Measurement of Carbon Dioxide Concentration – NDIR Principle
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NDIR = Non-Dispersive Infrared
\nThese sensors operate on the principle of measuring the attenuation of infrared radiation (at a specific wavelength) in the air. The sensors consist of an infrared radiation source (bulb), a light-guiding tube, and an infrared detector with the appropriate filter. The signal from the infrared detector is further amplified and then the attenuation of the radiation, caused by collisions with carbon dioxide, is evaluated using additional electronics. Based on this, the current concentration of CO2 in the air is calculated. To simplify – the more CO2, the more the infrared radiation is attenuated.
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\nNDIR sensors are generally very accurate and long-term stable. An advantage is that they measure concentrations from zero value and can handle high concentrations of CO2. Currently, we have the NDIR principle applied in all carbon dioxide concentration sensors. Their stability and lifespan exceed 10 years.
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Electrochemical Sensors – Measurement of Volatile Organic Compounds and Humidity
\nThese sensors typically consist of an electrochemical cell with a solid electrolyte (= solutions or melts that conduct electric current). This cell is heated to operating temperature by additional heating. Chemical reactions occur at the electrodes of the cell similar to those in a fuel cell, where oxygen is consumed and an electromotive force is generated at the electrodes of the cell. By measuring this electromotive force with special electronics, the concentration of CO2 in the air is determined. The main advantage of these sensors is their high sensitivity and excellent selectivity for carbon dioxide. They are usually cheaper than NDIR sensors, but with significantly lower lifespan (about 2 years) and accuracy. Therefore, we have discontinued the use of these sensors. Sensors operating on the electrochemical principle work only from about 400ppm, which is not a problem considering the concentration in outdoor air, which is around 360-400ppm.
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Electroacoustic Sensors
\nElectroacoustic sensors operate on the principle of evaluating frequency changes of ultrasound in a mechanical resonator. Using electronics, the change in frequency of the ultrasonic waves is evaluated, and based on the dependence of the frequency change on the concentration of CO2 in the air, the current concentration of CO2 is determined.
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\nThe main advantage of these sensors is long-term stability without the need for recalibration.
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Sensor Outputs
\nSensors of all types typically have a continuous voltage output (0-10 V) or current output (0-20 / 4-20 mA), through which they transmit information about the concentration value of CO2 in the air to the superior ventilation system.
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