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In modern optical communication networks, fiber optic splitters play a crucial role in signal distribution and transmission. The 850nm 2×2 Filter Type Multimode Fiber Splitter is a high-performance passive device known for its efficient light splitting, low insertion loss, and high reliability. It is widely used in data centers, local area networks (LANs), and industrial communication systems. This article will explore its technical features, working principles, application scenarios, and advantages in optical networks.
1. Key Features of the 850nm 2×2 Filter Type Multimode Fiber Splitter
1.1 Main Specifications
The 850nm 2×2 Filter Type Multimode Fiber Splitter is a passive optical component based on filtering technology. Below are its key specifications:
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850nm 2×2 Filter Type Multimode Fiber Splitter
$60.00 – $120.00
| Parameter | Specification |
|---|---|
| Operating Wavelength | 850nm |
| Configuration | 2×2 |
| Fiber Type | Multimode Fiber (MMF) |
| Insertion Loss (IL) | ≤ 3.8dB |
| Splitting Ratio | 50:50 (customizable) |
| Return Loss | ≥ 20dB |
| Polarization Dependent Loss (PDL) | ≤ 0.2dB |
| Operating Temperature | -40℃ to +85℃ |
| Storage Temperature | -40℃ to +85℃ |
2. Working Principle of the 850nm 2×2 Filter Type Multimode Fiber Splitter
This fiber splitter operates based on optical filtering technology. Its working process can be summarized as follows:
- Optical Signal Input: When an 850nm wavelength optical signal enters the splitter, it undergoes a controlled attenuation and splitting process.
- Filtering and Splitting: The device uses thin-film filtering technology to divide the optical signal according to the preset splitting ratio (e.g., 50:50).
- Signal Output: The optical signals are then transmitted to two output ports with minimal loss, ensuring efficient light distribution.
Compared to traditional Fused Biconical Taper (FBT) and Planar Lightwave Circuit (PLC) splitters, the filter-type splitter offers lower insertion loss and higher wavelength selectivity, making it particularly suitable for multimode fiber networks.
3. Application Scenarios
3.1 Data Center Optical Networks
With the rapid growth of data traffic, data centers require efficient fiber optic architectures to support low-latency, high-bandwidth communication. The 850nm 2×2 Filter Type Multimode Fiber Splitter is ideal for parallel optical transmission applications, such as Fiber Channel and 10G/40G/100G Ethernet interconnects.
3.2 Local Area Networks (LANs)
Businesses and campus networks commonly use multimode fiber for short-distance, high-speed data transmission. This fiber splitter optimizes signal distribution, enhancing network performance and flexibility.
3.3 Industrial Automation and Sensing Networks
In industrial communication systems, such as smart manufacturing and the Industrial Internet of Things (IIoT), multimode fiber is favored for its strong resistance to electromagnetic interference and high reliability. The 850nm 2×2 filter-type fiber splitter is widely used in fiber optic sensing applications, ensuring stable data transmission.
4. Advantages of the 850nm 2×2 Filter Type Multimode Fiber Splitter
4.1 Low Insertion Loss, High Signal Fidelity
Compared to traditional FBT splitters, the filter-type splitter significantly reduces insertion loss, ensuring high-precision data transmission.
4.2 High Reliability and Environmental Adaptability
With an operating temperature range of -40℃ to +85℃, this splitter is designed to perform reliably in extreme environments, making it suitable for outdoor fiber networks and industrial applications.
4.3 Optimized for Short-Distance High-Speed Communication
Since 850nm is the optimal wavelength for multimode fiber transmission, this splitter greatly enhances the performance of short-distance, high-speed communication networks, such as in data centers.
4.4 Customizable Splitting Ratio
Besides the standard 50:50 ratio, the splitter supports customized configurations (e.g., 70:30, 60:40), catering to different network architectures.
5. Key Considerations When Choosing an 850nm 2×2 Filter Type Multimode Fiber Splitter
When selecting this type of fiber splitter, consider the following factors:
- Insertion Loss: Lower insertion loss ensures better signal quality.
- Return Loss: Higher return loss reduces reflection interference and improves network stability.
- Splitting Ratio: Choose the appropriate ratio based on specific network requirements.
- Operating Environment: Ensure the splitter can function within the required temperature range.
- Fiber Compatibility: Verify that the splitter matches the multimode fiber type used in your network.
6. Conclusion: Fiber-Life Offers High-Quality 850nm 2×2 Filter Type Multimode Fiber Splitters
As a professional fiber optic solutions provider, Fiber-Life offers high-performance 850nm 2×2 Filter Type Multimode Fiber Splitters designed for low insertion loss, high reliability, and efficient optical signal distribution. Our splitters are widely used in data centers, LANs, industrial automation, and other fields requiring short-distance high-speed communication.
If you’re looking for high-quality fiber optic splitters, Fiber-Life provides expert solutions tailored to your needs, ensuring a more efficient and stable optical communication network.
For more details or to request a quote, visit Fiber-Life’s website or contact our sales team!
