Comment on Holiday SSTV Experiment from the International Space Station
BenDoubleU@lemmy.radio 2 weeks ago
I’ve had sats on my list of things to learn for a while. Maybe 2025 will be the year I get that yagi built.
Comment on Holiday SSTV Experiment from the International Space Station
BenDoubleU@lemmy.radio 2 weeks ago
I’ve had sats on my list of things to learn for a while. Maybe 2025 will be the year I get that yagi built.
AG7LR@lemmy.radio 2 weeks ago
The ISS is an easy one to start with. The signal is much stronger than most of the others.
JackbyDev@programming.dev 1 week ago
Do you think you could receive from it with an omnidirectional antenna?
AG7LR@lemmy.radio 1 week ago
Yes, you can use a vertical antenna, but it’s not ideal. There is a null overhead. They will work better on lower elevation passes. If the vertical is on an HT, you can hold it sideways to receive on a high elevation pass.
There are omnidirectional antennas for satellites such as a quadrifilar helix or turnstile antenna that will work very well for stronger signals like the ISS and the old NOAA satellites.
user224@lemmy.sdf.org 1 week ago
I noticed you have the RTL-SDR blog dipole. I’ve used that for NOAA-APT and Meteor LRPT in the past just fine. 120 degree V shape helps with impedance.
Handheld you can also adjust for elevation. Half wavelength (around 1m) above ground will work for most passes, but bringing it lower increases gain towards the top (held horizontally).
I never learned NEC, so I can’t prove it to you.
Cyrill@hometech.social 1 week ago
@JackbyDev @AG7LR
I bet you could. Here are the pictures I received during the autumn experiment.
The cheap Quansheng UV5-K8 radio with custom firmware and whip antenna Nagoya NA-771 (which is most probably non original) were used.
JackbyDev@programming.dev 1 week ago
That’s cool! I have the same radio and also have some knockoff NA-771s.
Direct link to the toot for Lemmy users, because apparently images don’t show.