Cat5EUTP Cable 24AWG
Product Description
- Rated temperature : 75°C.
- Complies with Enhanced Cat.5 Cabling Specification TIA/EIA-568B-2
- Bare solid copper conductor, 24AWG
- PE insulation
- Twisted pairs and laid-up together
- PVC jacket
- Product certification
- Suitable for horizontal wiring in local area network system
Cable Construction
Bare Copper Conductor | AWG | 24 | |
Construction | 1/0.51mm±0.01mm | ||
Insulation, PE | Average thickness | 0.21±0.03mm | |
Min. point thickness | 0.17mm | ||
Insulation diameter | 0.93±0.03mm | ||
Core twist | Lay length(Ref.) | 24, 11, 17, 14 mm | |
Pair colors | Blue/White/Blue Orange/White/Orange Green/White/Green Brown/White/Brown | ||
Cabling | Lay length (Ref.) | 140mm | |
Jacket, PVC | Average thickness | 0.50±0.05mm | |
Min. point thickness | 0.43mm | ||
Outer diameter | 5.1±0.2mm |
Cable Specification
Test items | Specification | ||
Max. conductor DC resistance at 20°C | 93.8W/km | ||
Cable tray flame test | Pass | ||
Tensile test | Insulation | Jacket | |
Before aging | Tensile strength Elongation | ?3;16.5Mpa ?3;300% | ?3;13.8Mpa ?3;100% |
After aging | Tensile strength Elongation | ?3;75% of unaged ?3;75% of unaged | ?3;70% of unaged ?3;65% of unaged |
Aging condition | 100°C´48hrs | 100°C´240hrs |
Electrical Performance
Test items | Frequency (MHz) | Spec. |
Resistance unbalance (%), max. | 5 | |
Pair-to-ground capacitance unbalance, max. (pF/100m) | 330 | |
Impedance (W) | 1.0-100.0 | 100±15 |
Return loss (dB) The listed values are for information only. The structural return loss is to be greater or equal to the value calculated by the formula. SRLf ?3; 20 + 5log10(f) frequency(f) 1-10MHz SRLf ?3; 25 frequency(f) 10-20MHz SRLf ?3; 25 - 7log10(f/20) frequency(f) 20-100MHz | 1.0 4.0 8.0 10.0-20.0 25.0 31.25 62.5 100.0 | 20.0 23.0 24.5 25.0 24.3 23.6 21.5 20.1 |
Attenuation (dB/100m) The listed values are for information only. The maximum attenuation loss for any pair at room temperature is to be determined by using the formula. | 0.772 1.0 4.0 8.0 10.0 16.0 20.0 25.0 31.25 62.5 100.0 | 1.8 2.0 4.1 5.8 6.5 8.2 9.3 10.4 11.7 17.0 22.0 |
Worst pair-to-pair NEXT (dB) The listed values are for information only. The minimum NEXT coupling loss for any pair combination at room temperature is to be determined by using the formula. NEXT(f) ?3; 67 - 15log10(f/0.772) | 0.772 1.0 4.0 8.0 10.0 16.0 20.0 25.0 31.25 62.5 100.0 | 67.0 65.3 56.3 51.8 50.3 47.3 45.8 44.3 42.9 38.4 35.3 |
Power Sum NEXT(dB) The listed values are for information only. The minimum Power Sum NEXT coupling loss at room temperature is to be determined by using the formula. PSNEXT(f) ?3; 64 - 15log10(f/0.772) | 0.772 1.0 4.0 8.0 10.0 16.0 20.0 25.0 31.25 62.5 100.0 | 64.0 62.3 53.3 48.8 47.3 44.3 42.8 41.3 39.9 35.4 32.3 |
Worst pair-to-pair ELFEXT (dB/100m) The listed values are for information only. The minimum ELFEXT coupling loss for any pair combination at room temperature is to be determined by using the formula. ELFEXT(f) ?3; 66 - 20log10(f/0.772) | 0.772 1.0 4.0 8.0 10.0 16.0 20.0 25.0 31.25 62.5 100.0 | 66.0 63.8 51.7 45.7 43.8 39.7 37.7 35.8 33.9 27.8 23.8 |
Power Sum ELFEXT(dB/100m) The listed values are for information only. The Power Sum Equal Level Far End Cross Talk coupling loss at room temperature is to be determined by using the formula. PSELFEXT(f) ?3; 63 - 20log10(f/0.772) | 0.772 1.0 4.0 8.0 10.0 16.0 20.0 25.0 31.25 62.5 100.0 | 63.0 60.8 48.7 42.7 40.8 36.7 34.7 32.8 30.9 24.8 20.8 |
Propagation delay (ns/100m) The listed values are for information only. The Maximum Propagation delay for any pair at room temperature is to be determined by using the formula. | 1.0 2.0 10.0 100.0 | 570 559 545 538 |
Delay skew (ns/100m) | 1.0-100.0 | 45 |