Communication Cable F/UTP CAT6 Cable
DC Resistance:<9.38 Ohm/100m
Mutual Capacitance: 5.6nF/100m
Characteristic Impedance:
1-100MHz: 100±15 Ohms
100-250MHz: 100±20 Ohms
Max Frequency: 250MHz
Capacitance Unbalance: 330pF/100m
Delay Skew: ≤45ns/100m
Performance Characteristics
Frequency |
RL (Min.) |
Insertion Loss (Max.) |
Propagation Delay(Max.) |
Delay Skew (Max.) |
NEXT (Min.) |
PSNEXT (Min.) |
ELNEXT (Min.) |
PSELNEXT (Min.) |
MHz |
dB |
Db/100m |
ns/100m |
ns/100m |
dB |
dB |
Db/100m |
Db/100m |
1 |
20.0 |
2.0 |
570.0 |
45.0 |
74.0 |
72.0 |
67.8 |
64.8 |
4 |
23.0 |
3.8 |
552.0 |
45.0 |
65.0 |
63.0 |
55.7 |
52.7 |
10 |
25.0 |
6.0 |
545.0 |
45.0 |
59.0 |
57.0 |
47.8 |
44.8 |
16 |
25.0 |
7.6 |
543.0 |
45.0 |
56.0 |
54.0 |
43.7 |
40.7 |
20 |
25.0 |
8.5 |
542.0 |
45.0 |
55.0 |
53.0 |
41.7 |
38.7 |
31.25 |
23.6 |
10.7 |
540.0 |
45.0 |
52.0 |
50.0 |
37.9 |
34.9 |
62.5 |
21.5 |
15.4 |
539.0 |
45.0 |
47.0 |
45.0 |
31.8 |
28.8 |
100 |
20.1 |
19.8 |
538.0 |
45.0 |
44.3 |
42.3 |
27.8 |
24.8 |
200 |
18.0 |
29.0 |
537.0 |
45.0 |
39.7 |
37.7 |
21.7 |
18.7 |
250 |
17.3 |
32.8 |
536.0 |
45.0 |
38.0 |
36.0 |
19.8 |
16.8 |
Jacket Physical Properties
Jacket | |||||
Aging |
Cold Bend |
||||
|
Item |
Aging Period |
100*24H*7D |
Cold Period |
-20±2℃*4H |
|
|
Before Aging |
After Aging |
Bending Radius |
8*Cable O.D. |
PVC |
Tensile Strength |
≥13.5Mpa |
≥12.5Mpa |
No Visible Cracks |
|
Elongation |
≥150% |
≥125% |
|||
LSZH |
Tensile Strength |
≥10.0Mpa |
≥8.0Mpa |
No Visible Cracks |
|
Elongation |
≥125% |
≥100% |
|||
PE |
Tensile Strength |
≥10.0Mpa |
≥8.0Mpa |
No Visible Cracks |
|
Elongation |
≥350% |
≥350% |
What is a CAT5E network Cable ?
CAT5e network cable is a twisted-pair cable used for computer networks with a transmission rate of 1000Mbps, which is commonly used for local area network (LAN) connections in homes, offices, schools and other places. The specific features are as follows:
1. High transmission rate: CAT5e cable supports a transmission rate up to 1000Mbps, which is 10 times higher than CAT5 cables, and can be used for network applications that handle large amounts of data.
2. Twisted-pair structure: CAT5e network cable adopts twisted-pair structure, which can effectively reduce the probability of signal interference. It contains four pairs of wires, each with a different color for easy installation.
3. Easy to install: CAT5e cable uses RJ45 connector: easy to install, plug and play, suitable for indoor short-distance cabling, and easy to use.
4. Stable impedance: CAT5e cable is made of pure copper wire with special internal structure design, which can maintain the stability of connection and transmission and ensure the high quality of network communication.
5. Good compatibility: CAT5e cable is compatible with CAT5 and earlier cable specifications, and can be used as an option for new networks or as an upgrade for existing networks.
It should be noted that CAT5e network cable has a high transmission rate and can withstand considerable interference, the longer the distance, the higher the wear and tear, and generally should not exceed 100 meters. In addition, since bad installation habits such as burying and bending can affect the transmission performance of network cables, it is necessary to follow the relevant specifications when installing them.
Difference
There is a significant difference in performance between Category 5 and Category 6 network cables. Although Category 5 cables can support Gigabit Ethernet, their performance can only be considered barely supported. In contrast, Category 6 cables can guarantee the operating speed of Gigabit Ethernet, providing users with a more stable and smooth network experience. This means that in the case of high load or large data transmission, Category 6 cables can better meet the demand and reduce network delays and lagging phenomena.
Second: structural characteristics
In addition to performance differences, Category 5 and Category 6 network cables are also different in structure. Category 6 twisted-pair cable has a good insulating property with the addition of crossbones in its structure. At the same time, its conductor components possess a larger diameter, relatively smaller torque, and a thicker outer diameter. These design improvements make the category VI network cable in the prevention of interference between network cables excellent performance, effectively improving the quality of signal transmission.
Third: transmission distance and speed
In terms of transmission distance and speed, there are also some differences between ultra-five network cable and category six network cable. Generally speaking, the transmission distance of ultra-five network cable is within 100 meters, while the transmission distance of category six network cable can reach 120-150 meters. In addition, Category 6 cables have improved their performance in terms of crosstalk and return loss, resulting in less signal attenuation and faster speeds in the transmission process. This is important for scenarios that require long distance transmission or high speed network applications.