This project is neat and OP did a good job, but I think the interest in Geiger counters among hackers needs an update. The Geiger kit on Adafruit (Yes, I know that makes the cost a lot higher to be from them instead of Ali, but I think is a good baseline for "finished good" price) is $99.
Meanwhile, Raysid or Radiacode let you do full on gamma spectrometry, for about 2.5x the price.
And, like, yeah, 2.5x the price. I'm not oblivious to that being significant, but to me it's sorta like an GT1030 with DDR4 - it's about $100 or you could get an RTX 3060 for a bit over $300. Like, you might have a use where you ONLY need a cheap display card, but there's a reason LTT calls the 1030 eWaste from the factory. Similarly, you might get enough out of the Geiger or it might do something the Radiacode doesn't for you but for most hobbyist, I doubt it.
I gave a more detailed comment already, but price/performance is not a simple two axis thing. No consumer grade gamma spec device measures high dose rate which is needed for emergency use. Depending on the intended use case something lower cost than radiacode might make sense. For example the radiacode 110 ($400) has the same volume and type of scintillator, with very high sensitivity, as the better geiger S2L ($200), so both are good for handheld search for radioactive objects, but S2L has something like 30x higher maximum dose rate range which makes it more capable in emergencies, whereas the 110 has Bluetooth, mapping, and gamma spec... Which are very fun for hobbyist but have little true "practical" real world value. Different interests and different budgets would point people in different directions.
> Like, you might have a use where you ONLY need a cheap display card, but there's a reason LTT calls the 1030 eWaste from the factory. Similarly, you might get enough out of the Geiger or it might do something the Radiacode doesn't for you but for most hobbyist, I doubt it.
I think the biggest difference here is that GPUs are fairly general-purpose devices. Even if you only need one as a cheapest possible way to output something to your monitor, it's easy to imagine how that might change and why you might as well future-proof your setup.
The other thing you didn't mention about why a 1030 is manufactured e-waste is in large part the competition from the used market. You can get equivalent functionality for a few dozen dollars, so buying a brand new 1030 as an individual makes no sense. This isn't a problem in the specialty radiation device market.
The thing is that most people probably don't buy Geiger counter modules or devices because of a burning need to do some specific tasks, like you would with GPUs. I'll bet that most people buying the Adafruit kit are getting it as a novelty, or for educational purposes, or to just have something reporting the background radiation around them out of curiosity. Because of this, price is the most important factor for these groups.
I've never heard of Radiacode, and looking it up, it seems seriously impressive - especially the portable gamma spectrometry that you mentioned. But I also know that it's a very niche device, and most people who would shell out $250+ for this need it for chemistry projects, exploring irradiated areas, evaluating radioactive items and so on. It's not a lot of people, considering that if you just want something to give you a readout, you'll get the <$99 product, and if you need it occupationally, you'll already have received a professional device.
Cool project! My business is Better Geiger (www.bettergeiger.com), I design and sell radiation detectors. I just hope people keep in mind the capabilities and limitations of those simple Geiger tubes. Radon was mentioned on the project website, yes technically radon decay products are detectable but pracfically a Geiger tube is reacting only to terrestrial, cosmic, and other sources of radiation, not anything to do with radon. Measuring radon generally requires a dedicated device (I recommend ecosense, at least until I get around to designing one). You correctly noted that such a tube can't accurately measure dose, that's because it is not energy compensated, so usually such a tube has a count to dose conversion factor for Cs-137 that will cause major overestimation in realistic scenarios. Those cheap tubes of that type also saturates easily in radiation fields that are really hazardous, making it fairly useless in an emergency situation. That is the main distinguishing feature of my products, high range and energy compensated. I have put out some YouTube videos that go into more detail about radiation dose, fallout and how to reduce risks, etc. I've given a lot of thought to doing a project like this with a scintillator, but I don't think the demand is there for me to do it before a lot of other ideas I have... When a cheapo standalone Geiger tube device can be had for $50, my products with scintillator go for $150 or $200 for the very high sensitivity version, then for $250-600 there are a few gamma spec products like radiacode, raysid, and radview with varying other features that are fun for hobbyists (though be aware none of those go to high dose rate range). For hackability mine offers access to the digital and analog outputs, but it's not really made for gamma spec so the spectrum quality is poor, but it can be a fun way to play. I've given a lot of thought to something designed more for DIY people, but in my experience very few people actually want that, most just want plug and play, and the ones that do request it usually don't even follow through. I've only communicated with a couple people that actually pulled a spec from a better geiger. Maybe that would be different if I designed a device specifically for DIY, something really small with simple serial comm output or something like that... Maybe some day.
I love the idea of using the tube and measurements as a random number generator! However, please treat the whole category of homemade devices to measure/detect "bad shit" as novelty and nothing else. If you are actually concerned enough to really measure/detect harmful materials, buy the proper devices. Learn how to calibrate and how to use them properly. The last thing our 911 system needs are people calling with aliexpress radiation detectors going off in a cancer center.
I would really like to have a geiger counter that I can put on the wall and connect to Zigbee/Z-Wave/WiFi and tie into Home Assistant. I've considered building one with the cheaper tube and ESP32, but I'm surprised that for Radon and radiation, it seems like something like AirGradient, but for radioactivity, doesn't exist.
> Radon was mentioned on the project website, yes technically radon decay products are detectable but pracfically a Geiger tube is reacting only to terrestrial, cosmic, and other sources of radiation, not anything to do with radon.
To measure radon (say in a cellar), you'd typically take some dust filter or filter foam, attach it to a fan and circulate the cellar air through the filter, then the radioactive dust collects in the filter, and one can measure higher doses more easily.
Random question for you in the biz: where can I get a muon detector setup? I just can't find them anywhere and would love to gain access to the extraterrestrial and solar weather particle environment.
I know that footguns are broadly "on-brand" for the flipper zero ecosystem, but exposing high-voltage leads like that without any warning whatsoever seems a bit much.
I don't know about the details of this device, but in general, simply being high-voltage doesn't automatically mean it's dangerous. One of the machines I work with in my day job has probes that put out around a thousand volts, but it's totally safe to touch them with your bare hands. You won't even feel a tingle.
That said, it's always prudent to treat any live electrical line as dangerous unless you know for a fact that it isn't, of course.
High voltage means nothing if the power source can't deliver the current. You could use a transformer to step up a AAA battery to a billion volts and it wouldn't do anything because a battery can't actually push out 1B/[your body's resistance] amps.
With low voltage battery circuits the main thing you have to be wary of is capacitors because those can push out a lot more current than the battery itself. Usually you can judge how much a capacitor would hurt if you touched it based on its size. If you have a device with 20 batteries charging a baseball sized capacitor, be very cautious (like the DIY gauss guns/rail guns you see on youtube). Even a thimble sized capacitor will jolt you surprisingly hard. One time I touched the charged capacitor of a disposable camera and the discharge gave me quite the zing.
I believe it also doesn't make a lot of sense to have a real Geiger tube and have it exposed.
For the sexond, Geigers are binary, they only report detection events, not types. So you don't want it to be triggered on non-X rays like interferences from computers around, and you might also want to be able to occasionally remove surface contaminants from the equipment. Both of these are easily achieved by giving it a durable opaque case which is how everybody do these.
And for the first, I believe a modern photodiode taped over is by itself more sensitive than Geigers, even more so if coupled to a scintillator crystal(salts that glows in x-rays), not to speak of spectrometer based systems that can additionally tell energy levels therefore types and biological damage levels of incoming rays.
The real Geiger tube running on display is cool, but that's strictly it. I believe.
The suggested board is powered by USB, that's 5V 500mA, so, 2.5W. Let's say the tube is run at the recommended 380V, at 2.5W, that's a current of 6.5mA, which is barely painful, and not dangerous. I guess that with that power, if the circuit really wanted to hurt you, it could boost the voltage in the 50-100V range for a ~30mA shock, which is definitely painful and the start of what is considered dangerous. Electric safety is complicated, there is so much to take into account: current, voltage, frequency, location, presence of water, etc... Skin resistance is far from constant.
Maybe it could do more if it disregards the 500mA USB limit to the full 1.2A that the Flipper Zero can deliver, or with capacitors, but it doesn't seem to have enough of them for a significant power reserve. If it could do that, I would also worry about plugging it to my Flipper Zero or to anything of value out of fear of damaging it, as it would have to be of pretty terrible design, but well, that's AliExpress after all.
Chinese Geiger counter kits sometimes include a single piece of plexiglass or nothing at all. I have one I only use when placed inside a plastic bag, so it's not going to be detecting any α. I haven't yet put it up against my CDV-717.
You can get a standalone (cheap) Geiger counter like the GQ GMC-300S on Amazon (B0B541D433) for ~$50. If you're interested in monitoring radiation and have a higher budget to play with, I highly suggest stepping up to the Radiacode 103G (~$600) or the Radeye B20-ER (~$3000). The Radiacode can only detect gamma/x-ray, but is a spectrometer so it can determine the energy level of the radiation. The Radeye can do the full suite of γ α β, and can provide energy-compensated dose rates when its gamma filter is in place.
If you have one of those small scintillators on you all the time you can measure your own radiation. A significant spike in the spectrum for Potassium-40.
The only thing I can find radioactive enough to be picked up by a cheap GM tube kit is vintage real green uranium glassware. Even a giant bunch of bananas doesn't increase counts enough. Smoke detectors also don't seem to be radioactive enough either.
When I was playing with arduino geiger counter, apart from of course breaking the tube, I struggled with counting the results.
On one hand it's trivial - counts (ticks) per second. However, this (of course!) can be very spiky. I ended up using pretty simple EWMA to smooth the results for user interaction. Anything really works, short decay is fine.
Then the really fun bit, was trying it with more serious radiation source, and guess what.... interrupt per tick, is... really bad! I was easily able to overwhelm the arduino, too many interrupts. Fun project to understand interrupt masking.
Back in my SIL4 days, we had a de-capped memory SIMM in the lab that we used to test resilience to cosmic rays for certification and other testing procedures .. often requiring a junior dev to sit there waiting for the signal and remove the lead shield we'd place over it when not testing, in order to trigger a cosmic bit shift. We had t-shirts for those guys "Guardian of the Cosmic Bit" printed up, was a fun time ..
It's cute, looks nice, and bravo for shipping something, but FZ is too hyped and too expensive for what it is.
I have a similar Geiger counter that functions standalone and works as an Arduino module. It doesn't appear to be very sensitive because bananas don't increase counts. The only household object able to barely increase counts was some vintage uranium glass tucked away in a corner behind a display case.
This reminded me about a wtf moment back in 2008. New York City tried to make it illegal (misdemeanor) to posses a geiger counter without a license. Obviously, it never became law.
I bought a few Geiger tubes about 10 years ago. The larger one is more sensitive, but doesn't detect beta radiation. The smaller one does alpha/beta/gamma, but it's less sensitive. When you buy the tubes, you don't get the benefit of a calibrated measurement device, so I also bought a few Cesium 137 calibration sources. (No idea what sort of government watch lists I ended up on after placing that order.)
Next, I built a simple Geiger counter based upon a Raspberry Pi (Model B) and a Piface LCD display. I wanted to increase dynamic range of the measurements, so I did some circuit modifications to recharge the Geiger tube faster after an event. This allowed for higher counts, but consumes more power and lowers sensitivity. Also, getting the Pi to interrupt on each event for efficient counting has its limitations. A separate digital counter that is reset upon each read sample is better.
Anyway, it's a rabbit hole that ended up taking a lot more time and effort than I expected, but I was happy with the results.
This is cool, but if you're ever in need of a dope present, especially for someone like your father-in-law, Better Geiger[1] is awesome. My FIL was stoked. Loves checking the bananas at costco and other random stuff at costco.
Hypothetically speaking, how useful would something like that be in a nuclear weapon fallout scenario? Can such a contraption detect the important isotopes and give the user an accurate idea of the level of danger they're in, does that change over time as isotope composition changes through decay?
tl;dr not useful. To make a long story short, max range is very important and these cheap tubes saturate easily, and they don't give energy-corrected dose rate. They also cannot do gamma spec (isotope identification), but that is not needed for a fallout scenario because fallout contains basically every isotope under the sun, no need to do any gamma spec. I have a very long detailed video about this topic on my youtube channel BetterGeiger
I am not certain but this tube looks like an M4011 which typically measures up to 1 mSv/hr for a reference Cs-137 source. Pretty low maximum level, not suitable for emergencies.
Do a search for "MightyOhm Geiger Counter Kit Bundle" and you will find a stand alone version of the same circuit along with photos. Although the PCB has a "High Voltage" label, it is powered by 2 X AAA batteries which are might be very lethal if ingested.\s
Powered by 2x AAA batteries != not high voltage. Boost converters can reach high voltages pretty easily. That's why you can get USB powered nixie clocks, for example.
You can shock the hell out of yourself with the capacitors for the flash in a disposable camera, so the AAA battery source isn't exactly exculpatory...
vegadw|5 months ago
Meanwhile, Raysid or Radiacode let you do full on gamma spectrometry, for about 2.5x the price.
And, like, yeah, 2.5x the price. I'm not oblivious to that being significant, but to me it's sorta like an GT1030 with DDR4 - it's about $100 or you could get an RTX 3060 for a bit over $300. Like, you might have a use where you ONLY need a cheap display card, but there's a reason LTT calls the 1030 eWaste from the factory. Similarly, you might get enough out of the Geiger or it might do something the Radiacode doesn't for you but for most hobbyist, I doubt it.
BetterGeiger|5 months ago
tavavex|5 months ago
I think the biggest difference here is that GPUs are fairly general-purpose devices. Even if you only need one as a cheapest possible way to output something to your monitor, it's easy to imagine how that might change and why you might as well future-proof your setup.
The other thing you didn't mention about why a 1030 is manufactured e-waste is in large part the competition from the used market. You can get equivalent functionality for a few dozen dollars, so buying a brand new 1030 as an individual makes no sense. This isn't a problem in the specialty radiation device market.
The thing is that most people probably don't buy Geiger counter modules or devices because of a burning need to do some specific tasks, like you would with GPUs. I'll bet that most people buying the Adafruit kit are getting it as a novelty, or for educational purposes, or to just have something reporting the background radiation around them out of curiosity. Because of this, price is the most important factor for these groups.
I've never heard of Radiacode, and looking it up, it seems seriously impressive - especially the portable gamma spectrometry that you mentioned. But I also know that it's a very niche device, and most people who would shell out $250+ for this need it for chemistry projects, exploring irradiated areas, evaluating radioactive items and so on. It's not a lot of people, considering that if you just want something to give you a readout, you'll get the <$99 product, and if you need it occupationally, you'll already have received a professional device.
ajsnigrutin|5 months ago
https://www.aliexpress.com/item/1005004551394154.html this is 32eur
+ ~5eur for an esp32 board and some wires
+ http://docs.espgeiger.com/output/webportal
This gives you a measurement node, with mqtt support, online data export and a web interface.
For ~40eur all together, it's still very cheap.
renewiltord|5 months ago
I do like my Flipper for how adaptable it is but then end up using it to copy RFID tags as primary purpose.
zamadatix|5 months ago
bsjjdjs|5 months ago
wer232essf|5 months ago
[deleted]
BetterGeiger|5 months ago
monkmartinez|5 months ago
I love the idea of using the tube and measurements as a random number generator! However, please treat the whole category of homemade devices to measure/detect "bad shit" as novelty and nothing else. If you are actually concerned enough to really measure/detect harmful materials, buy the proper devices. Learn how to calibrate and how to use them properly. The last thing our 911 system needs are people calling with aliexpress radiation detectors going off in a cancer center.
geerlingguy|5 months ago
DoctorOetker|5 months ago
To measure radon (say in a cellar), you'd typically take some dust filter or filter foam, attach it to a fan and circulate the cellar air through the filter, then the radioactive dust collects in the filter, and one can measure higher doses more easily.
Balgair|5 months ago
Random question for you in the biz: where can I get a muon detector setup? I just can't find them anywhere and would love to gain access to the extraterrestrial and solar weather particle environment.
Chabsff|5 months ago
JohnFen|5 months ago
That said, it's always prudent to treat any live electrical line as dangerous unless you know for a fact that it isn't, of course.
umvi|5 months ago
With low voltage battery circuits the main thing you have to be wary of is capacitors because those can push out a lot more current than the battery itself. Usually you can judge how much a capacitor would hurt if you touched it based on its size. If you have a device with 20 batteries charging a baseball sized capacitor, be very cautious (like the DIY gauss guns/rail guns you see on youtube). Even a thimble sized capacitor will jolt you surprisingly hard. One time I touched the charged capacitor of a disposable camera and the discharge gave me quite the zing.
ooterness|5 months ago
numpad0|5 months ago
For the sexond, Geigers are binary, they only report detection events, not types. So you don't want it to be triggered on non-X rays like interferences from computers around, and you might also want to be able to occasionally remove surface contaminants from the equipment. Both of these are easily achieved by giving it a durable opaque case which is how everybody do these.
And for the first, I believe a modern photodiode taped over is by itself more sensitive than Geigers, even more so if coupled to a scintillator crystal(salts that glows in x-rays), not to speak of spectrometer based systems that can additionally tell energy levels therefore types and biological damage levels of incoming rays.
The real Geiger tube running on display is cool, but that's strictly it. I believe.
madaxe_again|5 months ago
GuB-42|5 months ago
The suggested board is powered by USB, that's 5V 500mA, so, 2.5W. Let's say the tube is run at the recommended 380V, at 2.5W, that's a current of 6.5mA, which is barely painful, and not dangerous. I guess that with that power, if the circuit really wanted to hurt you, it could boost the voltage in the 50-100V range for a ~30mA shock, which is definitely painful and the start of what is considered dangerous. Electric safety is complicated, there is so much to take into account: current, voltage, frequency, location, presence of water, etc... Skin resistance is far from constant.
Maybe it could do more if it disregards the 500mA USB limit to the full 1.2A that the Flipper Zero can deliver, or with capacitors, but it doesn't seem to have enough of them for a significant power reserve. If it could do that, I would also worry about plugging it to my Flipper Zero or to anything of value out of fear of damaging it, as it would have to be of pretty terrible design, but well, that's AliExpress after all.
burnt-resistor|5 months ago
emsign|5 months ago
superxpro12|5 months ago
unknown|5 months ago
[deleted]
CamperBob2|5 months ago
aftbit|5 months ago
burnt-resistor|5 months ago
ge96|5 months ago
Like an old glass cup
emsign|5 months ago
burnt-resistor|5 months ago
majke|5 months ago
On one hand it's trivial - counts (ticks) per second. However, this (of course!) can be very spiky. I ended up using pretty simple EWMA to smooth the results for user interaction. Anything really works, short decay is fine.
Then the really fun bit, was trying it with more serious radiation source, and guess what.... interrupt per tick, is... really bad! I was easily able to overwhelm the arduino, too many interrupts. Fun project to understand interrupt masking.
whytevuhuni|5 months ago
Coding a program that could self-heal and survive in such a situation would be fun.
aa-jv|5 months ago
lights0123|5 months ago
privatelypublic|5 months ago
burnt-resistor|5 months ago
I have a similar Geiger counter that functions standalone and works as an Arduino module. It doesn't appear to be very sensitive because bananas don't increase counts. The only household object able to barely increase counts was some vintage uranium glass tucked away in a corner behind a display case.
criddell|5 months ago
https://www.schneier.com/blog/archives/2008/01/locked_fire_b...
anonymousiam|5 months ago
Next, I built a simple Geiger counter based upon a Raspberry Pi (Model B) and a Piface LCD display. I wanted to increase dynamic range of the measurements, so I did some circuit modifications to recharge the Geiger tube faster after an event. This allowed for higher counts, but consumes more power and lowers sensitivity. Also, getting the Pi to interrupt on each event for efficient counting has its limitations. A separate digital counter that is reset upon each read sample is better.
Anyway, it's a rabbit hole that ended up taking a lot more time and effort than I expected, but I was happy with the results.
ZeroCool2u|5 months ago
[1]: https://www.bettergeiger.com/
dividedbyzero|5 months ago
9dev|5 months ago
BetterGeiger|5 months ago
TheJoeMan|5 months ago
joahnn_s|5 months ago
jasonfrost|5 months ago
daft_pink|5 months ago
BetterGeiger|5 months ago
wgx|5 months ago
morninglight|5 months ago
morninglight|5 months ago
https://mightyohm.com/files/geiger/images/6275026497_3cf9f17...
vegadw|5 months ago
QuinnyPig|5 months ago