Team & Service
Our team is a dynamic,Quickly respond to customer needs, experienced technical team, provide design and customization services.
Wide Range of Applications
Our products are widely used in FTTH (Fiber to the Home) and FTTA (Fiber to the Antenna) applications.
Our Certificates
We have established a quality assurance system compliant with ISO9001 standards. Our products are strictly tested according to IEC, GR-326-Core, GR-3120-Core, GR-771-Core, and GR-1221-Core standards to ensure superior performance and reliability.
Broad Market
Our products are exported to a wide range of Market layout in Asia, Europe, Middle east, North America, South America, Africa.Products are exported over 50 countries, and are widely recognized by customers.
Enhanced Network Performance
Bare fiber PLC splitters significantly enhance the performance of FTTH networks by efficiently splitting optical signals, allowing for the distribution of high-speed internet to residential areas without compromising signal integrity.
The use of bare fiber PLC splitters ensures minimal signal loss, thereby improving the overall network performance and maintaining a consistent and reliable connection for end-users.
Cost-Effective Solution
In addition to enhancing network performance, bare fiber PLC splitters provide a cost-effective solution for FTTH networks. By reducing the need for additional connectors and hardware, they offer a more economical option for optimizing network efficiency.
The cost-effectiveness of bare fiber PLC splitters makes them an ideal choice for minimizing expenses while ensuring seamless connectivity in Fiber to the Home (FTTH) networks.
Mitigating Signal Loss
When it comes to fiber optic technology, mitigating signal loss is a critical aspect of ensuring the efficient transmission of data in optical networks. Bare fiber PLC splitters play a pivotal role in this process by effectively dividing the optical signals without compromising their integrity.
Enhanced Signal Quality
The use of bare fiber PLC splitters not only mitigates signal loss but also enhances the overall signal quality within FTTH networks. By minimizing signal loss and maintaining signal integrity, these splitters ensure that the transmitted data remains consistent and reliable throughout the network.
Efficient Installation Techniques
The installation of bare fiber PLC splitters requires meticulous attention to detail to ensure their seamless integration within FTTH networks. Adopting efficient installation techniques is crucial for optimizing network efficiency and reducing signal loss during the deployment phase.
Splitting ratio
Bare fiber PLC optical splitter can provide different splitting ratios according to needs, evenly distributing the input optical signal to multiple output channels.
Wavelength range
Usually has the characteristics of a wide wavelength range and can support the transmission of optical signals of multiple wavelengths.
Insertion loss
The insertion loss of bare fiber PLC optical splitters is usually low, ensuring the stability and quality of optical signals during transmission.
Cross-coupling
With low cross-coupling, it can reduce optical signal interference between different output channels and improve system reliability.
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1×N (N>2) PLC (Without connector) Optical parameters |
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|
Parameters |
1×2 |
1×4 |
1×8 |
1×16 |
1×32 |
1×64 |
1×128 |
|
Operation Wavelength (nm) |
1260-1650 |
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|
Insertion Loss (dB) Max |
4 |
7.2 |
10.5 |
13.6 |
17.2 |
21 |
25.5 |
|
Return Loss (dB) Min |
55 |
55 |
55 |
55 |
55 |
55 |
55 |
|
50 |
50 |
50 |
50 |
50 |
50 |
50 |
|
|
PDL (dB) Max |
0.2 |
0.2 |
0.2 |
0.25 |
0.25 |
0.3 |
0.4 |
|
Directivity (dB) Min |
55 |
55 |
55 |
55 |
55 |
55 |
55 |
|
WDL (dB) |
0.4 |
0.4 |
0.4 |
0.5 |
0.5 |
0.5 |
0.5 |
|
Pigtail Length (m) |
1.2 (±0.1) or customer specified |
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|
Fiber Type |
SMF-28e with 0.9mm tight buffered fiber |
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|
Operation Temperature (℃) |
-40~85 |
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|
Storage Temperature (℃) |
-40~85 |
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|
Dimension (L×W×H) (mm) |
40×4x4 |
40×4×4 |
40×4×4 |
50×4×4 |
50×7×4 |
60×12×6 |
100*20*6 |
Optical fiber access network
Bare fiber PLC optical splitters are widely used in fiber access networks, including fiber to the home, fiber to the building, etc., to distribute optical signals to multiple user terminals to achieve broadband Access service.
Optical sensor network
In an optical fiber sensor network, bare fiber PLC splitters are used to distribute optical signals to different sensor nodes to achieve monitoring of environmental parameters and data collection.
Data center optical interconnection
In the optical interconnection of data centers, bare fiber PLC splitters are used to distribute optical signals to different servers or storage devices to achieve data transmission and integration.
Installation recommendations
Reasonable layout: When installing a bare fiber PLC splitter, design a reasonable layout plan to ensure that the connection and wiring of the optical fibers comply with optical specifications and avoid bending and stretching of the optical fibers.
Keep it clean: During the installation process, keep the working environment clean to avoid dust and impurities entering the device and affecting the normal operation of the optical device.
Fiber optic connection: Use good quality fiber optic connectors to ensure that the connection port is clean and dust-free, and that the optical fiber is not damaged or bent to ensure the stability and reliability of the connection.
Note
Regular inspection: Regularly check the connection and working status of the bare fiber PLC optical splitter to ensure that the connection port is clean and dust-free, and the optical fiber is not damaged or bent.
Cleaning and maintenance: Regularly clean the optical fiber connectors and interfaces to avoid the impact of dust, grease and other contaminants on optical signal transmission, and maintain the stability and quality of the optical fiber connection.
Dust-proof and moisture-proof: Keep the equipment and fiber optic connection ports in a dry and ventilated environment to avoid the impact of dust and moisture on the equipment and extend the service life of the equipment.
Avoid over-stretching: Avoid over-stretching the optical fiber to prevent fiber damage or connector detachment and ensure the stability and quality of optical signal transmission.
Regular calibration: Regularly calibrate and adjust the bare fiber PLC optical splitter to ensure that its performance and parameters meet the design requirements and improve the stability and reliability of the optical communication system.
We're professional bare fiber plc splitter manufacturers and suppliers in China, specialized in providing high quality custom service. We warmly welcome you to buy cheap bare fiber plc splitter from our factory.
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