Shielded vs Unshielded Ethernet Cable: Which Should You Use?

Ethernet cables are classified into sequentially numbered categories (e.g. Cat6, Cat7) according to different specifications. And these categories are how we can easily know what type of cable we need for specific transmission speed, Cat5e Ethernet cable supports up to 1000Mbps, while the latest category Cat8 Ethernet cable can be up to 25/40Gbps. But as for shielded vs unshielded Ethernet cable, how to choose? To find this out, make sure you know the basic information and differences between the two types.

Shielded vs Unshielded Ethernet Cable: Basic Information

A shielded cable or shield twisted pair (STP) cable has an outside layer or “shield” of conductive material around the internal conductors, which needs to be grounded to cancel the effect of electromagnetic interference (EMI). The conductive shield can reflect or conduct external interference away without affecting the signals of the internal conductor. Therefore, shielded Ethernet cables are usually used to protect signals from EMI over the length of the cable run, so as to result in faster transmission speeds and fewer data errors.

Unshielded means no additional shielding like meshes or aluminum foil are used. Because of this, unshielded Ethernet cables, also called unshielded twisted pair (UTP) cable are lighter and cheaper. These Ethernet cables are designed to cancel EMI with the way the pairs are twisted inside the cables. Compared with the shielded cables, unshielded cables provide much less protection. These cables performances are often degraded when EMI is present.

Shielded vs Unshielded Ethernet Cable

This is a figure of Cat6 shielded and unshielded cable.

Shielded vs Unshielded Ethernet Cable: Difference

Different applications

The typical difference between the two types lies in the application. Because of the shielding material design, STP and UTP cable will result in different performance. For example, Cat6 shielded and unshielded cable can be up to 10Gbps speed. However, in some cases such as the radio or airports stations, Cat6 UTP cable will experience slower speed and more data transmission errors may be caused when they are close to the machines or other electronics that produce high EMI. But with the additional shielded safeguard, Cat6 STP cable can provide some protection from EMI, performing better than the UTP one. Therefore, STP cables are the best choice for the environments where there is a high chance of electronic interference, while UTP is most suitable for office or home LANs.

Different grounding methods

In addition, due to the different designs, their cabling grounding methods are different. UTP cables don’t rely on grounding to the same extent as STP cabling. This will decrease the installation time and cost. However, STP needs a more robust grounding and bonding process. And note that the wrong grounded shield actually can worsen crosstalk and electromagnetic interference.

Which Should I Choose?

As for shielded vs unshielded Ethernet cable, the best choice should largely depend on where you plan to install the cables. As mentioned above, STP and UTP cables are widely used in different fields due to EMI interference requirement. Airports, medical centres and factories often benefit from STP cabling, because these places need to process numerous machines that produce considerable amounts of interference. On the other hand, for home and office use, it’s wise to choose UTP cables.

Besides, the budget is another factor which may determine the final decision. It’s believed that STP cost much more than UTP since it can provide better protection from EMI. It’s true, but the gap is narrow. For instance, Cat6 Ethernet cable at FS, the Cat6 UTP of 10ft length costs 2.6 dollars while Cat6 shield cable with the same length needs 3.6 dollars, there is only a very small gap, which may be significant for large scale installations, but not for small networks.

Therefore, as for shielded vs unshielded Ethernet cable, it should be determined by the intended application. If you’re still not sure what type of cabling you need, please contact us via sales@fs.com for expert advice.

Will Different Ethernet Cable Speed Affect My Network?

Ethernet cables are the default physical connection for today’s home or business networks. People always want to buy a high speed Ethernet cable to enjoy a high speed network transmission. However, will different Ethernet cable speed actually affect your networks? Here, we’ll discuss the speeds of the most popular Ethernet cables categories (Cat5, Cat5e, Cat6, Cat6a, Cat7 and the newest Cat8), to help you make a wise choice.

Ethernet Cable Speed of Different Categories

The following is the overview of Ethernet cable speed of Cat5, Cat5e, Cat6, Cat6a, Cat7 and Cat8.

Cat5 Ethernet Cable Speed: 10/100Mbps for 100m

Cat5 Ethernet cable is the oldest type of these cables. It can support either 10Mbps or 100Mbps speed with a bandwidth of up to 100MHz, which was the first Fast Ethernet-capable to be introduced. However, with technology develops, this old-fashioned cable is no longer a recognized standard, that it’s hard to find it in today’s stores.

Cat5e Ethernet Cable Speed: 1000Mbps for 100m

Cat5e is an enhanced version of Cat5 cable. This Ethernet cable speed is up to 1000Mbps or “Gigabit” speed. In theory, it could be ten times faster than Cat5. Besides, it decreases crosstalk that happens between two wires inside a cable. Cat5e Ethernet cable is the most widely used category on the market.

Cat6 Ethernet Cable Speed: 1000Mbps for 100m and 10Gbps for 55m

Cat6 is certified to handle Gigabit speed with a bandwidth of up 250MHz. And it can be capable of 10Gbps speed under ideal circumstances. Cat6 Ethernet cable has some improvements like the better insulation and thinner wires, providing a higher signal-to-noise ratio. Thus, it’s quite suited for environments with higher electromagnetic interference. Note that, Cat6 Ethernet cable is provided with two forms, shielded twisted pair (STP) and unshielded twisted pair (UTP).

Cat6a Ethernet Cable Speed: 10Gbps for 100m

Cat6a Ethernet cable allows 10Gbps data transmission rate with the bandwidth of up to 500MHz. Its transmission can achieve to 100 metres, which is longer than the 37-55 metres of Cat6 cable. Cat6a is usually available in STP form. This cable is ideal for industrial situation, but lack flexibility that is often needed for a residential deployment.

Cat7 Ethernet Cable Speed: 10Gbps for 100m

Ethernet cable speed of Cat7 can reach to 10Gbps with a bandwidth of up to 600MHz. It consists of a screened, shield twisted pair of wires, which completely eliminates alien crosstalk. It’s more suited to data centres than home use.

Cat8 Ethernet Cable Speed: 40Gbps for 20m

Cat8 is capable of supporting bandwidth of up to 2000MHz. This Ethernet cable speed can be up to 25/40Gbps. It’s the fastest Ethernet cable, which is not intended for office environments, but suitable for connecting equipment in data centres such as connecting server to switch.
For better reference, the following table lists the Ethernet cable speed and bandwidth of these cables.

Category
Speed
Bandwidth
Cat5
10/100Mbps
100MHz
Cat5e
1000Mbps
100MHz
Cat6
1000Mbps
250MHz
Cat6a
10Gbps
500MHz
Cat7
10Gbps
600MHz
Cat8
25/40Gbps
2000MHz

Technical and Physical Differences

The typical technical differences are clear to see. As the category number increases, so does the Ethernet cable speed and bandwidth. This is not a coincidence, because each category brings more rigorous testing to eliminate crosstalk and add isolation between the wires. Thus, Cat8 supports the highest transmission speed.
As for the physical differences, Ethernet cables use different construction and isolation to eliminate interference and allow for faster speeds. Take the cables from FS.COM as an example. Its Cat6a, Cat7 and Cat8 use screen shield and aluminum foil shielding for reducing crosstalk, while Cat5e and Cat6 don’t. So Cat6a, Cat7 and Cat8 have better performance.

Ethernet cable speed factor

Is It Worth to Upgrade?

Actually, for home connections, a Cat5e or Cat6 cable with 1Gbps Ethernet cable speed is fast enough. People should note that upgrade cables will not make a difference in how fast you load websites, because the Internet speed depends on many factors but not just the Ethernet cable speed. But for places like data centres, of course, the faster the better. Because these places have high requirements for transmission speed. If you decide to buy Ethernet cables, welcome to order at FS.COM that provides comprehensive products of Ethernet cables.

How Much Do You Know About PoE?

For many network devices, like IP cameras, two connections would normally be needed—an electrical connection and the actual network connection. The electrical connection offers the necessary power for the device, and the network connection allows the device to communicate with the network. Cost will be increased if both of the connections are installed at the same time. However, PoE (Power-over-Ethernet) provides a cost-effective way for this kind of problem. Here are some basic introductions about PoE that you may be interested in.

poe

Do You Know Clearly About PoE?

Maybe most people know that PoE is a technology that enables powered devices such as surveillance cameras and IP phones to receive electrical power and data over the same Ethernet cable, supporting the same 100m transmission distance, which eliminates the need for another electrical connection and power lines. However, do you know clearly about PoE? Here, to get a further understanding of PoE, I’d like to list several most common misconceptions, which offers a new way to help you know clearly about PoE to some degree.

PoE Has Compatibility Problems.

In the early days of PoE, many proprietary schemes indeed needed to get power on network cables. However, with the development of PoE, the IEEE 802.3af standard has achieved universal adoption, which means that the compatibility issue between all PoE equipment is assured.

Power Is Forced into Devices.

This misconception is the most common one. But what we should keep in mind is that the power ratings marked by manufacturers are not fixed. Plugging a 5-watt camera into a 15-watt injector does not result in 10 watts of power being lost somewhere. Instead, the camera will simply draw as much electrical power as it needs.

PoE Requires Special Wires.

This conception is not right at all. Common cables used in networks such as Cat 5e, Cat 6 and Cat6a, and RJ45 connectors are also can be deployed for PoE-enabled local area networks. Besides, power-sourcing equipment such as a PoE switch or PoE Injector utilises a power supply and helps the network link to a powered device.

Where Is PoE Used?

Apart from data communications between two devices, PoE also enables an Ethernet switch/Hub to power a remote device over an existing LAN cable. Without PoE, any remote device needs to be powered independently. And PoE also has many other applications. Here are three major applications of PoE: network cameras, wireless access points (WAPs) and voice-over-IP phones (VoIPs). Following is a simple diagram of the PoE application.

poe-applications

What are the Major Advantages of PoE?

Installing PoE to your network will bring lots of advantages that you cannot ignore.

Time and Cost Saving

By deploying the PoE, there is no need to install conduit, electrical wiring and outlets throughout the facility, which provides a significant reduction in investment. What’s more, as PoE runs via one cable directly, it also takes less time to install.

Increased Reliability

In terms of the nature of systems, fewer electrical cords and power plugs mean more reliability, for there is less chance for a malfunction or other problems. For example, power may need to be cut down by an electrician who was called to rewire the electrical circuits.

More Flexibility

When planning out the location of access points, designers know there are always existing different problems. However, PoE enables designers to have more flexibility, because they are not limited by the need for proximity to electrical outlets. This also makes the deployment easier and cheaper for future modifications such as relocating access points or increasing network capacity.

Enhanced Operational Support

Many PoE devices utilise the simple network management protocol (SNMP), which offers the electrical power supplied to access points in remote management. For instance, the power to a PoE-enabled access point can be shut off remotely following the detection of a security breach. Therefore, other SNMP-based features allow the power supply and consumption levels to be monitored by systems, which effectively ensures the network operations.

Summary

In summary, there is no doubt that PoE is an innovative technology that provides a more convenient, flexible and cost-efficient method for powering network devices. And many products support PoE in the market such as injectors, PoE switches, PoE media converters and network interface cards. For more information, please visit FS.com.