Air quality node
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Agreed. Since I don't know, probably the most I can hope for is some kind of generic VOC sensor. Is there is such a thing?
With regards to particular emissions, it looks as though there's a Honeywell unit that's smaller than the others and the seller listing claims that it's fully callibrated: https://www.aliexpress.com/item/PM2-5-sensor-HONEYWELL-HPMA115S0-XXX-laser-pm2-5-air-quality-detection-sensor-module-Super-dust/32829242280.html?spm=2114.10010108.1000013.3.2fc91af7A0JTzC&gps-id=pcDetailBottomMoreThisSeller&scm=1007.13339.90158.0&scm_id=1007.13339.90158.0&scm-url=1007.13339.90158.0&pvid=57ffa5dd-6d44-4d46-ae2c-8133b92ef714
Looking now, the datasheet also says it's fully calibrated, so I guess I believe it: https://www.honeywellscportal.com/honeywell-sensing-hpm-series-particle-sensors-datasheet-32322550-e-en.pdf
Are the alternatives, such as the SDS011 or the PMS2005, fully calibrated? If not, then the Honeywell might have that as an advantage, together with a generally good reputation for quality and durability.
Another good thing, at least from my perspective, is that I can buy it from Digikey or Mouser, without having to wait for a China shipment or run the risk of getting shanghai'd by a Chinese counterfeit.
There are a number of libraries on github for it: https://github.com/search?q=HPMA115S0
@neverdie I bought HPMA pm sensors from Arrows for this reason: similar price and quick delivery.
The main advantage is the laser diode that seems of better quality so the sensor will last longer (20K hours vs 8K hours for the plantower sensors).
But the data it sends on the serial port is coded exactly like data from Plantower sensors, so I suspect they have a deal with Plantower to supply the IC and data processing. But an older version as the frequency for sending data is always the same (Plantower sensors adapt frequency) and with less data (only pm 2.5, pm10 is calculated and pm1.0 is not returned).I'm working on a PCB for pm/co2/VOC sensors, I'll finish it soon and send it to fab next week when I will be back home. Checking what my 3D printer releases is also part of it's future tasks, in addition to checking air pollution outside (sometimes pretty bad in Saigon) and inside (exhaust from furniture etc) so please keep us updated on your findings with SGP30.
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@neverdie I bought HPMA pm sensors from Arrows for this reason: similar price and quick delivery.
The main advantage is the laser diode that seems of better quality so the sensor will last longer (20K hours vs 8K hours for the plantower sensors).
But the data it sends on the serial port is coded exactly like data from Plantower sensors, so I suspect they have a deal with Plantower to supply the IC and data processing. But an older version as the frequency for sending data is always the same (Plantower sensors adapt frequency) and with less data (only pm 2.5, pm10 is calculated and pm1.0 is not returned).I'm working on a PCB for pm/co2/VOC sensors, I'll finish it soon and send it to fab next week when I will be back home. Checking what my 3D printer releases is also part of it's future tasks, in addition to checking air pollution outside (sometimes pretty bad in Saigon) and inside (exhaust from furniture etc) so please keep us updated on your findings with SGP30.
@nca78 said in Air quality node:
@neverdie I bought HPMA pm sensors from Arrows for this reason: similar price and quick delivery.
The main advantage is the laser diode that seems of better quality so the sensor will last longer (20K hours vs 8K hours for the plantower sensors).
But the data it sends on the serial port is coded exactly like data from Plantower sensors, so I suspect they have a deal with Plantower to supply the IC and data processing. But an older version as the frequency for sending data is always the same (Plantower sensors adapt frequency) and with less data (only pm 2.5, pm10 is calculated and pm1.0 is not returned).From what I've read, a lot of the particles released by a 3D printer while printing (maybe even the majority of them) are a lot smaller than pm2.5, so it's too bad the HPNA can't read that. I guess I may have to get both now: the HPNA so that I have a calibrated reference, and then one of the others so I can get pm1.0 measurements.
Yesterday I did order the SGP30, so after I receive it I'll be sure to let you know how it goes.
Also, it's worth being aware of this: https://www.researchgate.net/profile/Bernd_Laquai/publication/320555036_Particle_Distribution_Dependent_Inaccuracy_of_the_Plantower_PMS5003_low-cost_PM-sensor/links/59ec6d1faca272cddddf12fc/Particle-Distribution-Dependent-Inaccuracy-of-the-Plantower-PMS5003-low-cost-PM-sensor.pdf Therefore, it may not be able to measure pollen, which is something I'd also like to start tracking.
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@nca78 said in Air quality node:
@neverdie I bought HPMA pm sensors from Arrows for this reason: similar price and quick delivery.
The main advantage is the laser diode that seems of better quality so the sensor will last longer (20K hours vs 8K hours for the plantower sensors).
But the data it sends on the serial port is coded exactly like data from Plantower sensors, so I suspect they have a deal with Plantower to supply the IC and data processing. But an older version as the frequency for sending data is always the same (Plantower sensors adapt frequency) and with less data (only pm 2.5, pm10 is calculated and pm1.0 is not returned).From what I've read, a lot of the particles released by a 3D printer while printing (maybe even the majority of them) are a lot smaller than pm2.5, so it's too bad the HPNA can't read that. I guess I may have to get both now: the HPNA so that I have a calibrated reference, and then one of the others so I can get pm1.0 measurements.
Yesterday I did order the SGP30, so after I receive it I'll be sure to let you know how it goes.
Also, it's worth being aware of this: https://www.researchgate.net/profile/Bernd_Laquai/publication/320555036_Particle_Distribution_Dependent_Inaccuracy_of_the_Plantower_PMS5003_low-cost_PM-sensor/links/59ec6d1faca272cddddf12fc/Particle-Distribution-Dependent-Inaccuracy-of-the-Plantower-PMS5003-low-cost-PM-sensor.pdf Therefore, it may not be able to measure pollen, which is something I'd also like to start tracking.
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@neverdie I bought HPMA pm sensors from Arrows for this reason: similar price and quick delivery.
The main advantage is the laser diode that seems of better quality so the sensor will last longer (20K hours vs 8K hours for the plantower sensors).
But the data it sends on the serial port is coded exactly like data from Plantower sensors, so I suspect they have a deal with Plantower to supply the IC and data processing. But an older version as the frequency for sending data is always the same (Plantower sensors adapt frequency) and with less data (only pm 2.5, pm10 is calculated and pm1.0 is not returned).I'm working on a PCB for pm/co2/VOC sensors, I'll finish it soon and send it to fab next week when I will be back home. Checking what my 3D printer releases is also part of it's future tasks, in addition to checking air pollution outside (sometimes pretty bad in Saigon) and inside (exhaust from furniture etc) so please keep us updated on your findings with SGP30.
@nca78 said in Air quality node:
so please keep us updated on your findings with SGP30.
I received the sensor and have just now hooked it up. What I hadn't realized is that upon first powerup it needs to calibrate for 12 hours! Apparently all VOC sensors are really tin-oxide sensors, and they should all be calibrated in order to get accurate results.
They are also affected by temperature and humidity. Apparently there's a way to feed humidity data into the SGP30 so that it can compensate for that. So, I plan to feed it the humidity data from the BME680.
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I've hooked up the BME680, but I'm rather disappointed with the Adafruit library for it. For gases, all it does is report KOhm value, which doesn't mean anything to me. Has anyone here found a library which gives it a more meaningful interpretation?
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Unbelievable! Apparently Bosh won't make public the formula for converting from the gas KOhm measurement to an Indoor Air Quality. Instead, at most, they will provide the formula in a precompiled library, and it will therefore only work on a few microcontrollers. Apparently the Blue Pill is one of them. I'm not sure whether Arduino is one or not.
This will make getting the IAQ much more difficult. If I had known this, I would not have gotten the BME680. :(
Here are instructions on how to get the IAQ from a BME680 using a Blue Pill microcontroller: https://wolfgangklenk.wordpress.com/2017/11/05/indoor-air-quality-iaq-measurement-with-bosch-bme680-and-stm32f103c8t6/
Apparently it may also work on the ESP8266: https://www.bluedot.space/tutorials/air-quality-measurement-with-the-bme680/
[Update: Looks as though it may work on an Arduino Mega, but not the Uno: https://www.hackster.io/bastiaan-slee/chiiiiiirp-indoor-air-quality-measurement-and-alarm-260622 ]
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These academics came up with a different, easier to calculate indoor air quality index:
https://res.mdpi.com/sustainability/sustainability-08-00881/article_deploy/sustainability-08-00881.pdf?filename=&attachment=1and that's good enough for me. If anyone here has found a better way, please post.
Interestingly, my sensors are good enough that this morning they picked up a significant spike in pollutants indoors after my gardener cut the grass outdoors with his gasoline powered lawnmower. They actually linger for a lot longer than I would have thought.
I'm not going to buy any more BME680's. I think the AGP30's provide easier to interpret data.
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Well, having played around now with both the HPNA and the PMS5003, I'm finding the PMS5003 to be more interesting. At least in my environment, there aren't very many of the larger particles, whereas there seems to be a lot of activity in the very small particle range. Even though the PMS5003 is uncalibrated, I can still look at relative measurements and make comparisons. It just seems more sensitive to what's going on. For larger particles, the HPNA is, I think, the better choice. So, perhaps the two complement one another.
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These academics came up with a different, easier to calculate indoor air quality index:
https://res.mdpi.com/sustainability/sustainability-08-00881/article_deploy/sustainability-08-00881.pdf?filename=&attachment=1and that's good enough for me. If anyone here has found a better way, please post.
Interestingly, my sensors are good enough that this morning they picked up a significant spike in pollutants indoors after my gardener cut the grass outdoors with his gasoline powered lawnmower. They actually linger for a lot longer than I would have thought.
I'm not going to buy any more BME680's. I think the AGP30's provide easier to interpret data.
@neverdie said in Air quality node:
I'm not going to buy any more BME680's. I think the AGP30's provide easier to interpret data.
Have you tried using the Bosch software to manage the sensor and compute the raw values ?
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@neverdie said in Air quality node:
I'm not going to buy any more BME680's. I think the AGP30's provide easier to interpret data.
Have you tried using the Bosch software to manage the sensor and compute the raw values ?
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@neverdie said in Air quality node:
@nca78 Not as yet. Have you?
No I have only one and I didn't even solder it yet.
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These academics came up with a different, easier to calculate indoor air quality index:
https://res.mdpi.com/sustainability/sustainability-08-00881/article_deploy/sustainability-08-00881.pdf?filename=&attachment=1and that's good enough for me. If anyone here has found a better way, please post.
Interestingly, my sensors are good enough that this morning they picked up a significant spike in pollutants indoors after my gardener cut the grass outdoors with his gasoline powered lawnmower. They actually linger for a lot longer than I would have thought.
I'm not going to buy any more BME680's. I think the AGP30's provide easier to interpret data.
@neverdie same with me. I gave up using the BME680 for the same reasons you have. It is cheap and offers 4 readings in one chip but can not be really used with a small microcontroller like arduino nano or the sensebender micro as Bosch does all the drift compensation using software that requires large memory.
I believe theis chip was meant to be used in smartphones instead of homeautomation sensors.
I will order a SGP30 today. Thanks for pointing into that direction...
Gr Heinz -
@neverdie same with me. I gave up using the BME680 for the same reasons you have. It is cheap and offers 4 readings in one chip but can not be really used with a small microcontroller like arduino nano or the sensebender micro as Bosch does all the drift compensation using software that requires large memory.
I believe theis chip was meant to be used in smartphones instead of homeautomation sensors.
I will order a SGP30 today. Thanks for pointing into that direction...
Gr Heinz -
@gohan said in Air quality node:
Is an esp8266 powerful enough for a bme680?
Yes it's in the list here :
https://www.bosch-sensortec.com/bst/products/all_products/bsecThen you have to follow instructions to use BSEC with Arduino :
https://github.com/BoschSensortec/BSEC-Arduino-library -
FWIW, I also observed self heating problems with it if running at the default Adafruit sketch. Reported temperature was higher than it actually was. So, again, without guidance as to how much it should be pre-heated or how often it needs to be sampled.... If anyone reading this happens to know, please post.
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@heinz FYI, you'll want to pair the SGP30 with a BME280 (or whatever your preferred TH sensor is) for temperature and humidity compensation.
