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Mitsubishi Electric to Ship Tunable Laser-diode Chip Samples for Optical-Fiber Communication

Optical-Fiber Communication

Mitsubishi Electric announced today that it will begin shipping samples of its new tunable laser-diode chip for use in optical transceivers of optical-fiber communication systems on October 1.

Mitsubishi Electric announced today that it will begin shipping samples of its new tunable laser-diode chip for use in optical transceivers of optical-fiber communication systems on October 1. The new chip is expected to help increase the capacity of digital coherent communication as well as reduce the size of optical transceivers.

Data communication volume is rapidly increasing due to the spread of 5G mobile communication networks and the popularization of video-streaming services. In response, the capacity of high-speed communication needs to be increased from 100Gbps at present to 400Gbps in optical-fiber networks for communication between data centers as well as long distance communication. Therefore, digital coherent communication systems are now being deployed to improve communication efficiency in optical-fiber networks. At the same time, however, optical transceivers must be further downsized to accommodate space limitations in network equipment, but until now tunable laser diodes have been built into packages, making downsizing difficult.

The new chip outputs 1.55μm light wavelength that is used for digital coherent communication. It supports a wide range of wavelengths in compliance with 400Gbps optical-transceiver standard (OIF-400ZR-01.0). Offering the product in the form of a chip will allow manufacturers the flexibility to optimize package designs for specific optical transceivers. The chip’s highly reliable design incorporates semiconductor production technology Mitsubishi Electric developed for the production of distributed-feedback (DFB) laser in mobile base stations and electro-absorption modulator integrated laser diode (EML) in datacenters.

 

Product Features:

Supports wide range of wavelengths for larger-capacity digital coherent communication:

  • The structure comprises 16 DFB lasers with different emission wavelengths, arranged in parallel to support a wide range of wavelengths.
  • Temperature control enables wavelength changes of approximately 2.7nm per channel, achieving 1.55μm emission wavelengths of 1527.994 to 1567.133nm.
  • The above features will contribute to larger-capacity digital coherent communication in compliance with the OIF-400ZR-01.0 standard for 400Gbps optical transceivers.

 

Chip implementation supports downsizing of optical transceivers:

  • Chip mounting enables commonization with other optical components as well as component placement optimized for specific package designs, helping manufacturers to downsize their optical transceivers.

For more information, please visit www.MitsubishiElectric.com

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