A multimode fiber splitter is an optical power distribution device based on multimode fiber planr lightwave circuit technology. Its core function is to split and combine optical signals through the principles of light interference and diffraction. In fiber optic communication systems, it is primarily used to proportionally distribute the optical signal from a single fiber to multiple output fibers, or to combine multiple signals onto a single fiber for transmission.
Multimode Fiber Splitter Functions
With more than 15 years of manufacturer experience in fiber optic splitter, Yingda has extensive R&D and production capabilities, timely delivery capabilities, and complete supply chain support. We can help customers customize multimode fiber splitter styles features low loss, and high quality.
Multimode splitter performance metrics such as splitting ratio and insertion loss directly impact transmission efficiency. For example, low insertion loss reduces signal attenuation, while a uniform splitting ratio ensures balanced power distribution across ports. Compared to single mode splitters, multimode splitters typically operate in a dual-window mode of 850nm/1310nm, making them suitable for short-distance, high-bandwidth multimode fiber communications.
✅Short-Distance, High-Bandwidth Transmission
Based on OM3/OM4/OM5 multimode fiber with 50/125um specifications, multimode optical splitter supports 40G/100G Ethernet transmission at an 850nm wavelength. Typical applications include high-speed interconnection between server clusters.
Using wavelength division multiplexing (SWDM) technology, it enables multi-wavelength transmission between 850nm and 950nm, improving bandwidth utilization.
✅Cabinet-Level Signal Distribution
A 1×8 fiber optic splitter or 1×16 optical splitter is used within the cabinet to distribute optical signals from the backbone fiber to multiple servers, reducing cabling complexity.
In fiber-optic sensor networks for temperature, pressure, and other applications, multimode optical splitters are used to achieve multi-point signal acquisition, making them suitable for scenarios such as oil pipeline and power equipment monitoring.
Laboratory Test Environment: Used for performance verification of short-distance optical communication modules, and combined with a multimode light source to quickly establish test links.
Fiber type | Fiber grade | All mode bandwidth(MHz*km) | Effective mode bandwidth(MHz*km) | 1Gbps /distance | 10Gbps/distance | |||
@850nm | @1300nm | @850nm | @850nm | @1300nm | @850nm | @1300nm | ||
Standard 62.5/125um | OM1 | 200 | 500 | 220 | 275 | 550m | 33m | 300m |
Standard 50/125um | OM2 | 500 | 500 | 510 | 500 | 1000m | 66m | 450m |
50/125um-150 | OM3 | 700 | 500 | 850 | 750 | 550m | 150m | 300m |
50/125um-300 | OM3 | 1500 | 500 | 2000 | 1000 | 550m | 300m | 300m |
50/125um-550 | OM4 | 3500 | 500 | 4700 | 1000 | 550m | 550m | 550m |
No minumum order quantity request, please send us inquiry, let's talk.
Yingda are fiber optic splitter manufacturer, no middle man, competitive price help you win more market.
It depends, our production time is fast, multimode fiber will a little longer than singlemode fiber, if there is no splitter chip.
Data center is high density, high bandwidth requirements, suggest to use MPO connectors instead of SC LC connectors to save fiber optic cable deploying.
Yingda are rich in design and research of various types of fiber optic splitter, no matter multimode splitter or single mode splitter. Send inquiry to our sales teams for more information.
High productivity efficiency, skilled front-line operators and strict production control ensure timely delivery.
High-precision testing equipment and top industry quality control system ensure high quality standards.
Long-term stable supply chain and cost control that changes in line with market trends ensure the best price
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