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Starlink Group 6-93 originally planned for Saturday, May 3, is now targeting Tuesday, May 6 for a Falcon 9 launch of 28 Starlink smallsats to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida. These satellites will add to SpaceX’s Starlink smallsat constellation. Liftoff is targeted for 8:22 p.m. ET, with backup opportunities available until 12:22 a.m. ET on Wednesday, May 7. If needed, additional opportunities are also available on Wednesday, May 7 starting at 7:30 p.m. ET.

A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch on X @SpaceX. You can also watch the webcast on the new X TV app.

This is the seventh flight for the first stage booster supporting this mission, which previously launched Crew-9, RRT-1, Firefly Blue Ghost Mission 1, Fram2 and two Starlink missions. Following stage separation, the first stage will land on the Just Read the Instructions droneship, which will be stationed in the Atlantic Ocean.

The Falcon 9 first stage will attempt to land on one of two East Coast ASDS after its flight. The mission costs $52 million.

As Eutelsat moves into the next phase after the integration with OneWeb and fully aligned with an IRIS2 future, the company has appointed Jean-François Fallacher as the firm’s new CEO.

The appointment was decided at a Board Meeting held on May 4th, 2025, upon the recommendation of the Nomination and Governance Committee, and will be effective on June 1st, 2025. This appointment comes as a natural change that fully aligns Eutelsat to the telecom ecosystem.

A seasoned telecoms professional, Jean-François Fallacher joins Eutelsat following a lengthy career at Orange where he was latterly Executive Vice President and Chief Executive Officer of Orange France. Prior to that, he led Orange’s operations in various countries including Spain, Romania and Poland.

Before his career at Orange, Jean-François Fallacher held several roles in R&D, sales and operations, including Chief Operating Officer of Wanadoo in the Netherlands and Chief Executive Officer of Sofrecom, a consulting company specializing in the telecoms sector. A French national, Jean-François Fallacher is a graduate of the Ecole Polytechnique and Ecole Nationale Supérieure des Télécommunications in Paris.

Jean-François Fallacher succeeds Eva Berneke, who has steered the company since January 2022, presiding over some of its most significant strategic and operational achievements. These include the merger with and integration of OneWeb in 2023 to create the world’s only LEO / GEO satellite operator, its appointment as one of the core players in the planned EU IRIS2 multi-orbit constellation, and the pioneering disposal of its passive ground segment, the first operation of its type among satellite operators.

Dominique D’Hinnin, Chairman of the Board of Directors of Eutelsat, said, “On behalf of myself, Vice-Chairman Sunil Bharti Mittal, and the other members of the Board, I warmly thank Eva Berneke for her dynamic and committed leadership through these significant milestones in Eutelsat’s development and for delivering on our telecoms pivot strategy, in a period that has seen significantly increased competitive and geopolitical pressure. I am delighted to welcome Jean-François Fallacher as he picks up the baton from Eva. With his proven track record of success and wealth of experience and expertise, I am convinced he is the right leader to take Eutelsat forward and successfully steward the company through the opportunities and challenges which will undoubtedly present themselves in the coming years.”

Jean-François Fallacher said, “I am excited to be joining Eutelsat at such a pivotal moment in its history. Technology is evolving faster than ever, and in today’s increasingly complex geopolitical context, satellite networks have become a key element in the Connectivity landscape. I am convinced Eutelsat has the fundamentals to be a winner in this environment, and I look forward to building on Eva’s foundations, and working with its talented teams to ensure we achieve our goals.”

In collaboration with NASA’s Space Technology Mission Directorate, DARPA recently released the Lunar Assay via Small Satellite Orbiter (LASSO) solicitation.

The LASSO program aims to develop technologies to support significantly increasing the U.S.’ ability to conduct operations in support of space situational awareness (SSA) by developing autonomous satellite navigation in stressing orbital conditions and increasing satellite maneuverability through continuous dynamic repositioning based on changing conditions, with the added benefit of creating a proven reserve model for resources relevant to ISRU (In-Situ Resource Utilization) on Earth’s Moon.

LASSO supposes that high resolution measurements of resources across the entire lunar surface is the most compelling commercial application to drive optimized performance in propulsion system and GNC design.

The program seeks performers to design, test, build, and deliver a spacecraft capable of determining all areas on the Moon that contain greater than 5% water concentration with a resolution of no larger than four-square kilometers.

LASSO is focused on developing technologies for use in lunar orbit and does not intend to use any equipment on the lunar surface.

To download all of the solicitation attachments and links,
access this direct SAM.Gov infolink…

AAC Clyde Space has won an order valued at 570,000 euros for PCDU-systems (Power Conditioning and Distribution Unit)—delivery is scheduled for March of 2026. The costumer is a European satellite manufacturer.

We are proud to see our Starbuck MINI technology continuing to earn the trust of leading players in the space sector. Its proven reliability and performance make it a preferred choice for advanced satellite missions,” said AAC Clyde Space CEO Luis Gomes.

About Starbuck MINI
Starbuck MINI is an advanced PCDU developed by AAC Clyde Space. Often described as the electrical heart of a satellite, it manages and distributes power to all onboard systems, ensuring stable and efficient operation throughout the mission.

Originally designed for small satellites, Starbuck MINI has become a trusted standard in the industry thanks to its reliability, robust design and strong performance. It is used in a wide range of leading-edge space missions, including ESA’s Arctic Weather Satellite, Astroscale’s orbital debris removal service, and the lunar lander Nova-C developed by Intuitive Machines.

The launch of SpaceX’s Starlink Group 15-3 has been moved out several times most recently appearing as through mid-day Saturday and then Sunday would be the day at Vandenberg. However, the mission disappeared from the list of upcoming SpaceX launches and federal notices that warn pilots of upcoming launch plans. Additionaly, they have been removed without a mention of a new targeted attempt. SpaceX did not explain the reason for the delay.

Lompoc Valley residents on Friday, witnessed SpaceX conducting a static fire test that counts down and fires the engines while the rocket remains standing at Space Launch Complex-4.

Even though the test to check various systems and detect any possible problems seemingly went well causing SpaceX to confirm plans to attempt to launch the rocket this weekend, obviously that didn’t happen.

The most current information now indicates Friday, May 9th, at 5:00 PM – 9:00 PM PDT.

The forecast next Friday calls for a temperature of 57°F, broken clouds, 82% cloud cover and a wind speed of 14mph.

SpaceX weather delays Starlink launch of Group 15-3 smallsats

It’s no surprise that the potential weather issues on May 3, with 100% cloud cover was the reason that the Starlink Group 15-3 of 29 smallsats launch was scrubbed and is tentatively rescheduled for Sunday, May 4 from Vandenberg Space Force Base. Liftoff is targeted for 4:53 a.m. ET, with backup opportunities available until 8:48 a.m. ET. If needed, additional opportunities are also available on Monday, May 5 starting at 4:22 a.m. ET.

A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the new X TV app.

This is the 20th flight for the first stage booster supporting this mission, which previously launched Crew-6, SES O3b mPOWER-B, USSF-124, Bluebird 1-5, and 15 Starlink missions. Following stage separation, the first stage will land on the A Shortfall of Gravitas droneship, which will be stationed in the Atlantic Ocean.

The weather forecast for Vandenberg Space Force Base includes overcast clouds, 100% cloud cover, and 21 mph winds. This launch was expected to deploy 26 Starlink satellites into low Earth orbit, and will further add to the Starlink smallsat constellation.

The Falcon 9 first stage will attempt to land on ASDS OCISLY in the Pacific Ocean after its flight. The mission costs $52 million.

SpaceX’s Saturday launch of Starlink’s Group 15-3 smallsats may have weather issues

On Saturday, May 3, Falcon 9 will launch 26 smallsats of Starlink Group 15-3 into low Earth orbit at 11:27 AM – 3:55 PM PDT from Vandenberg for the Starlink smallsat constellation.

The forecast calls for a temperature of 56°F, overcast clouds, 100% cloud cover and a wind speed of 21mph.

The Falcon 9 first stage will attempt to land on ASDS OCISLY in the Pacific Ocean after its flight. The mission costs $52 million.

Terran Orbital Corporation has been selected by the U.S. Space Force as one of 12 companies awarded a position on the Space Test Experiments Platform (STEP) 2.0 contract.

This 10-year, $237 million, Indefinite Delivery/Indefinite Quantity (IDIQ) contract, administered by Space Systems Command, supports the Department of Defense’s broader Space Test Program (STP) to accelerate the deployment and validation of advanced space-based technologies.

As part of STEP 2.0, Terran Orbital will compete for task orders to develop and deliver modular small satellite buses capable of hosting a wide range of experimental payloads, from new sensors to cutting-edge communications and navigation systems. These spacecraft, typically the size of a microwave or small refrigerator, serve as adaptable platforms to carry out critical technology demonstrations that will inform future military space architectures.

The STEP 2.0 contract is designed to streamline the path from concept to orbit for Department of Defense experiments by leveraging commercial space industry capabilities. The initiative also aims to reduce historic delays associated with aligning payload availability and launch opportunities by bundling multiple experiments onto standardized spacecraft and enabling frequent commercial rideshare launches.

Terran Orbital’s proven manufacturing scalability, rapid integration capabilities, and mission flexibility make it uniquely positioned to support this critical program and contribute to the modernization of U.S. military space operations.

Other companies selected for the contract include Lockheed Martin, General Atomics, Blue Canyon Technologies, Loft Orbital, Spire Global, York Space Systems, and several emerging space technology providers.

Terran Orbital is proud to be selected for the STEP 2.0 initiative and to continue our long-standing partnership with the U.S. Space Force,” said Peter Kraus, President and Chief Executive Officer of Terran Orbital. “This award underscores our commitment to advancing national security through innovative, flight-proven small satellite solutions.”

About Terran Orbital
Terran Orbital, a Lockheed Martin Company, is a leading manufacturer of satellite solutions. It provides end-to-end mission services for commercial and government customers. Terran Orbital specializes in designing, building, and operating advanced satellite systems, leveraging cutting-edge technologies to support national security, scientific research, and commercial applications.

Aerospacelab, in partnership with Mitsui Bussan Aerospace (MBA), proudly announces its selection by the Japan Exploration Agency (JAXA) to supply the platform that will host JAXA’s SAMRAI payload as part of a demonstration mission—this contract represents an important step in showcasing innovative international satellite solutions. 

This first partnership with both MBA and JAXA highlights Aerospacelab’s expansion into new markets and underscores its emergence as a trusted global partner in high-performance, cost-effective satellite platforms, further strengthening its position in the growing Japanese space market. This commercial agreement was made possible through the strategic support of Mitsui Bussan Aerospace, whose deep market knowledge and facilitation were key to establishing this partnership. 

This partnership with Mitsui Bussan Aerospace and JAXA represents a major milestone for us”, said Benoît Deper, CEO of Aerospacelab. “Being selected and recognized as a trusted partner by JAXA is a tremendous honor and a clear endorsement of our technology, innovation, and commitment to delivering competitive, high-performance spacecraft. We’re especially grateful to Mitsui Bussan Aerospace for their invaluable support in enabling this mission. We are beyond excited to embark on this journey.”

Morihiro Aoki, CEO of Mitsui Bussan Aerospace, said, “We are honored to provide our service with Aerospacelab to JAXA playing a great role in the space development here in Japan. By combining our expertise with innovative technology and experience by Aerospacelab, we will dedicate all our strength to achieve success in this groundbreaking project.” 

Further details regarding this contract between Aerospacelab, MBA and JAXA and its broader scope will be disclosed in the coming months as additional aspects are unveiled. This initial announcement serves as the foundation for what promises to be a pioneering endeavor in the field of space technology. 

Aerospacelab, founded in 2018, develops, manufactures, and operates cutting-edge Earth Observation and Telecommunications satellites at scale. In 2024, the successful acquisition of AMOS marked an important milestone, further enhancing optical capabilities and introducing high-end payloads to Aerospacelab’s growing portfolio, while strengthening its global position.   

With operations strategically positioned, including its Headquarters in Belgium and a factory in the U.S. (California), Aerospacelab is able to deliver innovative solutions to an expanding customer base worldwide. In 2026, Aerospacelab is set to unveil The Megafactory, Europe’s upcoming largest satellite manufacturing facilities, demonstrating its ambitious vision to shape the future of the aerospace industry. 

The U.S. Space Force (USSF) Space Systems Command’s (SSC) Department of Defense (DOD) Space Test Program (STP) office is paving the way to procure full lifecycle solutions for Science & Technology experiments through a Space Test Experiments Platform (STEP) 2.0 contract awarded to 12 vendors.

STEP 2.0 establishes a 10-year multi-award Indefinite Delivery Indefinite Quantity (IDIQ) contract with a $237 million ceiling to bolster spacecraft procurement within STP. The first STEP 2.0 Delivery Order is scheduled to start in January 2026.

Under the purview of Space Systems Command, STP plays a crucial role in facilitating experimental payload access to the space domain. Working in collaboration with government agencies, industry, and academia, the program aims to demonstrate promising technologies to aid the warfighter. By leveraging commercially developed spacecraft and fostering industry partnerships, STEP 2.0 aims to accelerate the development of cutting-edge space technologies over the next decade for the DoD and their mission partners.

The 12 vendors selected for this award are:

Axient LLC
Blue Canyon Technologies, LLC
General Atomics
Lockheed Martin Corp.
Loft Orbital Federal LLC
Lynk Global LLC
Orbit Systems LLC
Spire Global Subsidiary Inc.
Turion Space Corp.
Tyvak Nano-Satellite Systems Inc.
Utah State University Space Dynamics Lab
York Space Systems LLC

The DoD Space Test Program will gain measurable value from leveraging industry insights and capabilities to provide proven spacecraft to host the DoD’s next generation of space technologies,” said SSC director of the DoD Space Test Program, USSF Lt. Col. Brian Shimek.

SSC is the USSF’s field command responsible for acquiring, developing, and delivering resilient capabilities to protect our nation’s strategic advantage in, from, and to space. SSC manages a $15.6 billion space acquisition budget for the Department of Defense and works in partnership with joint forces, industry, government agencies, academic, and allied organizations to outpace emerging threats. Our actions today are making the world a better space for tomorrow.

NEXT Semiconductor Technologies is collaborating with BAE Systems to accelerate the insertion of its latest, ultra-wideband, antenna processor units (APUs) into high-performing, radiation-hardened, electronic subsystems to support future space missions.

NEXT’s APUs combine agile signal acquisition and generation with on-board high-reliability digital processing that offer unprecedented quantity, quality and efficiency of information processing for next generation satellite sensors and transmitters. This effort will enable efficient and resilient wideband RF (radio-frequency) signal processing capabilities not yet available to the space market.

NEXT’s latest APU, the NX450, is the world’s first 200 GS/s (200 billion samples per second) antenna processor with 100-GHz of instantaneous RF bandwidth split across four independent receive and transmit channels respectively. The NX450 simplifies sensor design by pushing signal digitization and processing closer to the edge—redefining electronic warfare capabilities while reducing sensor SWaP (size, weight, and power). The NX450 is manufactured in an onshore Global Foundries 12LP (12 nanometer) FinFET process, features embedded application processor redundancy and has been radiation tested for space qualification.

As satellite networking proliferates, the demand for greater data payloads and on-orbit processing is driving the advancement of System-on-Chip (SoC) solutions such as APUs that define the capabilities and performance of satellite antenna systems. The NX450 is the first device of its kind to specifically address the emerging demands for secure ultra-wide bandwidth communication links between satellites and ground stations.

BAE Systems will provide support of the NX450 APU for use in proliferated Low Earth Orbit (pLEO) missions. The company may also work with NEXT to incorporate its own application specific integrated circuit technology and expertise for use in future SoC products. These next-generation, radiation-hardened solutions are the key enabler gating wide bandwidth capabilities in demanding space environments.

NEXT is firmly entrenched in the development of high-reliability SoC solutions for next generation satellite payloads. We are eager to collaborate with BAE Systems to address future space missions with our unique SoC capabilities,” said Mike Kappes, President and Chief Strategy Officer at NEXT Semiconductor.

By leveraging our decades of space electronics experience, we can apply our radiation-hardened techniques to a commercial off-the-shelf product to deliver a new capability addressing our space customers’ needs,” said Jim LaRosa, Space Systems program director at BAE Systems. “Our collaboration with NEXT allows for the development of future solutions with dramatically increased mission and environmental performance.”

NEXT Semiconductor is a newly formed fabless semiconductor company focused on high reliability system-on-chip solutions for demanding space applications. NEXT offers a roadmap of SoC products addressing the emerging demand for low-SWaP electronics for on-orbit and terrestrial platforms. Evaluation systems are available on request.