December 30, 2012

SRMSAT spurious emission or FCD front-end overload ?

 SRMSAT    Spurious emission or FCD  front-end overload ?

The center frequency was ok with Doppler  .
Spaces between the main frequency and Spurious frequencies was 25 KHz at both side .

Pre-Amp position does not affect the presence of it.
For sure it's most prominent during on position.
Need more  digital  tracking  and dusting off my analogue gear  :)
Have fun with fun-cube.

                      

December 29, 2012

putt putt putt

 Audio amplifier motor-boating sound.

Adding a Pre-Amp in front of the LM386 creating a Motor-boating sound when I increased the audio volume .

Obvious wasn't  due to interaction between audio amplifier circuit and radio frequency circuit .

A good shielding and power supply decoupling may solve this .

See 30 sec motorboating video clip .

                      

December 27, 2012

Recent bookmarked

 Recent bookmarked links

HSMM-MESH

HSMM-MESH™ is a high speed, self discovering, self configuring, fault tolerant, wireless computer network that can run for days from a fully charged car battery, or indefinitely with the addition of a modest solar array or other supplemental power source. The focus is on emergency communications.
--------------------------------

GNSS-SDR
 Home
 The aim of this project is to provide an open source (and, hopefully, high–quality and well–written) Global Navigation Satellite Systems software defined receiver.
--------------------------------

  SDRB#

SDR#

ADSB# – A simple and cheap ADS-B receiver using RTL-SDR

--------------------------------

  OsmoSDR
OsmoSDR


OsmoSDR is a 100% Free Software based small form-factor inexpensive SDR (Software Defined Radio) project.
If you are familiar with existing SDR receivers, then OsmoSDR can be thought of something in between a  FunCube Dongle (only 96kHz bandwidth) and a USRP (much more expensive). For a very cheap (but inaccurate) SDR, you can use the DVB-T USB stick using the RTL2832U chip, as documented in rtl-sdr.
 


Ancient reduction gear


Reduction gear mechanisms are often used to achieve finer tuning control for variable capacitor .The turning  ratio is 6:1


                                                          External  reduction drive


                                  

                              

December 24, 2012

20M DC Rx initial test

Direct Converter receiver  Initial test .

 No shielding or band spread yet ,but the stability and sensitivity was so good for this prototype Rx.

                      

20M Front-end filter

Front-end filter

Bandpass filter for 20M - Tested at Satellite Communication Lab (SCL)
University of Khartoum .by Cube-sat engineers.

 
                        

December 22, 2012

MC1496 Product Detector

MC1496 Product Detector .
 All components are easy to to find except the old MC1496 . luckily I've got one piece.
Initial tests gave a good result. Injected 14 MHz at 1st input and  RF via  a long wire to 2nd input (without pre-selector ) . Next  I will add pre-selector and 386 IC.


Back ground -Solid State Design by Wes Hayward W7ZOI and Douug DeMaw W1FB .

December 21, 2012

Catch RTL-SDR fire .

DVB-T dongles based on the Realtek RTL2832U can be used as a cheap SDR, since the chip allows transferring the raw I/Q samples to the host, which is officially used for DAB/DAB+/FM demodulation. The possibility of this has been discovered by the V4L/DVB kernel developer  Antti Palosaari.


 From: Antti Palosaari iki.fi>
Subject: SDR FM demodulation
Newsgroups: gmane.linux.drivers.video-input-infrastructure
Date: 2012-02-09 15:01:12 GMT (45 weeks, 9 hours and 10 minutes ago)
I have taken radio sniffs from FM capable Realtek DVB-T device. Looks 
like demodulator ADC samples IF frequency and pass all the sampled data 
to the application. Application is then responsible for decoding that. 
Device supports DVB-T, FM and DAB. I can guess  both FM and DAB are 
demodulated by software.

Could someone help to decode it? I tried GNU Radio, but I failed likely 
because I didn't have enough knowledge... GNU Radio and Octave or Matlab 
are way to go.
I smell very cheap poor man's software radio here :)
regards
 Antti
 

 SDR# is probably the best application to start out with.
RTL-SDR and GNU Radio with Realtek

December 14, 2012

FCD stress release connection + EMI chock


RFI / EMI snap-on ferrite suppressor choke core at USB extension cable, and SMA cable with a double ferrite beads. 


December 11, 2012

NOAA-18 with the Funcube Dongle Pro+


NOAA-18 ---- Funcube Dongle Pro+ ---- SDR#---- Audacity(11025 sampling)---- WXtoIMG----Image enhancement


December 10, 2012

NOAA-19 with the Funcube Dongle Pro+

 NOAA-19
Funcube Dongle Pro+ ---- SDR#---- Audacity(11025 sampling)---- WXtoIMG----Image enhancement


December 4, 2012

Very interesting ITAMSAT documentary

This documentary shows the preparation and launch of the first Italian amateur radio satellite,  September 26, 1993. It was encoded and uploaded from original video master.

IO-26 carried a Mode JD (145 to 435 MHz) Digital Transponder using the 1200 bps AX.25 protocol store-and-forward PACSAT Protocol Suite communications system.


 Thanks Very much AMSAT-UK

December 1, 2012

Satellites in a box – Radio Aurora Explorer video

In this video radio amateur Professor Jamie Cutler KF6RFX highlights the ability of CubeSats to test new technology in space at low cost.

The Radio Aurora Explorer (RAX) mission has proven that scientific information can be gathered from a CubeSat, which is a small satellite encased within a box and attached to a spacecraft to achieve orbit.
The scientific data gathered by RAX has been published in peer-reviewed science journals.

More at  http://www.southgatearc.org/

November 20, 2012

KN-SAT1 Prototype Subsystems Design and Testing


The KN-SAT1 CubeSat, which will have a VHF downlink, is being developed at the University Of Khartoum.
Mahmoud Esawi has made available a video which shows KN-SAT1 Prototype2 subsystems design and testing.



Prototype 2 has a variety of functions:
• Send it’s location received from the GPS receiver.
• Taking a picture and send it back to earth using AX.25 protocol.
• Receive Tele-commands from earth to be executed, like:
• Restart the subsystems.
• Download a picture.
• Take a shot at specific GPS location.
• Change the Tele command key password.

November 4, 2012

PRISM Message box #2

Posted Sunday, November 4th, 2012 by JA0CAW @ DK3WM Blog  

05:43 UTC
05:46:35 JQ1YZW>JQ1YCX>UI,?,F0 (1202 baud):TheLatestID: 048
05:46:54 JQ1YZW>JQ1YCX>UI,?,F0 (1202 baud):048ST2NH talk.tnx nice bird
05:47:12 JQ1YZW>JQ1YCX>UI,?,F0 (1203 baud):047ST2NH talk.seu agn
05:47:36 JQ1YZW>JQ1YCX>UI,?,F0 (1203 baud):046ST2NH talk. tanks 4 msg friends
05:47:53 JQ1YZW>JQ1YCX>UI,?,F0 (1203 baud):045ST2NH talk.hi de nader
05:48:47 JQ1YZW>JQ1YCX>UI,?,F0 (1202 baud):Thank You!JA0CAW_ID=049

Tnx OM  Tetsurou Satou JA0CAW.

November 3, 2012

PRISM Message box.


13:40 UTC
JQ1YZW>JQ1YCX/1: : ¤Ć• ƚcƟ³.¬Ć¤shamThank You!ST2NH _ID=045
JQ1YZW>JQ1YCX/1:: W P’ ‹mshamThank You!ST2NH _ID=046



In this Service, you can write messages onto PRISM’s on-board memory via FM packets uplink.
Also you can command PRISM to downlink the stored messages in FM packets. Thus, PRISM can be used as a kind of message box. Also, you can evaluate FM packets performance of your ground station designed for amateur radio satellites.
The followings are three commands you can use:
  • Information Command : Read latest ID of written messages.
  • Write Command : Store your message into PRISM.
  • Read Command : Read a message of designated ID.

sources 
Prism  website.  &  PEƘSAT website

November 1, 2012

Kibo HANDBOOK

Kibo Elements
The Japanese Experiment Module (JEM), also known as Kibo, consists of six components: two experiment facilities of the Pressurized Module (PM) and the Exposed Facility (EF), a Logistics Module that is attached to each of the PM and EF, a Remote Manipulator System(RMS), and an Inter-Orbit Communication System(ICS).

An  interest reference @   Kibo HANDBOOK 

October 30, 2012

WE WISH decoder

Thanks Mike DK3WN for the new WE WISH packet data decoder . Great Job OM .



                    

WE WISH packet frames.

WE WISH HK DATA
 The beacon is a mix of cw and packet frames - this clip contain only the packet frames .
  
                 

Ohayou(JA-Time) Mike san , Nader san
TNX Soft Mike san and enjoy trip.
GD RCV Nader san,
I decoded the sound of your Blog.
 I sent Image.

 Dewa Tetsu JA0CAW

October 29, 2012

AENEAS Telemetry

AENEAS Telemetry via soundmodem software.
Orbit # 674

Signal was strong
after TCA to LOS .


4341455255531D0040020001010B06002D14AC000000001000F075005A534A004120AABC411139
4341455255531D0040020001010B06002D0AAC000000001000F075005A534A004120AABC41ACBD
4341455255531D0040020001010B06002D14AC000000001000F075005A534A004120AABC411139
4341455255531D0040020001010B06002D14AC000000001000F075005A534A004120AABC411139
4341455255531D0040020001010B06002D1EAC000000001000F075005A534A004120AABC417A45
4341455255531D0040020001010B06002D28AC000000001000F075005A534A004120AABC417A38
4341455255531D0040020001010B06002D32AC000000001000F075005A534A004120AABC41ACD9

 
 

WE-WISH - BEACON MODE

More info see Here
See a short video clip

                    

October 27, 2012

New pictures from NIWAKA by 5.8GHz.


(rear camera)


(front camera)

http://www.fit.ac.jp/~tanaka/fitsat.shtml

WE-WISH CW TLM


                        

TechEdSat TLM & UZ7HO Soundmodem

Soundmodem  is a  software Packet-Radio TNC by UZ7HO . Recently seems to be more sensitive than other tnc software and hardware tnc  on Rx CubeSat packet @1200 bps  !, at least on my setup.

Software Packet-Radio TNC

TechEdSat TLM decoder By DK3WN



October 26, 2012

Setellites frequency list update #2




 Subject: [amsat-bb] Re: Request for a file of amateur satellite frequencies


Hi All
See Mineo Wakita webpage - All satellites list update page
http://www.ne.jp/asahi/hamradio/je9pel/satslist.htm
73's 

Nader Omer
 ---------------------------------------------------------------------------------------------------------------------------------


Subject: [amsat-bb] Re: Request for a file of amateur satellite frequencies

Hi All,

Many thanks to everyone who responded to my plea!

As a result of it, with JE9PEL's agreement, we have created an abstract from 
his master list of all amateur satellites so as to include just those ones 
that are active.

It is available here  http://www.uk.amsat.org/?page_id=11251

The benefit of this is that it fits nicely on a single sheet of A4 paper and 
can therefore easily be stuck on the wall of the shack right behind the 
radio. I know that this is an old fashioned concept but it has already 
helped me work out the likely spacecraft when looking at signals showing up 
the waterfall display on the screen using an FCD+ and SDR#

The challenge will, of course, be to keep it uptodate and hopefully  someone 
will be willing to take on the task of setting up and maintaining a proper 
database.

best wishes

Graham
G3VZV

October 23, 2012

Online telemetry decoder for FITSAT-1& other satellites

UTC 21:12
Orbit # 281
Telemetry data received by Fldigi 3.2 software.

S4 1D 1E 19 18
S5 1B 18 07 66
HI  DE NIWAKA JAPAN
S1 F0 01 01 B9
S2 89 DA 81 81
S3 01 00 00 01
S4 1C 1E 18 17
S5 1B 18 08 05
HI DE NIWAKA JAPAN
S1 F1 01 01 B9
S2 89 DA 81 81
S3 01 00 00 01

See the short video clip :
                             

The telemetry decoded by Timothy HB9FFH who made a telemetry decoder for FITSAT-1. It is available from the Carpcomm website:http://carpcomm.com/satellite/fitsat1




Decoder for other Cube-satellite  available too http://carpcomm.com/satellite/list
Screen snapshot of the result
   
                                  
Other FITSAT-1 decoder available at Ivo Brugnera I6IBE webpage
 

October 21, 2012

TechEdSat Beacon via soundmodem

UTC  20:25
Orbit # 265


FITSAT-1 tlm

UTC   20:20
Orbit # 265

HI DE NIWAKA JAPAN
SI*0 01 01 B9
S2 89 DA 81 81
S3 00 00 00 00
S4 1D 1E 19 19
S5 1B 16 AB EC

AENEAS beacons

Sunday, October 21st, 2012 by DK3WN
17:58 UTC
4341455255531D0040020001010B0601073228000000001000F075001181440041F06909428389
4341455255531D0040020001010B0601080028000000001000F075003881440041F06909429363
4341455255531D0040020001010B0601080A28000000001000F075003881440041F0690942F81F
4341455255531D0040020001010B0601081428000000001000F075003881440041F0690942459B
4341455255531D0040020001010B0601081E28000000001000F075003881440041F06909422EE7
4341455255531D0040020001010B0601082828000000001000F075003881440041F06909422E9A
4341455255531D0040020001010B0601083228000000001000F075003881440041F0690942F87B
4341455255531D0040020001010B0601090028000000001000F075005F81440041F069094247AC
4341455255531D0040020001010B0601090A28000000001000F075005F81440041F06909422CD0
4341455255531D0040020001010B0601091428000000001000F075005F81440041F06909429154
4341455255531D0040020001010B0601091E28000000001000F075005F81440041F0690942FA28
4341455255531D0040020001010B0601092828000000001000F075005F81440041F0690942FA55
4341455255531D0040020001010B0601093228000000001000F075005F81440041F06909422CB4
4341455255531D0040020001010B06010A0028000000001000F075008681440041F0690942E41A
4341455255531D0040020001010B06010A0A28000000001000F075008681440041F06909428F66
4341455255531D0040020001010B06010A1428000000001000F075008681440041F069094232E2
4341455255531D0040020001010B06010A1E28000000001000F075008681440041F0690942599E



You see here the signal from TCA at 17:59 UTC till LOS.
The eclipse begun exactly at 18:01:40 UTC and you can see that the signal is getting weaker instantly.
Source DK3WM Blog 

First picture from NIWAKA by 5.8GHz

 
 
GS says to AMSAT-DL as follows.

> I appreciate your offer of 20m dish.
> The exact frequency is 5840.000 MHz.
> 
> The RF signal is modulated with FSK of 115.2kbps digital picture data.
> Frequency sift is +,- 50kHz, but the spectrum spread over 300kHz.
> As we use a simple FSK, FM detector directly generates the signal for
> serial-port(RS232C) of PC. The discriminator of FM-radio (IF=10.7MHz)
> may be available by removing de-emphasis circuit.
> 
> A jpeg-picture data are sent by packets. Each packet consists
> of 128 byte:
> 
> packet-ID  data-size  picture-data  verify
> (2 byte)   (2 byte)   (122 byte)    (2 byte)
> 
> Namely, the first 4 bytes and the last 2 bytes do not consist the
> photo data. Data-size of all packets except the last is 122(=7A hex).
> 
> A jpeg-picture data starts with "FFD8" and ends with "FFD9".
> The jpeg picture is made by connecting the data part of each packet by
> removing the first 4 byte and the last 2 byte.
> 
> 20 VGA-pictures are sent at a time. Each picture is sent around 4-6 sec.
> There is 8 msec interval between packets. and 5 sec interval between 
> pictures. 
> 
> Please find the block diagrams and circuit schematics in my web-page:
> http://www.fit.ac.jp/~tanaka/

Flight and Engineering Models of FUNcube-1

Flight and Engineering Models of FUNcube-1 with FUNcube-2 boards


More information is available-at  UK-AMSAT

October 16, 2012

VUSat OSCAR-52 _ Mode V Beacon .

                                                  VUSat OSCAR-52  Mode V Beacon .


October 13, 2012

How to decode WE_WISH SSTV (Revision)

How to decode WE_WISH SSTV


https://sites.google.com/site/jq1ziijq1zij/english


How to decode WE_WISH SSTV

JE9PEL, I explain a method of the decoding WE_WISH SSTV photo received ST2NH.
Because there is only a Japanese software and PDF file, I do not know whether
you can analyze it by a method to explain here properly in English. Please test.

(*) In the PDF file writing on how to use WE_WISH decoder, the way of
    the temperature setting seems to include some error. In other words
    the ruggedness of the 3D image of SSTV which I explained in my home
    page might be against all so far. Please wait for a while, because
    I am asking GS a question now.

(**)I corrected here the explanation of the last page in the PDF file of
    WE_WISH SSTV. This was comfirmed in Ground Station as above.


 1. You will get a clean red and a yellow photo of the infrared signal using
    MMSSTV. Save this image as the BMP file. And you will notice some curved
    lines at the center of the image. I do not know what it is.

 2. Install Decoder and PDF file from Japanese homepage of WE_WISH GS.
    https://sites.google.com/site/jq1ziijq1zij/home/shou-xin-fang-fa
    https://sites.google.com/site/jq1ziijq1zij/english, English page

 3. Set BMP file which you saved first in the column of this decoder.

 4. Set two CFG file 'AMB20-OBJ20_Cal.dat' and 'AMB20-OBJ40_Cal.dat' etc.
    Input temperature value in two columns of this decoder, and run it.
    See the next image for example.
    http://www.ne.jp/asahi/hamradio/je9pel/st2nhtv1.png

 5. The CSV file is generated in the folder automatically.
    It is 'st2nhstv_OUT.csv' for example.

 6. Open this CSV file using a tool Graph-R 2.30 'GraphR.exe'.
    http://www.vector.co.jp/soft/dl/winnt/business/se136959.html

 7. You will decode them as follows.
    http://www.ne.jp/asahi/hamradio/je9pel/st2nhtv2.png
    http://www.ne.jp/asahi/hamradio/je9pel/st2nhtv3.png


AW: We-Wish SSTV by DK3WN

 19:45UTC, 10 Oct 2012 by DK3WN (before correction)

 http://sphotos-f.ak.fbcdn.net/hphotos-ak-prn1/155640_4824859186488_213597516_n.jpg
 http://heiseiturezuregusa.blog.ocn.ne.jp/a/2012/10/1011_4816.html

 20:32UTC, 11 Oct 2012 by DK3WN (before correction)


    
 You can see the gradient boom.         After correction by JA0CAW


[Supplement]

Subject: SSTV
From: Nader Omer
To: mineo waketa je9pel
Date: Tue, 9 Oct 2012 15:11:04 -0700 (PDT)

Hello dear Mineo
I've received SSTV photo from We Wish satellite .
I've noticed some curved lines at the center of the photos
as I've seen those line too at JA0CAW sstv photo!
see attached images please
I wounder what are those lines?
How can I decode we wish sstv images ?

Thanks in advance dear friend
73's, Nader, st2nh

---------------------
Subject: We-Wish SSTV
From: Mike Rupprecht
To: Mineo Wakita
Date: Wed, 10 Oct 2012 13:45:50 +0200

Dear Mineo san,
I received a new SSTV image from We-Wish. Can you explain me,
what we see in the image?

I know it's an infrared or thermal image - but of what.
Is it inside the cube or outside to earth?
I did not found any english informations about that.
Maybe you can help me, please?

Thanks ! 73 Dewa,
Mike, DK3WN

---------------------
Subject: We-Wish SSTV
From: Mineo Wakita
To: Nader Omer, Mike Rupprecht
Date: Wed, 10 Oct 2012 20:48:03 +0900

Please set up as above after the correction.
JE9PEL, Mineo Wakita

---------------------
AW: We-Wish SSTV
From: Mike Rupprecht
To: Mineo Wakita
Date: Thu, 11 Oct 2012 13:44:38 +0200

Dear Mineo san,
I managed to get the temperature gradient.
I forgot to type in the values for H and L rangec

I should better learn japanese language, hihic

73 Dewa,
Mike

----- Ursprungliche Nachricht -----
Betreff: Re: We-Wish SSTV
Von: Mineo Wakita
An: DK3WN
Gesendet: Donnerstag, 11. Oktober 2012 13:41

In the PDF file writing on how to use WE_WISH decoder, the way of
the temperature setting seems to include some error. In other words
the ruggedness of the 3D image of SSTV which I explained in my home
page might be against all so far. Please wait for a while, because
I am asking GS a question now.

JE9PEL, Mineo Wakita  wesite

WE_WISH English Page

WE_WISH English Page2012幓10꜈13ę—„ 11Ꙃ11分

PDFćƒ•ć‚”ć‚¤ćƒ«ć®č‹±čŖžē‰ˆćŒå…¬é–‹ć•ć‚Œć¾ć—ćŸ。
恓恔悉ćÆ datćƒ•ć‚”ć‚¤ćƒ«ć®(高ęø©),(低ęø©)恮čØ­å®šć®ä»•ę–¹ćŒę­£ć—ćčØ˜č¼‰ć•ć‚Œć¦ć„ć¾ć™。
https://sites.google.com/site/jq1ziijq1zij/english
by JE9PEL Blog

October 11, 2012

How to decode WE_WISH SSTV

How to decode WE_WISH SSTV ― 

WE_WISH čµ¤å¤–ē·šē”»åƒć‚’č§£ęžć™ć‚‹ę–¹ę³•ć«ć¤ć„ć¦、å¤–å›½å±€ć‹ć‚‰č³Ŗå•ćƒ”ćƒ¼ćƒ«ćŒę„ć¾ć—ćŸ。
恓恮 SSTVäæ”号ćÆäø–ē•Œäø­ć§å—äæ”ć•ć‚Œć¦ć„ć¾ć™。恗恋恗 ē®”制局HP恫ćÆ、English 恮
ćƒšćƒ¼ć‚øćÆ恂悋悂恮恮 ęœŖ恠 Coming Soon 恮ēŠ¶ę…‹ć§、ćƒ‡ć‚³ćƒ¼ćƒ€ćƒ¼ć‚‚ PDFćƒ•ć‚”ć‚¤ćƒ«ć‚‚
英čŖžē‰ˆćÆē”Øę„ć•ć‚Œć¦ć„ć¾ć›ć‚“。ćć“ć§åƒ­č¶ŠćŖć®ć§ć™ćŒ、ꬔ恮čæ”äæ”悒č‡Ŗå±€ć®ę–¹ć‹ć‚‰
送äæ”ć„ćŸć—ć¾ć—ćŸ。恗恋恗、ć™ć¹ć¦ćŒę—„ęœ¬čŖžåƾåæœćŖ恮恧、äø‹čØ˜ć®ę‰‹é †ć‚’čøć‚“恧悂
ęć‚‰ćå¤–å›½å±€ć«ćÆćƒ‡ć‚³ćƒ¼ćƒ‰ć™ć‚‹ć“ćØćÆē„”ē†ć§ć—悇恆。何ćØć‹ę”¹å–„ć‚’ć—ćŸć„ć§ć™ć­。

JE9PEL, I explain a method of the decoding WE_WISH SSTV photo received ST2NH.
Because there is only a Japanese software and PDF file, I do not know whether
you can analyze it by a method to explain here properly in English.

 1. You will get a clean red and a yellow photo of the infrared signal using
    MMSSTV. Save this image as the BMP file. And you will notice some curved
    lines at the center of the image. I do not know what it is.

 2. Install Decoder and PDF file from Japanese homepage of WE_WISH GS.
    https://sites.google.com/site/jq1ziijq1zij/home/shou-xin-fang-fa
    I put the same program in English 'wishsstv.exe' in my homepage.
    http://www.ne.jp/asahi/hamradio/je9pel/wishsstv.exe

 3. Open two CFG file 'AMB20-OBJ20_Cal.dat' and 'AMB20-OBJ40_Cal.dat' etc.
    Input temperature value in two columns of this decoder.
    See the next image for example.
    http://www.ne.jp/asahi/hamradio/je9pel/st2nhtv1.png

 4. The CSV file is generated in the folder automatically.
    It is 'st2nhstv_OUT.csv' for example.

 5. Decode this CSV file using a tool Graph-R 2.30 'GraphR.exe'.
    http://www.vector.co.jp/soft/dl/winnt/business/se136959.html

 6. You will decode them as follows.
    http://www.ne.jp/asahi/hamradio/je9pel/st2nhtv2.png
    http://www.ne.jp/asahi/hamradio/je9pel/st2nhtv3.png
 
Thanks  Mineo JE9PEL 
Sourse JE9PEL Blog 

October 9, 2012

JAXA cubesat Keps

WE WISH             
1 38852U 98067CN  12283.00925092  .00041863  00000-0  69687-3 0    14
2 38852  51.6477 275.8145 0018909 135.8738 224.3701 15.51407904   603
Raiko            
1 38853U 98067CO  12283.00919217  .00038394  00000-0  64119-3 0    17
2 38853  51.6480 275.8141 0014227 145.1302 215.0858 15.51445930   661
F-1              
1 38854U 98067CP  12283.07336473  .00054398  00000-0  89879-3 0    14
2 38854  51.6473 275.4897 0014651 145.1372 215.0744 15.51582271   671
FITSat-1             
1 38855U 98067CQ  12282.68697989  .00022010  00000-0  37095-3 0    12
2 38855  51.6485 277.4123 0014736 146.6828 213.5108 15.51493630   504
TechEdSat             
1 38856U 98067CR  12283.00883489  .00069724  00000-0  11405-2 0    11
2 38856  51.6479 275.8106 0018733 136.2088 224.0323 15.51677880   557
/EX

References
DK3WN Blog and  prehled-druzic.blogspot.

October 8, 2012

Hiscock Radiation Belt Explorer ( HRBE) TLM


20:46 20:57 UTC
Orbit # 5,106



 
                                           

More info
E1P-2 (Explorer-1 PRIME-2) / HRBE CubeSat Mission Space Science and Engineering Laboratory

FO-29 CW TLM

 21:10  21:27  UTC
Orbit # 79,719

HI HI 200288D5007700000960010101817E7D8885F7F6F7F7F6
HI HI 200288D5007700000960010101817E7D888FF8F6F7F8F6
HI HI 200288D500770000096001010I817E7D887FF8F6F7F8F6
HI HI200288D5007700000960010101817D7D886CF8F6F8F8F6

October 5, 2012

Status of satellites deployed from the International Space Station (ISS).

On October 4, 2012 five CubeSats were successfully deployed from the International Space Station (ISS). The first pod containing RAIKO and WE-WISH was deployed at 1437 UT while the second pod containing FITSAT-1, F-1 and TechEdSat deployed at 1544 UT.

Last status of the satellites
FITSAT-1 - CW beacon heard and decoded .
TechEdSat - Packet beacon received.
WE-WISH  SSTV  received .
F1 Not heard yet.

More info at AMSAT-UK & Amsat BB

October 4, 2012

FITSAT Heard over Africa

UTC 16:36
 Orbit # 1
FITSAT heard Very strong and clear signal
 I DE NIWAKA JAPAN H1 ED 0D 01 BD E*8 D6 81 81
 Other satellites not heard!!
 Congratulation for all teams

 

PROITERES - Heard, strange pattern!

PROITERES CW heard with very good signal strength & strange pattern!

September 22, 2012

PROITERES NOT HEARD !

September 23rd, 2012
UTC 19:38 19:51

Orbit #215 .
Carrier heard .
No beacon.

UTC 19:12 19:25
Orbit # 200
No Beacon or carrier heard !

September 21, 2012

PROITERES – a strong carrier signal!!

Proiteres had been silent since last week.
Mr. Kazuo from Osaka Institute of Technology informed
me that the Proiteres satellite have some trouble of the power supply.
Today I’ve noticed a very strong and continuous   carrier.
It seems the transmitter was locked in keying mode!!
Short clip shows the strong carrier .

The University of Manitoba Satellite Ground Station

The University of Manitoba Satellite Ground Station

Previous Post of other Universities Satellite Ground Station.

University of Oslo Satellite Ground Station.



University of Oslo Satellite Ground Station.

 Previous Post of other Universities Satellite Ground Station.