Back in the days of 2G the pre-wake-up pulses, aside from causing massive FM/AM interference like demented Morse code, would light up tuned antenna spark gaps on stickers for your Nokia phone. In Japan they sold cute phone tokens which had glowing eyes.
Energy harvesting the same way Theremin did for his passive wall bug.
I remember when you could tell you were about to receive a cellphone call based on radios and other analog electronics behaving weirdly. I got various people thinking I could see a few seconds into the future.
Tuned spark gaps? Or just an antenna hooked up to a pair of back to back LEDs? Just recently I saw something about light-up fake fingernails that would blink when you got a 2G phone call.
But it seems that the idea is still alive, from 2023:
"Relying more on ambient energy sources could prove monumental in automated warehouse inventory tracking, in medical instrument management and for deployment in airports, shopping centers and even individual smart homes. Nokia’s goal is to have energy harvesting technology in cellular networks that can support this massive IoT deployment."
I read the technical description of this and the whole work seems like magic. Antenna design, extremely low-power passive networks, etc. On top of that, it can tap into network signal bursts as a communication medium.
It feels like a project sent from the future.
I've always been curious what energy harvesting systems are capable of.
Also, what is the third type of energy harvesting besides light and 2.4GHz? I couldn't figure out what that might be.
For a while I had a very overpriced phone case from moeco that lit up when cell service was being used - https://www.moeco.jp.net/ - it came with a big warning not to use wireless charging with it (due to instead heating the case). Sadly, I wouldn't get one nowadays, I love wireless charging too much.
This is super neat. By modulating the timing of the data being sent to a websocket, (which is basically a /dev/null data sink) it implements a covert air-gaped side-channel data transmission mechanism.
> That last one consumed an hour of diagnostic time and involved using time-domain reflectometry (with a 20 ps rise-time pulser and 20 GHz scope) to locate the fault to within a region of a couple millimeters on one trace.
How does one even obtain the skills, much less the equipment to run such precision?!
A good EE degree with some RF specific course parts will teach you the concept. The scope .. well, you kinda have to borrow it from your employer as they're in the $10k range at that frequency.
One question: what load is the matching network designed for? Did the designer find the equivalent small signal impedance of the diode network via simulation? Is the SPICE model even valid at 2.4 GHz? Is small signal even applicable?
ggm|1 year ago
Energy harvesting the same way Theremin did for his passive wall bug.
Analemma_|1 year ago
taneq|1 year ago
ninalanyon|1 year ago
From 2009 https://www.eetimes.com/nokia-working-on-energy-harvesting-h...
But it seems that the idea is still alive, from 2023:
"Relying more on ambient energy sources could prove monumental in automated warehouse inventory tracking, in medical instrument management and for deployment in airports, shopping centers and even individual smart homes. Nokia’s goal is to have energy harvesting technology in cellular networks that can support this massive IoT deployment."
https://www.nokia.com/blog/the-future-belongs-to-zero-energy...
mmastrac|1 year ago
It feels like a project sent from the future.
I've always been curious what energy harvesting systems are capable of.
Also, what is the third type of energy harvesting besides light and 2.4GHz? I couldn't figure out what that might be.
yojo|1 year ago
So the last is USB, the sneakily obvious one.
0: https://www.keacher.com/xmas24/tech_info.htm
jotux|1 year ago
a_t48|1 year ago
yapyap|1 year ago
jasonjayr|1 year ago
myself248|1 year ago
Sending data by modulating the data flow itself, is spooky. Absolute madness. I love it and I'm a little scared.
mschuster91|1 year ago
How does one even obtain the skills, much less the equipment to run such precision?!
pjc50|1 year ago
roger_|1 year ago
One question: what load is the matching network designed for? Did the designer find the equivalent small signal impedance of the diode network via simulation? Is the SPICE model even valid at 2.4 GHz? Is small signal even applicable?
illwrks|1 year ago
Clever idea.
trebligdivad|1 year ago
https://en.wikipedia.org/wiki/Barker_code
pcdoodle|1 year ago
JBiserkov|1 year ago
Apologies if this goes against the hacker spirit, but do you know where I can buy a similar thing? In Europe?