YINGDA TECHNOLOGY LIMITED
| Delivery Time | 7days |
| Packaging Details | 1pc/drum |
| length | 1KM-50KM |
| fiber type | G652D G657A1 G657A2 |
| Connector | SC FC ST LC E2000 DIN D4 FDDI SMA |
| 3mm length | 1~1.5meter |
| fiber count | 1 core |
| drum size | 240 mm(D.) *114 mm(H.) |
| Cladding diameter | 125±0.7um |
| Net weight | 0.8kg/km, add 0.05kg/km |
| Brand Name | YINGDA |
| Model Number | G652D |
| Certification | iso |
| Place of Origin | china |
View Detail Information
Explore similar products
Outdoor Self Supporting FTTH Drop Cable GJXFCH FRP Steel Messenger G657A2 LSZH
FTTH FTTX Figure 8 Drop Cable 1Core Mini Aerial Outdoor Fiber Optic Cable HDPE
Single Mode FTTH Drop Cable , FRP Non - Metallic Strength 2 Core Fiber Optic
Outdoor FTTA Base Station CPRI Cable Round 2 Cores 7.0mm G657A2 LSZH BBU RRU
Product Specification
| Delivery Time | 7days | Packaging Details | 1pc/drum |
| length | 1KM-50KM | fiber type | G652D G657A1 G657A2 |
| Connector | SC FC ST LC E2000 DIN D4 FDDI SMA | 3mm length | 1~1.5meter |
| fiber count | 1 core | drum size | 240 mm(D.) *114 mm(H.) |
| Cladding diameter | 125±0.7um | Net weight | 0.8kg/km, add 0.05kg/km |
| Brand Name | YINGDA | Model Number | G652D |
| Certification | iso | Place of Origin | china |
| High Light | OTDR Test Bare Fiber ,YOFC Fujikura Bare Fiber ,fttx coring bare fiber | ||
FTTX Coring YOFC Fujikura OTDR Test Bare Fiber Single Mode 250um G657A 1KM-50km in Plastic Drum
FEATURES
Specification of Single mode fiber
| ITEM | Value |
| Mode diameter | (8.6-9.5)±0.7um |
| Cladding diameter | 125±1um |
| Concentricity deviation | ≤0.8um |
| Cladding out of roundness | ≤0.2% |
| Cut off wavelength of optical cable | ≤1260um |
| Macrobending loss 1550nm | ≤0.3dB |
| (37.5mm radius 100 turns) 16xx1nm | ≤0.3dB |
| Screening stress | ≥0.69GPa |
| Zero dispersion wavelength λ | 1300nm≤λ ≤1324nm |
| zero dispersion slope s | ≤0.093ps/um |
| Polarization mode dispersion coefficient of uncalled fiber | ≤xxps(km)1/2 |
| Attenuation number of optical cable | 1300nm≤0.3dB/km ≤0.28dB/km |
| Yyyy nm- - xx dB/km | |
| 16xx1nm - ≤0.28dB/km | |
| Polarization mode dispersion coefficient of optical cable | M -20 optical fiber segments |
| Q -0.01% | |
| PMD-≤0.5ps/(km)1/2 |
When optical time domain reflectors (OTDR) are used to measure optical fiber, it is sometimes encountered that the optical fiber link is short. When measuring short optical fiber link, the bigger attenuation value (xxdb/km) is often obtained, which makes the attenuation index unable to obtain a better evaluation. Why?
Because of the short optical fiber link (generally less than 1km), OTDR measured the curve with certain volatility, which affected the final numerical calculation. Among the technical parameters describing OTDR, there is an index about the linearity. The general index of OTDR is 0.05db/db (e600c:0.05db/db, n3900a:0.03db/db). In fact, this indicator describes the fluctuation range of OTDR curve.
Therefore, for short fiber, the accuracy of OTDR measurement is challenged. This problem is also a common problem facing OTDR lock. So what methods can we reduce this impact? How can we get a better test result?
1. Add 2km test false fiber
The effect will be reduced as the fiber length is increased due to the addition of 2km test false fiber. A more satisfactory result should be available.
But because of the increase of length and the introduction of test error, this method has some errors brought by the test method. But as the test data of the project quality, it has a considerable reference value.
2. Measure link loss with light source and optical power meter, and measure length with OTDR
The progress of the loss measurement is improved because the optical power meter measures the link loss close to the standard loss measurement method by using the light source. Of course, for the segment fiber, the higher resolution accuracy level of the optical palace garbage is used to reduce the error. The length measurement was obtained by OTDR. The attenuation value of unit length can be obtained by dividing the loss value by the length value.
3. OTDR measurement curve is only used as reference, and OTDR measurement focuses on removing link obstacles.
In short fiber measurement, OTDR measurement curve is best used as a reference, as a qualitative basis, rather than as a quantitative basis.
Company Details
Business Type:
Manufacturer,Distributor/Wholesaler
Year Established:
2012
Total Annual:
60 million-80 million
Employee Number:
100~200
Ecer Certification:
Verified Supplier
SHENZHEN YINGDA PHOTONIC CO.,LTD. is a professional Fiber Optic Manufacturer and trading combo. We committed to provide customers with high quality FTTH solutions and satisfying service. Our factory covers about 4000 square meters, and has strong strength i... SHENZHEN YINGDA PHOTONIC CO.,LTD. is a professional Fiber Optic Manufacturer and trading combo. We committed to provide customers with high quality FTTH solutions and satisfying service. Our factory covers about 4000 square meters, and has strong strength i...
Get in touch with us
Leave a Message, we will call you back quickly!