POET Technologies offers 100G LR4 optical engine as first telecom product

May 7, 2021
The device, alpha samples of which should be available in the third quarter of this year, leverages the company’s POET Optical Interposer and photonic integrated circuits (PICs) to deliver lower cost and power consumption.

Toronto-based POET Technologies Inc. (TSX Venture: PTK; OTCQX: POETF) has announced its first product for the telecommunications market, a 100G LR4 optical engine. The device, alpha samples of which should be available in the third quarter of this year, leverages the company’s POET Optical Interposer and photonic integrated circuits (PICs) to deliver lower cost and lower power consumption than available alternatives, the company asserts. The company earlier announced development of a device for CWDM4 requirements.

The Optical Interposer benefits from POET’s expertise in dielectric waveguides. While described in the past in terms that would imply application to co-packaged optics (see “POET Technologies optical interposer platform for electronic and optical component co-packaging in single MCM unveiled”), the technology also can be applied to optical transceivers, as in this implementation. Here, the optical engine converts four input channels of 25-Gbps electrical data into four LAN WDM optical signals and then multiplexes them into a single 100-Gbps optical channel. The engine is the first in a series POET plans to develop for this application; they include an Rx device as well as a combined Tx/Rx engine as well as this TX-only iteration.

“POET’s integrated monolithic multiplexer significantly reduces the cost of the optical engine, allowing us to provide a savings to customers in the range of 25%,” commented Vivek Rajgarhia, POET Technologies’ president and general manager. “By flip-chipping four DML lasers onto an Optical Interposer with inherently superior thermal management and the ability to tune the waveguides to specific center wavelengths, we are able to design an optical engine that uses 10% to 15% less power to deliver data at the same speed and over the same distance as comparable modules.”

The engines will pair with 25-Gbps directly modulated lasers (DMLs) from Sanan Integrated Circuits. The lasers have been independently tested and validated to operate to LR4 specifications and are in qualification, according to POET. Sanan also will source the monitor photodiodes and the high-speed photodiodes that complete the bill of materials for the optical engine.

Production will take place at Super Photonics Xiamen (SPX), a joint venture between POET and Sanan. SPX has received the equipment necessary to assemble the optical engines, an endeavor that should begin later this quarter, POET states. The company says it has signed a pair of alpha customers for the first samples.

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About the Author

Stephen Hardy | Editorial Director and Associate Publisher, Lightwave

Stephen Hardy is editorial director and associate publisher of Lightwave and Broadband Technology Report, part of the Lighting & Technology Group at Endeavor Business Media. Stephen is responsible for establishing and executing editorial strategy across the both brands’ websites, email newsletters, events, and other information products. He has covered the fiber-optics space for more than 20 years, and communications and technology for more than 35 years. During his tenure, Lightwave has received awards from Folio: and the American Society of Business Press Editors (ASBPE) for editorial excellence. Prior to joining Lightwave in 1997, Stephen worked for Telecommunications magazine and the Journal of Electronic Defense.

Stephen has moderated panels at numerous events, including the Optica Executive Forum, ECOC, and SCTE Cable-Tec Expo. He also is program director for the Lightwave Innovation Reviews and the Diamond Technology Reviews.

He has written numerous articles in all aspects of optical communications and fiber-optic networks, including fiber to the home (FTTH), PON, optical components, DWDM, fiber cables, packet optical transport, optical transceivers, lasers, fiber optic testing, and more.

You can connect with Stephen on LinkedIn as well as Twitter.

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