Want to Build a Satellite?

How to build your own satellite

December 19, 2014
The base model for the PocketQube satellite kit. (Credit: PocketQube Shop)

April Flowers for redOrbit.com – Your Universe Online

Earlier this year, we told you about a new concept in satellite construction and sales: PocketQube Shop. The shop, based in Glasgow, Scotland, has been open since January 2014, selling off-the-shelf components for creating your own launchable satellites. Their mission is to “democratize access to Space.”

Today, PocketQube Shop is adding a new addition to their online store’s lineup: the PocketQube Satellite Kit. Instead of individual parts, the Kit will be a ready-to-use collection of components that will allow you to build a small budget satellite. This first-of-its-kind kit has been developed for the new PocketQube Standard 5cm (2 inch) cube spacecraft—which are the smallest to have ever successfully fly to and operate in space.

The PocketQube Kit v1.0 EM will include: “Spacecraft Structure, a Radio board (MiniSatCom), an On Board Computer (brain of the satellite) and a Labsat development board to test different electronics boards.”  It comes in a couple different versions, with the base model starting around $5999 USD. Further options, such as solar panels, can be added to the basic kit.

The PocketQube team hopes to market their kits to STEM groups such as high school through university students, government agencies, amateur/hobby groups and private enterprises. The PocketQube Kit is a (relatively) low-cost option in the growing field of cube satellites built from readily available components. For example, the larger CubeSat typically costs around $150,000 for hardware and launch. From kit to launch with PocketQube, the entire process costs around $35,000.

The boards in the Kit have a modular design and are programmable using the Labsat Development board. The PocketQube Kit is able to interface with third party hardware (such as custom payloads) through a community led standard interface called PQ60.

Tom Walkinshaw, the Founder/CEO of PocketQube Shop (Alba Orbital Ltd) said, “We are really excited to be bringing our PocketQube Kit market. Our mission is to democratise low-cost access to space for Planet Earth and this kit is a key stepping stone to enabling this goal. We believe this could be a game-changer for getting new technologies flown in space quicker and educating the next generation of STEM students.”

Although such satellites do make reaching Space available to private citizens, PocketQube admits there are trade-offs to being so small. “There is less mass to try things and less power/communications to uplink and downlink data to the spacecraft. […] The other caveat is that PocketQube is new, bleeding edge new. This means a lack of an industrial base to support the development of ‘off the shelf components.”  They are working to overcome these challenges, however, with the help of partnerships with companies such as RadioBro and Stras-Space.

PocketQube is also partnering with several launch-capable companies to lower the cost of getting the satellites to Low Earth Orbit, or LEO. The next launch will take place in Russia in early 2016.

Read more at http://www.redorbit.com/news/space/1113302928/how-to-build-your-own-satellite-121914/#oSS6dFlsYZteAfJb.99

Incoming — ROSAT

Satellite picture: The ROSAT satellite.

An artist’s impression of ROSAT in orbit.

Illustration courtesy DLR

Traci Watson

for National Geographic News

Published October 19, 2011

If you see a large glowing object plummeting from the sky late Saturday or early Sunday, duck.

defunct European satellite called ROSAT is headed straight for Earth this weekend—and chances are even higher that a piece of space debris could hit someone than the odds placed on a NASA satellite that fell from orbit last month.

The German Aerospace Center, which led the development and construction of ROSAT, estimates that the chance of anyone being harmed by debris from the satellite is 1 in 2,000. For NASA’s UARS, the injury risk was roughly a third lower, at 1 in 3,200.

ROSAT is currently estimated to make an uncontrolled reentry during the early morning hours on Sunday, Greenwich Mean Time, said Heiner Klinkrad, head of the European Space Agency’s space debris office.

But Klinkrad cautions that the satellite could enter Earth’s atmosphere up to 24 hours earlier or later than the estimated time.

That’s because shifts in radiation from the sun aren’t 100-percent predictable. If solar radiation increases, there’s more heating and expansion of the atmosphere, which would increase drag on the spacecraft and cause it to hurtle downward sooner than expected.

Don’t Touch the Space Junk

Unfortunately, neither Klinkrad nor anyone else can say exactly where on Earth ROSAT is headed.

Debris could come down anywhere between 53 degrees north latitude and 53 degrees south latitude, an area that includes most of Earth’s land mass, the German Aerospace Center’s Roland Gräve said via email.

That could be a worry, because the satellite’s 1.5-ton mirror is likely to survive the superheated trip through the atmosphere all the way to the ground, where it could make a major dent in whatever it strikes.

By contrast, the biggest piece of NASA’s UARS spacecraft thought to hit the planet was a 300-pound (150-kilogram) chunk of the craft’s frame.

In the end, the remnants of UARS splashed down into an isolated stretch of the Pacific Ocean, disturbing no one except perhaps a few fish. (See “NASA Satellite Debris Likely Fell in Ocean, May Never Be Found.”)

Despite the higher odds, ROSAT is also unlikely to hurt anyone, scientists say, given the planet’s large stretches of ocean and thinly populated areas.

“We accept risks in everyday life that are many orders of magnitude higher than the risks we incur from reentering space objects,” ESA’s Klinkrad said.

If bits of the satellite do land in a populated area, “they will be extremely hot,” added the German Aerospace Center’s Gräve. “This is why we recommend not touching any satellite parts” that do make it to the ground.

And any ROSAT debris, no matter where it’s found, belongs to the German government, he said.

ROSAT Worthy of a Wake

ROSAT—short for Roentgen Satellite—launched in 1990 on a Delta II rocket to measure the x-rays emitted by objects such as neutron stars, dense stellar cores left behind by some supernovae.

The mission was supposed to last only 18 months, but the satellite kept chugging for eight years. Scientists finally shut it down in 1999 after its last functional scientific instrument accidentally pointed too close to the sun, blinding the sensors.

When ROSAT was on the drawing board in the 1980s, spacecraft designers didn’t plan for the end of their vehicles’ lives. So ROSAT was built without a propulsion system that would’ve allowed for a carefully choreographed demise.

“The attitude 20 years ago was still very much, Eh, space is big, and things that reenter probably won’t hit anyone, so we won’t worry about it,” said Jonathan McDowell, a Harvard-Smithsonian Center for Astrophysics scientist who relied on data from ROSAT.

As far as McDowell can remember, nothing as big as the ROSAT mirror has smashed into the Earth’s surface since the reentry of the Soviet space station Salyut-7 in 1991.

 

to read more, go to:    http://news.nationalgeographic.com/news/2011/10/111019-satellite-fall-earth-rosat-space-debris-nasa-science/?source=hp_dl1_news_satellite201120

More on ROSAT Re-Entry Dates & Conditions

SATELLITE RE-ENTRY: The ROSAT X-ray observatory, launched in 1990 by NASA and managed for years by the German Aerospace Center (DLR), will return to Earth within the next two weeks. Current best estimates place the re-entry between Oct. 22nd and 24th over an unknown part of Earth. Although ROSAT is smaller and less massive than UARS, which grabbed headlines when it re-entered on Sept. 24th, more of ROSAT could reach the planet’s surface. This is because the observatory is made of heat-tolerant materials. According to a DLR study, as many as 30 individual pieces could survive the fires of re-entry. The largest single fragment would likely be the telescope’s mirror, which is very heat resistant and may weigh as much as 1.7 tons.

ROSAT is coming, but it’s not here yet. On Oct. 13th, Marco Langbroek photographed the observatory still in orbit over Leiden, the Netherlands:


Photo details: 5 second exposure, Canon EOS 450D, ISO 400

“I observed ROSAT this evening in deep twilight,” says Langbroek. “It was bright, magnitude +1, and an easy naked-eye object zipping across the sky where the first stars just had become visible.”

Update: Scott Tilley of Roberts Creek, British Columbia, made a video of ROSATon Oct. 15th: “It did get pretty bright, at least 1st magnitude, as it passed overhead after sunset.”

ROSAT will become even brighter in the nights ahead as it descends toward Earth. Local flyby times may be found on the web or on your smartphone.

Also, check the German ROSAT re-entry page for updates.

The role of space weather: Solar activity has strongly affected ROSAT’s decay. Only a few months ago, experts expected the satellite to re-enter in December. However, they did not anticipate the recent increase in sunspot count. Extreme ultraviolet radiation from sunspots has heated and “puffed up” Earth’s atmosphere, accelerating the rate of orbital decay. The massive observatory now has a date with its home planet in October.

from:    spaceweather.com