Tag: smallsats

Russia moves to capture the smallsat launch market

6:41 pm

Glavkosmos, a division in Roscosmos, Russia’s nationalized aerospace industry, is working to capture a large part of the new smallsat launch industry.

Glavkosmos, a subsidiary of Russian state space corporation Roscosmos, said June 14 that it will launch 72 small satellites as secondary payloads on the Soyuz-2.1a launch of the Kanopus-V-IK remote sensing satellite, scheduled for July 14 from the Baikonur Cosmodrome in Kazakhstan.

Vsevolod Kryukovskiy, launch program director at Glavkosmos, said in a June 19 interview that the smallsat customers for that launch come from the United States, Germany, Japan, Canada, Norway and Russia. He declined to identify specific customers, although he said they include both companies and universities. The spacecraft range in size from single-unit cubesats up to a 120-kilogram microsatellite. “We’ll do the most technically challenging cluster mission ever,” he said. The satellites will be deployed into three separate orbits, after which the rocket’s upper stage will perform a deorbit maneuver.

Kryukovskiy said Glavkosmos is also arranging the launch of secondary payloads on two Soyuz launches planned for December from the new Vostochny Cosmodrome in Russia’s Far East region. “We’ll have about 40 microsats that we’ll launch from Vostochny, and that will be the first international launch from this new Russian cosmodrome,” he said.

These numbers are in the same range as when India launched 103 smallsats on a single rocket, and suggest that Russia is trying to grab the market share that the new small rocket companies are aiming at.

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Rocket Lab gets another contract

7:27 pm

Capitalism in space: With its first test launch set for Monday, Rocket Lab today earned a new launch contract, this time from Spaceflight, a company that acts as a charter company putting together launches for smallsat companies.

Spaceflight buys a launch from a rocket company, and then sells slots to smallsat companies that cannot afford to buy the whole launch. This way Spaceflight can tailor each launch to the needs of the different smallsats. Though they have previously purchased launches from India’s PSLV, Russia’s Dnepr, and SpaceX’s Falcon 9, Rocket Lab’s Electron fits this model more perfectly, because — as a small rocket designed for smallsats, it doesn’t require a lot of smallsats to fill its payload. Thus, they can offer the smallsats on board access to orbits not normally available. This will make it relatively easy to find customers for the launch.

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Automated factory to build smallsats

8:35 am

The competition heats up: While this story focuses on the hiring of the former head of Stratolaunch by smallsat company York Space Systems, the real lead is how York is building an automated factory on a Denver college campus that will churn out smallsats.

Last week, York announced that it will partner with Metropolitan State University to open an automated manufacturing facility on the school’s Denver campus this year. The startup’s flagship product is the “S-Class” satellite platform, designed to carry payload masses up to 85 kilograms. Building 200 satellites per year would put the company at about a third the production rate of OneWeb Satellites, the ambitious joint venture of OneWeb and Airbus seeking to build three satellites a day for OneWeb’s planned constellation low-Earth-orbit communications satellites.

York has 33 satellite platforms requested through letters of intent and other agreements, about half of which are firm commitments to buy satellites once available, Dirk Wallinger, chief executive of the 10-person startup founded in early 2015, told SpaceNews.

York’s approach to satellite manufacturing is to have standardized spacecraft models essentially pre-built for prospective customers, who can then outfit their satellites as desired, Wallinger said.

For more than a half century, satellites have been hand-made, each unique and crafted by teams of engineers in an expensive and slow process. That is finally changing.

I should add that this hiring of Stratolaunch’s former president is another indication that Stratolaunch might be in trouble.

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New commercial proposals for launching almost 15,000 satellites

9:07 am

The competition heats up: New applications filed by SpaceX and OneWeb with the FCC propose augmenting both companies’ previously proposed satellite constellations and raising the number of total satellites to be launched to almost 15,000 total.

SpaceX has filed a new application with the Federal Communications Commission (FCC) for approval to launch a constellation of 7,518 satellites to provide communications in the little used V band. The system is in addition to another constellations of 4,425 satellites (plus orbital spares) SpaceX proposed in November that would operate in the Ku and Ka bands. In total, the two constellations would have 11,943 spacecraft plus spares. “When combined into a single, coordinated system, these ‘LEO’ and ‘VLEO’ constellations will enable SpaceX to provide robust broadband services on a full and continuous global basis,” SpaceX said in its application.

Competitor OneWeb has submitted a new application that would add an additional 2,000 satellites capable of operating in the V-band to its planned constellation of 720 satellites.

These are all smallsats, which means they can be launched in bunches. Still, even if they are launched in groups of 100, it will still take 150 launches to get them all into orbit. That is a lot of business for the launch industry.

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SpaceX loses 89 smallsats due to delays

8:51 am

Spaceflight, a company that specializing in scheduling secondary payload launches for smallsat companies, this week pulled 89 satellites from SpaceX because of that company’s launch delays.

For more than a year, Seattle-based Spaceflight has been waiting to launch an array of 89 miniaturized satellites aboard a SpaceX Falcon 9 rocket and deploy them in orbit from its innovative SHERPA carrier.

Now the launch logistics company isn’t waiting any longer. All 89 satellites have been rebooked due to schedule concerns, Spaceflight’s president, Curt Blake, reported today in a blog posting. “We found each of our customers an alternative launch that was within the same time frame,” Blake wrote. “It took a huge effort, but within two weeks, the team hustled to have all customers who wanted to be rebooked confirmed on other launches!”

The SHERPA carrier had been slated as a secondary payload on the launch of Taiwan’s Formosat-5 satellite. It was put on SpaceX’s manifest since 2015, but the launch has been repeatedly delayed, in part due to the Falcon 9 rocket mishaps that occurred in mid-2015 and last September.

What is good about this is that the competition in the launch industry is now robust enough that these smallsats can find alternatives, and do it quickly. As good as SpaceX might be at some things, if the company doesn’s start fulfilling its promised launch schedule it will start to bleed customers more and more.

Unfortunately, the article doesn’t say which launch companies have now gotten this business. If I had to guess, I would bet that India got the contracts, based on their recent PSLV launch that put 103 smallsats into orbit. In arranging that launch ISRO had been very mobile, adding new smallsats to it quickly and very late in the launch schedule.

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India preparing rover for 2018 Moon landing

9:18 am

The competition heats up: India preparing rover for 2018 Moon landing.

Isro’s Satellite Applications Centre Director, M. Annadurai, revealed the tentative launch schedule while speaking to the press at the Satish Dhawan Space Centre, Shar, Sriharikota on Wednesday. He said a Lander and a six-wheeled Rover were being prepped to go with the Chandrayaan-II mission. The chief scientist added that a launch is likely to take place in the first quarter of 2018. According to Dr P.V. Venkita Krishnan, the director of the Isro Propulsion Complex at Mahendragiri, engineers were currently testing soft-landing engines.

India’s launch of a record 104 satellites on a single rocket has pumped up the Indian press, as there were almost 20 stories on space and that launch in their press today, almost all favorable.

This article however is from the U.S., and takes a look at the ineffective American space policy that supposedly forbids American companies from launching on Indian rockets.

The U.S. Commercial Space Launch Agreement of 2005 prohibits the launch of commercial satellites on the Indian vehicle. The reasoning is that struggling U.S. commercial launch providers needed time to establish themselves in the market and would be wiped out by India’s PSLV, which is developed by the Indian Space Organization.

Since 2015, commercial satellite owners have successfully obtained waivers to the policy.

The article notes India’s competitive prices, as well as the overall state of the smallsat industry and its dependence on bigger rockets as secondary payloads to get into space. India’s rockets, funded and subsidized by the government but also built to be inexpensive so as to attract customers, is clearly positioned to effectively compete with SpaceX, who until now charged the least.

What will our Congress do? My preference would be for them to repeal this part of the 2005 law so that American satellite companies can fly on whoever they wish. That would increase competition but it would also likely invigorate the overall launch industry because it would increase the satellite customer base for those rockets and thus create more business for everyone.

Sadly, I suspect that Congress will instead demand that the waivers to the law cease, and will thus block the use if Indian satellites by American companies. The short-sightedness of our politicians never ceases to surprise me.

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Japanese SS-520 rocket launch scrubbed due to weather

8:51 pm

The launch of Japan’s new small rocket, SS-520, was scrubbed today due to bad weather.

Japanese officials announced a few minutes before the launch that the flight would be postponed due to bad weather at the space base. Authorities did not immediately set a new launch date.

The SS-520-4 will try to become the smallest rocket to ever put an object in orbit. Its sole payload is the six-pound (three-kilogram) TRICOM 1 spacecraft, a CubeSat from the University of Tokyo designed for communications and Earth observation experiments. Standing 31 feet (9.5 meters) tall and spanning around 20 inches (52 centimeters) in diameter, the SS-520-4 will blast off from a rail launch system and head east over the Pacific Ocean, dropping its lower two stages and payload enclosure into the sea in the first few minutes of the flight.

Primarily funded by a $3.5 million budget provided by the the Japanese government’s Ministry of Economy, Trade and Industry, the SS-520-4 program is a one-off demonstration by Japan’s space agency, which aims to validate low-cost technology and launch operations procedures for a future “nano-launcher” to deploy tiny satellites in orbit on dedicated rides.

The last paragraph is disappointing, but not surprising considering that this rocket is entirely owned and built by the government, which like NASA, routinely builds things and then abandons them, no matter how useful they are. I hope that some private company grabs the design here and runs with it.

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Vector successfully test fires its rocket engine

9:23 am

The competition heats up: Vector Space Systems has announced the successful first test firing of the first stage engine to be used on its Vector-R rocket.

The engine test, which took place in Mojave, Calif. on Dec. 8, featured a single piece, 3D AM printed injector developed in partnership with NASA’s Science, Technology, and Mission Directorate (STMD) Flight Opportunities, a program which extends research labs into space-relevant environments by partnering with small satellite launch companies. Earlier this year, NASA provided a grant to Vector to design and test the injector.

Vector continues to push the envelope by being the first in the industry to pursue the LOX/Propylene propellant combination, which created the highest thrust to date from a LOX/Propylene fueled engine. This test of the 5K-lbf on flight fuels serves as a stepping stone to Vector’s first launch of the Vector-R slated for 2017, and moves the company one step closer to its mission of connecting space startups and innovators with affordable, reliable access to space.

They have also signed the land lease for the Tucson site where they plan to build their rocket factory.

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Designing a propulsion system for cubesats

9:56 am

The competition heats up: Just like the Chinese tests of a smallsat propulsion system noted in my previous post, this U.S. company is designing a propulsion system for cubesats.

McDevitt’s propulsion system is deceptively simple. It combines rocket-fuel-grade hydrogen peroxide with a patented proprietary catalyst to create a chemical reaction that results in thrust channeled through tiny square nozzles incorporated into the small satellite. The system allows the satellites to be steered or stopped. The only byproduct of McDevitt’s tiny rocket motors is water vapor.

Except for this quote the article doesn’t provide much information about the design, probably because the builders didn’t reveal the details for proprietary reasons. They hope to launch a test satellite by 2018.

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Vector Space Systems signs $60 million contract

9:42 am

The competition heats up: Vector Space Systems, which recently began work on a rocket factory in Tucson, today announced the signing of a new $60 million launch contract.

Vector Space Systems, a micro satellite space launch company comprised of new-space industry veterans from SpaceX, Virgin Galactic, McDonnell Douglas and Sea Launch, today finalized an agreement with York Space Systems, an aerospace company specializing in small and medium class spacecraft, to conduct six satellite launches from 2019 through 2022 with the option for 14 additional launches. The first launch through the agreement will also be the inaugural launch of the Vector-H vehicle, which is capable of launching 100 kg into orbit, and will provide an integrated spacecraft to customers through a standardized platform.

York Space Systems will use the launches with Vector Space Systems to place their standardized S-Class satellite platform into orbit for commercial and government customers. York Space Systems’ satellites will also employ the unique Electric Upper Stage which uses Vector Space Systems’ propriety electric propulsion technology as the final insertion stage of the Vector-H to place the satellites into orbital altitudes up to 1000 km with zero loss of launch throw mass capability.

It seems that there are now a lot of competing space races going on in the private aerospace industry. SpaceX and Boeing are racing to launch astronauts to ISS. SpaceX and Blue Origin are racing to reuse rockets. Blue Origin and Virgin Galactic are racing to launch the first suborbital tourists. A handful of private companies are racing to win the Google Lunar X-Prize. Arianespace, ULA, and Russia are racing with SpaceX for big payload launch contracts.

And a new group of small rocket companies are racing to capture a new burgeoning small satellite industry. Based on the most recent reports, it looks to me that Vector Space Systems and Rocket Lab are in the lead, though who will be first remains unclear. Hopefully, both will win by launching successfully and competing against each other.

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Aerojet Rocketdyne gets NASA contract for cubesat engine

9:56 am

The competition heats up: Aerojet Rocketdyne has signed a contract with NASA to develop a small thruster engine for use on cubesats.

The MPS-130 green propulsion system will allow CubeSats and SmallSats to increase their capabilities, such as extending mission life, increasing architecture resiliency, maneuvering to higher and lower orbits, and performing complex proximity operations and formation flying. The use of additive manufacturing also reduces the number of parts and amount of time required to fabricate and assemble the modular propulsion system, lowering the cost of small satellites for private and public operators. Under the contract, Aerojet Rocketdyne will deliver a fully-integrated MPS-130 green modular propulsion system for flight demonstration, as well as conduct development and validation testing.

The press release does not say how much money NASA is providing. Regardless, this is a great opportunity for Aerojet Rocketdyne, because the smallsat industry is I think about to take off, and at the moment these tiny satellites lack any useful technology for maneuvering. Up until now they were mostly designed as temporary short term satellites built mostly to teach students. Soon, however, there will be a lot of privately-built commercial smallsats launched, designed to make money. Being able to sell their builders a thruster that could prolong their life and make them more capable will give Aerojet Rocketdyne a product that will certainly sell like hotcakes.

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