FTTH FTTX Fiber Outdoor Indoor 2/4/6/12/24/48/96 Core Sm/Dm/mm G652D/G657A1 Flat ADSS TPU customized Fiber Optic/Optical Drop Cable
Fiber to the Home Outdoor Indoor Drop Cable (GJYXCH/GJYXFCH)-Example
1. General
This specification covers the design requirements of the structure, mechanical, physical, and performance standards for the supply of optical fiber cables. The features described in this document are intended to provide information on the performance of the optical cable.
2. Specifications
2.1 General Specifications
| Cable Type |
FTTH Outdoor Indoor Drop Cable |
| Fiber Type |
SM G657A1/ SM G657A2 |
| Application |
FTTH, LAN, CCTV |
| Recommended installation methods |
Aerial |
| Environment |
Indoor/Outdoor |
| Temperature Range |
-40ºC to 70ºC |
2.2 Fiber Specifications
| Fiber style |
Unit |
SM
G652D |
SM
G657A1 |
SM
G657A2 |
| condition |
nm |
1310/1550 |
1310/1550 |
1310/1550 |
| attenuation |
dB/km |
≤0.36/0.23 |
≤0.35/0.21 |
≤0.35/0.21 |
| Dispersion |
1310nm |
Ps/(nm*km) |
≤18 |
≤18 |
≤18 |
| 1550nm |
Ps/(nm*km) |
≤22 |
≤22 |
≤22 |
| Zero dispersion wavelength |
nm |
1312±10 |
1312±10 |
1300-1324 |
| Zero dispersion slope |
ps/(nm²×Km) |
≤0.091 |
≤0.090 |
≤0.092 |
| PMD Maximum Individual Fiber |
[ps/√km] |
≤0.2 |
≤0.2 |
≤0.2 |
| PMD Design Link Value |
ps/(nm²×Km) |
≤0.08 |
≤0.08 |
≤0.08 |
| Fiber cutoff wavelength λc |
nm |
>=1180,≤1330 |
>=1180,≤1330 |
>=1180,≤1330 |
| Cable cutoff wavelength λcc |
nm |
≤1260 |
..... |
..... |
| MFD |
1310nm |
um |
9.2±0.4 |
9.0±0.4 |
9.8±0.4 |
| 1550nm |
um |
10.4±0.8 |
10.1±0.5 |
9.8±0.5 |
| Step(mean of bidirectional measurement) |
dB |
≤0.05 |
≤0.05 |
≤0.05 |
| Irregularities over fiber length and point discontinuity |
dB |
≤0.05 |
≤0.05 |
≤0.05 |
| Difference backscatter coefficient |
dB/km |
≤0.03 |
≤0.03 |
≤0.03 |
| Attenuation uniformity |
dB/km |
≤0.01 |
≤0.01 |
≤0.01 |
| Cladding diameter |
um |
125.0±0.1 |
124.8±0.1 |
124.8±0.1 |
| Cladding non-circularity |
% |
≤1.0 |
≤0.7 |
≤0.7 |
| Coating diameter |
um |
242±7 |
242±7 |
242±7 |
| Coating/chaffinch concentrically error |
um |
≤12.0 |
≤12.0 |
≤12.0 |
| Coating non circularity |
% |
≤6.0 |
≤6.0 |
≤6.0 |
| Core/cladding concentricity error |
um |
≤0.6 |
≤0.5 |
≤0.5 |
| Curl(radius) |
um |
≥4 |
≥4 |
≥4 |
2.3 Standard Color Identification of Fiber
| No. |
1 |
2 |
3 |
4 |
5 |
6 |
| Color |
blue |
Orange |
Green |
Brown |
Slate |
White |
2.4 Cable Design
| Item |
Description |
| Model No |
GJYXCH/GJYXFCH |
| 1. Fiber count |
1 Core , 2 Core, 3Core,6core |
| 2. Cable Diameter |
2.0*5.0mm |
| 3. Cable Weight |
20KGS/18KGS |
| 4. Strength member |
|
| -Material |
Steel/FRP |
| -Diameter |
0.45mm*2 |
| 5.Outer Sheath |
|
| -Material |
LSZH |
| 6. Sheath marking |
|
| -Type of marking |
Laser printing |
| 7. Messenger |
|
| OD |
1.0mm |
| Material |
Steel wire |
2.4.1 Strength Member
The strength member is made of steel or FRP. It provides both tensile and anti-buckling strength to the cable.
2.4.2 Outer Jacket
LSZH sheath is extruded over the fiber.
2.4.3 Cable Sheath Marking
Each cable have the following information clearly marked on the outer jacket of cables:
a. Name of manufacturer.
b. Year of manufacturer
c. Type of cable and fiber
d. Length mark (printing on each meter normally)
e. Or as customer's requirements.
3. Cable Structure
| Items |
Description |
| Installation Temperature range |
-20--+60ºC |
| Operation and transport temperature |
-40-+70ºC |
| Min Bending Radius(mm) |
Long term |
10D |
| short term |
20D |
| Allowable Tensile Strength(N) |
Long term |
300 |
| short term |
600 |
| Crush Load (N/100mm) |
Long term |
1100 |
| short term |
2200 |
Application
| Adopted to Outdoor distribution |
| Suitable for pipeline laying method |
| Long distance and local area network communication |
Features
| Good mechanical and temperature performance |
| High strength loose tube that is hydrolysis resistant |
| Special tube filling compound ensures critical protection of fiber |
| A specially designed compact structure is good at preventing loose tubes from shrinking |
| PE sheath protects the cable from ultraviolet radiation |
| Special tube filling compound ensures critical protection of fiber |
FIBCONET boasts three state-of-the-art manufacturing centers covering over 10,000 sqm in Ningbo, Guizhou, and Northeast China, with a team of 800 highly skilled engineers and staff members.
With a production capacity of 300,000 PLC Splitters and 10 million fiber optical connectors per month, FIBCONET has earned a reputation as a national high-tech enterprise that excels in innovation, securing 50 patents and 15 invention patents.
Our PLC splitter, for instance, can function optimally even in extremely cold conditions of up to -50 centigrade degrees, making it an ideal solution for clients operating in harsh environments like Russia. We also offer connectors with an insert loss of just 0.1 dB, a rarity in the industry that we can deliver.
Q: The History of our factory?
A: In 2000, Fibconet entered the communications industry and began to make adapters. It accumulated funds to invest in jumper production in 2006 and increased the optical splitter workshop in 2009. Fibconet won the national high-tech industry in 2013, sold over 15 million US dollars in 2015, and began to explore foreign markets.
Q: The location of our factory?
A: Our factory is located in Ningbo, Zhejiang, and our new factory has also been put into production, located in the Northeast (Jilin Province).
Q: An occupied area for our factory?
A: The construction area of our factory is about 23,000 square meters, including 8000 square meters in Fenghua Plant and 15,000 square meters in Northeast China.
Q: Production capacity for the PLC splitter?
A: 800,000 pcs per month.
Q: What's your best price for your passive fiber optic product?
A: Based on the quality of our products and the quantity of your estimated. We would quote the great best matching price all the time.
Q: Do you offer a guarantee for the products?
A: Yes, we offer a 1-2 years warranty on our formal products.
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