GJBFJV Multi-Core Branch Fiber Optical Drop Cable Indoor Cable
The structure of GJBFJV (GJBFJH) optical cable is to directly cover a single mode or multimode optical fiber with a high bonding strength tight sleeve material to make a tight sleeve optical fiber. The unit cable uses high-strength aramid as a strengthening element, and a layer of PVC inner sleeve (or low smoke and zero halogen inner sleeve) is extruded externally. After multiple unit cables are twisted around the center reinforcement, Wrap the wrapping tape and use PVC or low smoke halogen-free as the outer sheath.
*Small outer diameter, light weight, flame retardant, easy to peel, and high flexibility
*Easy to construct and maintain *Can be laid horizontally or vertically
*The inner elliptical easy branching optical cable also has the following characteristics:
1.The inner hole of the optical cable has an elliptical structure, and the outer surface is marked with a convex point as the thinnest point of the optical cable, making it easy to peel;
2.It can be used in conjunction with branch boxes and laid freely according to wiring requirements.
3.It can be used in conjunction with indoor butterfly fiber optic cable jumpers and optical splitters to complete the laying of all optical networks. 4.The micro beam tube structure has better attenuation transmission and temperature performance;
5.The micro beam tube light unit is fully dry and designed with ultra-thin wall thickness, making it easy to peel off.
1,Indoor any purpose cable distribution;
2,Backbone distribution cable in a building;
1.This kind of cable complies with Standard YD/T 1258.4, ICEA-596, GR-409, IEC 60794-2-10/11, etc; Different PVC jacket cable meet the requirements of UL approval OFNR and OFNP; Different LSZH jacket meet IEC 60332-1 or IEC 60332-3C or OFNR certification.
3.The jacket is usually yellow or orange or Aqua ect; Can also be determined according to customer requirements.
Fiber type | (20ºC) Attenuation(20ºC) | (OFL) | Effective bandwidth | 10G Ethernet link length SX | minimum bend radius | |||
1310/1550nm | 850/1300nm | 850/1300nm | 850nm | 850nm | --- | |||
unit | dB/Km | dB/Km | dB/Km | dB/Km | MHz.Km | MHz.Km | m | mm |
G652D | 0.36/0.22 | 0.5/0.4 | --- | --- | --- | --- | --- | 16 |
G657A1 | 0.36/0.22 | 0.5/0.4 | --- | --- | --- | --- | --- | 10 |
G657A2 | 0.36/0.22 | 0.5/0.4 | --- | --- | --- | --- | --- | 7.5 |
50/125 | --- | --- | 3.0/1.0 | 3.5/1.5 | ≥500/500 | --- | --- | 30 |
62.5/125 | --- | --- | 3.0/1.0 | 3.5/1.5 | ≥200/500 | --- | --- | 30 |
OM3 | --- | --- | 3.0/1.0 | 3.5/1.5 | ≥1500/500 | ≥2000 | ≤300 | 30 |
OM4 | --- | --- | 3.0/1.0 | 3.5/1.5 | ≥3500/500 | ≥47000 | ≤550 | 30 |
BI-OM3 | --- | --- | 3.0/1.0 | 3.5/1.5 | ≥1500/500 | ≥2000 | ≤300 | 7.5 |
BI-OM4 | --- | --- | 3.0/1.0 | 3.5/1.5 | ≥3500/500 | ≥47000 | ≤550 | 7.5 |
Cable Type | Fiber Count | Cable Diameter mm | Tensile Strength Long/Short Term N | Crush Resistance Long/Short Term N/100mm | Bending Radius Static/Dynamic mm | Storage and operating temperature ºC |
GJBFJV,GJBFJH | 4 | 7.4 ± 0.5 | 130/440 | 300/1000 | 20D/10D | -20~+60 |
GJBFJV,GJBFJH | 6 | 8.4 ± 0.5 | 200/660 | 300/1000 | 20D/10D | -20~+60 |
GJBFJV,GJBFJH | 8 | 9.8 ± 0.5 | 200/660 | 300/1000 | 20D/10D | -20~+60 |
GJBFJV,GJBFJH | 12 | 12.4 ± 0.5 | 200/660 | 300/1000 | 20D/10D | -20~+60 |
GJBFJV,GJBFJH | 18 | 12.4 ± 0.5 | 400/1320 | 300/1000 | 20D/10D | -20~+60 |
GJBFJV,GJBFJH | 24 | 14.4 ± 0.5 | 400/1320 | 300/1000 | 20D/10D | -20~+60 |
GJBFJV,GJBFJH | 36 | 16.4 ± 0.5 | 400/1320 | 300/1000 | 20D/10D | -20~+60 |
GJBFJV,GJBFJH | 48 | 19 ± 0.5 | 400/1320 | 300/1000 | 20D/10D | -20~+60 |
