 Application Standard:
155MbpsATM 、 622MbpsATM 、 1000Base-T 、 10GBase-T
Standard : |
IEC61156-5 CAT 7 and EN50288-4-1 。 |
Construction Matrix :
|
STP |
SFTP |
Conductor |
22/23AWG Solid Plain Copper |
22/23AWG Solid Plain Copper |
Insulation |
Polyethylene |
Polyethylene |
Screen |
Individual Aluminum Screen |
Individual Aluminum Screen+Copper Wire Braid |
Drain Wire |
7/0.2mm |
NIL |
Outer Sheath |
PVC/LSOH |
PVC/LSOH |
Frequency :
1-600MHz ( Common standard ) 1-1000MHz ( Cat7E standard )
General Characteristics :
Nominal Velocity of Propagati on : 79%
Maxmium Mutual Capacitance : 5.6nF/100m
Maxmium Resistance Unbalance : 5%
Maxmium Propagation Delay Skew : 30ns/100m
Maxmium Propagation Delay : 536ns/100m@100MHz
Voltage Rating : 60Vrms
Maximum Pulling Load : 80N
Working Temperature : -20 ℃ — +60 ℃
Storage Temperature : -5 ℃ —+50 ℃
Flame Retardancy : IEC332-1 ( FRRVC&LSOH jacket )
IEC332-1&IEC332-3C(LSFROH jacket)
Cable Parameters :
Construction |
Coductor Diameter /mm |
Diameter over Insulation
/mm |
Pairs |
Screen |
Overall Diameter
/mm |
Outer Sheath |
SFTP |
0.57/0.64 |
1.02 |
4 |
Individual Aluminum Screen+Copper Wire Braid |
8/9.1 |
PVC/LSOH |
SFTP |
0.57/0.64 |
1.02 |
4 |
Individual Aluminum Screen+Copper Wire Braid |
8.5/9.5 |
LSFROH |
STP |
0.57/0.64 |
1.02 |
4 |
Individual Aluminium Screen |
8/9.1 |
PVC/LSOH |
STP |
0.57/0.64 |
1.02 |
4 |
Individual Aluminium Screen |
8.5/9.5 |
LSFROH |
Transmission Parameters :
FREQ
(MHZ ) |
NEXT
(db/100m )
Minimum Value/Typical Value/Standard Value
≥ |
ATTENUATION
(db/100m )
≤ |
RETURN LOSS
(db)
Minimum Value/Typical Value/Standard Value
≥ |
PPACR
( db/100m )
Minimum Value/Typical Value/Standard Value
≥ |
1 |
90.0/100.0/80.0 |
2.0 |
20.0/23.0/20.0 |
88.0/98.0/80.0 |
4 |
90.0/100.0/80.0 |
3.6 |
23.0/26.0/23.0 |
86.4/96.0/76.4 |
10 |
90.0/100.0/80.0 |
5.7 |
25.0/28.0/25.0 |
84.3/94.0/74.3 |
16 |
90.0/100.0/80.0 |
7.2 |
25.0/28.0/25.0 |
83.3/92.0/72.8 |
20 |
90.0/100.0/80.0 |
8.1 |
25.0/28.0/25.0 |
82.5/91.0/71.9 |
31.25 |
90.0/100.0/80.0 |
10.1 |
23.6/26.0/23.6 |
80.0/90.0/69.9 |
62.5 |
90.0/100.0/75.5 |
14.5 |
21.5/24.0/21.5 |
76.0/85.0/61.0 |
100 |
90.0/100.0/72.4 |
18.5 |
20.1/23.0/20.1 |
72.5/75.0/53.9 |
200 |
90.0/100.0/67.9 |
26.8 |
18.0/23.0/18.0 |
65.0/70.0/41.1 |
250 |
95.0/90.0/66.5 |
30.2 |
17.3/23.0/17.3 |
50.0/58.0/36.3 |
300 |
95.0/90.0/65.3 |
33.3 |
17.3/23.0/17.3 |
59.0/55.0/32.0 |
600 |
80.0/90.0/60.8 |
48.9 |
17.3/20.0/17.3 |
32.0/50.0/11.9 |
FREQ
(MHZ ) |
PPELFEXT
( db/100m )
Minimum Value/Typical Value/Standard Value
≥ |
PSNEXT
( db/100m )
Minimum Value/Typical Value/Standard Value
≥ |
PSACR
( db/100m )
Minimum Value/Typical Value/Standard Value
≥ |
PSELFEXT
( db/100m )
Minimum Value/Typical Value/Standard Value
≥ |
1 |
85.0/90.0/80.0 |
87.0/97.0/77.0 |
85.0/95.0/75.0 |
82.0/87.0/77.0 |
4 |
85.0/90.0/80.0 |
87.0/97.0/77.0 |
83.4/93.0/73.4 |
82.0/87.0/77.0 |
10 |
79.0/90.0/74.0 |
87.0/97.0/77.0 |
81.3/91.0/71.3 |
76.0/87.0/71.0 |
16 |
74.9/90.0/69.9 |
87.0/97.0/77.0 |
80.3/89.0/69.8 |
71.9/87.0/66.9 |
20 |
73.0/90.0/68.0 |
87.0/97.0/77.0 |
79.5/88.0/68.9 |
70.0/87.0/65.0 |
31.25 |
69.1/90.0/64.1 |
87.0/97.0/77.0 |
77.0/87.0/66.9 |
66.1/87.0/61.1 |
62.5 |
63.1/85.0/58.1 |
80.0/97.0/72.5 |
73.0/82.0/58.0 |
60.1/82.0/55.1 |
100 |
59.0/80.0/54.0 |
87.0/97.0/69.4 |
69.5/72.0/50.9 |
56.0/77.0/51.0 |
200 |
53.0/75.0/78.0 |
87.0/97.0/64.9 |
62.0/67.0/38.1 |
50.0/72.0/45.0 |
250 |
51.0/70.0/46.0 |
92.0/87.0/63.5 |
47.0/55.0/33.3 |
48.0/67.0/43.0 |
300 |
49.5/66.0/44.5 |
92.0/87.0/63.3 |
56.0/52.0/29.0 |
46.5/63.0/41.5 |
600 |
43.4/60.0/38.4 |
77.0/87.0/57.8 |
29.0/47.0/8.9 |
40.4/57.0/35.4 |
Remark :
 CMR/CMP flame jacket can be offered according to customer request.
** Worst Values refer to the worst values measured in all the four pairs. Typical Values refer to average values taken from all the measurements for any pairs. Standard Values refer to the values as stipulated in the TIA/EIA standard. Typical Values are those margins that may likely be achieved during a normal testing. Worst Values are the margin taken from the worst pairs, which is the lowest margin that can be guaranteed for the cable. Usually, a typical measurement will have a better values than the Worst Value
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