Tag Archive | OM5 fiber

OM5 Fiber Cable – Is It Worthwhile for 40G/100G SWDM4 Cabling Solution

OM5 multimode fiber, as the advanced version of the old OM4 fiber, is thought to be the future of multimode cabling. It is the Wideband multimode fiber (WBMMF) that can support wavelengths between 850nm and 953nm. It is also designed to support the short wavelength division multiplexing (SWDM)—one of the new technology for 40G/100G connection. However, will it be the ideal transmission medium for 40GbE/100GbE cabling solution?

How OM5 Fiber Developed

Over the past thirty years, multimode fiber has been evolved from OM1 to OM5 multimode fiber. OM1 and OM2 fiber, released at the end of 20th century, are the legacy 125µm multimode fiber that are working fine in 10Mb/s, 100Mb/s and 1000Mb/s cabling solution. However, with the high speed data rate like 10Gb/s, 40Gb/s, 100Gb/s and beyond coming into our life, multimode cabling (OM1 and OM2 ) with LEDs can not meet the requirement. The laser-optimized OM3 and OM4 has been developed subsequently. OM4 fiber cable, with the internal construction, possess higher modal bandwidth than OM3 fiber, which is commonly used fiber medium for 40G/100G connection.

OM1-OM5 fiber

But there is a problem. In a 40G layout, fiber optic technicians have to use one MTP fiber and 4 OM4 duplex fibers (total 8 fibers), which is obvious not preferable for high-density cabling networks. So here comes the OM5 fiber. By utilizing SWDM technology, it can greatly reduce fiber count into 2 fibers (4×10G) in 40G networks, 2 fibers (4×25G) in 100G links. OM5 is the lime green multimode fiber, displayed as follows.

OM5 Fiber

OM5 Fiber for 40G/100G SWDM4 Cabling Solution

Reduce fiber count for 40G/100G connection—OM5 fiber as the advanced version of OM3/OM4 fiber, is backward compatible with OM3 and OM4 fiber cabling. And with the SWDM technology, this fiber can only use two OM5 fibers and 40/100G SWDM4 transceivers in 40G and 100G SWDM4 cabling.

Longer-transmission distance—OM5 is designed and specified to support at least four WDM channels at a minimum speed of 28Gbps per channel through the 850-953 window. Compared to OM4 fiber cable, it is specified only to work at the 850 nm window. OM5 multimode fiber delivers higher value to network owners for distances up to 440m (for data rates up to 40Gbps), and allows for smooth migration to 400Gbps for distances up to 150m. While OM4 fiber cover the distance of 350m, 100m over 40G/100G respectively.

Easy management & installation—in 40G/100G network, multimode connectivity together with MTP/MPO systems makes for a more user-friendly solution for data centers as well as building and campus backbones, especially in cable installation, troubleshooting, cleaning, and overall maintenance.

FS OM5 Cable Solution

FS offer Lime green OM5 fibers. All our OM5 fiber cables are guaranteed by End Face Geometry Test, Continuity Test, and 3D interferometry Test to be high quality. Available in LC, SC, FC, ST, etc. Connectors, and the cable length of OM5 fiber can be provided from less than 1 meter to more than 100 meters, which will well meet the needs for 400m transmission of 40G SWDM4 QSFP+ module and 100m transmission of 100G SWDM4 QSFP28 module, as well as the links on the same rack or row.

fiber optic cable

Not only the OM1/OM2/OM3/OM4/OM5 multimode fibers are provided at FS.COM, but fiber optic cables like singlemode fibers (OS1/OS2) , Twinax copper cables are also offered. For more information about the cost-effective fiber patch cables, Please feel free to contact us via http://www.fs.com.

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OM5 WB MMF Vs 50 µm Laser Optimized OM4 Vs Single-Mode Fiber Cables

Network speeds like 40G and 100G Ethernet have already become the mainstream in data centers, and the industry is still working collaboratively on the next-generation development for higher density and faster speed. Multimode fibers, for example, are treated as the cost-effective solutions for short-reach optical interconnects. OM5 fiber, certificated in 2016, is know as the wide band multimode fiber (WBMMF) designed to carry signals over short wavelength (850nm to 950nm). Many enterprise IT and data center managers nowadays are adopting single-mode fiber system or OM4 cabling in the network infrastructure. Will OM5 MMF be a good alternative for 40G/100G network system? This article will provide the detailed information about OM5 fibers, and make a clear comparison between OM5, OM4 MMF and single-mode fiber cables.

OM5 fiber

Is OM5 WB MMF Fiber A Good Solution for Data Centers?

No exact answer can be provided here as OM5 MMF is still a new product in 2017.

OM5 MMF fiber has the same geometry as OM4: 50 µm of core size and 125 µm of cladding, which make it fully compatible and intermateable with OM3 and OM4 cabling. OM5 fiber specifies a wider range of wavelengths between 850 nm and 953 nm. The additional specifications of effective modal bandwidth and attenuation at 953 nm is identical to specification of OM4.

It was created to support Shortwave Wavelength Division Multiplexing (SWDM), which is one of the new technologies being developed for transmitting 40 Gb/s, 100 Gb/s, and beyond. With the use of SWDM technology, it is desirable to reduce parallel fiber count by at least a factor of four to allow continued use of just two fibers (rather than eight) for transmitting 40 Gb/s and 100 Gb/s and reduced fiber counts for higher speeds.

OM5 MMF Vs OM4

The 40/100GbE expected maximum operational distances of OM5 fiber is displayed in the above table. OM5 fiber can support longer distance of 440m for 40G SWDM, and 150m for 100G SWDM system.

How Does OM5 Differ From 50 µm Laser Optimized OM4 Fiber?

Wavelength—OM5 WB MMF is intended for operation using vertical-cavity surface-emitting laser (VCSEL) transceivers across the 846 to 953 nm wavelength range, while OM3 and OM4 50 micron laser optimized multimode fiber, whose bandwidth diminishes rapidly above the 850 nm operating wavelength.

OM5_WideBand_Multimode_Fiber_Bandwidth_Comparison

Effective Modal Bandwidth (EMB)—the best system performance is achieved by a combination of low chromatic dispersion and high EMB. OM5 EMB values are specified as following at both 850 and 953 nm.

• EMB>4700 MHz.km at 850 nm
• EMB>2470 MHz.km at 953 nm

However, the OM3/OM4 EMB values are 2000/4700 MHz·km at 850nm. We can see that the OM5 EMB is lower at 953nm compared to 850nm.

More capacity—OM5 is designed and specified to support at least four WDM channels at a minimum speed of 28Gbps per channel through the 850-953 window. Compared to OM4, it is specified only to work at the 850 nm window.

Even though signals illuminating at wavelengths greater than 850 nm will be transmitted by OM3 and OM4, the absence of specification and test data outside the 850 nm window makes it difficult to predict and model the performance of short wavelength-based WDM systems. In conclusion, OM5 is specifically designed to carry at least four channels between 850 nm and 953 nm, and guarantees that capacity increases four times.

• OM5 carries at least 4X more capacity than OM4 over a meter of fiber.
• OM5 carries 5.7X more capacity than OM3 over a meter of fiber.
• OM4 only carries 1.4X more capacity than OM3 over a meter of fiber.

Why Should I Consider OM5 Over Single-mode Fiber?

Cost-effective solution—even thought the costs of single-mode transceivers have declined considerably over the past few years, the delta relative to multimode remains approximately 50%. OM5 MMF fiber allows for more cost-effective migration to transmission speeds up to 400Gbps utilizing lower-cost optics as opposed to single-mode fiber.

Easy management & installation—in 40G/100G network, multimode connectivity together with MTP/MPO systems makes for a more user-friendly solution for data centers as well as building and campus backbones, especially in cable installation, troubleshooting, cleaning, and overall maintenance.

Seamless Migration to 400Gbps—OM5 multimode fiber delivers higher value to network owners for distances up to 500m (for data rates up to 40Gbps), and allows for smooth migration to 400Gbps for distances up to 150m. For distances beyond 500m, single-mode fiber is recommended.

Conclusion

OM5 MMF fiber has a long way to go even though it is being presented as a potential next-generation option for data centers. So far, I don’t see any tempting reasons to recommend OM5 relative to OM4 cables or single-mode fibers for 40G/100G data centers. But FS.COM will keep you upgraded with the latest development of wide band multimode fibers. For more about our 25G/40G/100G optical solutions, please directly visit our website.