Space Flight Laboratory
(SFL) Awarded Development and Production Support
Contract for 15 Additional HawkEye 360 Radio
Frequency Geolocation Microsatellites
Nov. 14, 2022
Space Flight Laboratory (SFL)
has been contracted to support development of
Clusters 7 through 11 in the HawkEye 360 radio
frequency (RF) geolocation microsatellite
constellation. Under the Flex Production program,
SFL is designing, assembling, and integrating
Cluster 9 at its Toronto headquarters and is
providing technical support for the integration of
Clusters 7, 8, 10 and 11 at HawkEye 360's new
manufacturing facility in Virginia. Each cluster
includes three microsatellites.
HawkEye 360 staff complete
integration of Cluster 7 satellites with technology
and training from SFL. (Photo courtesy of HawkEye
360).
HawkEye 360 staff complete
integration of Cluster 7 satellites with technology
and training from SFL. (Photo courtesy of HawkEye
360).
Created with NewSpace companies
in mind, the SFL Flex Production program gives
customers the option of contracting SFL to
completely develop the first satellite, or satellite
cluster, in a Microspace constellation at its
Toronto facility. SFL then assists the customer in
setting up subsequent mass production at their own
site or another site. However, development can shift
back to SFL when a new spacecraft design or
technology update is needed.
"Flex Production offers
NewSpace companies the best of two worlds – they can
leverage SFL's Microspace expertise while satisfying
the financial requirements of the NewSpace business
model," said SFL Director Dr. Robert E. Zee.
"NewSpace companies can mass produce satellites
inhouse at a price point that works for them."
Designing new satellites and
upgrading technologies require workflows and
personnel that are often different from the
processes related to production of duplicate
follow-on spacecraft, Zee explained. Progressive
development of smaller satellite technology is the
strength of Microspace businesses like SFL, he
added.
Under the Flex Production
program, SFL offers customers a variety of options
as to the level of production they want to bring
inhouse. For customers without their own production
capabilities, SFL continues to maintain the capacity
to develop complete smallsat, microsatellite,
nanosatellite, and CubeSat missions in Toronto. SFL
also has third-party partnerships to mass produce
satellites at another facility when high volume
and/or rapid cadence is required.
The HawkEye 360 Constellation
detects and geolocates RF signals for maritime
situational awareness, emergency response, national
security, and spectrum analysis applications. Each
new cluster expands HawkEye 360's global revisit and
collection capacity.
SFL developed the
three-satellite Pathfinder Cluster on its 15-kg NEMO
bus and then built Clusters 2, 3, 4, 5, and 6 on its
space-proven 30-kg DEFIANT microsatellite bus. The
first five clusters are now operating successfully
in orbit with Cluster 6 expected to launch on Rocket
Lab's inaugural Electron mission from Wallops
Island, Va., as early as December 2022.
SFL has been selected for the
HawkEye 360 missions due to the importance of
formation flying by multiple satellites for
successful RF geolocation. SFL is the acknowledged
leader in developing and implementing
high-performance attitude control systems that make
it possible for relatively low-cost nanosatellites
and microsatellites to fly in stable formations
while in orbit.
SFL is a unique microspace
provider that offers a complete suite of nano-,
micro- and small satellites – including
high-performance, low-cost CubeSats – that satisfy
the needs of a broad range of mission types from 3
to 500 kilograms. Dating from 1998, SFL's heritage
includes 61 operational successes and 30 currently
under construction or awaiting launch. These
missions relate to Earth observation, atmospheric
monitoring, ship tracking, communication, radio
frequency (RF) geolocation, technology
demonstration, space astronomy, solar physics, space
plasma, and other scientific research.
In its 24-year history, SFL has
developed CubeSats, nanosatellites, and
microsatellites that have achieved more than 215
cumulative years of operation in orbit. These
microspace missions have included SFL's trusted
attitude control and, in some cases,
formation-flying capabilities. Other core
SFL-developed components include modular (scalable)
power systems, onboard radios, flight computers, and
control software.
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