Saturday, June 6, 2015

Raspberry Pi and Amateur Radio (Apps and more)


have a raspberry Pi or want a raspberry PI?

this is the best thing going for now. it is a full blown computer on a 2x2 board
HD audio
HD Video

1GB of memory and FAST

and very little $$$ compared to what you are used to!

here is a link to check it out:rasp pi

software list for ham radio is XXXXXXX

then i will point you to what you can do with it with Ham radio




here are some I found on dxzone
Hamnet on a Raspberry Pi - Initial set up of Broadband Hamnet on a Raspberry Pi....
GNU Radio on Raspberry Pi 2 - Taking the Raspberry Pi 2 for a Test Drive with GNU Radio. Installing ...
ADS-B flight tracker with Raspberry Pi - Build and run your own ADS-B receiver for 100 USD with a Raspberry Pi...
Raspberry Pi SDR Receiver - Get started with SDR using a Raspberry Pi and inexpensive RTL-SDR tune...
D-Star radio access point with Raspberry Pi - Getting your Raspberry PI up and running your D-Star radio kit. This w...
FM broadcast transmitter Raspberry Pi - This simple hack turns your Raspberry Pi into a powerful FM transmitte...
Raspberry Pi WSPR beacon - How to build a simple WSPR beacon using the Raspberry Pi for the trans...
RemoteQTH with Raspberry - Software running on the Raspberry PI, Control up to 8 arduino rotators...
SDR Server with Raspberry Pi - Setting up a Raspberry Pi as a SDR Server with RTL-2832U USB dongle ...
WSPR beacon on Raspberry Pi - Settng up a 40 meter WSPR beacon based on Raspberry Pi by VA3PAW.


ham radio/raspberrey pi>hamradioscience


to get a raspberry pi to work with linux (raspbian) the drivers were already there for many ham radio apps

to get the audio working for raspberry pi and linux:

install alsa a mp3 tool and wav to mp3 conversion:

> sudo apt-get install alsa-utils
> sudo apt-get install mpg321
> sudo apt-get install lame

enable sound module, then reboot
> lsmod snd-bcm2835
> sudo modprobe snd-bcm2835

then just use
>aplay xxxx.wav


there are a few Ham Radio Linux distributions for Raspberry pi:

1. KB1OIQ Andy ham radio for linux>KB1OIQ
2. raspberryconnect>RASPBERRYCONNECT
3. raspberrypi.org>RASPBERRYPI
4. ubuntumate> ubuntumate
5. linux.org.au>australian linux group



for digital modes ham radio and linux you need a new radio or some type of tnc or analog to digital converter.

so there are a few: Rigblaster - by west mountain radio or signlalink by www.tigertronics.com/slusbmain.htm

Ham radio deluxe is only for windows you CAN run wine but good luck people say it works ok
but I prefer not to run wine ( I might as well run windows)
so programs i would suggest:
FLDIGI for most digital modes CW, rtty, psk
ECHOLINK echolink
VOACAP
ALARMEJT>alarmjt
FREEDV>that allows any SSB radio to be used for low bit rate digital voice.
MMTTY > rtty
MMSSTV> slow scan tv
WSTOOLS>Linux version of the JT44 and FSK441 communications protocols, usually described together as WSJT.
HAMLIB>HAMLIB LINK
ICOM> This program controls ICOM radio transceivers and receivers with the CI-V option.








Wednesday, May 27, 2015

Video of Vermont YLRL member

Here is another video of YLRL member in VERMONT

Video of W1MP YL IN VERMONT

here is a video of Linda (W1MP) getting her antenna installed


remember Linda W1MP is the only YLRL member in Vermont

33 73

Pictures from W1MP qth.... getting new antennas installed YL in VERMONT


W1MP getting new antennas installed








here are pictures from W1MP Linda in Vermont installation of her antennas..... NOW you SHOULD be able to have a decent QSO with her.
she is one of few YLRL members in Vermont.....

33



Wednesday, April 8, 2015

ARISS-SSTV FREQUENCIES







ISS Frequencies

Voice and SSTV downlink - 145.800
Voice Uplink- ITU 1 (Europe, Africa & Russia) - 145.200
Voice Uplink - ITU 2&3 (Everywhere else) - 144.490
VHF Packet up and downlink - 145.825
UHF packet up and downlink - 437.550
U/v Repeater Uplink - 437.80
U/v Repeater downlink - 145.8

Monday, April 6, 2015

How to work satellites with ham radio

Question: How did you setup your satellite station?

What do you use?
Radio, antenna, coax, computer

73 ka1uln



here is a make article i found... it is very clear and simple to understand
http://makezine.com/2009/07/22/catching-satellites-on-ham-radio/?thankyou=true

Materials
All you need is a VHF/UHF FM receiver (like a police scanner) or a VHF/UHF transceiver (like a Yaesu VX-7) and an antenna.


1. Specifying your location
Start by visiting Heavens-Above.com to check the orbit of the satellite you want to listen to and specify your location.

2. Specifying a satellite
Check the passes of your specific satellite or the ISS. AO-51, SO-50, AO-27, ISS. Make sure that the passes are shown for your correct location.
satelliteschart.jpg

3. Reading the chart
This pass chart shows the Start (when/where the satellite enters on the horizon), the Max. Altitude (when/where the satellite is at its highest point in the sky), and the End (when/where the satellite finishes it’s pass). Alt. is the altitude, the angle of the satellite from the observer’s horizon. 0 degrees is exactly on the horizon, and 90 degrees is directly above the observer. Az. is the Azimuth, the cardinal direction of the satellite from the observer’s point of view.

4. Picking a good pass
Satellites orbit the Earth at all sorts of angles, some that are very close to the horizon and some that are directly overhead. It is much easier to hear a satellite that passes directly overhead. To find a good sat pass, check the Max. Altitude Alt. for a pass that is 45 or higher (the higher the better). In our example, the second pass at 7:28 looks like a good one since the Max. Altitude Alt. is 77. The first pass at 5:52 has a Max. Altitude Alt. of only 12 which is very close to the horizon and difficult to pick up.

5. Finding the frequency
Satellite repeaters work with two different frequencies, an uplink and a downlink. You will listen to signals received on the downlink. If you wish to transmit, you’ll need to program in the uplink frequency as well. Follow the corresponding links to find the FM repeater frequencies of the satellites. The frequencies often change, so be sure to check the websites for the latest updates. AO-51, SO-50, AO-27, ISS. Tune your radio to the downlink frequency and you’re ready to go outside and listen (example: 435.300 MHz FM).
satellitewhipantenna copy.jpg

6. Aiming a whip antenna
If you’re using a whip antenna, you will not aim the antenna directly at the satellite. Instead, you’ll keep it perpendicular to the satellite. You can rotate the antenna by rotating your wrist to try and get a clearer signal.

7. Following the pass with the antenna
You will trace the path of the satellite orbit with the antenna using the Heavens-Above pass chart as a guide. At the Start Time, start with the antenna perpendicular to the Az. direction at the given Alt. For example, at 7:28, aim the antenna perpendicular to north at 10 degrees above the horizon. Trace the path of the satellite so that at the Max. Altitude Time the antenna is pointed in the corresponding location. For example, at 7:33, the antenna should be perpendicular to west northwest at 77 decrees above the horizon. Finish tracing the path of the satellite so that at the End Time the antenna is perpendicular to the corresponding location. For example at 7:39, the antenna will be perpendicular to south southwest at 10 degrees above the horizon. It can be very difficult trying to catch the satellites and you may spend a lot of time not hearing anything. As you trace the general path of the satellite with the antenna, move the antenna around in small side to side and up and down motions until you hear a bit of audio. Adjust the antenna to make the audio clearer.

8. Tuning the radio for the Doppler effect
The Doppler effect makes the frequency vary by .010 MHz. As you trace the path of the satellite with the antenna, you will also need to tune the radio back and forth plus or minus .010 MHz until you hear a good signal. Early in the pass, you will add .010 MHz, for example, if you’re listening on 435.300 MHz, you’ll need to tune the radio back and forth between 435.300 MHz and 435.310 MHz. Later in the pass, you will subtract .010 MHz, for example, you will tune the radio back and forth between 435.300 MHz and 435.290 MHz.

Here is an audio clip from my first satellite contacts. The contacts seem to be going pretty slowly, but while I was making them, I remember everything happening very quickly. It was a lot to tune the radio and maneuver the antenna while trying to write down the call signs of the contacts.
dianaeng
dianaeng

Fashion + Technology
Diana was a contestant on Project Runway season 2, graduated from RISD, and currently lives in New York City.


---------------------------------------------------------------------------------
Slow Scan Television (SSTV)



Personally speaking, I get excited when the crew decides to send images from the ISS.
There is something about receiving pictures directly from the Space Station that almost
makes my hair stand on end. As with many other ARISS transmissions, SSTV also takes
place on 145.800 MHz. ARISS images are overlayed with the call sign NA1SS.
Most FM transceivers have an external speaker or headphone jack. To catch a
glimpse of these amazing images, all you have to do is attach an audio cable between
this jack and the LINE or MIC input of your computer sound card. The sound card will
convert the analog FM signal to digital data.

There is free software available that will decode the data and display the images on
your computer monitor. If you are a Windows aficionado, try MMSSTV at
http://mmham-soft.amateur-radio.ca/mmsstv/ , or the mul-timode program Ham Radio Deluxe
at www.ham-radio-deluxe.com (the Digital Master 780 module)
or MultiPSK(http://f6cte.free.fr/index_anglais.htm).

Whichever program you choose, be sure to select the Robot 36 mode when receiving
ISS images. Depending on signal strength, the images may be noisy, but they are
still a thrill to see


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