Revision as of 13:46, 14 October 2018

CO₂ Sensor

Motivation Experiments Wiring Reference

About this section, we are showing how to use the CO₂ sensor in arduino.

Motivation

We want to detect if the CO₂ concentration at the outlet is decreasing as expected.

Experiments

Experiment 1: Instrument calibration

Purpose

Because the analog value returned by each sensor may be inaccurate, and the carbon dioxide concentration in each area may be slightly different, it must be corrected before use.

Method

Connect the power supply to 3.3V and use arduino to measure the analog value of output A0. Its stable value is about 3.3/5*1024=675.84.

Let the sensor enter a steady state and operate in an unventilated environment for at least 48 hours.

At this time, the analog value of the atmospheric carbon dioxide concentration (about 400 ppm) was measured, and we measured 705.

The known carbon dioxide concentration is adjusted by a CO₂ incubator, and the ppm can be obtained according to the formula conversion, and the analog value of the concentration is obtained.
Ex: We put the carbon dioxide sensor into 5% carbon dioxide and measured its analog value to 530.

We assume that the carbon dioxide logarithmic concentration is negatively linearly related to the output analog value, and can be found by the known two points.

Formula

X% = 10000X ppm Ex: 5% CO₂ concentration = 50000 ppm

Let we assume the unknown CO₂ concentration is C ppm.

$$slope={V_{50000}-V_{400}\over log50000-log400}={V-V_{400}\over logC-log400}$$

From the graph, we have shown that V₅₀₀₀₀ = 530 、V₄₀₀ = 705
Therefore, we can get the slope value.
After shifting the equation we will get

$${logC-log400}={V-V_{400}\over slope}$$
$$C={10^{log400+{V-V_{400}\over slope}}}$$

We can then get the unknown CO₂ concentration from this formula.

Picture

We put CO₂ sensor into the CO₂ incubator and measure its analog value.

Experiment 2: CO₂ trend line verification

Purpose

To verify whether the logarithmic concentration of carbon dioxide is negatively linear with the output analog value.

Method

Use a CO₂ incubator to call up the known carbon dioxide concentration and measure its analogy to see if it is on this line.

Result

We put our sensor in the environment of CO₂ 2.7%, and we measured that the analog value 550, which is quite match with the theoretical analog value 552.

Precaution

It is best to preheat for the first time for 24 hours, use it for more than six hours, preheat for 1-2 hours, power off for more than 72 hours, and preheat for 24 hours.

Materials used

Arduino UNO

MG811 CO₂ Sensor

Heating power supply: 7.5-12V
Operating Temperature: -20 – 50 °C
Measuring range: 400-10000ppm CO₂

Float flowmeter or CO₂ incubator

Arduino code

Wiring

Reference

Tiequan Shao.Peng Wei.(2016)Arduino 二氧化碳感測器MG811 校正計算.Retrieved from
http://a-chien.blogspot.com/2016/03/arduino-mg811.html

@@ Line 35: / Line 35: @@
                                  <div id="pt">
                                      <p class="pcontent">
-                                         We want to detect if the CO2 concentration at the outlet is decreasing as
+                                         We want to detect if the CO<sub>2</sub> concentration at the outlet is decreasing as
                                          expected.
                                      </p>
@@ Line 69: / Line 69: @@
                                              <li>At this time, the analog value of the atmospheric carbon dioxide
                                                  concentration (about 400 ppm) was measured, and we measured 705.</li></br>
-                                             <li>The known carbon dioxide concentration is adjusted by a CO2
+                                             <li>The known carbon dioxide concentration is adjusted by a CO<sub>2</sub>
                                                  incubator, and the ppm can be obtained according to the formula
                                                  conversion, and the analog value of the concentration is obtained.</br>
@@ Line 85: / Line 85: @@
                                          <ol type="a">
-                                             <li>X% = 10000X ppm Ex: 5% CO2 concentration = 50000 ppm</li></br>
+                                             <li>X% = 10000X ppm Ex: 5% CO<sub>2</sub> concentration = 50000 ppm</li></br>
-                                             <li>Let we assume the unknown CO2 concentration is C ppm.</li></br>
+                                             <li>Let we assume the unknown CO<sub>2</sub> concentration is C ppm.</li></br>
                                          </ol>
@@ Line 109: / Line 109: @@
                                          <ul>
-                                             <li>We can then get the unknown CO2 concentration from this formula.</li>
+                                             <li>We can then get the unknown CO<sub>2</sub> concentration from this formula.</li>
                                          </ul>
@@ Line 115: / Line 115: @@
                                          <ul>
-                                             <li>We put CO2 sensor into the CO2 incubator and measure its analog value.</li>
+                                             <li>We put CO<sub>2</sub> sensor into the CO<sub>2</sub> incubator and measure its analog value.</li>
                                          </ul>
@@ Line 125: / Line 125: @@
                                      </ol>
-                                     <li>Experiment 2: CO2 trend line verification</li></br>
+                                     <li>Experiment 2: CO<sub>2</sub> trend line verification</li></br>
                                      <ol>
@@ Line 137: / Line 137: @@
                                          <ul>
-                                             <li>Use a CO2 incubator to call up the known carbon dioxide concentration
+                                             <li>Use a CO<sub>2</sub> incubator to call up the known carbon dioxide concentration
                                                  and measure its analogy to see if it is on this line.</li></br>
                                          </ul>
@@ Line 145: / Line 145: @@
                                          <ul>
-                                             <li>We put our sensor in the environment of CO2 2.7%, and we measured that
+                                             <li>We put our sensor in the environment of CO<sub>2</sub> 2.7%, and we measured that
                                                  the analog value 550, which is quite match with the theoretical analog
                                                  value 552.</li></br>
@@ Line 170: / Line 170: @@
                                          <li>Arduino UNO</li></br>
-                                         <li>MG811 CO2 Sensor</li>
+                                         <li>MG811 CO<sub>2</sub> Sensor</li>
                                          <ol type="a">
                                              <li>Heating power supply: 7.5-12V</li>
                                              <li> Operating Temperature: -20 – 50 °C</li>
-                                             <li>Measuring range: 400-10000ppm CO2</li>
+                                             <li>Measuring range: 400-10000ppm CO<sub>2</sub></li>
                                          </ol>
                                          </br>
-                                         <li>Float flowmeter or CO2 incubator</li></br></li></br>
+                                         <li>Float flowmeter or CO<sub>2</sub> incubator</li></br></li></br>
                                          <li><a href="https://github.com/vicky87106/2018iGEM_NCKU-Tainan" style="color: #28ff28;">Arduino
                                                  code</a></li></br>