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Xose Pérez edited this page Jun 13, 2018 · 3 revisions

ESPurna based Geiger Counter

The wiring of this project is straight forward. I used a NodeMCU board to host ESPurna.
The Geiger counter itself is based on aa Arduino-ready Kit from RH Electronics. Wiring Diagram The Geiger board is prepared for two variants of interrupt outputs. I soldered the C-Int type, consisting of 10nF capacitor in front of the output. The corresponding impulse looks like this.

Scope screenshot of Geiger impulse

Yes, I know the NodeMCU is a 3V3 powered device, while the Geiger board runs at 5V. Well, the interrupt impuls shows a peak of below 4V and it did not kill my NodeMCU, yet. Use this wiring at your own risk :-) However the impuls shows a width of 20ms, so I decided to go with a debounce time of 25ms, just to be sure. Debouncing does not seem to be required here, but I wanted to be on the safe side. I will test the system with different settings but for the moment rising edge detection is configured. The closest time between two impulses I could fetch while playing with the scope was about 50ms. This would result in a quiet high radiation level.

Scope screenshot of 2 folowing Geiger impulses

Calibration

The Geiger counter board generates an interrupt per detection. One way to measure the local (Gamma) dose rate is therefore to count the impulses per minute [CPM]. CPMs depend on the used geiger tube. Im my case an russian SBM-20. In other words CPMs are not comparable with other geiger tubes.

The Sievert [Sv] is the unit of ionizing radiation dose in the International System of Units (SI). We need a dose rate (per time interval). The most common one is micro Sievert per hour [µSv/h].

But how to convert from CPM to µSv/h?

A web search will end up an large list of conversion factors. For example here or here. They are all wrong. Actually I gave up to calculate the conversion factor.

This is the way I derived my own version of a wrong conversion factor:

I'm located in Lehrte, Germany and see about 18 ticks in average with my SBM20 tube. The German "Bundesamt für Strahlenschutz" (Federal Office for Radiation Protection - BfS) operates some monitoring stations acros Germany. Luckily there is one located in Lehrte. The average of this station is around ~0,075 Sv/h.

This leads to a conversion factor of ~ 0,0041666 (inverse= 240), which is my default conversion factor for now for my instance of the SBM-20 tube.

I recommend to configure a read/counti interval of at least a minute to get stable results. Averaging does not makes sense for impulse counting, since the longer the count interval, the more stable are the results anyway.

ESPurna Configuration Page

Result Visualisation

I'm using an InfluxDB and Grafana stack to visualise my sensor data. The screenshot below illustrates a typical result from the sensor. On the left hand side the values are dispalyed in the unit "µSv/h", while on the right hand side "counts per minute" are given.

Grafana dashboard for the Geiger Counter

The last values are mentioned on the status page of the device's webpage. ESPurna Status Page

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