Nov 30 2014

COSMOS-2499 Callsign RS-47 !

COSMOS-2499 signals received by Dmitry Pashkov R4UAB

COSMOS-2499 (2014-028E) was launched on May 23, 2014 and is now in a 1,510.6 km by 1,158.8 km 82.4 degree orbit. Dmitry Pashkov R4UAB has received signals from the satellite on approximately 435.465 MHz and 435.565 MHz (+/- Doppler). On November 30 the satellite started identifying itself in Morse code on 435.465 MHz as RS-47.

There has been some mystery concerning the purpose of COSMOS-2499. In a post updated November 20, 2014 Anatoly Zak @RussianSpaceWeb wrote: Ground observations indicated that the mystery satellite had not exceeded 0.3 meters in size. Previously, two Rockot launches with trios of Rodnik/Strela-3M launches also carried Yubileiny (a.k.a. MiR) experimental satellites with a reported mass from 48 to 100 kilograms. As with the previous launch, observers were at a complete loss about the possible purpose of the satellite.

Cosmos-2499 has made a number or orbital changes since it was first launched. For further information see http://www.russianspaceweb.com/Cosmos-2499.html

Watch RS-47 / COSMOS 2499 / 2014-028E (R4UAB)

Track COSMOS-2499 / RS-47 at http://www.n2yo.com/?s=39765

Listen for RS-47 online with the SUWS WebSDR located near London
https://amsat-uk.org/2014/08/15/suws-websdr-moves-to-new-site/

RS-47 Telemetry data http://www.dk3wn.info/p/?p=52752

Dmitry Pashkov R4UAB describes receiving the 435.465 MHz and 435.565 MHz signals at http://tinyurl.com/R4UAB-COSMOS-2499

Nov 29 2014

RAGazine now available for download

Volume 2 issue 2 of the free BAA-RAG radio astronomy publication RAGazine is now available for download.

In this edition:
– Meteor Scatter by Paul Hyde G4CSD
– VLF Report by John Cook G8EDG
– Update from the Hydrogen Line Group by Brian Coleman G4NNS and Gordon Dennis
– S7 and S8 14 Calibration Point Observations Brian Coleman G4NNS
– Airspy SDR Dongle by Tony Abbey G3OVH
– Choosing a Programming Language by Jeff Lashley 2E0ODF
– The rtl_power app by Jeff Lashley 2E0ODF
– Improving the accuracy of meteor data using the Scatterthon application by Victoria Penrice M6VXJ and Chris Jackson G7UPN/ZL2TPO
– European conference on Amateur Radio Astronomy by Paul Hyde G4CSD
– A Radio Astronomy Renaissance Man by Jeffrey M. Litchtman KI4GIY

RAGazine Vol 2 Iss 2 http://www.britastro.org/radio/ragazine/Ragazine_Vol2_iss2_11_2014.pdf

Download previous issues http://www.britastro.org/radio/downloads.html

Join the BAA-RAG Yahoo Group at http://groups.yahoo.com/group/baa-rag

Nov 29 2014

Surrey Space Centre SME-SAT

SME-SAT – Surrey Space Centre

The Surrey Space Centre (SSC) are developing a 3U CubeSat SME-SAT expected to launch into a 550-620 km orbit using the ISIPOD CubeSat deployer.

The mission objectives are:
A: Outreach – The satellite will provide beacons for which amateur satellite users and ham radio users will be able to receive.
B: Space qualification and performance characterisation of sensors.
• High performance COTS Gyroscopes (x3).
• High precision MEMS accelerometers.
• 2 Aperture Star Camera, At a later point in the mission these will be used in conjunction with the ADCS to characterise the closed loop performance of the sensors.
C: Performance characterisation of Nano-Control Moment Gyros (CMGs) for agility. The mission is equipped with 4-Nano-CMGs in a pyramid configuration for ADCS. This part of the mission will evaluate the performance of this system on the ADCS and agility of the satellite.
D: Space qualification and performance characterisation of the EPS The EPS for this mission has heritage from the Delfi-C3 and other missions and includes additional improvements to be demonstrated on this mission.
E: Smart Thermal Radiation Devices (STRD tiles) SME-SAT is equipped with a number of STRD tiles on the outside faces of the satellite for passive thermal management of the internal structure.
F: Flux Gate Magnetometer The mission contains a scientific grade miniaturized flux gate magnetometer that sits on the end of a deployable boom to improve the performance of the sensor. This payload will be switched into the ADCS for evaluation of performance during parts of the mission but is not the primary magnetometer for ADCS.
G: GPS SME-SAT also contains an experimental GPS system that will be switched into the ADCS loop at stages in the orbit to evaluate the performance of the system.

Planning a 9k6 RC-BPSK UHF downlink using AX25.

Further information at http://www.surrey.ac.uk/ssc/research/space_vehicle_control/smesat/index.htm

IARU Satellite Frequency Coordination http://www.amsat.org.uk/iaru

Nov 28 2014

Ham radio deep space launch postponed again

ARTSAT2:DESPATCH Internal Structure

The launch of the amateur radio spacecraft Shin’en2 JG6YIG and ARTSAT2:DESPATCH JQ1ZNN has again been postponed and should now be 04:22:04 UT on Wednesday, December 3, 2014. The launch was broadcast live at https://www.youtube.com/watch?v=o5TmrQ_ySfg starting at 03:30 UT.

Update: Launch was successful http://global.jaxa.jp/press/2014/12/20141203_h2af26.html

Shin’en 2

The launch of the H-IIA Launch Vehicle No. 26 (H-IIA F26) which also carries the asteroid explorer “Hayabusa2” had been rescheduled from November 30 to December 1 due to a freezing layer in the clouds that exceeded the weather restrictions for launch. Strong winds have caused a further postponement to December 3.

ARTSAT2:DESPATCH carries a 7 watt CW transmitter on 437.325 MHz and the first sculpture to be carried into deep space.

Shin’en2 has a CW beacon on 437.505 MHz (0.1 watt) and telemetry on 437.385 MHz (0.8 watt) using a mode which Seiji JH6RTO describes as similar to WSJT but not the same.

The Shin’en2 English language Ground Station page mentions WSJT but the equivalent Japanese language page does not.

The Shin’en2 site indicates there is also a F1D digital transponder with an uplink of 145.942 MHz with 435.270 MHz (0.4 watt) downlink.

The two spacecraft will have an elliptic orbit around the Sun and travel to a deep space orbit between Venus and Mars. The inclination will be almost zero, which means the spacecraft should stay in the Earth’s equatorial plane. The distance from the Sun will be between 0.7 and 1.3 AU. An Astronomical Unit (AU) is 149,597,871 km.

ARTSAT2:DESPATCH http://despatch.artsat.jp/en/Main_Page

ARTSAT2:DESPATCH spacecraft prediction App
http://ji1izr.air-nifty.com/ham_satellite/in_english/index.html

Shin’en2 http://www.shin-en2.jp/index_E.html

Shin’en2 spacecraft prediction App
http://ji1izr.air-nifty.com/ham_satellite/2014/12/artsat2-despa-3.html

Weather restriction graphic showing clouds with freezing layer
http://global.jaxa.jp/press/2014/11/20141128_h2af26.html

Ham radio launches to deep space
https://amsat-uk.org/2014/11/19/ham-radio-launches-to-deep-space/

Japanese asteroid mission to carry amateur radio
https://amsat-uk.org/2014/09/01/japanese-asteroid-mission-to-carry-amateur-radio/

Thanks to Hideo JH3XCU/1 for posting news of the postponement on the AMSAT Bulletin Board.

Nov 27 2014

Principia Mission Patch

Blue Peter presenter Lindsey, competition winner Troy and UK astronaut Tim Peake KG5BVI with mission patch

In partnership with the UK Space Agency, BBC TV’s Blue Peter show asked young people to design a mission patch for UK astronaut Tim Peake KG5BVI and received more than 3000 entries.

Principia Mission Patch

The judges from the UK Space Agency, Blue Peter and ESA together chose their two favorites in each of the three age groups of 6–8, 9–11 and 12–15 years. Important considerations for deciding on the final six were how a design would look as a patch, the colors used and whether the children drew everything on their own. The selection of the winning design out of the six came down to Tim himself.

The mission name Principia comes from Isaac Newton’s world-changing three-part text on physics, Naturalis Principia Mathematica, describing the principal laws of motion and gravity.

The winning entry was by 13-year-old Troy who used an apple to signify Newton’s law of gravity. Fittingly a stylized International Space Station (ISS) glints in the apple. The Soyuz rocket taking Tim into space flies over the UK as the colors of the Union Flag run along the border.

In September Tim Peake KG5BVI learned how to use the Ericsson 144 MHz handheld radio which is installed in the Columbus module of the ISS. On September 18 Tim said “Will be great to chat with schools next year from space using this ham radio on board the ISS.”

UK Space Agency announcement
https://www.gov.uk/government/news/tim-peakes-principia-mission-logo

GB1SS callsign for International Space Station
https://amsat-uk.org/2014/10/22/gb1ss-callsign-for-international-space-station/

Tim Peake KG5BVI training on ISS Amateur Radio Station Equipment

Nov 26 2014

Ofcom discuss Pocket Spacecraft

View of St Pauls from Ofcom office – Credit Michael Johnson M0MJJ

On Wednesday, November 26, Michael Johnson M0MJJ discussed the licensing of thousands of Pocket Spacecraft with the UK communications regulator Ofcom.

Pocket Spacecraft

The plan is that a 3U CubeSat will carry Pocket Spacecraft known as ‘Scouts’ to the Moon. A ‘Scout’ is a disk with flexible electronics, smaller than a CD, containing a transceiver, antenna and solar cells. The CubeSat should first release a batch of the wafer thin Scout satellites into Earth orbit and then deploy another batch of the Scout satellites into Lunar orbit.

It is understood the mission plans to use the 435 MHz and 2400 MHz bands.

Pocket Spacecraft http://pocketspacecraft.com/

Follow Pocket Spacecraft on Twitter @mySpacecraft

UK radio ham’s Lunar CubeSat to go ahead
https://amsat-uk.org/2013/08/26/uk-radio-hams-lunar-cubesat-to-go-ahead/

BBC: ‘Pocket spacecrafts’ to become a reality
https://amsat-uk.org/2014/05/15/bbc-pocket-spacecrafts-to-become-a-reality/

AMSAT-UK

Radio Amateur Satellites

Monthly Archives: November 2014

COSMOS-2499 Callsign RS-47 !

RAGazine now available for download

Surrey Space Centre SME-SAT

Ham radio deep space launch postponed again

Principia Mission Patch

Ofcom discuss Pocket Spacecraft

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