Monthly Archives: April 2014

Apr 24 2014

$50SAT celebrates five months in space

Yaesu handheld and $50SAT 1.5U PocketQube

Yaesu handheld and $50SAT 1.5U PocketQube

Michael Kirkhart KD8QBA provides an update on the $50SAT (MO-76) PocketQube. The tiny satellite which is just 5x5x7.5 cm and 210 grams has completed five months in space.

As of Monday, April 21, 2014, $50SAT/MO-76 has been operating continuously for 5 months!  Moreover, the weather here in EN82 land has improved considerably, allowing me to gather telemetry more often.  I recently purchased a TEAC VR-20 digital recorder, which has eliminated the need for me to use my netbook computer for recording audio from my radios.  In fact, I can basically “wear” all my gear – my FT-817ND is strapped around my neck, my headphones are over my ears, my AMSAT preamp is in my left pocket, my VR-20 is in my right pocket, and my Arrow antenna (or homebrew 6 element WA5VJB Yagi) is in my left hand, leaving my right hand available for tuning.

About 2 to 3 weeks ago, the downlink frequency shifted down to where it should be, centered at 437.505 MHz.  This caught me (and probably some of you) by surprise, as I had trouble finding the downlink signal when running LSB.  As soon as I got used to tuning down, the frequency shifted back up to where it was originally – about 3 kHz high.  Anybody else notice this?

The daily average battery voltage continues to slowly drop.  It does get to about 3700 mV when solar power is available, but will drop as low as 3541 mV just as $50SAT comes out of eclipse.  When it drops below 3600 mV, the sleep time (the time between operational cycles) extends from about 50 seconds (4 * 6 * 2.1 seconds) to about 126 seconds (10 * 6 * 2.1 seconds).  This was done to help stabilize the battery voltage in case of insufficient solar charging, but does have a downside: there are fewer operational cycles per pass.  A rough estimate of operational cycles per pass can be computed using the following information:

1. Typical pass duration is 10 minutes, or 600 seconds
2. The typical operational cycle time for Fast Morse telemetry messages is about 32 seconds
3. The typical operational cycle time for RTTY telemetry messages is about 51 seconds
4. A full cycle of operational cycles consists of 3 RTTY telemetry cycles and 2 Fast Morse telemetry cycles

The average operation cycle time is thus (3 * 51 + 2 * 32) / 5 = 43 seconds

If the battery voltage is less than 3700 mV but greater than or equal to 3600 mV, the number of operational cycles per pass about 600 / (43 + 50) = 6.45, giving somewhere between 6 and 7 cycles per pass.

If the battery voltage is less than 3600 mV but greater than or equal to 3500 mV, the number of operational cycles per pass about 600 / (43 + 126) = 3.55, giving somewhere between 3 and 4 cycles per pass.

$50SAT Boards

$50SAT Boards

Up on the Dropbox, I have uploaded a new TLE set (element set 174) as well as an updated RTTY reports file.  Thanks to all of you, this file has grown significantly.  As of Tuesday, April 22, we have 950 unique telemetry packet captures.  We are working on “scrubbing” through the telemetry data and importing it either to a spreadsheet or a database so we can start analyzing the data.  We appreciate all of you folks who have been gathering telemetry for us, and encourage you to keep doing it.

I have also uploaded a spreadsheet showing the “valid” values for both solar and battery voltage.  Even though $50SAT reports both of these voltages in units of mV, its resolution is only about 20.2 mV.  As a result, there is a finite set of valid voltage values which can be reported.  The spreadsheet uses the actual calibration values from the MK4 CPU board used in the flight model, and computes the mV values the same way the PICAXE CPU in $50SAT does.  This information is quite helpful in recovering partially corrupted RTTY packets.

73

Michael Kirkhart
KD8QBA
$50SAT/MO-76 team

$50SAT was a collaborative education project between Professor Bob Twiggs, KE6QMD, Morehead State University and three other radio amateurs, Howie DeFelice, AB2S, Michael Kirkhart, KD8QBA, and Stuart Robinson, GW7HPW.  The transmitter power is just 100 mW on 437.505 MHz (+/-9 kHz Doppler shift) FM CW/RTTY. $50SAT uses the low cost Hope RFM22B single chip radio and PICAXE 40X2 processor.

$50SAT PocketQube Amateur Radio Challenge
https://amsat-uk.org/2014/02/21/50sat-amateur-radio-challenge/

Further information in the $50SAT Dropbox https://www.dropbox.com/sh/l3919wtfiywk2gf/-HxyXNsIr8

$50SAT – Eagle2 – Communications – Release Version V1_2.pdf
http://tinyurl.com/50DollarSatCommunicationsV1-2

Hope RFM22B single chip radio http://www.hoperf.com/rf/fsk_module/RFM22B.htm

There is a discussion group for $50SAT http://groups.yahoo.com/groups/50dollarsat/

50DollarSat http://www.50dollarsat.info/

Apr 23 2014

The Basement Satellite at Canadian Documentary Film Festival

The Basement Satellite posterThe first screening of the The Basement Satellite at the Canadian International Documentary Film Festival takes place on Friday, April 25.

The film, directed by Hyoung-ju Kim, tells the struggle of Korean artist Hojun Song DS1SBO to develop a satellite, OSSI-1, in his basement studio and launch it into space.

Synopsis from Indiewire.comIn his Mangwon-dong basement art studio, a media artist Hojun Song dreams of making a satellite and shooting it out to space.

He wants to make his dream real through OSSI (Open Source Satellite Initiative) movement. He tries to build a DIY satellite, and to sell 10,000 T-shirts for the 100 million Won ($100,000) budget. His seemingly reckless and utterly ambitious project begins. Would his dream become real?

Watch Hot Docs Trailers 2014: the Basement satellite

Canadian International Documentary Film Festival – The Basement Satellite
http://boxoffice.hotdocs.ca/WebSales/pages/info.aspx?evtinfo=22727~446634ba-e848-4237-9b3c-72aceddb5263&epguid=b314c44a-eed5-4434-9c2c-cc86c0bf61ee&

OSSI-1 Amateur Radio CubeSat Launched
https://amsat-uk.org/2013/04/19/ossi-1-amateur-radio-cubesat-launched/

Apr 23 2014

144 and 432 MHz mixed mode helix antennas

144 MHz prototype helix antenna

144 MHz prototype helix antenna

You can use the free SUWS Web Software Defined Radio (WebSDR) via your PC or Laptop to receive the International Space Station (ISS) and the many amateur radio satellites transmitting in the 145.800 – 146.000 MHz band.

Martin Ehrenfried G8JNJ has equipped the SUWS WebSDR with omni-direction helix antennas for both 144 and 432 MHz which have proved effective for high altitude balloon and satellite reception.

Listen to the SUWS WebSDR at http://websdr.suws.org.uk/

Martin says “I had been experimenting with single turn ‘twisted halo’ design, and decided to try stacking them to see if I could achieve more gain. Modelling suggested that a stretched 3 turn helix with a helix circumference of approx 1/2 wave length and an overall length of 1/2 wave at 70cm, and fed with a gamma match at the centre would offer reasonable gain, an omni-directional pattern and mixed polarisation.”

Full details of the antennas are available at
http://g8jnj.webs.com/currentprojects.htm

WebSDR for 144, 432, 1296 and 10368 MHz
https://amsat-uk.org/2013/12/28/websdr-for-434-and-1296-mhz/

Apr 23 2014

Shin-En2 to carry Mode J linear transponder

Shin-En2 satellite

Shin-En2 satellite

Shin-En2 is a 17 kg satellite measuring 490×490×475 mm built by students at Kagoshima University in Japan that will carry a 145 to 435 MHz linear transponder into a deep space orbit.

The aims of the mission are:
• To establish communication technologies with a long range as far as moon.
• To establish a new technology of the ultra-light-weight satellite. Proposing a WSJT 29dBm UHF downlink and a 29dBm 20 kHz linear transponder and a CW beacon all on UHF with a VHF uplink for the transponder

The orbit will be quite different from the previous satellites. Shin-En2 will have an elliptic orbit around the Sun and travel to a deep space orbit between Venus and Mars. Its inclination will be almost zero, which means Shin-En2 will stay in the Earth’s equatorial plane. 

The distance from the Sun will be between 0.7 and 1.3 AU, where AU (Astronomical Unit) is approximately 1.5 x 108 km.

Shin-En2 is expected to launch in the 4th quarter of 2014 with another amateur radio satellite ARTSAT2:DESPATCH on a H-IIA rocket with the asteroid explorer Hayabusa 2 as the main payload.

Kagoshima University satellite development team
http://tinyurl.com/Kagoshima-Satellite

Shin-En2 English Website
http://www.eee.kagoshima-u.ac.jp/~fuku-lab/sinen,english.html

ARTSAT2:DESPATCH – Art and Ham Radio in Deep Space
https://amsat-uk.org/2013/11/03/art-and-ham-radio-in-deep-space/

Apr 22 2014

$4.00 Ham Radio Satellite Antenna

In this video Dave Tadlock KG0ZZ describes a $4 amateur radio dual band 145 / 435 MHz satellite antenna.

Details of the antenna are at http://www.amateurradio.bz/4_dollar_satellite_antenna.html

Watch the $4.00 Ham Radio Satellite Antenna video

Zed Zed’s Workbench
http://www.amateurradio.bz/
https://www.facebook.com/pages/Zed-Zeds-Workbench/104038876362047

Portable Amateur Radio Satellite Antenna
https://amsat-uk.org/2014/04/19/portable-amateur-radio-satellite-antenna/

Excalibur Amateur Radio Satellite Antenna
https://amsat-uk.org/2014/04/17/excalibur-amateur-radio-satellite-antenna/

Apr 22 2014

LituanicaSAT-1 FM transponder test

LituanicaSAT-1 Camera and FM Voice Transponder

LituanicaSAT-1 Camera and FM Voice Transponder

The LituanicaSAT-1 team are carrying out a test of the FM transponder and they request reports. [Latest update added April 23 1839 UT]

LituanicaSAT-1

LituanicaSAT-1

Dear amateur satellite radio operators,

A courtesy notice that LituanicaSAT-1 FM transponder test is in progress. Today we performed initial operational test over Lithuania successfully. Downlink frequency was noted to have shifted to 435.1755 MHz. More tests are needed to verify that and determine exact uplink frequency shift but 145.950 MHz should work.

Please remember to use CTCSS PL 67 Hz sub-tone. If no problems will be encountered the operational tests for 23rd of April are planned to resume on 12:45 UTC and finish on 16:00 UTC. Just after activation you should here callsign in Morse and short salutation message from Lithuanian president. This identification message is transmitted every 5 min if there is no radio activity as well.

Your reports are more than welcome. Please submit your reports to ly5n@qrz.lt (please provide some supporting data like frequencies, max elevation of the pass, signal to noise ratio, etc.). Also please feel free to share this information through any media channels.

Best Regards,
LituanicaSAT-1 team

UPDATE April 23 1839 UT

Dear radio amateur operators,

Thanks for all of your reports from today’s successful transponder test!

During 14:20 UTC pass over Lithuania FM transponder has switched off automatically after mode transitioning telecommand has been sent to the satellite. This was standard test procedure to verify correct operation of the on board computer during operation of the transponder.

Next test is scheduled for Apr 24 from 13:30 UTC to 15:00 UTC. Again we will be grateful to your reports, including FSK packet telemetry on 437.544 MHz. Please respect other radio amateurs and obey transponder operating techniques.

73,
LituanicaSAT-1 team

Geriausi linkėjimai / Best Regards,
Laurynas M

Watch LituanicaSAT 1 FM repeater first QSO 2014 04 22

Lithuanian CubeSat LituanicaSAT-1 https://amsat-uk.org/2014/02/27/lituanicasat-1-cubesat/