Space access roundup – Feb.1.2019

A sampling of items about space transport projects:

** Virgin Orbit Payload Processing – The latest video from VO “gives you an inside look at how we take care of our payloads once they’re delivered to our front door in Long Beach”:

** ABL Space Systems smallsat launcher design has been modified and the price lowered: ABL Space Systems increases performance and cuts price of its small launch vehicle – SpaceNews.com

[ABL] is offering an upgraded version of the RS1 rocket at a price of $12 million a launch, down from an earlier price of $17 million. The vehicle’s performance has been increased from 900 to 1,200 kilograms to low Earth orbit.

Company executives say the change in performance and cost comes after a year and a half of work to refine the design of the vehicle and better understand what it would take to produce the vehicle.

Prototoype of the ABL Space Systems RS1 rocket

** Copenhagen Suborbitals presents the non-profit volunteer project’s “next generation of rocket engines, the BMP100, which will propel our manned Spica rocket above the edge of space. Here we discuss our current progress on the engine design after our initial design project called BPM100 in 100 days.”

** Blue Origin New Glenn, which is to start flying in 2021, gets another customer: Blue Origin to Launch Telesat’s Advanced Global LEO Satellite Constellation – Blue Origin

Blue Origin is honored that Telesat has selected our powerful New Glenn rocket to launch Telesat’s innovative LEO satellite constellation into space. We are excited to be partnering with this industry leader on their disruptive satellite network architecture. New Glenn’s 7-meter fairing, with its huge mass and volume capabilities, is a perfect match for Telesat’s constellation plans while reducing launch costs per satellite.

** ULA Atlas V to launch NASA asteroid mission – ULA wins contract to launch NASA’s Lucy mission to visit unexplored asteroids – Spaceflight Now

The launch contract is valued at $148.3 million, a figure that includes the launch service and other mission-related costs, according to NASA.

ULA said NASA selected the Atlas 5 rocket after a “competitive launch service task order evaluation” by the space agency’s Launch Services Program. ULA’s Atlas 5 and Delta 4 rockets are certified to launch NASA’s robotic interplanetary science missions, alongside SpaceX’s Falcon 9 launcher. Both companies are expected to submit bids for each task order competition managed the Launch Services Program.

** SpaceX:

**** A nose-cone fairing “catch” comes tantalizingly close to success:

**** New photos of the first operational Raptor engine, which will be test fired at the company’s McGregor, Texas facility:

More on Elon’s latest comments on the

**** New photos from Boca Chica Beach

**** Rocketing from composites to steel – Tim Dodd, the Everyday Astronaut, explains Elon’s rationale for changing the structure of the Super Heavy booster and Starship: from carbon composites to stainless steel:

Here’s another view of the change:

**** A report on SpaceX’s crew transport:

** For more space transport news, see Rocket Report: Secret CIA smallsat launcher, Falcon 9 test, Soyuz passes 50 | Ars Technica.

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Videos: “Space to Ground” ISS report – Feb.1.2019

NASA restarts the Space to Ground reports on activities related to the International Space Station:

Here is an animation showing the assembly of the ISS:

Here is a new NASA video highlighting the agency’s projects in the coming year:

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Ecliptic Enterprises avionics supported successful launch of SSO-A mission

Rex Ridenoure of Ecliptic Enterprises forwarded to me the update below on the company’s involvement with the launch of 64 satellites, including many university CubeSats, on a single SpaceX Falcon 9 rocket last December. The SSO-A mission was organized by Spaceflight.

(I’ll note that Ecliptic is leading the development of the Planetary Society‘s LightSail 2, which should launch as a secondary on a SpaceX Falcon Heavy this spring.)

Avionics from Ecliptic Enterprises Corporation Key to Successful SSO-A Mission

Pasadena, California – 2019 February 1. The novel Sun-Synchronous Orbit-A mission (SSO-A) successfully completed on December 3 last year relied significantly on error-free operation of an extensive suite of avionics supplied by Ecliptic Enterprises Corporation (Pasadena, California). Conceived in 2015 by Spaceflight (Seattle, Washington), SSO-A was the first fully dedicated rideshare mission, where 64 small satellites were integrated onto a single large launch vehicle (a SpaceX Falcon 9) via a modular stack of support structure, launched into Low Earth orbit and then separately deployed from the support structure to become independent Earth-orbiting satellites. This mission set a new U.S. record for the most satellites launched by a single launch vehicle: 64.

Liftoff of the SpaceX Falcon 9 from Vandenberg AFB with the 64 satellites of the SSO-A mission. Photo credit SpaceX.

Once reaching orbit, avionics on the Falcon 9 rocket’s upper stage initiated six deployment events: separation of a large module called the Upper Free-Flyer (UFF), separation of a smaller module called the Lower Free-Flyer (LFF) and release of four small satellites which were attached to a structural module that remined with the second stage. All of the satellites deployed from the UFF and LFF were of the microsat/CubeSat class—20 on the UFF and 40 on the LFF. Ecliptic’s avionics interfaced with five different separation system designs from four different vendors.

The UFF and LFF were both outfitted with a redundant suite of Ecliptic-supplied control avionics, battery packs, radio transmitters and wire harnesses. Separation from the Falcon 9 activated these systems, and for several more hours a combined 60 spacecraft release events were commanded by the electronics, following complex, thoroughly tested event sequences stored in non-volatile memory. Confirmation signals verifying spacecraft release and other important engineering telemetry were also captured and relayed to various tracking stations around the globe.

“Ecliptic’s products and services were the key to mission success,”

wrote Spaceflight’s SSO-A Mission Director Jeff Roberts as he commended the firm for its support of the mission. Ecliptic began its contract with Spaceflight over two years before the launch, stepping through requirements-definition and design phases, build-up of development model test versions of the system, and finally build-up and environmental testing of the flight units. As part of the overall effort, Ecliptic opened a new wiring harness lab and for over a year and a half designed, fabricated and tested over two miles of test and flight harnesses.

“Programmatically and technically, this was a very challenging effort,” said Ecliptic’s COO Riki Munakata, who also served as Project Manager for the contract. “The hardware, software and harnessing designs had to be flexible enough to deal with many changes in the SSO-A payload manifest during the course of the contract, and we knew that the overall operation ultimately had to be flawless for the mission to succeed 100%.”

About Ecliptic Enterprises Corporation: Ecliptic, a privately held firm based in Pasadena, California, provides space avionics and sensor systems to commercial, civil and defense-related markets in the U.S. and abroad. Its popular RocketCam™ family of onboard video systems provides improved situational awareness on rockets and spacecraft, while its variants of experiment and payload control avionics manage complex sequencing, monitoring, datahandling and data-routing functions for a wide range of mission applications. Ecliptic also supports selected small satellite- and CubeSat-class engineering, integration, testing and operations activities, including hosted payload accommodations. See more at http://www.EclipticEnterprises.com. RocketCam™ is a trademark of Ecliptic Enterprises Corporation.

About Spaceflight: Spaceflight is revolutionizing the business of spaceflight by delivering a new model for accessing space. A comprehensive launch services and mission management provider, the company provides a straightforward and cost-effective suite of products and services including state-of-the-art satellite infrastructure and rideshare launch offerings that enable commercial and government entities to achieve their mission goals on time and on budget. A service offering of Spaceflight Industries, Inc. in Seattle, Spaceflight provides its services through a global network of partners and launch vehicle providers. For more information, visit http://www.spaceflight.com.

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Here’s an opportunity to buy a “black hole” for display at home or office:  SINGULARITY – A simulated black hole by Singularity designs — Kickstarter

The display is “constructed from a carbon nanotube array which absorbs 99.9% of light in the visible spectrum”:

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