I have to admit that I’ve had more opportunities than most to make a satellite contact. I have spent plenty of time at Fred, AB1OC’s QTH with his great satellite system and I’ve been to plenty of events with the satellite system up and running.
I first found an interest in satellites back in 2016 at Field Day when the club’s Portable Satellite Station 1.0 got its first use. I already had an Elk Antenna which I used for fox hunting and SOTA. Abby, AB1BY, Connor, KC1GGX and myself went out a few times and we had great luck in hearing the satellites, but no luck in making a contact. I was determined to make a contact on an HT and my Elk antenna, but satellites became a little bit of an afterthought. Every time I would try to make a contact it was last minute or I wasn’t in an ideal location or it was not a good pass to try.
AC1DC Making his first HT Satellite Contact
Well, this past Saturday I finally had luck in making contact via the satellites… with a little help from Fred, AB1OC, and Anita, AB1QB. We staked out the flight path in their backyard and I used my antenna, but with a headset – which helped as well! I made two contacts on AO-91 on a 42-degree pass!
There’s more to making contacts with the satellites than just pointing your antenna at them and throwing out your callsign. I’m definitely not an expert, but I’ve come to realize that you don’t have to be super precise with the aiming of the antenna, although I think the closer you are to being right on it the better your chances of being heard. Also, I would recommend finding a way to free up your hands as much as possible. A headset helps and a tripod really makes things easier – that antenna gets heavy pretty quickly! And most importantly, use your phone or some type of device to record your QSOs. I have a hard time remembering the callsign, especially when things are going quickly, let alone grid squares and names.
Of course, after accomplishing my goal of making contact with my HT and handheld antenna, we went inside and I made three more contacts on Fred’s satellite station on AO-07. I still plan on chasing the satellites on my HT, but I have a feeling Fred and Anita are going to see more of me on their satellite station!
Our current Satellite 3.0 Antennas have worked well in their portable configuration. We’ve had them to License Classes, Field Day, Ham Fests, and ultimately to Hudson Memorial School for an ISS Crew Contact.
We have begun our Satellite Station 4.0 project with the construction of a new house-bracketed tower and the installation of our Satellite Antennas and a new 6 m yagi. You can read about our progress to date via the two links below…
The permanent installation of our Satellite Antennas and the associated new tower at our QTH is well underway. Here are two articles on the construction of the new antenna system. The project is based upon a house-bracketed Rohn 45G Tower. This is a good option for many Hams to consider when putting up a tower at their QTH.
We are just awaiting notification of the final date and time for our contact and we’ll begin final setup and testing at HMS.
We’ve been sharing our progress as we’ve on the Nashua Area Radio Society’s Youth Forum as we have worked through our final preparations. I also would like to share a summary here along with some insights on what we’ve learned along the way.
An ISS Crew Contact is No Small Undertaking …
ISS Antenna System Test
We have been working for almost a year now to get ready for our contact. We’ve built and tested two space ground stations and we’ve discovered and addressed several performance and reliability issues with these stations during trial deployments at Field Day, Ham Fests, License Classes, and during testing here at our QTH.
Leading the ARISS Crew Contact Application Process for our contact
Integration of Radio Space Science concepts into their student curriculum
A Skype contact with a NASA Engineer
Visiting the Boston Museum of Science special exhibit on Space and the International Space Station
A High Altitude Balloon Project with the Nashua Area Radio Society to learn about Atmospheric Science and Space Communications
Space-related student projects including building rovers, participating in an egg drop, and having their pre-engineering program students work on solutions for the ISS
Holding a Field Astronomy and STEM night for students and building Amateur Radio into the school’s annual STEM Nights
Audio-Visual Elements are Important and as Challenging as the Ground Station Equipment…
Sound System Mixer
We planned from the very start to provide a shared, multimedia experience as part of our contact. Our plans included:
Providing a professional-quality audio and video experience for the students, parents, and faculty members at HMS during our contact
Creating a high-quality Video Capture of our Contact
Dave, K1DLM who is a member of NARS had extensive professional sound experience and was able to help us with this part of our project.
Audio System for ISS Contact
Dave put together a professional-level A-V system design to support our contact and provided much of the gear to realize the design. His uses a pair of communications microphones, a pro-mixer, and audio interface gear to provide student and radio audio to the sound system in the auditorium at HMS as well as to an array of video cameras. The system makes extensive use of XLR cabling and pro-level devices to ensure clean audio.
Video Presence on the Internet is an Important Element to Draw Interest in a Project Such as Ours…
We Live Streamed some of our Station Testing activities to Facebook and we were amazed at the interest and response that we received. Many folks worldwide followed our progress on Facebook in real-time as we set up and completed our full station test.
ISS Antenna Camera Test
We are planning to have two IP Video Cameras Live Streaming to Facebook during our contact. One in the room to provide video of the students as they talk with the astronaut on the ISS and a second on our antennas as they track the ISS.
Its Critically Important to Test the Complete Station Ahead Of Time – New Challenges Emerged when we Mixed Audio and Radio Gear…
Full Station Setup and Test
We set up the full station (Primary and Backup) along with all of the Audio and Video Gear about 3 weeks prior to our contact for a complete system test. We learned a great deal in doing this and we encountered several problems which we have since corrected.
On-Air Station Test
The most important issues did not show themselves until we made some contacts with all of the A-V gear in place. We had problems with RF aggravated ground loops in the radio microphone circuits during the initial test. These problems did not show themselves until we added the audio mixer and sound system into the station.
Audio Isolation Transformer
These problems were easily corrected by adding Audio Isolation Transformers into the radio microphone circuits.
XLR Line to Microphone Level Attenuator
We also solved some potential issues related to level differences between line and microphone audio circuits using Audio Attenuators.
These problems were not difficult to solve but they would have seriously degraded our contact if we had not discovered them early while there was still plenty of time to secure parts and retest.
Data Networks in Schools and Public Places Require Configuration Adjustments to Support Contact Elements…
Data Network Test at HMS
Schools and other public places typically do a good job of protecting their data networks and users from threats from both the Internet and within the venue. Tracking Programs, IP Cameras for Live Streaming, and other contact support gear are not typical devices that would be in operation on such networks. Also, many public venues rely almost exclusively on WiFi for access to the Internet and typically prohibit or severely limit client devices from communicating with each other.
WiFi can often suffer from RF interference issues when many devices like Smart Phones are located together in a small area. This situation is common in large gatherings.
Data System for ISS Contact
We had quite a bit of experience with these problems as part of other school projects we’ve done. Our approach is to use a wired network with a local Ethernet switch for communications between the elements in our stations.
The HMS IT team at configured their network to fix the IP addresses of our devices. They also adjust their firewall rules so that our devices have the required access to the Internet. The IP cameras where the most challenging elements here.
Packed and Ready to Go…
Equipment Packing and Protection
Well, all of our gear is packed and ready to go for setup on-site at HMS. The next article in this series will cover the on-site set up for our contact.
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