Tag Archives: Nanosat
CubeSat UHF Downlink Frequencies Chart
Christophe has produced a handy chart showing the CubeSat UHF downlink frequencies.
http://cubesat.free.fr/IMG//pdf/Cubesat_-_frequence_bande_U.pdf
CubeSat France in Google English http://tinyurl.com/CubeSatfFrance
Amateur Radio CubeSats Launch
The Educational Launch of Nanosatellites (ELaNa) initiative took place on Friday, October 28 at 0948 UT and a number of Amateur Radio satellites were among them. The CubeSats were successfully deployed at 1129 UT. Signals have been heard from Explorer-1[Prime], RAX-2, AubieSat-1 and M-Cubed.
The ELaNa III CubeSats launched were:
Satellite: AubieSat-1
Downlink Freq: 437.475 MHz
EIRP: 0.708W
Modulation Scheme: Interrupted Continuous Wave (IWC)
Protocol: Morse Code
Baud Rate: 20wpm
Satellite: DICE (not amateur radio)
Downlink Freq: 465 MHz
EIRP: -4.51dBW
Modulation Scheme: OQPSK
Protocol: CCSDS
Baud Rate: Modulation data rate 1.5 megabit, Actual Tx bit rate 3.0 megabit
Satellite: RAX-2
Downlink Freq: 437.345 MHz
Modulation Scheme: GMSK
Baud Rate: 9600
Satellite: M-Cubed (1)
Downlink Freq: 437.485MHz
EIRP: under 1W
Modulation Scheme: FSK
Protocol: AX.25
Baud Rate: 9600
Satellite: Explorer-1[PRIME] Flight Unit 2
Downlink Freq: 437.505 MHz LSB
EIRP: -0.7dBW
Modulation Scheme: Non-Coherent FSK
Protocol: KISS Custom
Baud Rate: 1200
Additional spacecraft information can be found on the satellite websites listed below:
M-Cubed: http://umcubed.org/
DICE: http://www.sdl.usu.edu/programs/dice
Explorer-1[PRIME]: http://ssel.montana.edu/e1p/
RAX-2: http://rax.engin.umich.edu/
AubieSat-1: http://space.auburn.edu/
The initial keps are here: http://gs.engin.umich.edu/predictions/tle_elana3.txt
APRS Pass Predictor: http://www.uk.amsat.org/2011/10/28/aprs-pass-predictor/
Jean-Marie KI4YAU asks Amateur Radio operators to listen out for AubieSat-1, on 437.475 MHz CW. He says
We fervently request your assistance in receiving transmissions from an upcoming satellite, AubieSat-1, immediately after its launch from Vandenberg AFB, California, USA. AubieSat-1 (AS-1) is an undergraduate – built CubeSat satellite developed by Auburn University.
AS-1 is designed to transmit with a power of about 800 milliwatts on a frequency of 437.475 MHz, plus or minus Doppler correction [+/- 9 kHz]. The beacon signal, along with telemetry, will be sent using A1A continuous wave Morse code at 20 words per minute. Additional telemetry from the onboard science experiment will use CW transmissions up to 60 WPM.
AubieSat-1 Video: http://www.uk.amsat.org/2011/10/18/aubiesat-1-video/
Oct. 28 NASA CubeSat Deployment video
Oct. 26 NASA ElaNa CubeSat media briefing with Roland Coelho WH7BE
APRS Pass Predictor
On the AMSAT bulletin board Lynn KJ4ERJ reports the initial keps for the CubeSats launched today October 28 have been loaded into the APRS pass predictor:
For APRS users, to get a pass prediction for your QTH, make sure you’ve beaconed your position recently then send a message to one of the following “stations” and you should receive information on the next (or current) pass:
SAT99999 or DICEY
SAT99998 or DICEF
SAT99997 or RAX2
SAT99996 (Mixed case sat names are not yet supported)
SAT99995 or E1PU2
SAT99994 (Mixed case sat names are not yet supported)
For more information on the satellite pass auto-responder, please see http://aprsisce.wikidot.com/doc:satsrv
Lynn (D) – KJ4ERJ – Author of APRSISCE for Windows Mobile and Win32
PS. Yes, you can also send an APRS message to ISS or AO51 to receive pass predictions for those satellites as well.
AMSAT Bulletin Board (AMSAT-BB) http://www.amsat.org/amsat-new/tools/maillist/
CW SRM Nanosat decoding software
The CubeSat Project Team in the University of Khartoum have made available software to decode the telemetry beacon of the new Amateur Radio satellite built by the SRM University.
The Telemetry Decoding Software was developed by University students for studying the University of Khartoum CubeSat (KN-SAT1) telemetry data. It has now been modified to handle SRMVU data
Download the software at http://www.megaupload.com/?d=7PWS7GEA
SRMSAT http://srmsat.in/
Good signals received from SRMSAT and JUGNU
http://www.uk.amsat.org/2011/10/12/good-signals-received-from-srmsat-and-jugnu/
Radio Amateurs thanked for Jugnu reports
The Jugnu team say the continuous stream of satellite beacon reports from Radio Amateurs across the world surpassed all their expectations. The team welcome further reports.
On the AMSAT bulletin board Chintalagiri Shashank writes:
I’m the system engineer for the Jugnu nanosatellite project. This is the nanosatellite which is more generally known on this list as JNU, since that was the identifier sent along with the TLE. I’ve been lurking on this list for the past couple of years, ever since we started working on the nanosatellite. I did learn a lot from occasionally perusing through the posts here. Not being a licensed HAM myself, I apologize for intruding into your space here today.
On behalf of the entire Jugnu team, I’d like to thank all of you for the beacon reports you’ve sent our way, both on the list as well as through Mani (VU2WMY). Its been a long couple of years on the project, but the last few days have been a much more intense roller coaster ride. The continuous stream of beacon reports from across the world surpassed all of our expectations, and were the mainstay of our emotional support while we were having difficulties recieving the beacon ourselves. If I do get to meet any of you in person, the beer’s on me.
The telemetry gathered by HAMs across the world has been extremely useful in our analysis of the spacecraft’s condition. I hope to be able to release, at least partially, the details of the format for the beacon string in a couple of days. In the meanwhile, we welcome any additional telemetry that you can send our way. Even information about the AOS/LOS has been very useful in trying to figure out where exactly the satellite is.
NORAD / celestrak has released 5 TLE’s tagged with the PSLV C-18 launch (2011-058<A-E>). We arent yet sure which one, if any, is Jugnu. We do know that SRMSat is one of the cluster of 3 objects (B,C,D). We’ve been able to recieve our beacon when we attempt to track C, but the signal strength is low and we generally see it clearly only near AOS. Due to reasons I’m probably not allowed to discuss in public, we have reason to believe that Jugnu is moving away from the other objects (SRMSat, VesselSat, and until later today, MT) at a velocity of approximately 1.5 to 3 meters per second since separation from LV. We expect this velocity to be tangential to the orbit. If you’re trying to track Jugnu, I would suggest that for the moment, C is a good starting point, and it may be better to track a little ahead of
it. We will be trying to do the same in some of the later passes ourselves.
In the case of SRMSat, we’ve had good signals at object B until earlier today, but we think that C did a better job of it in the last decent pass we had earlier this evening, about 6 hours ago.
I’d be more than delighted to try and answer any questions you may have about Jugnu, so please feel free to contact me on or off list if you would like to know more about it.
Thanks and Regards,
Chintalagiri Shashank
Head, System Integration and Electronic Hardware Design,
Jugnu Nanosatellite Project
Indian Institute of Technology, Kanpur
Blog: http://blog.chintal.in/
Email: shashank.chintalagiri at gmail.com
JUGNU 437.275 MHz reports should be sent to
wmy@isac.gov.in
shantag@iitk.ac.in
Web: http://www.iitk.ac.in/me/jugnu/index.htm
SRMSAT 437.425 MHz reports should be sent to KC2YQJ <at> arrl.net
Web: http://srmsat.in/srmvu.html
Note due to the 20 degree inclination orbit these satellites are not receivable in high latitude countries such as the United Kingdom.
Getting started on Amateur Radio Satellites PDF
http://www.uk.amsat.org/2011/05/09/getting-started-on-amateur-radio-satellites/
AMSAT-UK 
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