Posts tagged: Lightwave

Finisar Wins Lightwave Award for 10G Tunable BiDi SFP+ Transceiver with T2DOC™ Technology at OFC 2018


Finisar was recognized as the winner in the Optical Transceivers and Transponders category of the 2018 Lightwave Innovation Reviews program. The award was announced during a reception at the Optical Fiber Conference (OFC) in San Diego, California last week.

Finisar was awarded with the Finalist title in three categories, and won for 10G Tunable BiDi SFP+ Transceiver with T2DOC™ Technology. The Innovation Reviews are judged based on several criteria including originality, positive impact on the customer, and cost-effectiveness. Finisar was also named a finalist for its Flextune™ Feature of Wavelength-Tunable Optical Transceivers product in the Optical Components category and the 100G QSFP28 eSWDM4 Extended Reach Transceiver product in the Optical Transceivers and Transponders category.

The Lightwave Innovation Reviews Program is presented annually by Lightwave to recognize leading products and solutions available within the optical networking industry. The finalists and winners are determined by a panel of third-party judges from a wide variety of service providers, technology developers, industry analysts, and journalists.

CML and EML see eye to eye

We believe that CML™ (Chirp Managed Lasers); can be a very complementary product (and in some cases even a substitute product) to EML (Electro-Absorption Modulated Lasers).

EMLs have been used as a primary transmitter type in many 10Gb/s module applications. Modules such as the current Finisar 40km/80km TDM and DWDM XFP today use EMLs.

CMLs have slightly different characteristics than EMLs. Specifically, CMLs have back-to-back eye diagrams with lower mask margin than EMLs. On the flip-side, CMLs offer higher output optical power, and much better performance after transmission through fiber.

However, the key point is that CMLs are fully interoperable with EMLs.

In fact, our Chief Scientist Daniel Mahgerefteh published a paper in Lightwave in November 2008 dedicated to this topic. The article, aptly named “CML and EML see eye to eye,” discusses how the two transmitter types are fully interoperable.

So, although CMLs may not win the beauty contest when looked at under a scope, CMLs will enable better performance over fiber. As Daniel so eloquently put it, “Using mask as a measure of performance is similar to trying to determine the speed of two race cars by comparing how clean their engines appear rather than by which of them crosses the finish line first.”

In addition, CML-based XFPs have very nice features not offered by EML:
• CMLs can work on 50GHz ITU grids (currently EMLs are only available on 100 GHz grid);
• CMLs offer 4x100GHz/8x50GHz narrow tunability;
• CMLs support L-band as well as C-band (EMLs only currently support C-band); and
• Inherent immunity to SBS (Stimulated Brillouin Scattering)

What are your thoughts on the differences between CMLs and EMLs? Feel free to let us know in the comments below.