Hi acd,
Which type of sensor from SGX are you using ? It is also a metal oxide sensor ?
The BSEC library has 2 main outputs: IAQ and static IAQ.
For the static IAQ the algorithm will adjust the resistance baseline according to the time constant of the config string so that an IAQ value of 25 roughly translates to "the cleanest air it has seen so far" (a bit oversimplified, but it helps to get the concept). The sensitivity is fixed.
For the "regular" or "adaptative" IAQ, the algorithm will in addition "autoscale" the sensitivity according to the time constant so that an IAQ value of 250 roughly translates to "the worst air it is used to seeing". Therefore the expected output of the sensor is to daily cycle between 25 and 250 in this mode, and exceeding these values during "excursions" of really bad or really clean air.
Gas percentage and CO2 equivalent are more or a scaled version of the sIAQ, with the assumption that the pollution source is human breath.
Why so fast rising of IAQ and CO2 to peak value after ventilation gets off, but after while level is decreasing slowly until ventilation gets on? SGX sensor output values looks more real (maybe similar to exponential).
BME680 has a pretty fast response time, and high sensitivity. I wouldn't be surprised if the air in the room needs little bit of time to stabilize with air currents. Without the raw data and BSEC library version, it is hard to say if the output is expected or not.
Why sometimes we observe CO2 about 2000ppm (and in older tests, which are not presented here, we got almost 3000ppm) at same time when SGX sensor shows less than 1000ppm?
Assuming your SGX sensor is also metal oxide, this must be a disparity between the formulas used to derive a CO2 estimation from the VOC data. I would recommend
For general indoor air quality, TVOC is a far better indicator, but if CO2 is a concern, you should definitely compare the results with a real CO2 sensor.
What is the best choice of data to control the room ventilation? IAQstatic?
Static for sure. Otherwise, the adaptative algorithm and your ventilation system will create a positive feedback loop and either be always on, always off, or cycling way too fast.
o_o
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