Part number definition
| GY | Communication room (field) outdoor optical cable | none | no reinforcement | B | Flat shape | A | Aluminum-polyethylene bonded sheath | 5 | Corrugated steel belt | Codename | Coating or jacket code | A1a | IEC and GB/T | G.651 | ||||||
| GH | Submarine Optical Cable for Communication | F | Non-metallic reinforcement | C | Self-supporting structure | G | Steel sheath | 44 | Double thick round steel wire | 1 | Fiber cover | A1b | IEC and GB/T | G.651 | ||||||
| GJ | Optical cable in communication room (office) | G | Metal heavy reinforcement | D | Fiber ribbon structure | L | Aluminum sheath | 4 | Single thick round steel wire | 2 | Polyethylene protection tube | A1c | IEC and GB/T | G.651 | ||||||
| GR | Flexible Optical Cable for Communication | H | Non-metallic heavy-duty reinforcement | E | Oval shape | Q | Lead sheath | 33 | Double thin round steel wire | 3 | Polyethylene sleeve | A1d | IEC and GB/T | G.651 | ||||||
| GS | Optical fiber cable in communication equipment | G | Skeleton trough structure | S | Steel-polyethylene bonded magnetic protection | 3 | Single thin round steel wire | 4 | Polyethylene sleeve and nylon sleeve | B1.1 (B1) | Non-dispersion shifted fiber | G652 | ||||||||
| GT | Special optical cable for communication | J | Fiber tight sleeve coating structure | U | Polyurethane sheath | 2 | Double steel belt | 5 | PVC sleeve | B1.2 | Cut-off wavelength shifted fiber | G654 | ||||||||
| GW | Metal-free optical cable for communication | R | Inflatable structure | V | PVC sheath | 0 | No armor layer | B1.3 | IEC and GB/T | G.652C | ||||||||||
| GM | Mobile optical cable for communication | T | Grease filled structure | W | Steel-polyethylene bonded sheath with parallel steel wires | B2 | Dispersion shift type optical cable | G653 | ||||||||||||
| X | Cable bundle tube (coating) structure | Y | Polyethylene sheath | B4 | Non-zero dispersion shifted fiber | G655 | ||||||||||||||
| Z | Flame retardant |
Product description
GYFTY (non-metallic strengthening member, loose tube stranded and filled, polyethylene sheathed outdoor optical fiber cable for communication) The structure of the optical cable is to sheath a single-mode or multi-mode optical fiber into a high-modulus plastic filled with waterproof compound loose In the casing. The center of the cable core is a non-metallic reinforced core (FRP). For certain fiber optic cables, a layer of polyethylene (PE) is extruded outside the non-metallic reinforced core or a non-metallic reinforced yarn is added to the cable core. line. The loose tube (and filling rope) is twisted around the central reinforcing core to form a compact and circular cable core. The gaps in the cable core are filled with water blocking compounds and polyethylene sheaths.
Features
●Precise control of the excess length of the optical fiber ensures that the optical cable has good tensile performance and temperature characteristics
●PBT loose tube material has good hydrolysis resistance, and the tube is filled with special grease to protect the optical fiber
●Optical cable has excellent flexibility and bending resistance
●Optical cables are all non-metallic structures, light in weight, easy to lay, and excellent in electromagnetic resistance
●Smooth outer sheath enables the optical cable to have a smaller coefficient of friction during installation
●PE sheath has good resistance to solar radiation
●The following measures are adopted to ensure the waterproof performance of the optical cable: the loose tube is filled with special waterproof compound; the cable core is completely filled
Applicable laying
Power system, heavy lightning and places with severe electromagnetic interference
Structure
 |
 |
Technical Data
|
Number of cable cores |
/ |
2~30 |
32~60 |
62~72 |
74~96 |
98~120 |
122~144 |
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|
Structure |
/ |
1+5 |
1+5 |
1+6 |
1+8 |
1+10 |
1+12 |
||
|
Type of fiber |
/ |
G.652D |
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|
Centre Reinforcement |
Materials |
mm |
FRP |
||||||
| Dimensions (average) |
1.5 |
1.5 |
2.1 |
2.1 |
2.1 |
2.1 |
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|
Cushion |
Materials |
mm |
Medium density polyethylene |
||||||
| Dimensions (average) |
— |
— |
— |
3.4 |
4.7 |
6.2 |
|||
|
Loose casing |
Materials |
mm |
PBT |
||||||
| Diameter (average) |
1.8 |
2.1 |
2.1 |
2.1 |
2.1 |
2.1 |
|||
| Wall thickness (average) |
0.32 |
0.35 |
0.35 |
0.35 |
0.35 |
0.35 |
|||
|
Maximum number of cores per tube |
6 |
12 |
12 |
12 |
12 |
12 |
|||
|
Plastic tube chromatography |
Total chromatography |
||||||||
|
Length of fiber optic |
% |
0.7~0.8 |
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|
Water barrier |
Materials |
/ |
Cable paste |
||||||
|
Outer sheath |
Materials |
mm |
Medium density polyethylene |
||||||
|
Thickness (average) |
Nominal value :1.8 Minimum :1.5 Average :1.6 |
||||||||
|
Optical cable diameter (average) |
mm |
8.5 |
9.1 |
9.7 |
11.0 |
12.3 |
13.8 |
||
|
Optical cable weight (approximate) |
kg/km |
55 |
70 |
83 |
110 |
135 |
170 |
||
|
Maximum attenuation coefficient |
nm 1310 |
dB /km |
0.35 |
||||||
|
1550 nm |
0.21 |
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|
tensile force |
Long term |
N |
600 |
||||||
|
Short term |
1500 |
||||||||
|
Flattening |
Long term |
N/100mm |
300 |
||||||
|
Short term |
1000 |
||||||||
|
Bending radius |
Static |
mm |
10x cable diameter |
||||||
|
Dynamic |
20x cable diameter |
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|
Temperature |
Installation |
℃ |
-20~+60 |
||||||
|
Storage and transportation |
-40~+70 |
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|
Work |
-40~+70 |
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|
Identification |
QUALFIBER GYFTY-××B1YD/T 901-2009××××M year (or according to customer requirements) |
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Post time: Feb-16-2021