Archive for September, 2017

We’ve now had particle sensors both inside and outside the house for a long time, but for the first time we bought a large scale filter in one of the offices in the house.

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and now the dust levels in the room has dropped significantly – to close to nothing 

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This is probably good proof that the filter is working extremely well.

I’ve just built my first radiation counter for a Raspberry Pi – and intend to add this to the house monitoring system. At the moment it’s warming up – I will have further information soon.

 

But while I was waiting for it to warm up I found the following on another Radiation counter I may try to get hold of as well :

 

PiGI Module

PiGI V1.0 Prototype Board

The Raspberry Pi is a perfect platform to be a cheap but very versatile geiger counter. It can be connected to a TV/Monitor to display a nice graphical interface, it can play the nostalgic tak, tak, taktaktak sound via audio output and it can also serve as an autonomous geiger counter sensor node (even solar powered) collecting and sharing real-time and historic data. All you need is:

  • A Raspberry Pi
  • PiGI Module
  • Geiger-Müller Tube

The PiGI is designed & built as a simple open-source plug and play module for the Raspberry Pi to transform it into a cheap and hackable multi purpose geiger counter. It generates the necessary high voltage (up to 1000V) the GM tubes require to operate (typically 400-600V for beta/gamma GMTs).

Some pancake sensors (mostly used for alpha radiation) require an even higher voltage, theoretically the circuit should cover it. However, that’s untested, only a LND712 (new, see picture) and two old Phillips tubes (Frieseke&Hoepfner FHZ74/76) could be tested, due to limited prototyping resources.

For every impulse the geiger tube registers the PiGI pulls a GPIO Pin of the Pi to ground (falling edge detection). On the Pi runs just a little daemon called counterd which waits for an interrupt to register the count and notify the display/audio/data-storage/network handler. That’s why it can also easily be connected to any other embedded/micro controller system like:

  • Arduinos
  • ATMegas
  • PICs
  • Spark-Cores
  • Other embedded Linux ARM/MIPS systems with GPIO Inputs (Netus G20 etc.)

HOWTOs can/will be provided, drop a comment if you need one for connections/pull-up configuration.