When it comes to using Ethernet cables to build any connection, whether for a home or office, selecting a quality network cable is a confusing job as all wires are not the same. Cat5e, Cat6 or Cat7, which Ethernet cable type should you choose? To work this out, here is what you need to know.
Different Speeds of Ethernet Cable Type
Ethernet cable type has been evolving since the beginning of the Ethernet standard in 1985. Many different Ethernet cable types have been developed, such as Cat5e Ethernet cable, Cat7, etc. They look very similar from the outside, and any of them can be plugged into an Ethernet port, allowing users to have Internet access or interact with shared network resources. However, they are designed with different transmission speeds. The following table lists the different speeds of the Ethernet cable type.
As it can be seen that, as the number of Ethernet cable type gets higher, so does the speed and bandwidth. Cat5e works for 1000Mbps (Gigabit) Ethernet, and it has become the most widely used category on the market. Cat6 Ethernet cable has been improved, including better insulation and thinner wires, which is full-on certified to handle Gigabit speeds. And Cat6 cable is also suitable for 10G uses. Cat6a Ethernet cable is the enhanced version of Cat6, it can support 10Gbps transmission with a higher bandwidth of 500MHz. Cat7 cable is up to 10Gbps, which is more suitable for data centres’ applications. The latest technology Cat8 can be up to 25/40Gbps. It’s more appropriate for professional and commercial installation such as industrial situations or data centres.
Different Designs of Ethernet cable type
Knowing different speeds of Ethernet cable types is not enough when you decide to buy cables, here are another two aspects that also need to be considered.
UTP vs STP
Because all Ethernet cables are twisted, producers use shielding to further protect the cable from interference. This is the direct difference between UTP (unshielded twisted pair) and STP (shielded twisted pair). STP cable is designed to reduce the effect of EMI (electro-magnetic interference). These cables are generally used in places like airports, medical centres or factories. While UTP cables are often installed for home or office uses.
Solid vs Stranded
Solid and stranded Ethernet cables refer to the actual copper conductor in the pairs. Solid cables use a single piece of copper for the electrical conductor, and stranded cables use a series of copper cables twisted together. Solid cables are more durable, which are most often used in permanent installations, with wiring the inside office walls or under floors. On the other hand, stranded Ethernet cables are more flexible and should be used at your desk or anywhere you may be moving the cable around often.
Conclusion
Before setting up an Internet connection, it’s wise to know the different speeds and designs of the various Ethernet cable types. And choose one Ethernet cable type based on your own network need. No matter what your networking needs are, FS is sure to have the suitable category and length Ethernet cables for your connections.
SFP ports and RJ45 ports are the most common interfaces which are used in Gigabit Ethernet applications. And we complete the fiber to Ethernet or Ethernet to fiber conversion via these ports. How much do you know about SFP ports and RJ45 ports? And do you know how to convert SFP to Ethernet? This article will explain these questions.
What Are SFP Ports?
SFP ports are the input and output interfaces that are able to be hot-pluggable. They are seen in network switches or network interface cards. And SFP port is capable of working with the standards of 1000BASE-SX, 1000BASE-LX/LH, 1000BASE-ZX or 1000BASE- BX10-D/U.
At present, network switches are usually designed with two or more SFP ports, which comply with IEEE 802.3ab standard. Note that in all cases, the SFP transceiver module must be inserted then the SFP ports can work. The ports make it possible for Gigabit switches to connect to the fiber and copper cables, converting SFP to Ethernet or Ethernet to SFP and completing the switching function.
What Are RJ45 Ports?
RJ45 port, which stands for registered jack 45, is the ubiquitous Ethernet style data port seen on switches, routers and network cards, following the 1000BASE-T Ethernet standard. It only supports RJ45 cables like CAT5e, Cat6 with the transmission speed of 1Gbit/s. By far, the most common use of RJ45 port is with Ethernet data connections from computers network cards, wireless access points, network switches and routers in home and enterprises networks. RJ45 ports on a data switch use the built-in design. Connecting two RJ45 copper switches, we just need a Cat5e or Cat6 copper cables. But if we want to convert Ethernet to SFP, an RJ45 SFP transceiver is required.
FS Solutions to Convert SFP to Ethernet
From the above, we have a good understanding of SFP ports and RJ45 ports. They are the interfaces for converting SFP to Ethernet or Ethernet to SFP. But how? Here FS provides two solutions for you.
Solution 1: Using SFP Transceiver Module
As we have mentioned above, the network switches on the market are generally equipped with SFP ports. Thus, under this circumstance, we can use SFP modules to complete the interconnections between switches or servers. Insert the Ethernet SFP module into the network switches, then plug one end of Cat5e or Cat6 cables into the transceivers and the other end is connected with other terminal devices. This figure shows how we can use SFP transceiver for our conversion need.
We can see this is a full solution, covering the following equipment.
Sequence Number
Product ID
Description
①
11773
Cisco GLC-T Compatible 1000BASE-T SFP Copper RJ-45 100m
②
70595
3ft (0.9m) Cat6 Snagless Unshielded (UTP) PVC CM Ethernet Network Patch Cable with Transparent Sheath, Blue
S5800-48F4S (48*1GE+4*10GE) High Performance Data Center Switch
⑥
20057
Generic Compatible 1000BASE-T SFP Copper RJ-45 100m
Solution 2: Using Ethernet Media Converters
If your switch doesn’t have SFP ports, then you need an Ethernet media converter. It’s a device used to interconnect fiber and copper cables to facilitate communication between them. This device looks like a small box where fiber and copper cables could be plugged in. Here is the SFP to Ethernet converter from FS.COM. It has one RJ45 port and one SFP port. And the mini converter can support 1000Base-X to 10/100/1000Base-T UTP convention. Designed with compact package size, it’s a reliable plug and play converter. Therefore, just plug the fiber and copper cables into the slots and connect the other ends of cables to the terminal devices, ensuring the whole network works properly.
Conclusion
Using SFP transceiver module or Ethernet media converter can help us convert SFP to Ethernet, which can better expand network function. FS.COM offers an extensive choice of full SFP to Ethernet or Ethernet to SFP solutions. Choose FS.COM for the right product to meet your conversion project needs.
Today, our lives hardly do without Internet communication. We do shopping, letter writing and business all relying on the Ethernet connections both at home and office. And Gigabit Ethernet switch and splitter are the networking devices that are primarily used for connecting different computers or other networking devices. However, they are quite different. Here focus on Ethernet switch vs splitter.
Ethernet Switch vs Splitter: What Are They?
First, let’s figure out the definitions of the two terms.
What Is Ethernet Switch?
An Ethernet switch is a high speed networking device that provides more ports for subnets to connect more computers, printers, cameras and so on in a building or campus. Through the ports, the data switch can receive incoming data packets and redirects the data to their intended destination within a LAN. Usually, an Ethernet switch not only works at the data link layer which is also called layer 2, but also can operate at the network layer (layer 3) or above.
What Is Splitter?
A network splitter acts as the optical power distribution device, like a coaxial cable transmission system. It’s one of the most important passive devices which means it doesn’t need external power except for light. As the name implies that it can split a single Internet connection to create extra connections, as a result the additional or other computers on a network could be connected.
Ethernet Switch vs Splitter: What Are the Differences?
Ethernet switch can be used for networks that include different devices, for example, a computer and a video game console or a printer. In addition, general switch needs a power input so that it can divide an Ethernet signal into various signals, and the signals can operate at the same time. As a result, different devices can be connected by the switch and work simultaneously.
As for Ethernet splitter, there is no need for power input. And splitters need to be used in pairs. It physically splits a single Ethernet connection into two connections. Simply put, if you want to connect two computers in one room and a switch in another room, then you need the splitters. Instead of using two Ethernet cables from one room to another, the splitters can physically split one Ethernet cable into two to connect the computers and the switch. This is the main principle for the issue that how to use Ethernet splitter.
Ethernet Switch vs Splitter: Where to buy?
The following products of Ethernet splitter vs switch are from FS.COM.
S5800-48F4S Switch
This is a 10gb Ethernet switch that has 48×1GbE SFP ports and 4×10GbE SFP+ ports. With a switching capacity of 176Gbps, it supports comprehensive L2 and L3 network management features. The switch offers MLAG, MPLS, IPv4/IPv6, SNMP etc. Designed with the max power draw of 75W and switching capacity of 176Gbps, this switch is ideal for traditional or fully virtualized data center.
Figure 1: S5800-48F4S Switch
Conclusion
As for Ethernet switch vs splitter, we have known how do Ethernet splitters work and how do switch work. Both of them can optimize our network that allow us to work in an efficient and high secure way. Welcome to visit FS.COM to pick your own Ethernet switch and splitter.
The continuous development of IT and communication equipment has made computers or storage devices an entirely new look. Server rack cabinet also has evolved. In the network industry, a set of standards has been published successively in order to provide a criterion of racking and mounting size for users. Today, in data center of server room, there are various types of computing or networking equipment installed in wall mount server rack or ground standing type. But for home use, we need a home server rack to build our own home server. Here we’ll focus on cheap server rack for home.
Why We Need Cheap Server Rack for Home
As we know, server rack is a cost-effective solution and is important to one’s business. Because it provides a space for vital equipment like fiber optic patch panel that is crucial to the survival of your organization. However, for home use, what is the exact reason.
First, with the technology develops, our homes also become smarter, more and more families consider to use a home server rack to build a more secure and storage network for the IoT in the home. Therefore, they can manage the electronic equipment more efficiently.
Second, people like professional gamers, videographers, designers and others who require substantial processing power want a home server rack to set up a home network for information transmission at a higher and safer path.
How to Choose Cheap Server Rack for Home
Here are some suggestions for choosing a cheap server rack for home.
Size. Traditional server racks are just with large metal frames like server rack 42U type. That’s fine in a professional environment. Unlike the data center or server room, server rack for home don’t need such large type. Small server rack like 9U—24U is preferred for home use.
Price. Price is always an important factor when buying anything. Luckily, due to the small design, home server racks are much cheaper than the ones in a large data center. But for the people who want a small server rack just for studying or hobby but don’t have enough money, then a used server rack is the right one for them.
Where to Buy a Cheap Server Rack for Home
Finding the right home server rack for building a home server, from reliable quality to the right price may be tricky. Here, FS.COM is the reputable source to buy a home server rack. Because not all installation sites at home are enough, so I recommend you a wall mount server rack.
Figure: Home Server Rack
This 9U wall mount network rack lets you mount your equipment of 19 inch to the wall, in a secure enclosure. It supports 4 post mounting and is designed with a vented glass front door. Made of high quality SPCC cold roll steel material with black coated, it can support a total load capacity of up to 60kg. This wall mount rack makes it easy to install your equipment such as 24 port patch panel or a server rack shelf.
Conclusion
I think the above article will help to choose a cheap server rack for home so as to build your own home server. At FS.COM, you can find lots of different types of server racks. If you need help with picking, welcome to contact us via support@fs.com.
This is sometimes annoying that the video stops when we are catching up on the most recent You Tube video, or there’s no signal in the kitchen when we want to watch the cooking video. The poor wireless signal is really a headache since people’s life has relied heavily on WiFi today. How will you fix this? Welcome to the new network solution—mesh router systems. Simply put, it consists of several small routers that communicate with each other to provide a seamless wireless network in your house. This is the reason that encourages you switch from a wireless router to a mesh network. So what is a mesh network?
What Is a Mesh Network
Wiki says a mesh network is a local network topology in which the infrastructure nodes (like data switch or bridges ) connect directly and non-hierarchically, in order to efficiently route data to the end users via the nodes. This network enables the network devices that can provide connectivity capabilities like bluetooth or wifi to form a node one after another. Then a dynamic route is formed between each device and the others, and as a result the data can be delivered within the mesh network. When a node in the network topology fails, other nodes that connect with this one will also fail. But luckily, the whole network will still work, because only one connection point is broken which will not affect the other connections. Thus, we often regard the wireless mesh network as a decentralized information network.
Figure: Example of Mesh Network
Benefits of Using a Mesh Network
What is a mesh network, after figuring out this question, let’s turn to the benefits of a mesh network. Compared with the ordinary Internet which is built on a few centralized access points or Internet Service Providers, mesh network enjoys many benefits.
Extremely Reliable and Expandable
The most striking feature of a mesh network is the construction. This means users can add the wireless router in the specified places, thus they can build a new broadband access network just by the existing facilities. It’s convenient to add or remove the wifi mesh nodes. In addition to expand the wifi range, the wifi mesh network can help one’s electronic devices connect the strongest wifi signal automatically when you walk around the room.
Support High Demand
In the above part what is a mesh network, we know each additional device in a mesh network is regarded as a node, the mesh topology can support high amount of network traffic. Thus, interconnected devices can send data smoothly.
Less Expensive
Traditional networks rely on multiple equipment such as Gigabit Ethernet switch or transceivers to connect users, while mesh network uses the wireless mesh nodes to spread data. Using fewer equipment means it costs less to build a network. A general 10 Gigabit switch will cost you about 2000 dollars, not mention the high-end switches or other network equipment. Also, using a mesh network will help to eliminate the complexity of cables installations.
How to Create a Mesh Network
It’s not enough to learn what is a mesh network and its benefits, we also need to know how to create a mesh network. At present, the main method of wireless access is to set up wifi in the hotspots places. In order to enable wireless access throughout the whole city, technicians have to create network access points as many as possible by numbers of cables or fiber optic cables. Unlike the normal wireless Internet, to form a mesh network, technicians only need to connect one node to a network such as Internet modem or router. Then the connected node will share its Internet connection with the other nodes within its range. Then one after another, more nodes are connected and a bigger mesh network is created.
Conclusion
As for the question what is a mesh network, I believe now you have a clear understanding. A mesh network has a greater range and is much faster and stronger than the normal wifi network. Any question about mesh network, please contact us via our website FS.COM.
Undoubtedly, patch panels have become an important component in cabling system, since technological advances open the door to a new generation of more efficient and higher performance data centers. According to different ports, patch panels are commonly divided into 24 port patch panel, 48 port patch panel, 96 port patch panel and even more ports. And all the patch panels can provide a simple, neat and easily managed solution for IT technicians. Today, we’ll focus on 24 port patch panel buying guide.
Why We Use 24 Port Patch Panel
As we know, using a patch panel can enjoy many benefits. It can reduce cable congestion, improve flexibility and scalability and save the valuable space in a sever rack. These contribute to the simplification of manual monitoring, testing, routing and other maintenance on cables. Besides, the 24 port patch panel price is more favorable than other patch panel types. And designed in the same size, the ports distances of 24 port type is not as compact as the 48 port or 96 port ones, which is better for cable connections and cable cooling. This encourages people to choose 24 port type instead of the others.
24 Port Patch Panel: Copper or Fiber
As the backbone of a structured cabling solution, patch panels are available in copper and fiber versions. They are designed to connect different cables. Copper patch panel are used to connect the specific cables like Cat5, Cat5e or Cat6, while fiber patch panel is only applicable for single mode or multimode fiber cables with LC, SC connectors. Thus, before we buy 24 port patch panel, we must know what type of cables that used in our network.
24 Port Patch Panel Recommendation
FS.COM offers a wide variety of 24 port patch panel to help address your specific needs.
24 Port Patch Panel Cat5e
This 1U 24 port patch panel Cat5e features RJ45 couplers on both sides of each panel. It uses the removable design of the rear cable manager, which is conducive to uninstall and install. Also, it adopts the design of self-contained cable management tool, and no extra cable management equipment is needed. This Cat5e patch panel is made of SPCC+ABS materials with an operating temperature from -25℃ to 70℃.
Figure 1: 1U 24 Port Patch Panel Cat5e
24 Port SC Fiber Patch Panel
This fiber patch panel is applied to connect OS2, OM3 and OM4 fiber cables. Its sleeve material is ceramic, and its color-coded couplers will facilitate quick cable type identifications and permit more accessibility during troubleshooting, installation or redeployment.
Figure 2: 24 Port SC Fiber Patch Panel
24 Port Blank Keystone Patch Panel
The 24 port blank keystone patch panel is an ideal tool to manage all copper cables like Cat6 or Cat5e, so you can customize your patch panel and create a perfect mix connection based on your specific applications. The lacing bar with sequential port labels integrated into the panel provides easy identification of multiple types of cables, which can manage cables more efficiently. Designed with the SPCC + ABS plastics, the material is stamped and formed to create a rigid and durable surface capable of withstanding the forces generated while punching down cables to the panel.
Figure 3: 24 Port Blank Keystone Patch Panel
Conclusion
From the above, I suggest if you need to connect copper cables such as Cat5e or Cat6 then choose the 24 port patch panel Cat5e or 24 port patch panel Cat6 type. If your cables are fiber cables, 24 port fiber patch panel is suitable for you. If you want to make the mixed connections, 24 port blank keystone patch panel is the best choice. So if you are ready to buy 24 port patch panel, please don’t be hesitate to visit FS.COM which is a supplier that offers a comprehensive range of patch panels designed to address a variety of needs.
SDN and NFV that have emerged in recent years, are the most aggressive technology in the networking industry. SDN NFV are born to provide new ways to design, build and operate networks. What is SDN? What is NFV? SDN vs NFV, what’s the difference? Here talks about SDN and NFV.
Figure 1: SDN and NFV
SDN vs NFV—Definition
What Is SDN
SDN, software defined networking, started from the campus network. It developed to solve the network issue that people had to change the software of their devices when they tried to deploy a new protocol. SDN is a telecommunic ation revolution that separates the control plane of a network from the data plane that forwards one’s network traffic, aiming at creating a centrally managed and programmable network. As an innovative architecture of new network, it provides a way to implement network virtualization.
What Is NFV
NFV, network function virtualization, is developed by dozens of large telecommunication service providers. Often times, it’s difficult for them to accelerate the implement of new network services due to the restrictions of hardware-based appliances. Thus, the goal of NFV is to virtualize the network services such as DNS, caching, etc., and abstract them from the hardware on which they run, and hence they can run in software. NFV is a disruptive technological reform that offers a more open and flexible service deployment for telecom operators’ network architecture.
SDN vs NFV—Difference
From the above, we know SDN and NFV rely on virtualization so that the network design and infrastructure can be abstracted in software. But do you know the difference of SDN vs NFV?
Figure 2: SDN vs NFV
Basically, SDN abstracts physical devices like data switch or router and makes the controller process to a virtual network control plane. In this way, the virtual control plane will decide the locations for sending traffic. By contrast, NFV is designed to use the standard x86 server to replace the dedicated network devices like the firewall. As a result, the network function is independent from the dedicated devices, which enables the network to develop without extra devices. The table below shows the differences between SDN and NFV.
SDN vs NFV—Future Outlook
Since SDN and NFV share the same aims that improve software-based approaches to create more flexible, scalable and perfect networks to support the increasing business demand, they have become popular in the network industry. And there’s no doubt that SDN and NFV will work together with traditional switches or some other optical equipment in the future. To follow the technological trend, FS.COM has developed SDN switches to satisfy customers’ various needs.
The N5850-48S6Q SDN switch offers 48 SFP+ 10GbE ports and 6 QSFP+ 40GbE ports that support non-blocking exchange. It adopts 1.44Tbps full-duplex switch capability with the operating system of broadcom ICOS, creating a more open installation environment for users. Compared with the traditional switch, this SDN switch separates the data path from the control path, which helps to make a high-level routing decision.
Figure 3: SDN Switch
Conclusion
As regard to SDN vs NFV, we have learned the basic information of them. Also, we recognize that SDN and NFV will make a difference in the future. FS.COM, the supplier of switches such as 10gb switch, 40GbE switch and even 100GbE switch, will keep pace with the innovations of network world.
LAN is widely used in the network to allow computers to connect with different computers of one limited area like a school, factory or building. While VLAN is functioned as a tool to improve Ethernet scalability. Yet, with regard to VLAN vs LAN, what’s the relationship between them and is there any differences? Hope you can find the answers in this article.
VLAN vs LAN—Definition
What Is LAN
LAN is short for local area network, which can connect multiple computers in one location for sending data among themselves. It can be comprised of two computers in an office or thousands in a company, sharing a network that is closed to outside use. Today, LAN is defined as a single broadcast domain. This means within this LAN, if one broadcasts message, all the others can receive it. Also, functions like file management, printer sharing and working group scheduling can be realized by LAN, which will help to improve working efficiency.
Figure 1: LAN Example
What Is VLAN
As the name implies, VLAN, or virtual LAN, is a type of LAN which improves the capability of a flat LAN. VLAN is the logical separation of LAN that can create several LAN segments in one bandwidth regardless of devices’ physical locations. Thus, technicians can use a fiber switch to segment a LAN into different broadcast domains (VLANs). Because the separations are logical ones, users on different floors of one building or different buildings now can share the same LAN.
Figure 2: VLAN Example
VLAN vs LAN—Differences
Basically, the need of implementing VLAN is to segment the network, which determines the differences when VLAN vs LAN. Initially, physical LANs mean that all working computers were connected to the same cable or sets of chained hubs. It’s a typically flat LAN. But with the technology develops, the demand of working computers on the LAN also grows. When one user wants to deliver a packet, he may find that the wire is already occupied by others’ packet. To solve this problem, the LAN should be split to eliminate the congestion and load. Only use Gigabit Ethernet switch or bridge can create VLANs. Since they’re logical separations, they can reduce the packet traffic. With a VLAN, it’s possible that working computers connect together on the same physical LAN but unable to communicate directly. The following table shows clearly the differences between VLAN and LAN.
Segment LAN into VLANs
Knowing the differences between VLAN and LAN, we know how VLAN and LAN work. As switches are available, FS.COM offers 1GbE switch, 10GbE switch, 40GbE switch and 100GbE switch that support VLAN to optimize your network experience. Here is one S3800-24F4S 24-port Gigabit stackable SFP managed switch for your reference.
This is a layer2+ switch that supports 4 switches stack, 96 Gigabit ports and 8 10G SFP+ ports. The Gigabit Ethernet switch provides a switching capacity of 128Gbps and 4K VLANs. It adopts ARM CPU, a high performance and low power consumption processor, which can meet the needs of 10G network deployment of all enterprises and network operations. In addition, the switch has a good compatibility with all SFP transceivers on the market.
As regard to VLAN vs LAN, it’s’ important to know the differences between them. Then we can use network switches to segment LANs into VLANs to optimize our network. Hope FS.COM will be the best choice when you decide to buy network switches.
1U rack mount patch panel is generally used within a server rack, unlike the wall mount patch panel that is fixed on the wall. Facing the trends like high density servers and converged infrastructure that has result in amounts of cables in the server racks, rack mount patch panel is the perfect way to solve poor cable management at the source. Now I bet you come here because you have to choose one rack mount patch panel of some sort, but don’t know exactly how. Don’t worry, let’s start at the beginning. Before buying it, we should know why we need the rack mount patch panel.
Why Do We Need 1U Rack Mount Patch Panel
The main reason is that 1U rack mount patch panels have close relationship with cable performance. 1U rack mount patch panel as one tool of 1U cable management is the primary factor in maintaining high circuit performance during cable installation and use. It makes all cables connections in order so as to avoid cables becoming tangled and messy, and all changes can be made at the patch panel. Also, with all connections are made on the equipment, rack mount patch panel can save wear and tear on the ports of expensive equipment like switches, which helps reduce equipment cost.
Factors We Should Consider When Buying 1U Rack Mount Patch Panel
Rack mount patch panel seems a simple product, but there are still some aspects make you wonder. The following are the aspects that should be considered when you shopping one 1U rack mount patch panel.
Space and port requirement. Before buying a rack mount enclosure, first determine your requirements of space and ports because patch panels are available in different sizes and types. For standardization purposes, rack mounts are usually 19 inches and given in U units range from 1U to 4U. Make sure you know the height, depth, width and weight of the equipment.
Budget. Money always is the unavoidable issue. Establish a budget for the equipment, then you can narrow the buying scope and make the final selection.
How to Choose 1U Rack Mount Patch Panel
FS.COM offers different versions of 1U rack mount patch panel to meet customers’ needs. Here are three products and pick one based on your need.
1U Rack Mount Fiber Enclosure
This rack mount equipment is made of SPCC material with black coating. It can accept 4 fiber adapter panels of LC, SC ports or 4 MTP modular cassettes, which can connect 96 fibers. The top panel uses the demountable design that allows you to put 4 splice trays or 2 slack spools to manage and protect your cables. The equipment is suitable for small or medium communication room with a favorable price of 68 dollars.
1U Rack Mount High Density Fiber Enclosure
Like the former 1U rack mount equipment, this fiber enclosure uses the same material and also can hold 4 fiber adapters or MTP cassettes, connecting 96 fibers at most. But this high density device adopts a new design of parallel sliding drawer that pulls the drawer out you can manage the cables inside the device, instead of removing the top panel. Another creative design is the semi-transparent design of front door, which makes it more convenient to check the inside cables and protect the cables from the dust. It’s an ideal solution for high density cabling with a price of 89 dollars.
1U Rack Mount Ultra High Density Fiber Enclosure
Featured with 3 independently sliding drawers, this ultra high density equipment can house 12 MTP cassettes or fiber adapter panels. Thus, with the 50% increase in usable density, it can connect 144 fibers in 1U server rack. And the open design of the back can improve the airflow which is beneficial to equipment cooling. This equipment enjoys a higher price of 120 dollars for it’s designed to satisfy the most extreme fiber density demands.
The following table is the comparison of the three products.
1U Rack Mount Fiber Enclosure
1U Rack Mount High Density Fiber Enclosure
1U Rack Mount Ultra High Density Fiber Enclosure
Sliding Version
No
One sliding drawer
Three sliding drawers
Material
SPCC
SPCC
Aluminum
Fiber Count
96
96
144
Price (USD)
$68
$89
$120
Summary
If you want to buy a rack mount patch panel with good quality at low price, the 1U rack mount fiber enclosure can satisfy your need. If you prefer to protect cables from dust, the second product is suitable for you. And if you have to deal with ultra high density fibers, choose the last product. Whether you are ready to buy a rack mount patch panel, FS.COM is here to help. Get in touch with us via our website FS.COM.
1U horizontal cable manager is the ideal solution to manage cables on the front and rear of each 19 inch server rack. Because with the emergence of high density rack-based IT server installation, data communication and cabling that must be processed within the tight rack space. Horizontal cable manager is regarded as the horizontal cable organizer, which can avoid cable damage and failure, ensuring the network operation.
Why Do We Need 1U Horizontal Cable Manager
1U horizontal cable manager is one tool of cable management that matter the whole network system health. It offers a neat and simple way to manage the cables, and simplifies network maintenance and costs. This is the main reason that makes it popular in the data center.
For the technicians who want a clean and orderly work area, they can make the cables go through the 1U horizontal cable manager, creating a clean look for the rack.
For the technicians who have a desire for easy maintenance and low costs, the cable manager can help them protect the cables radius bend and reduce the wear and tear, which decrease the cables expenses in some sense. Besides, it provides easier access to internal rack components, performing easy move, adds and changes to connections, which can greatly save time and money.
How to Select 1U Horizontal Cable Manager
FS.COM offers some styles of 1U horizontal cable management tools with different options of cable support. Choose the appropriate cable management device based on your actual needs.
1U Horizontal Cable Manager With End Rings
This cable manager uses a sturdy SPCC metal construction with a max cable capacity of 70. Due to the design of four D-type rings on the panel and two rings on both sides, it can manage vertical and horizontal cabling at the same time. In addition, the rings can provide cable strain relief for more reliable connections.
1U Single Sided Horizontal Cable Manager With Finger Duct
It’s a solid little cable manager with flexible fingers on the front, which can offer a proper bend radius protection. Although the manager is made primarily from plastic material, it’s extremely tough and has excellent wear resistance. The max cable capacity of this single sided horizontal cable manager is 44. Furthermore, there is a detachable cover on the fingers that can protect the cables from the dust and give you a more professional rack looking.
1U Blank Rack Mount Fiber Patch Panel With Cable Management Panel and Lacing Bar
It has five rings stand vertically on the front panel. The lacing bar is dismountable that allows users to put it on the front or back of a server rack according to their cable management demand. With the black metal design, it tends to be highly durable which reduces the equipment spending.
If you want to house the vertical and horizontal cables simultaneously, 1U horizontal cable manager with end rings is an economical choice. If you are in favor of a dustless environment, 1U single sided horizontal cable manager with finger duct can satisfy your requirement. If you want a more flexible cable solution, then choose 1U blank rack mount fiber patch panel with cable management panel and lacing bar.
Manage cables in the server rack with FS.COM 1U horizontal cable manager. These cable management devices are made from the highest quality materials to provide an unique method for the cross connect.