NeoPhotonics Announces Ultra-Narrow Linewidth Laser for Low Earth Orbit Satellite Applications
March 07 2022 - 7:31AM
Business Wire
Radiation Tolerant Coherent Low Noise Tunable
Laser has Enhanced Flexible Software to Extend Operating Life in a
Radiation Environment Without Compromising Performance
NeoPhotonics Corporation (NYSE: NPTN), a leading developer of
silicon photonics and advanced hybrid photonic integrated
circuit-based lasers, modules and subsystems for
bandwidth-intensive, high-speed communications networks, today
announced its new Radiation Tolerant version of its industry
leading Nano ultra-pure light tunable laser which has been designed
for use in low earth orbit satellite communications applications.
NeoPhotonics’ current Nano-ITLA laser is in high volume production
for terrestrial fiber optics applications and is used by many of
the leading optical networking companies in their most advanced
coherent pluggable modules and high-speed embedded systems. This
new radiation tolerant laser introduces enhancements including an
adaptive approach to achieve extended lifetime operation of the
proven Nano laser hardware in a radiation flux environment to
enable reliable operation in space without compromise to
performance and stability.
Multiple companies are now deploying or developing
constellations of low earth orbit satellites to bring high
bandwidth communications to areas not currently served by wireless
infrastructure. These constellations consist of thousands of
satellites which must have high bandwidth connections between them
to avoid service drop-outs. These satellite-to-satellite
communications links are now shifting from micro-wave to coherent
optical technology, taking advantage of the vast increase in
transmission capacity developed for terrestrial fiber optic
communications, where 800Gbps is now regularly transmitted on a
single wavelength.
While coherent communications technology is now highly advanced,
space is a hostile environment for the electronics and related
hardware used in telecommunications, largely due to radiation
impacts from galactic cosmic rays, high-energy particles from the
sun, and particles trapped by the earth’s magnetic field. Special
‘radiation hardened’ electronic devices, which are more robust than
those typically used on the ground, are often used to mitigate
these issues, but they can add significantly to cost. For the
lasers used in coherent communication, the control electronics are
often more vulnerable to these radiation effects than the laser
itself.
One example of the laser control subsystem electronics which is
particularly vulnerable to ionizing radiation is the memory (RAM
and FLASH) that microprocessors rely on. While radiation effects on
memory can be lessened by using special packaging or by more
expensive hardware components, the effects of ionizing radiation on
memory corruption can also be mitigated by incorporating radiation
tolerant software enhancements, resulting in greatly improved
reliability, recovery and resilience, as has been demonstrated
during laboratory testing designed to simulate low earth orbit
conditions
“NeoPhotonics has been a leader in the design, development and
high-volume production of ultra-narrow linewidth tunable lasers for
coherent communications over the last decade, and we are excited to
offer our high performance to the exciting new application of
satellite communications” said Tim Jenks, Chairman and CEO of
NeoPhotonics. “We have used our long experience and deep
understanding of lasers technology to develop an innovative
software-centric approach to radiation tolerance that speeds time
to market, while maintaining performance and limiting costs,”
concluded Mr. Jenks.
About NeoPhotonics
NeoPhotonics is a leading developer and manufacturer of lasers
and optoelectronic solutions that transmit, receive and switch
high-speed digital optical signals for Cloud and hyper-scale data
center internet content provider and telecom networks. The
Company’s products enable cost-effective, high-speed over distance
data transmission and efficient allocation of bandwidth in optical
networks. NeoPhotonics maintains headquarters in San Jose,
California and ISO 9001:2015 certified engineering and
manufacturing facilities in Silicon Valley (USA), Japan and China.
For additional information visit www.neophotonics.com.
Legal Notice Regarding Forward-Looking Statements
This press release includes statements that qualify as
forward-looking statements under the Private Securities Litigation
Reform Act of 1995, including anticipated performance of
NeoPhotonics’ products. Readers are cautioned that these
forward-looking statements involve risks and uncertainties and are
only predictions based on the company’s current expectations,
estimates and projections. Product availability, product
performance, product development, the timing of events, and actual
company results could differ materially from those anticipated in
such forward-looking statements as a result of these risks,
uncertainties and assumptions. Certain risks and uncertainties that
could cause the company’s results to differ materially from those
expressed or implied by such forward-looking statements as well as
other risks and uncertainties relating to the company’s business,
are described more fully in in the Company’s Annual Report on Form
10-K for the year ended December 31, 2021, filed with the
Securities and Exchange Commission.
©2022 NeoPhotonics Corporation. All rights reserved.
NeoPhotonics and the red dot logo are trademarks of NeoPhotonics
Corporation. All other marks are the property of their respective
owners.
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