel

Rack mount fiber patch panel, as a cabling solution, can manage cables easily and connect the cabling distribution areas. This helps pave a way for a neat optical network approach. Often times, it’s used for connecting and disconnecting equipment. Therefore, a rack mount fiber patch panel is the key component for uptime, speed, performance and so on. In addition, with lots of ports in close proximity of the patch panel, cables here can be routed, labeled and monitored, offering a convenient routing option for IT staff.

Cabling Solution Works With Fiber Patch Panels  

It’s no doubt that each successful project needs adequate preparation. So once you decide to set up a structured cabling system, it’s time to get right cabling component. Now, here are cabling solution tools offered by FS.COM for your reference.

1U rack mount fiber enclosure is designed with 1.55 SPCC steel rack and can hold up to 4 fiber adapter panels (FAPs) and MTP cassettes, allowing for 96 fiber cables installation with simple plug-n-play design.

FHU 1U 24 port patch panel serves as standard 1U 19 inches rack with high quality steel adapter. It’s ultra high density but with the correct spacing between the insert parts, for easy deployment. It can connect 96 fiber cables.

1U lacer panel and lacing bar provide multiple choices for your application by being separated into patch panel, d-rings, lacer panel and lacer bar. Together with FHD adapter panels and patch cords, it can make the end-to-end solution.

Installation Steps of 1U Rack Mount Fiber Patch Panel Cabling Solution

After preparing the tools, we should start to install. Cable installation can be a finicky thing. Therefore, to avoid potential network errors and reduce costly mistakes, here are steps for your reference.

• Install 1U rack mount fiber enclosure. Place the mounting brackets at the desired position on the rack. Insert pre-terminated fiber optic cassettes into the enclosure as shown. Once mounted, fully seat fasteners to secure the cassettes.
• Install FHU 1U 24 port patch panel. According to the video, first remove the front panel of the rack mount fiber enclosure, then mount FHU 1U adapter panel onto it. Tighten the screws to make sure it has been installed safely. At last, mount the tool on the rack.
• Install 1U lacer panel and lacing bar. Use screws to fix the tools on the rack, placing the 1U metal lacer panel in front and put the lacer bar at the back. Then place the adapters on the lacer panel.

Finally, plug the fiber cables you need, and use zip ties to fasten the cables. A structured cabling system is completed. If installed properly, one system will last at 10 years and support 2 or 3 generations of fiber equipment.

Conclusion

1U rack mount fiber patch panel cabling solution is easy to install, which can actually manage the cables in an organized way. FS.COM offers a variety of patch panels with good quality to help your network achieve optimum performance. We are always focusing on providing products with superior performance and better services for our customers.

As we know, with the development of technology and the improvement of the computing capacity of hardware, people’s requirements for better network is growing higher and higher. However, as men pursue the goals of high density and capacity in a network, cable management may get out of control. High density fiber optic enclosures are the key to achieving a high density and economical cable solution. FS.COM provides a series of FHD fiber patch panel to help technicians to make up a better data center. Today, we will introduce this type, 1U FHD rack mount enclosure.

What Is Rack Unit?

Some people may not aware of what the “1U” actually means. U is short for rack unit, which is created by Electronic Industries Alliance. It’s used for measuring the height of a computer or network device and designed to fit into a standard of 19 or 23 rack. One U equals 1.75 inches(44.45mm). Rack equipment or hardware takes the design of rack mounted, and is produced in multiples of 1.75 inches, like 1U, 2U or 4U. Racks are able to hold devices of those sizes.

FHD Rack Mount Enclosure

FHD rack mount enclosure is designed in 1U, 2U 4U sizes with high density, which can store, organize and manage fiber terminations, connections, and patching in all applications. Due to the different designs of rack units, the various rack mount enclosures hold different amount of fiber cables. For example, 1U FHD fiber enclosure can connect as many as 96 fiber cables, while the most connectivity of 2U FHD product is 192 and the 4U is 288. Usually, rack mount enclosure is mounted onto 19" and 23" standard relay racks. There are two kinds of rack mount enclosure, one is the slide-out type and the other contains a removable cover.

Features of FHD Rack Mount Enclosure

FHD rack mount enclosure can hold a panel enclosure and modular HD cassette, which allows users to integrate devices of 10Gb, 40Gb or even 100Gb speed seamlessly and easily. Compared with the standard enclosure, the product 1U rack mount HD enclosure uses the double spring latches. This new type of symmetrical door latch can divide force evenly when open the door. The acrylic door has been re-thickened that will provide top protection for the entire enclosure. In addition, in order to make it easy of assembling and dissembling the drawer by the buckle, this product takes more stable slide rail. It employs the black powder coated SPCC rugged heavy-duty steel housing, which contributes to enhancing the service life and preventing housing scratches and rust. With the increased port density in 1U of rack space, the FHD rack mount enclosure supports up to 96 fiber cables. And this allows technicians to increase density and upgrade technology without changing the existing equipment. With a wonderful design and proper size, 1U FHD rack mount enclosure provides a modular system for managing fiber connection.

Conclusion

FHD rack mount enclosure offers an efficient and reliable solution of high density interconnects and cross-connects. FS.COM is dedicated to providing global customers with the outstanding, standards-compliant products and services.