MHZ19: Difference between revisions

From RevSpace
Jump to navigation Jump to search
No edit summary
No edit summary
Line 1: Line 1:
   {{Project
   {{Project
   |Name=MHZ19
   |Name=MHZ19
   |Picture=nog_geen_plaatje.png
   |Picture=mhz19.jpg
   |Omschrijving=Some research into the MH-Z19 CO2 sensor
   |Omschrijving=Some research into the MH-Z19 CO2 sensor
   |Status=Initializing
   |Status=Initializing
Line 7: Line 7:
   }}
   }}


== Introduction ==
This page is about the MH-Z19 CO2 sensor and some experiments done with it.


This page is about the MH-Z19 CO2 sensor and some experiments done with it.
This sensor gives a digital (serial) output of the CO2 concentration in air, in parts-per-million (ppm).
It uses the optical measurement principle of measuring CO2, which should be much more accurate than the inexpensive electro-chemical sensors you can find.
As far as I know, the optical measurement principle uses a broadband light-source to send some light through an air-sample.
The sensor then looks at the relative intensity of the light at two different frequencies.
The CO2 gas inside the air absorbs light strongly at very specific wavelengths, allowing a determination of the concentration (ppm) of CO2.
This is then compensated for temperature and pressure for increased accuracy.
A new measurement is started every 5 seconds, you can actually see a small amount of light coming out of the sensor while it's measuring.
 
The MH-Z19 is the cheapest optical CO2 sensor I could find on AliExpress.

Revision as of 10:02, 22 October 2016

Project MHZ19
Mhz19.jpg
Some research into the MH-Z19 CO2 sensor
Status Initializing
Contact bertrik
Last Update 2016-10-22

Introduction

This page is about the MH-Z19 CO2 sensor and some experiments done with it.

This sensor gives a digital (serial) output of the CO2 concentration in air, in parts-per-million (ppm). It uses the optical measurement principle of measuring CO2, which should be much more accurate than the inexpensive electro-chemical sensors you can find. As far as I know, the optical measurement principle uses a broadband light-source to send some light through an air-sample. The sensor then looks at the relative intensity of the light at two different frequencies. The CO2 gas inside the air absorbs light strongly at very specific wavelengths, allowing a determination of the concentration (ppm) of CO2. This is then compensated for temperature and pressure for increased accuracy. A new measurement is started every 5 seconds, you can actually see a small amount of light coming out of the sensor while it's measuring.

The MH-Z19 is the cheapest optical CO2 sensor I could find on AliExpress.