.9.02.2014
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Technicians attach the Dragon capsule to a Falcon 9 rocket at the SpaceX facility at Cape Canaveral Air Force Station, Fla., during preparations for the SpaceX 1 mission.
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Launch Updates
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SpaceX-3 to Deliver Nearly 5,000 Pounds of Cargo to ISS
SpaceX is preparing for the third commercial resupply mission to the International Space Station. During the SpaceX-3 mission, the Dragon capsule will deliver 4,969 pounds of cargo to the orbiting laboratory and return 3,578 pounds to Earth.
Dragon is launching aboard a Falcon 9 rocket from Space Launch Complex 40 at Florida’s Cape Canaveral Air Force Station. Liftoff currently is targeted for an instantaneous launch window at 4:41 a.m. EDT on March 16. One additional opportunity is available March 17 at 4:19 a.m.
Quelle: NASA
Update: 3.03.2014
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An Unusual First Stage Photo
paceX CEO Elon Musk released this photo yesterday of the first stage of the Falcon 9 rocket that will launch the SpaceX-3 mission to the International Space Station. The unusual feature is the landing legs on the side of the rocket. According to Musk, they are 60 feet in diameter. He said the booster will still land in the ocean, but will attempt what’s known as a soft landing instead of simply plummeting as such stages have done until now. The exception is the space shuttle’s solid rocket boosters which parachuted into the water and were recovered for reuse. Musk has said before that his goal is to bring the spent first stage back to land on land so the booster and its 9 engines can be used again. Musk ended his posts saying the company needs to prove precision control of the stage throughout the deceleration from hypersonic to subsonic speeds..
Quelle: NASA.
Update: 4.03.2014
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Start von zweihundert 437MHz Satelliten
Launch of two hundred 437MHz satellites
The largest ever launch of 437 MHz satellites is planned for March 16 at 0841 UT when 200Sprite satellites will be launched on the SpaceX Falcon 9 CRS 3 mission
They will be deployed into a 325×315 km 51.5 degree inclination orbit.
A Sprite is a tiny, 3.5 by 3.5 cm, single-board spacecraft that was developed by Zac Manchester KD2BHC. It has a microcontroller, radio, and solar cells and is capable of carrying single-chip sensors, such as thermometers, magnetometers, gyroscopes, and accelerometers.
The 200 Sprites are carried in a 3U CubeSat called KickSat. They are stacked atop a spring-loaded pusher and secured by a nichrome burn wire system.
On reaching orbit KickSat will perform a de-tumble maneuver and establish communication with Cornell University’s ground station. After check-out, the spacecraft will be put in a sun-pointing attitude and spun up to maintain that attitude.
A command signal from the ground station will then trigger the deployment and the Sprites will be released as free-flying spacecraft. After deployment, telemetry and sensor measurements from the individual Sprites will be received through Cornell’s ground station in Ithaca, NY, as well as several other amateur ground stations around the world.
Due to the low orbit Sprites will have a short lifetime before they re-enter the atmosphere and burn up. In the best-case scenario the orbital lifetime could be six weeks but realistically it may be considerably shorter depending on atmospheric conditions.
All Sprites operate on a single frequency of 437.240 MHz and use Code Division Multiple Access (CDMA). The transmitter runs 10 mW output of Minimum Shift Keying (MSK) modulated binary data with each data bit modulated as a 511 bit Pseudo-Random Number (PRN) sequence. The ITU emission designator is 50K0G1D.
The KickSat CubeSat has downlinks on 437.505 MHz and 2401-2436.2 MHz.Quelle: Southgate
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Update: 9.03.2014
Falcon 9 v1.1 conducts Static Fire ahead of CRS-3 mission
SpaceX have fired up their Falcon 9 v1.1 launch vehicle during a Static Fire (Hot Fire) test on Saturday, allowing for a health check and countdown dress rehearsal ahead of their next flight of their Dragon spacecraft to the International Space Station (ISS). The CRS-3/SpX-3 Dragon is tracking a launch – her first on the upgraded Falcon 9 – on March 16 from Cape Canaveral Air Force Station (CCAFS).
CRS-3:
The latest Falcon 9 launch will be the fourth in her upgraded configuration, following three successful satellite launches – one from Vandenberg and two from SLC-40 at the Cape.
However, unlike her predecessors, this Falcon 9 is sporting four landing legs on her aft, allowing for the latest test objective towards SpaceX’s ultimate goal of a fully reusable rocket system.Although a number of tests have already been conducted – mainly involving a restart of the First Stage post-staging, allowing it to practise a controlled re-entry – this will be the first mission where a soft splashdown on deployed legs will be attempted, as recently explained by SpaceX to NASASpaceFlight.com.
Following staging, the First Stage will bid farewell to the Second Stage and Dragon, prior to rotating its aft and engines into the direction of travel. Once in the correct orientation, three of Falcon 9′s Merlin 1D engines will conduct a supersonic retro propulsion burn.
Once the First Stage has shut down the three engines, a stable re-entry should then occur. As the Stage begins to drop back to Earth, the center engine will ignite to stabilize the Stage and reduce its velocity.About 10 seconds into the landing burn, SpaceX will attempt the unique demonstration of deploying the four legs, as the Stage closes in on the water.
Recovery of the first stage from the water will be attempted, although SpaceX noted there is a low probability this will be successfully achieved during this test.
The primary goal of the launch relates lofting the Dragon spacecraft en route to the ISS for her fourth mission to the Station. The spacecraft which will be riding uphill on the beefed up rocket for the first time.
The SpX-3 flight will carry a full launch and return complement of 1,580kg/3,476lb of payload, an increase from the previous limit of 800kg, afforded by the increased upmass capabilities of the Falcon 9 v1.1.For launch, Dragon will carry a record of one GLACIER and two MERLIN freezers for transporting ISS experiment samples.
The external payload in Dragon’s trunk includes the Optical Payload for Lasercomm Science (OPALS) – which will demonstrate high-bandwidth space to ground laser communications, and the High Definition Earth Viewing (HDEV) package consisting of four commercial HD video cameras.
The CRS-3 mission will also involve the delivery of a replacement Extravehicular Mobility Unit (EMU), allowing for the return of a faulty suit on the same vehicle when it returns to Earth. This spacesuit relay is enabled by a specially built rack inside the Dragon.
Static Fire:
Per the primary goals of a Hot Fire test, the effort relates to ensuring that the pad’s fueling systems – and the launch vehicle – function properly in a fully operational environment, with numerous requirements to be successfully proven via such a test, such as the engine ignition and shut down commands, which have to operate as designed, and that the Merlin 1D engines perform properly during start-up.
Tasks also include a full propellant loading sequence, launch countdown operations, engine ignition operations and testing of the pad’s high volume water deluge system.
The first opportunity for the Static Fire was scheduled for Friday. However, unacceptable weather in the region delayed the rollout, pushing the test to Saturday. The window for the test was 1pm local through to 5pm local, although it is understood engineers were working issues on the vehicle for at least the first few hours of the window.
With the test providing a dress rehearsal for the actual launch, controllers would have begun the test with polling to allow for the loading of Falcon 9′s RP-1 propellant with liquid oxygen oxidizer two hours and thirty five minutes before T-0.
This would have likely been followed with fuel and Thrust Vector Control (TVC) bleeding on the second stage, performed at T-1 hour.
At T-13 minutes, a final flight readiness poll would have been conducted, which would then be followed by the final hold point at T-11 minutes.
Per the countdown procedures, the tasks would have entered the terminal count ten minutes before ignition, followed by the launch vehicle being transferred to internal power at four minutes and forty six seconds before T-0.The Flight Termination System (FTS), used to destroy the rocket in the event of a problem during an actual launch, would have been armed three minutes and eleven seconds before launch, and seven seconds later oxidizer topping ended.
Pressurization of the propellant tanks would have followed, and while a Wet Dress Rehearsal (WDR) – which are no longer required for the Falcon 9 – would have concluded the test at around T-5 seconds, the Static Fire test continued the count through to ignition.
A short burst of the Merlin ID engines on the core stage of the F9 would have then followed, allowing for validation data to be gained on the health of the vehicle and pad systems.SpaceX PAO confirmed to NASASpaceFlight.com that the Static Fire was classed as successful.
Detanking operations would then have followed, ahead of its lowering on to the Transporter Erector and rollback to the hanger to begin final processing ahead of launch, which will include the mating of the Dragon spacecraft to the top of the vehicle.
The Flight Readiness Reviews (FRRs) for the launch vehicle and the spacecraft were concluded last week. A Launch Readiness Review (LRR) – which will include the full results of the Static Fire – will follow in the coming days.
SpaceX remain on track for the March 16 launch of the Falcon 9 and Dragon duo, with the launch window set to open at 4:41am Local.
(Images: SpaceX, Spaceport America and L2)
(Click here: http://www.nasaspaceflight.com/l2/ – to view how you can access the best space flight content on the entire internet and directly support NASASpaceflight.com’s running costs)
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Pew! Pew! Pew! Space Station Laser to Beam HD Video to Earth
No specific systems were cited as needing additional work, but both a Falcon 9 rocket and Dragon capsule packed with more than 4,000 pounds of ISS cargo were said to be “in good health.”
“Given the critical payloads on board and significant upgrades to Dragon, the additional time will ensure SpaceX does everything possible on the ground to prepare for a successful launch,” said spokeswoman Emily Shanklin. April 2 would be the backup launch date for the company’s third of 12 ISS resupply missions under a $1.6 billion NASA contract.
SpaceX said the new dates were the earliest available launch opportunities on the Air Force’s Eastern Range, and are not yet approved.
With the slip, a United Launch Alliance Atlas V becomes the next vehicle in line to launch from Cape Canaveral Air Force Station, on March 25 with a National Reconnaissance Office satellite.
NASA Assessing SpaceX 'Payload Contamination
SpaceX has confirmed it will target its next cargo mission launch to the International Space Station from Cape Canaveral Air Force Station in Florida, for 10:50 p.m. EDT, Sunday, March 30.
NASA Television launch coverage begins at 9:45 p.m. for the company's third contracted resupply mission to the orbital laboratory. A post-launch news conference will follow at approximately 90 minutes after liftoff. If for any reason the launch is postponed, the next launch opportunity is 9:39 p.m. Wednesday, April 2, with NASA TV coverage beginning at 8:30 p.m.
NASA TV also will air a prelaunch news conference at 1 p.m. Saturday, March 29 at the agency's Kennedy Space Center in Florida. A 2 p.m. briefing on the science and technology cargo being delivered to the space station by SpaceX will follow.
A March 30 launch would result in SpaceX's Dragon spacecraft arriving at the station on Wednesday, April 2 at approximately 7 a.m. NASA TV coverage of rendezvous and berthing will begin at 5:45 a.m. for a 7 a.m. capture. Coverage of Dragon's installation will begin at 9:30 a.m.
Quelle: NASA
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Update: 31.03.2014
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Update: 5.04.2014
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ULA, SpaceX reschedule launches after radar outage
After a two-week delay to wait for the U.S. Air Force to restore a critical radar tracker, United Launch Alliance and SpaceX have rescheduled their next rocket missions from Cape Canaveral for April 10 and April 14.
Officials put the launches on hold after a component on a rocket tracking radar short-circuited March 24, causing it to overheat and knock the radar offline.Without the radar, the Air Force's Eastern Range was unable to support launch attempts for the ULA Atlas 5 and SpaceX Falcon 9 rockets then set for March 25 and March 30.
The Eastern Range is a network of communications stations, tracking radars and safety assets along Florida's East Coast and stretching into the Atlantic Ocean under the ground tracks of rockets as they fly into orbit.
The range's job is to keep the public and property safe from launching rockets in case the vehicles fly off course.
The radar responsible for the delays is owned by the Air Force but lies on the property of NASA's Kennedy Space Center.
First up on April 10 is the Atlas 5 launch of a top secret payload for the National Reconnaissance Office, the U.S. government agency which owns and operates imaging and eavesdropping spy satellites.
Liftoff from Cape Canaveral's Complex 41 launch pad is set for a launch window opening at 1:45 p.m. EDT (1745 GMT) and extending 41 minutes.
The April 10 launch will come one week after an Atlas 5 launch from Vandenberg Air Force Base in California with the military's DMSP F19 weather satellite.
A Falcon 9 rocket is scheduled for liftoff April 14 from the nearby Complex 40 pad with a Dragon cargo spacecraft heading to the International Space Station.The automated spaceship will deliver 2.4 tons of equipment to the space station under contract to NASA.
Launch on April 14 is set for 4:58 p.m. EDT (2058 GMT), and the Dragon spacecraft will arrive at the space station April 16.
A spokesperson with the Air Force's 45th Space Wing on Friday said the Eastern Range is expected to be ready to support both launches. He did not say whether the Air Force had repaired the damaged radar or activated a backup system to restore the lost tracking capability.
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The next SpaceX cargo mission to the International Space Station under NASA's Commercial Resupply Services contract is scheduled to launch Monday, April 14, from Space Launch Complex 40 at Cape Canaveral Air Force Station in Florida.
The company's Falcon 9 rocket, carrying its Dragon cargo spacecraft, will lift off at approximately 4:58 p.m. EDT. NASA Television coverage of the launch begins at 3:45 p.m. If for any reason the launch is postponed, the next launch opportunity is Friday, April 18 at approximately 3:25 p.m.
The mission, designated SpaceX-3, is the third of 12 SpaceX flights contracted by NASA to resupply the space station. It will be the fourth trip by a Dragon spacecraft to the orbiting laboratory.
The spacecraft will be filled with almost 5,000 pounds of scientific experiments and supplies. The Dragon will remain attached to the space station's Harmony module until mid-May and splash down in the Pacific Ocean off the coast of Baja California with more than 3,000 pounds of experiment samples and equipment returning from the station.
NASA will host a prelaunch news conference at 1 p.m., Sunday, April 13, at the agency's Kennedy Space Center in Florida, followed by a SpaceX science and technology cargo news conference at 2 p.m. Both briefings, which are subject to a change in time, will be carried live on NASA TV and the agency's website. A post-launch briefing will be held approximately 90 minutes after launch.
If launch occurs April 14, NASA TV will provide live coverage Wednesday, April 16, of the arrival of the Dragon cargo ship to the International Space Station. Grapple and berthing coverage will begin at 5:45 a.m. with grapple at approximately 7 a.m. Berthing coverage begins at 9:30 a.m.
Quelle: NASA
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Update: 10.04.2014
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Veggie Will Expand Fresh Food Production on Space Station
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Outredgeous red romaine lettuce plants grow inside in a prototype Veggie flight pillow. The bellows of the hardware have been lowered to better observe the plants. A small temperature and relative humidity data logger is placed between the pillows small white box, centra
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A plant growth chamber bound for the International Space Station inside the Dragon capsule on the SpaceX-3 resupply mission may help expand in-orbit food production capabilities in more ways than one, and offer astronauts something they don’t take for granted, fresh food.
SpaceX "go" for Monday launch to ISS
A review today concluded with managers giving a "go" for SpaceX to proceed with a 4:58 p.m. Monday launch of cargo to the International Space Station.
The weather forecast at Cape Canaveral Air Force Station looks pretty good.
There's a 70 percent chance of conditions that would allow a Falcon 9 rocket and Dragon capsule to blast off from Launch Complex 40, according to Air Force meteorologists.
However, after a nice weekend, an approaching cold front on Monday increases the potential for thick clouds, thunderstorms or electrified anvil clouds near the launch site.
If there's no launch Monday, the next possible attempt would be four days later (Friday, April 18). Forecasted conditions then drop to a 40 percent chance of favorable launch weather.
SpaceX is launching its third ISS resupply mission under a $1.6 billion NASA contract.
Kennedy Space Center will host prelaunch media briefings on Sunday starting at 9 a.m. You can watch them live on NASA TV.
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Quelle: Florida Today
The often-delayed launch of SpaceX Dragon cargo ship to the International Space Station, set for Monday afternoon, may be delayed yet again after a problem crept up with a computer module on the station.
The Multiplexer-Demultiplexer, or MDM, stopped responding to commands, NASA said in a statement Friday evening. The unit, mounted outside the ISS, backs up the main MDM in robotic-arm operations — such as the one that will be needed to attach the Dragon to the station upon its scheduled arrival Wednesday. From the statement:
The primary MDM operating aboard the space station is functioning normally and there is no immediate impact to space station operations. The computer outage does not pose a risk to the six crew members aboard the space station. ISS teams are assessing next steps to attempt to bring the computer back online or replace it. Replacing the backup MDM, if needed, would require a spacewalk. ... NASA is continuing to work toward a Monday launch of the SpaceX cargo resupply mission pending further evaluations by the ISS Program.
The Dragon was set to launch from Cape Canaveral, Fla., March 16 atop a Falcon 9 rocket when an alert was raised about possible contaminants in the Dragon's unpressurized exterior cargo space — its so-called "trunk." With that issue cleared, Dragon was go for a March 30 launch, but that was delayed by an electrical fire at a U.S. Air Force radar station needed to track the rocket, leading to the current April 14 date.
The current USAF forecast gives a 70 percent chance that weather will be favorable for launch Monday.
Quelle: Waco Tribune
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Backup Computer Glitches On Space Station But Crew Safe, NASA Says
A backup computer that controls “some systems associated with robotics” on the International Space Station is not “responding to commands”, NASA said in a late-night statement Eastern time Friday (April 11).
The crew is safe, there’s no “immediate” change to space station operations, and because the primary computer is working, there’s also no alteration to the SpaceX Dragon launch to the station on Monday – which requires the robotic Canadarm2 for berthing. NASA added, however, that there are “further evaluations” going on, meaning the date could change depending on what controllers figure out.
If the computer does need to be replaced, crew members of Expedition 39 will need to do at least one spacewalk, the agency added. NASA is allowing contingency spacewalks in American spacesuits to go forward as the agency addresses problems raised in a report about a life-threatening spacesuit leak in July.
Below the jump is the statement NASA put out tonight concerning the situation.
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A computer "black box" in the International Space Station's solar power truss that provides redundancy for robotic arm operations stopped responding to commands Friday, NASA said in a statement. If the component cannot be coaxed back to normal operation, the planned Monday launch of a SpaceX Dragon supply sh
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