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WideBand Multimode Fiber
To meet the challenges associated with escalating data rates and the ongoing need to build cost-effective infrastructure that can support bandwidth needs today and in the future, CommScope has developed LazrSPEED® OM5 WideBand Multimode Fiber (WBMMF) cabling solutions, which enhance the ability of short-wavelength division multiplexing (SWDM) technology to provide at least a four-fold increase in usable bandwidth. OM5 maintains compatibility with OM3 and OM4 fibers and supports all legacy multimode applications.
LazrSPEED OM5 WBMMF expands the specified high-bandwidth operating wavelength spectrum from a single wavelength at 850 nm to a range of more than 100 nm that includes 850 nm through 950 nm. This wide specification range enhances SWDM technology’s capability to transmit 40G and 100G over a single pair of fibers and to drastically increase the capacity of parallel-fiber infrastructure, opening the door to four-pair 400GE and terabit applications.
OM5 and OM3/OM4 Comparison
- Total bandwidth is the result of combining modal bandwidth and chromatic bandwidth.
- Two grades of laser-optimized MMF are widely used today:
- OM3 is specified at 850 nm,
- OM4 delivers higher bandwidth than OM3 at 850 nm.
- LazrSPEED OM5 WideBand extends the capability of OM4 across enough spectrum to support at least four low-cost multiplexed wavelengths.
Features and Benefits of SWDM and LazrSPEED OM5 WideBand Solution:
- Retains legacy application support of OM4
- Increases capacity to > 100G per fiber
- Enables single-pair Ethernet at 40G and 100G
- Enables single-pair Fibre Channel at 128G
- Reduces parallel fiber count by factor of 4
- Extends MMF utility as universal medium
- Matches footprint of InstaPATCH 360DM module
- Fits the UD and HD fiber shelves, as well as existing 360G2 and UHD shelves
White Paper: Wideband Multimode Fiber – What is it and why does it make sense?Wideband multimode fiber - high speed migration for local area network backbones and data centers.
Intertek ETL Witness ReportThis letter represents the results of the evaluation and tests of the OM3, OM4 and wideband multimode fiber for Differentiation Mode performance.
July 15, 2019