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Tuesday, February 28, 2017

CAT5, CAT5e, CAT6 cables

1. What is the difference between CAT-5, CAT-5e, CAT-6, CAT-7...
The Simple Answer:
CAT-5 is rated to 100 Mhz
CAT-5e is rated to 350 Mhz
CAT-6 and CAT6e is rated to 550 Mhz or 1000 Mhz depending on your source
Cat7 & Cat7A support speeds up to 10 Gigabit Ethernet with distance up to 100 meters (10,000 Mb/s)(1000 Mhz)
 CAT-6 cable is being made with 23 guage conductor wire as opposed to the slightly smaller 24 guage for CAT-5e and also has a separator to handle crosstalk better.
Both CAT-5 and CAT-5e have 100 ohm impedance and electrical characteristics supporting transmissions up to 100 MHz. The differences between CAT-5 and CAT-5e show in all aspects of performance: capacitance, frequency, resistance, attenuation, and NEXT. CAT-5e components were designed with high-speed gigabit Ethernet in mind. While CAT-5 components may function to some degree in a gigabit Ethernet, they perform below standard during high-data transfer scenarios. CAT-5e cables work with ATM and gigabit speed products. Simply, if you are using a 100Mbps switch, get CAT-5e cable instead of CAT-5.
CAT-5e is formally called ANSI/TIA/EIA 568A-5 or simply Cat-5e (the e stands for 'enhanced'). CAT-5e is completely backward compatible with current CAT-5 equipment. The enhanced electrical performance of CAT-5e ensures that the cable will support applications that require additional bandwidth, such as gigabit Ethernet or analog video.

2. What is the difference between the types of cable - UTP, Patch, Stranded, Solid...
UTP stands for Unshielded Twisted Pair. It is a cable type with pairs of twisted insulated copper conductors contained in a single sheath. UTP cables are the most common type of cabling used in desktop communications applications.
Stranded cable has several small gauge wires in each separate insulation sleeve. Stranded cable is more flexible, making it more suitable for shorter distances, such as patch cords.
Solid has one larger gauge wire in each sleeve. Solid cable has better electrical performance than stranded cable and is traditionally used for inside walls and through ceilings - any type of longer run of cable.
Patch Cables are made of stranded copper conductors for flexibility. This construction is great for the flexing and the frequent changes that occur at the wall outlet or patch panel. The stranded conductors do not transmit data signals as far as solid cable. The TIA/EIA 568A which is the governing standard regarding commercial cabling systems limits the length of patch cables to 10 meters in total length. Does that mean you can't use stranded cable for longer runs? Not at all, we've seen installations running stranded cable over 100 feet with no problems - it's just not recommended. This is why we don't sell patch cables over 30 feet in length.

3. What is the difference between 10BASE-T, 100BASE-T and 1000BASE-T?
10BASE-T is the IEEE standard that defines the requirement for sending information at 10 Mbps on unshielded twisted-pair cabling, and defines various aspects of running Ethernet on this cabling.
100BASE-T is the IEEE standard that defines the requirement for sending information at 100 Mbps on unshielded twisted-pair cabling, and defines various aspects of running baseband Ethernet on this cabling.
1000BASE-T (also called gigabit Ethernet) is the IEEE standard that defines the requirement for sending information at 1000 Mbps on unshielded twisted-pair cabling, and defines various aspects of running baseband Ethernet on this cabling
Channel Performance Characteristics
Parameter CAT-5 (ISO Class D)100 MHz CAT-5 100 MHz CAT-5e 100 MHz
Attenuation 24.0dB 24.0dB 24.0dB
NEXT 27.1dB 27.1dB 30.1dB
PSNEXT 24.0dB N/A 27.1dB
ELFEXT 17.0dB 17.0dB 17.4dB
PSELFEXT 14.4dB 14.4dB 14.4dB
ACR (derived) 3.1dB 3.1dB 6.1dB
PSACR (derived) N/A N/A 3.1dB
Return Loss 10.0dB 8.0dB 10.0dB
4. What is a cross-over cable?
A cross-over cable is a segment of cable that crosses over pins 1&2 and 3&6. This cable is normally used to connect two PCs without the use of a hub, or can be used to cascade two hubs without using an uplink port. Some DSL modems require a crossover calbe to the PC or hub they are connected to.

5. What are the maximum lengths for cables?
For Solid UTP:
Fast Ethernet 100baseT 100 Meters (328 feet)
Twisted Pair Ethernet 10baseT 100 Meters (328 feet)
Recommended maximum lengths for Patch Cables made from stranded cable:
Fast Ethernet 100baseT 10 Meters (33 feet)
Twisted Pair Ethernet 10baseT 10 Meters (33 feet)

6. Is CAT-5e backwards compatible?
Yes it works with any 10BaseT or 100BaseT network cards and hubs.
CAT-5 is also upwardly compatible with CAT-5e, however your network throughput will only be as fast as the slowest part.

7. Can I run CAT-5e ethernet cable outside?
CAT-5e cable is not rated for outdoor use, however it can generally be used without a problem. If possible, run the cable through some kind of conduit to prevent moisture or an attractive site for lightning to strike. You should be able to find gray PVC conduit suitable for cable at any hardware store. Remember, 100 Meters is your max distance, without some kind of hub, bridge or amplification.

8. What is the operating temp for CAT-5e cable?
Operating Temp for CAT-5e cable: -10C to 60C

9. What is the difference between T568A and T568B wiring?
T568A and T568B are the 2 wiring patterns for 8 position RJ45 modular plug, both permitted under the TIA/EIA 568A wiring standards document. The only difference between the two pattern is that the pairs 2 (orange) and 3 (green) are interchanged.
All our cables use T568B standards.

10. What are the UL levels of cable?
There are three levels. General Purpose: UL1581; Riser: UL1666; and Plenum UL910. These numbers are all fire and safety rated.

11. What is EMI and how can you prevent it?
EMI stands for Electro-Magnetic Interference. It is potentially harmful to your communications system because it can lead to signal loss and degrade the overall performance of high-speed, CAT-5e cabling. EMI is interference in signal transmission or reception and is caused by the radiation of electrical or magnetic fields which are present near power cables, heavy machinery, or fluorescent lighting.
Avoiding EMI is as simple as not laying your network cable within 12" of electrical cable, or if needed switching from UTP to more expensive shielded cable.

12. Just tell me what cable I need...
If you need patch cords up to 25 feet, use CAT-5e stranded cable for ease of flexibility.
If you are making linger runs or going through walls or ceilings, I'd go ahead and use the CAT-6 UTP (solid) cables - if that seems a bit expensive, then go with the CAT-5e UTP.

Examples of when you might use each type of network cable.
Cat5 - Cat5 cable is out dated. Do not install this.
Cat5e - Cat5e cable is suitable for Gigabit speeds and networks that change frequently. If the network changes frequently or is temporary in nature, Cat5e may be the optimal selection.
Cat6 - Cat6 cable is optimal for extra margin and higher performance. Cat6 cable will support gigabit ethernet, but will only support 10 Gigabit Ethernet if the total length and loss is low enough. If a project requires a 10 Gigabit Ethernet connection, Cat6A or higher is recommended.
Cat6A - Cat6A cable will support speeds up to 10 Gigabit. If a project requires a single installation solution to support the facility and is inteded to stand the test of time, Cat6A will protect the investment and serve as a reliable backbone for the company going into the future.
Cat7 & Cat7A - Cat7 cable will support 10 Gigabit Ethernet with plenty of margin to spare. Cat7 has pair-sharing capability, making it possible to use one cable to power several different devices at the same time utilizing each pair as needed. For the best and most versatile infrastructure Cat7 provides the solution.


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