There's also Blitzortung.org which is a very interesting project.
They are receiving Sferics on the lower HF frequencies and tag them with GPS timestamps (with the PPS signal they are in the Nanoseconds precision range). A central server will then do the triangulation.
All with off-the-shelf hardware (STM32, etc.).
Their service is stable for many many years now.
(Offtopic: The STM32H7 ADC is great for many many things)
a2128 · 5h ago
Whenever it thundered I used to love to take out my shortwave radio, tune into some empty frequency and be able to hear each individual lightning strike in realtime (even more realtime than the speed of sound would allow!)
CheeseFromLidl · 3h ago
You can look at lightning in an SDR receiver, they look like horizontally oriented stretched droplets. Somewhere around 7kHz iirc.
Catbert59 · 1h ago
I tried to detect lightning with a Bosch Sensortec COTS magnetometer - but failed.
I’d like to ask to repeat this experiment but with a ferrite core next to the sensor (touching it). On the low spectrum (below a few MHz?) the magnetic component in the electromagnetic wave becomes dominant. Which is why receivers in shortwave radio and in e.g. DCF77 use a ferrite antenna. The ferrite’s length should be perpendicular to the line formed by the sensor and the location of the storm.
Edit: you’re reading at 400 Hz so you’ll read phenomena below 200 Hz
Catbert59 · 7m ago
Will do. The experiment isn't yet dismantled.
Going to write the ferrite core on my next shopping list.
brunohaid · 5h ago
Nice! Need to implement realtime lightning data in a project soon, WIS2 is great for overall weather details but doesn't have a good temporal lightning resolution. Has anyone reached out to both and done that recently with WWLLN and/or Blitzortung?
The former seems to have better coverage especially across the southern hemisphere.
Catbert59 · 5h ago
Raw logs, history access and APIs to weather data are usually $$$.
Like at the ECMWF: you can have a look at all beautiful charts for free. But if you want to have the data behind them they want to see big cash.
sunshinesnacks · 1h ago
Maybe I’m misunderstanding, but ECMWF provides a lot of data and forecasts for free [1]. And they are increasing the amount of data that is free [2].
Thanks a ton! Was afraid that that's the answer - and that there's no reasonably priced aggregator/abstraction layer, eg like https://open-meteo.com for ECMWF.
sunshinesnacks · 46m ago
Open-meteo does have ECMWF data and forecasts. Free for non-commercial use. I think the person behind open-meteo is on HN.
open-meteo · 37m ago
You rang ;-) I’m in the middle of adding more ECMWF data that will be released as open data starting October 1st. At the moment, only a limited set of lower-resolution (0.25°) ECMWF forecasts can be shared open-data. That’s going to change in a big way, though I can’t share more details just yet.
Catbert59 · 1h ago
Maybe you can find something around the Copernicus project if the EU has some stuff. Or NOAA if it's from the US side.
woadwarrior01 · 3h ago
I wonder if this can be used for navigation? At the very least, for sanity checking GPS data.
perihelions · 2h ago
20th-century navigation used to operate like that, except using artificial radio sources—fixed beacons. I guess you could answer a lot of technical questions by looking at OMEGA, which, similar to lightning-generated RF, used the VLF range (3–30 kHz), and had global range bouncing off the ionosphere,
> "OMEGA was the first global-range radio navigation system, operated by the United States in cooperation with six partner nations. It was a hyperbolic navigation system, enabling ships and aircraft to determine their position by receiving very low frequency (VLF) radio signals in the range 10 to 14 kHz, transmitted by a global network of eight fixed terrestrial radio beacons, using a navigation receiver unit. It became operational around 1971 and was shut down in 1997 in favour of the Global Positioning System."
0x10ca1h0st · 3h ago
When I read the title originally I thought it was a lightning node network map.
Still cool!
Angostura · 5h ago
See also the excellent https://www.lightningmaps.org, an additional service of the excellent Blitzortung.or crowdsource project
zeristor · 6h ago
Am I missing something?
I can’t find a way to the current maps of lightning strikes.
What is the diameter of each point? Aka how localised can they determine where the lightning is? Are we to assume the centre is where the lightning is? As I can't seem to find this information which I feel would be quite useful.
its-summertime · 6h ago
> When the time of group arrival is measured with 100 ns absolute accuracy by several widely spaced receivers, it is possible to locate lightning to within < 5 km
They are receiving Sferics on the lower HF frequencies and tag them with GPS timestamps (with the PPS signal they are in the Nanoseconds precision range). A central server will then do the triangulation.
All with off-the-shelf hardware (STM32, etc.).
Their service is stable for many many years now.
(Offtopic: The STM32H7 ADC is great for many many things)
Was a fun experiment: https://www.dm5tt.de/2025/07/26/thunderstorm-detector-with-m...
Edit: you’re reading at 400 Hz so you’ll read phenomena below 200 Hz
Going to write the ferrite core on my next shopping list.
The former seems to have better coverage especially across the southern hemisphere.
Like at the ECMWF: you can have a look at all beautiful charts for free. But if you want to have the data behind them they want to see big cash.
[1] https://www.ecmwf.int/en/forecasts/datasets/open-data
[2] https://www.ecmwf.int/en/about/media-centre/news/2025/ecmwf-...
https://en.wikipedia.org/wiki/Hyperbolic_navigation ("Hyperbolic navigation")
https://en.wikipedia.org/wiki/Omega_(navigation_system) ("Omega (navigation system)")
> "OMEGA was the first global-range radio navigation system, operated by the United States in cooperation with six partner nations. It was a hyperbolic navigation system, enabling ships and aircraft to determine their position by receiving very low frequency (VLF) radio signals in the range 10 to 14 kHz, transmitted by a global network of eight fixed terrestrial radio beacons, using a navigation receiver unit. It became operational around 1971 and was shut down in 1997 in favour of the Global Positioning System."
Still cool!
I can’t find a way to the current maps of lightning strikes.
[0]: https://wwlln.net/#maps
https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2020GL09...