Dr. Shaun Ramsey
If you’ve noticed KB3ROH-11 on http://aprs.fi, you can see that we’ve launched! Finally!
Videos and pictures, and news of the pending retrieval mission, will follow shortly.
First, a huge shout out to N3DOU, Bill Clark, for the use of his incredible expertise and the amazing magic box the MFJ 269 RF Analyzer. With this we were able to see that our QFH antenna was resonant at a lower frequency than we needed by about 3MHz which amounts to about 2 inches in wavelength and each of our segments was roughly a wavelength. With a quick rearrange to our antenna, we had our SWR down from several hundred to 1.4. With a few snips we were down to 1.2. And with one last tiny nibble, we were down to 1.0! The image shows the first two snips and the little particle on the right is our final snip! So we are now good to go with this antenna! The image below has 4 blocks per inch and so you can see our last snip is less than a quarter inch.
Hack HD Full Battery test. Taking 3 AA Energizer “Pile Alkaline” batteries at full charge, we pushed them into the HackHD and hit continuous record.
The recording lasted 29min 32seconds of mostly static images (it was pointed up and the only thing changing was a corner of my computer screen). The audio was dynamic. The file size is 2.7GB which ranks in at about 1GB per 10 minutes. This is as we expected.
At the start, the batteries had 1.55V each and at the end 1.405V each. The HackHDs will power up at this point (since the batteries are still quite usable), but only for 30s-60s of video and then they’ll save the video and power down. This is a great feature to save your current video when power gets low but from what I can tell, there should still be enough voltage to push on. This is going to be a serious problem! I’ve some ideas and I’ve contacted HackHD to figure out how the power curves affect when the shutoff will occurr.
In other news, we’re now on APRS. You can check http://aprs.fi and search for my call KC3AWU to see us working hard here in the Toll Science Building at Washington College.
Lastly, we’re building antennas! Our QFH had some serious SWF but we’re working on that and a whip antenna! More news (by others) on that progress coming soon hopefully.
Higher gauge wire seemed to solve the problem. By higher, I mean larger.
Here’s video from the HackHD. It has 160 degree viewing angle – thus the fisheye.
Made a little video of our camera woes.
We’re still working on the electronics required to radio live telemetry back to earth. Fast Scan TV may be our best option for video, but it won’t be optimal. Our HD camera is digital, but Fast Scan Television equipment uses is designed for analog cameras, and transmits a far less than HD analog signal. There hasn’t been much progress in Amateur Radio towards adopting newer digital television standards, particularly ATSC, which is the North American digital television standard. Most experimentation has been with DVB standards, which consumes less bandwidth, but is primarily used in Europe and can’t be natively received by modern televisions intended for the North American market.
We’ve been experimenting with Arduinos and a Raspberry Pi. We can use an Arduino to read data from a couple sensors, and are working on building a prototype that can be used to accurately calibrate the barometer. We’re still working on the Pi; we need to order a cable so we can keep the header pins intact.
We’ve also been experimenting with developing an app for Android. It’ll have pretty graphics and be able to access the telemetry as it’s posted on the Internet. This should be extremely helpful when trying to track the balloon.