Conductor Diameter |
mm |
0.5 |
Maximum Conductor Resistance @20°C |
Ω/km |
91 |
Minimum Insulation Resistance @500V DC |
MΩ.km |
20000 |
Maximum Resistance Unbalance |
% |
2 |
Average Mutual Capacitance |
nF/km |
52 |
Maximum Capacitance Unbalance @1KHz pair-to-pair |
pF/500m |
45 |
Maximum Capacitance Unbalance @1KHz pair-to-ground |
pF/500m |
400 |
Impedance @0.3 – 1MHz |
Ω |
100+/- 20 |
Impedance @1 – 40MHz |
Ω |
100+/- 15 |
Maximum Average Attenuation @0.1MHz |
dB/km |
0.81 |
Maximum Average Attenuation @0.3MHz |
dB/km |
1.15 |
Maximum Average Attenuation @0.6MHz |
dB/km |
1.65 |
Maximum Average Attenuation @1MHz |
dB/km |
2.1 |
Maximum Average Attenuation @4MHz |
dB/km |
4.3 |
Maximum Average Attenuation @10MHz |
dB/km |
6.6 |
Maximum Average Attenuation @16MHz |
dB/km |
8.2 |
Maximum Average Attenuation @20MHz |
dB/km |
9.2 |
Maximum Average Attenuation @31.25MHz |
dB/km |
11.8 |
Maximum Average Attenuation @40MHz |
dB/km |
13.9 |
Minimum Return Loss @1-20MHz |
dB/100m |
23 |
Minimum Return Loss @20-40MHz |
dB/km |
23-10log (f/20) |
Minimum ELFEXT pair-to-pair @0.16MHz |
dB |
69 |
Minimum ELFEXT pair-to-pair @1MHz |
dB |
55 |
Minimum ELFEXT pair-to-pair @20MHz |
dB |
29 |
Minimum ELFEXT pair-to-pair @40MHz |
dB |
23 |
Minimum NEXT pair-to-pair @0.16MHz |
dB |
68 |
Minimum NEXT pair-to-pair @1MHz |
dB |
59 |
Minimum NEXT pair-to-pair @20MHz |
dB |
39 |
Minimum NEXT pair-to-pair @40MHz |
dB |
35 |
Dielectric Strength |
dB |
|
Conductor to Conductor 3secs |
V DC |
3000 |
Conductor to Screen 3secs |
V DC |
5000 |