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Post Info TOPIC: Pegasus XL Launch


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Posts: 131433
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Space Technology 5
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three orbiting micro-satellites known as Space Technology 5 have completed their planned 90-day mission. The mission team is shutting down the spacecraft to conclude operations on Friday, June 30.

The mission primarily focused on flight testing miniaturized satellites in the harsh environment of space and evaluating their ability to make research-quality scientific measurements.
The satellites were launched on March 22. Each fully fuelled satellite weighed approximately 55 pounds when launched and is about the size of a 13-inch television.

A major milestone of the mission was reached when the spacecraft assumed a constellation formation on May 24. The satellites lined up in nearly identical orbits, like three pearls on a necklace, approximately 220 miles apart. Reaching formation required seven manoeuvres using miniaturized micro-thrusters. Each spacecraft has a single micro-thruster the size of a quarter to perform both attitude- and orbit-adjustment manoeuvres.
The mission demonstrated the benefits of using a constellation of spacecraft to perform scientific studies of the beautiful auroral displays that occur near Earth's polar regions. The spacecraft simultaneously traversed electric current sheets and measured the magnetic field using miniature magnetometers.

"Taking measurements at the same time in different locations allowed scientists to better estimate the thickness of current sheets and how they vary over time. This could not have been done with a single spacecraft, no matter how capable." - Guan Le, mission project scientist at NASA's Goddard Space Flight Centre, Greenbelt, Md.

The mission validation team demonstrated the sensitivity of miniature magnetometers, and suitability of the satellites for supporting scientific measurements. Over the next few months, the team will process the mission's magnetometer data, complete its assessments of the performance of the satellite constellation and report initial findings.

The mission also demonstrated an innovative communications technology. The satellites used miniature spacecraft radio transponders for space-to-ground communications and tracking. The transponders were coupled with conventional and computer-optimised or -evolved antennas. The transponders and antennas performed flawlessly.

The satellites' miniature power system demonstrated a high level of performance. All spacecraft lithium ion batteries stayed above 90 percent charge, even during some tests intentionally designed to use them. The high-efficiency solar arrays on all three spacecraft produced more power than predicted prior to launch, and their batteries performed to expectations.

During the final days of the mission, the emphasis was on demonstrating ground system technologies. The ground system is highly automated to reduce the cost of operating multiple spacecraft as a single constellation rather than operating them individually. This type of ground system will help pave the way for an affordable means of simultaneously flying from 10 to hundreds of micro-satellites.

The project was developed and tested at Goddard. It is part of the New Millennium Program, which develops and tests high-payoff technologies that provide future science mission capabilities with reduced cost and risk. Each flight acts as a test track for competitively-selected technologies, mission objectives and operations concepts. New Millennium is managed for NASA by the agency's Jet Propulsion Laboratory, Pasadena, California, US.

Source NASA

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Posts: 131433
Date:
RE: Pegasus XL Launch
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NASAs Space Technology 5 was successfully launched on March 22, at 9:04 a.m. EST, from Vandenberg Air Force Base, California, on a Pegasus XL rocket.

ST5 is testing new micro-spacecraft technologies and operations' techniques. The three spacecraft will conduct science validation using measurements of the Earth's magnetic field collected by the miniature boom-mounted magnetometers on each.
Initial contact with ST5 was made at 9:27 a.m. EST, as the spacecraft passed over the McMurdo Ground Station in Antarctica.

"During the first day, we ensure the three craft are correctly operating. During the next few days, we deploy and test the magnetometer booms. Finally we prepare them for the science demonstration and make any necessary orientation adjustments" - Art Azarbarzin, ST5 project manager at NASA's Goddard Space Flight Centre, Greenbelt, Md.

Miniaturized components and technologies are integrated into each of the ST5 micro-satellites. Each micro-satellite weighs approximately 25 kilograms when fully fuelled and is about the size of a 30-centimetre television.

"The lessons learned from the development and flight of ST5's three full-service micro-spacecraft constitute a major step toward the use of constellations or swarms of small spacecraft to accomplish science that cannot be done with a single spacecraft, no matter how capable " - Jim Slavin, ST5 project scientist at Goddard.

Although small compared to their counterparts, each of the spacecraft is considered full service. They contain power, propulsion, communications, guidance, navigation and control functions found in larger spacecraft.
The spacecrafts' orbit is a "string of pearls," in a near-Earth polar elliptical that will take them from approximately 300 kilometres to 4,500 kilometres from the planet.

They start out only a few meters apart. Within approximately 20 days, they are placed into a formation 40 to 200 km apart from each other to perform coordinated multi-point measurements of the Earth's magnetic field. This type of measurement is useful for future missions that will study the effect of solar activity on the Earth's magnetosphere; the magnetic bubble that surrounds Earth and helps to protect it from harmful space radiation.
The ST5 project was built and tested at Goddard for NASA's Science Mission Directorate. It is an instrumental part of the New Millennium Program, which develops and tests critical and revolutionary technologies needed to enable future endeavours in space.

Source

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L

Posts: 131433
Date:
ST5 Launch
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The second launch attempt of NASA's Space Technology 5 spacecraft is scheduled for Wednesday, March 22 at 14:02 GMT (9:02 a.m. EST). NASA TV begins live coverage at 12:30 GMT (7:30 a.m. EST).

Departure of the L-1011 aircraft carrying the Orbital Sciences Pegasus XL rocket and ST5 is scheduled for 13:04 GMT (8:04 a.m. EST), from Vandenberg Air Force Base, California., US.
The Pegasus/ST5 launch is targeted over the Pacific Ocean, 145 miles northwest of Vandenberg. The launch window closes at 15:20 GMT (10:20 a.m. EST).

The weather forecast on Wednesday is generally favourable with an 80 percent chance of meeting launch criteria.

During the first launch attempt on March 15, the Pegasus starboard flight control surface fin pin did not retract resulting in an aborted attempt. NASA and Orbital Sciences completed an engineering analysis, but the exact cause of the malfunction could not be determined. The most likely reason was the pin retractor system failed to operate due to the formation of ice.
The mechanism was removed and replaced in case there were other contributing causes. Steps have also been taken to mitigate potential water intrusion that could form ice during captive carry.

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Posts: 131433
Date:
RE: Pegasus XL Launch
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New launch date for the Pegasus XL, Space Tech 5 flight: March 22nd.
Launch window: 13:57-15:19 GMT (8:57 to 10:19 a.m. EST) from the Vandenberg Air Force Base, California, US.

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Posts: 131433
Date:
ST5 microsatellite Launch
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NASA has aborted the launch of the ST5 microsatellites on this morning moments before they were to be fired into space aboard a rocket.

The 25 kilogram ST5 satellites, which were to test new technologies for future science missions, lifted off from Vandenberg aboard a Lockheed L-1011 jet around 6 a.m. local time.
When the plane reached an altitude of 11,887 meters, a compact Pegasus rocket was to detach from the aircraft’s belly and blast the satellites on a 10-minute climb into space.

A technical glitch, however, caused mission controllers to scrub the rocket release just before it was to occur around 6:25 a.m. (14:25 GMT). The nature of the problem was not immediately made clear. but it seems that a locking pin designed to hold the mission’s Pegasus booster to the Lockheed L-1011 jet undercarriage failed to release before the rocket’s fin batteries ran out.

According to a NASA press release, a new launch date will be established pending resolution of the issue, the availability of the Western Range, and acceptable weather conditions at the Vandenberg Air Force Base, California launch site.
The delay will be at least 48 hours.

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Posts: 131433
Date:
RE: Pegasus XL Launch
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The Space Technology 5 launch has been rescheduled for 15th March, 13:57-15:19 GMT (8:57 to 10:19 a.m. EST; 5:57 to 7:19 a.m. local time), due to bad weather.
Wednesday's targeted "drop time" from underneath the Orbital's L-1011 carrier aircraft is at 14:02 GMT (9:02 a.m. EST; 6:02 a.m. local).

Air Force meteorologists predict an 80 percent chance of favourable weather for Wednesday.

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The ST5 launch has been postponed due to a bad weather forecast
Predicted weather conditions postponed Tuesday's scheduled launch of NASA’s Space Technology 5 (ST5) spacecraft.
It will launch Wednesday, March 15, at 14:02 GMT (9:02 a.m. EST).

The forecast improves on Wednesday with only a 20 percent chance of not having acceptable weather.

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Posts: 131433
Date:
Novel Radiator
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A small team of researchers from the Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, Md., in conjunction with NASA Goddard Space Flight Center (GSFC), have developed a novel radiator so small its components are only visible under a microscope. The temperature control device, formally known as the "Variable Emittance (Vari-E) Coatings for Thermal Control," is based on MicroElectroMechanical Systems (MEMS) technology employing shutters so small that several abreast are smaller than the width of a single human hair.

When NASA's Space Technology 5 (ST5) satellites launch March 15, one of the three overhead projector-sized micro-satellites will be "wearing" this device on its "skin" to demonstrate that MEMS-based technology can be used to regulate the temperature of a satellite or one of its instruments.

In a 10-centimetre square section atop one of the micro-satellites, tiny comb-shaped motors powered by electrostatic charges open and close microscopic shutters to regulate the temperature of that area of the satellite.

"When a satellite's in space, you need to keep its temperature constant. As we shrink the size of satellites and their onboard systems, it becomes harder to regulate and maintain a constant temperature. By putting these devices on the outside or ‘skin' of a satellite you can change its emissivity. When the satellite is facing the sun, for example, you could cool it by closing our shutter doors and reflecting the heat. Or if you need to absorb more heat, the shutters would open." - Ann Darrin, APL's Vari-E program manager.

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Posts: 131433
Date:
RE: Pegasus XL Launch
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The Pegasus Space Tech 5 is still on schedule for launch tomorrow.
The launch window is from 13:57-15:19 GMT (8:57 to 10:19 a.m. EST), March 14 , from the Vandenberg Air Force Base, California, US.

The March 11 launch was scrubbed due to Range availability.

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Posts: 131433
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On this ST5 micro-satellite mission, three small sputnik sized satellites will be launched using a Pegasus XL to a near-Earth polar elliptical orbit that will take them to between from 300 kilometres to 4,500 kilometres above the Earth.



The ST5 micro-satellites will eventually orbit in a neat row about 40-140 kilometres apart so that they can carry out coordinated multi-point measurements of the Earth's magnetic field using a highly sensitive magnetometers built by the University of California, Los Angeles.

The mission hopes to study the effect of solar activity on the Earth's magnetosphere.

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