by Dawn Bertman on Jul 23, 12:40:42 PM
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In the datacom world, downtime is the last thing you want anyone associating with your installation job. When computer systems, internet, TV, or anything else communications-related go down, people get mad.
Thats in part why datacom structured cabling is its own beast vs. other connection products. And even though there are recurring themes, datacom cables themselves vary in terms of construction, performance, and specific use case.
Lets review the three data communication cable types, their subtypes, and what you must know about each to source a datacom cable supply effectively.
There are three main types of network cabling: twisted-pair, fiber-optic, and coaxial.
Each datacom cable type has a slightly different set of rules and performance criteria it plays by. However, as you learn about datacom cables, youll see two major performance traits pop up over and over:
Bandwidth
Transmission Speed
Expressed in a form of hertz
Expressed in Gbps
(gigabits per second)
Max rate of connections ability to transfer data under ideal conditions
Actual rate that data moves across network at a given time. Affected by bandwidth, traffic, connection, & data type
Higher bandwidth = more data flow at a given time. Vital for large data transfers, internet services, & streaming
Higher speed = more productivity in data-intensive environments
Without further ado, here they are:
A twisted-pair cable consists of two insulated wires coiled around one another. Its not just for show the twisting reduces EMI (electromagnetic interference) from outside sources.
In datacom applications, twisted-pair is the Walmart of cabling solutions. Its cheap, simple to use, and offers modest performance. Of course, sometimes Walmart is OK, depending on your shopping needs.
Twisted-pair cables come with various levels of protection. Depending on the environment, you may use:
Unshielded twisted-pair (UTP) most common form; used in many Ethernet networks
Foiled twisted-pair (FTP) adds thin, lightweight EMI protection
Shielded twisted-pair (STP) best option for environments with interference potential
The hype started years ago for fiber-optic cables because of their promised ability to move data quickly over long distances. So far, the tech has lived up to the hype.
Data transfer in fiber-optic cabling is through light rather than electronic signal, thus its immune to electromagnetic interference.
The core is either:
Glass (most common for long-distance)
Plastic (shorter distances, more flexible)
Despite the impressive performance, fiber-optic cable is lightweight and small in diameter.
Coaxial means one conductor inside a second, cylindrical outer conductor. In between theres a layer of insulation, as well as on the very outside of the assembly.
Coaxial cable offers more EMI protection and bandwidth than twisted-pair cables, but less than fiber-optic products. Coaxial also sits firmly in the middle cost-wise. This middle-of-the-road status actually hurts coaxial cables somewhat; some engineers feel its obsolete because it offers no major advantages.
Twisted-pair cables are ubiquitous you can find them in nearly any home or business. Most often, what youre looking at is a Cat cable.
In datacom transmissions, by far the most common twisted-pair cable category is, well, the Category or Cat cable. To the average Joe, theyre Ethernet cables.
No matter the name, their primary purpose is to connect computer network devices:
Servers
Routers
Modems
Switches
Theyre a staple of modern office and home settings (even more so than the stapler itself).
These cables usually consist of four twisted pairs of copper wire. They come with a variety of shielding options to protect against crosstalk and EMI.
Key performance standards for Cat cables include bandwidth capacity and data transmission speed. The numbered subcategory of the cable indicates its speed, frequency, and shielding.
Cable
Speed
Bandwidth
Shielding
Uses
Cat5e
Up to 1 Gbps
100 MHz
Most are unshielded
Residential & basic business networking for internet access
Cat6
Up to 10 Gbps*
250 MHz
Unshielded or shielded (for strict crosstalk specs)
Business networks, data centers needing high speed over short distance
Cat6a
Up to 10 Gbps
500 MHz
Typically shielded (less crosstalk for long distances)
High-speed networks in data centers & enterprises
Cat7
Up to 10 Gbps
600 MHz
Individual foil & and overall braided shields
Server rooms and data centers needing durability & high performance
Cat8
Up to 40 Gbps
2,000 MHz
Similar to Cat7 (Extensive shielding)
Data centers (server-to-server connections, high-speed data transfer over short runs)
*Cat6 cables support 10 Gbps up to 55m under ideal conditions, beyond which the speed defaults to 1 Gbps up to 100m.
Much like an iPhone or PlayStation, the numbers indicate the chronological order of release. These days, youre not likely to ever need Cat 1-4 products. Even the standard Cat 5 cable is mostly phased out, though it still exists in some legacy installations.
As the number gets higher, the product adds more speed, bandwidth, shielding, or a combination of those features. Newer versions can handle more demanding environments, but they also become more expensive and less flexible.
What makes an Ethernet cord industrial ?
An industrial Ethernet cable has the same core functionality as a standard Ethernet cable, but with a ruggedized build. This build may include extra shielding, a heavier jacket, or both.
Industrial-grade cables can endure conditions that would cause a Cat-astrophe in standard Ethernet setups, including:
EMI
Extreme temperatures
Mechanical stress i.e. impact, vibration
Chemicals
Consider fiber-optics when you need to transmit data across longer distances and have higher bandwidth needs. From there, you can narrow your choices between single-mode and multimode based on distance and speed requirements.
Single-mode fiber is defined by its narrow core. Its covering is usually yellow, though you might see blue if the cable has a special use or characteristic.
This cable type transmits a single beam of focused light directly down the fiber without much reflection. This makes it best for long-distance communication, as it results in less attenuation and allows data to travel faster and further.
Single-mode cabling is what you should use when the distance you need exceeds 500m. It requires few switches or routers mid-span, and the bandwidth capacity is practically off the charts.
Single-mode fiber is slightly more expensive due to its raw materials and manufacturing process.
Contact us to discuss your requirements of BS Standard Cable . Our experienced sales team can help you identify the options that best suit your needs.
Multimode fiber cable has a wider core that can carry light signals down many paths within the fiber. It can transmit multiple data types at the same time and within the same glass core. This makes multimode products ideal for shorter distances requiring higher bandwidth, such as intra-building data and audio/visual installations.
Have you noticed an OM designation yet when researching multimode cables? OM (optical multimode) classifications are how you tell the differences in bandwidth and transmission traits. As the number goes up, so does bandwidth and performance.
Bandwidth
Max Speed
Typical Uses
OM1
200 MHz*km
1 Gbps up to 33m
Legacy installations in buildings & small campuses
OM2
500 MHz*km
1 Gbps up to 550m
10 Gbps up to 82m
Medium-speed applications in buildings & small campuses
OM3
2,000 MHz*km
10 Gbps up to 300m
40 Gbps up to 100m
100 Gbps up to 100m
Data centers & large campuses (high data rates needed over medium distances)
OM4
4,700 MHz*km
10 Gbps up to 550m
100 Gbps up to 150m
High-speed networks in data centers & large enterprises
OM5
4,700 MHz*km
100 Gbps up to 150m; WDM support for transmitting four wavelengths per fiber
High-speed data centers; indoor automation (monitoring, manufacturing)
For now, OM3 and OM4 are the most common choices for new installations requiring high data rates over relatively long distances, particularly in enterprise and data center environments. OM5 is the new cable on the block. As the most powerful fiber-optic option, it can help futureproof your network infrastructure as bandwidth demands continue to rise.
You probably heard of coaxial cables long before you started sourcing them. Theyve been around seemingly forever in everyday applications such as:
TV
Broadband connections
Video
Each type of coaxial cable comes with specific ratings for:
Impedance Minimizes reflection and signal loss at connections between coaxial cables, devices, & components
Attenuation Signal loss over distance. Highly affected by frequency
Max frequency rating Indicates cables ability to handle faster & more complex signals without performance loss
For data communication, picking a coaxial cable typically means balancing:
Signal integrity influenced by the three ratings above
Distance of cable run
Environmental conditions
Installation flexibility
Cost
While the RG designations below are common, there can be variations between cable manufacturers. Also, keep in mind that some high-speed data applications are moving away from coaxial cables in favor of advanced fiber-optic or twisted-pair solutions.
Impedance: 75 ohms
Attenuation: 5.6 dB per 100m at 400 MHz
Max Frequency: ~3 GHz
Its creators specifically designed RG-6 coaxial cable to carry higher-frequency signals than its predecessors. This allows RG-6 to support commercial and residential applications such as:
Satellite TV
Cable TV
Broadband internet
Part of the secret sauce is the construction. RG-6 features better shielding compared to RG-59, which significantly improves overall signal integrity.
Impedance: 75 ohms
Attenuation: ~13.2 dB per 100m at 400 MHz
Max Frequency: ~1 GHz
Despite its rating, RG-59 coaxial cable is more common in lower-frequency use cases (under 50 MHz). This makes it appropriate for jobs where high-frequency data transmission isnt a must:
Closed-circuit TV systems
Some video applications
Security
RG-59 cabling is a low-cost solution that includes a thinner and more flexible build than RG-6. This makes it easier to install in tight spaces and shorter runs.
Impedance: 75 ohms
Attenuation: ~3.7 dB per 100m at 400 MHz
Max Frequency: ~3 GHz.
It comes at a high price, but RG-11 coaxial cables traits make it ideal for long-distance service. The low attenuation due to its thick build makes RG-11 popular in installations for:
Broadband internet
Satellite
Underground
Across large buildings
The high performance also comes at a convenience cost, as RG-11 is less flexible and more aggravating to work with.
Impedance: 50 ohms (52-ohm versions also exist)
Attenuation: ~24.9 dB per 100 m at 400 MHz
Max Frequency: ~1 GHz.
Its far from the modern savior for datacom assemblies, but RG-58 coaxial cable still exists in some legacy systems. Today, RG-58 is mostly relegated to:
Amateur radio
Older Ethernet setups (10BASE2)
The cable's thinner and more flexible design helps users install it in tight spaces and short distances without much trouble.
Understanding all three major data communications cable types and their subtypes can help you source quick and dependable network infrastructure.
Each type of cable offers unique characteristics and use cases, from high-speed data transmission in data centers to low-frequency signal transfers in industrial settings. Pay attention to the key properties of each cable type so that youre valuing the right numbers for the right application.
For more tips on sourcing cables and components of all types, grab our free e-book:
Wireless appears to be the goal in our connected society, yet some network cables are necessary to allow computers to transfer information. In some cases, networking cables are simply preferred for signal strength, stability and security.
Ethernet cablesconnect computers in a Local Area Network, or LAN, within a small area such as a business, college campus or even your home. The wireless router common in many homes is connected to an Ethernet cable from the internet provider.
Twisted-pair cables,coaxial cablesandoptical audio cablesare examples of network cable types commonly found in residences for transmitting telecommunication signals or delivering television programs.
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