Author Archives: PE0SAT

Lonestar-2 Launched

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Lonestar-2 (AggieSAT-4 and BEVO-2) Launched from the International Space Station.

AggieSAT-4-Launched-29012016

AggieSAT-4-after-launch

Source: Tim Peak on Flickr

It was only on the fifth pass that I could receive signals from AggieSAT-4 on 436.250 MHz. Data is send with 9600 baud FSK and decoded with the help of UZ7HO HS sound-modem software.

AggieSAT4-TLM-RX

   1 > C0 00 57 48 32 58 47 4E 6C 09 00 00 24 0E D8 0E DB DC 00 DB 
  21 > DC 00 02 00 03 00 6A 02 02 00 01 00 02 00 00 00 00 00 00 00 
  41 > 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 
  61 > 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 
  81 > 00 00 00 00 00 00 00 00 00 00 08 20 80 3A 00 00 00 00 00 00 
 101 > DB DC 7F 00 00 DB DC 7F 00 00 DB DC 7F 37 0D 01 07 13 00 00 
 121 > 00 68 68 68 68 DE 45 C0 
 WH2XGN

At the moment if you want to receive AggieSAT-4, you can use the TLE data from ISS. The coming days a NORAD ID will be announced and this object will get his own TLE data.

0 LONESTAR
1 41313U 98067HP  16030.33672022 -.00000484  00000-0  00000+0 0  9993
2 41313  51.6476  30.4721 0005403  89.0857 271.0404 15.54324811    90

More information on AggieSAT-4 and the Texas A&M University can be found at the following URL: AggieSAT Lab

Decoding MXL Cubesats

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Decoding MXL Cubesats with a SDR and Sound-Modem software.

The Michigan Exploration Laboratory (MXL) ground-station software by default wants to connect to a physical TNC. For this connection they use a python based daemon that connects the RS232 TNC interface via a tcp socket on port 12500 to there final ground-station client. This solutions is used with: MCubed, MCubed-2 and GRIFEX.

Many radio amateurs such like myself use a SDR receiver and no longer make use of a  physical TNC and therefor I was looking for an alternative way to use there ground-station software. Well the python part can be swapped with another kiss server like the one that comes with the UZ7HO Sound-Modem or Direwolf (that also runs on Linux) solution.

Below a block diagram with the two different ways to connect the ground-station software.

sound-modem-mxl

For this to work with a SDR solution, one has to do the following:

Alter the MXL ground-station software configuration file

<path>\MCubed2_GS_Client\config.props

radio.1.name=Radio
radio.1.address=localhost
radio.1.port=8100
radio.1.type=KISS
radio.1.tncport=1
client.callsign=(call)
client.id=(call)_GS
server.address=mxlab.engin.umich.edu
server.port=12805

UZ7HO-KissServerUZ7HO, enable the kiss server option and select a ground-station software corresponding port. Select Settings -> Devices -> Server setup. In this example I used port 9100, default is 8100.

After this you can start your favorite SDR program, redirect the audio to the sound-modem software and start the MXL ground-station JAR (Java Archive) for example mcubed2_gs_client.jar when you want to decode MCubed-2.

This information can also be found at the website from JE9PEL: 9k6 decoding

Credits: UZ7HO, VB-Cable, SDR# and MXL

MCubed-2 active again

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MCubed-2 appears to be alive again! Michigan Exploration Laboratory (MXL)is quite surprised and excited that MC2 is back. There theory was that an SD card failed and shorted out the flight computer. They will download telemetry to see if any additional details can be learned.

Below the data I received at January 06, 2016 in the evening.

MCUBED-2_GSClient.s

Signal strength overview.

MCUBED-2_FieldStrength.s

Decoded the saved kiss data with the help of DK3WN MCubed-2 decoder.

mcubed-2_tlm.s

The data is received with the help of a FUNcube Dongle Pro+, the UZ7HO High-Speed sound-modem and the MCubed-2 Ground station Client. Details can be found at the decoding block diagram page.

Receiving LES-1

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After reading some information on this satellite and the fact that its transmitter had become active again, I made some preparation to see if I could receive this flying museum piece.

LES-1 is launched from Cape Canaveral on February 11th 1965.

Below the results from my reception attempts on December 12th 2015 at 09:11 UTC

LES-1_Tracking
Tracking information.

LES-1_RX-12122015-0920UTC
Reception (SDR# and an Airspy).

LES-1-Doppler
Doppler curve.

An AF audio recording can be found at LES-1