How Does MQ-3 Alcohol Detector Work With Arduino And Detect ...

Sensors now play an essential role in the safety and security of a wide range of flats, houses, and businesses by detecting smoke, fire, or gas and alerting the appropriate person. Today's post will discuss one such Sensor, the MQ-3. The MQ-3 is Alcohol Sensitive Sensor that is often used in a breath analyzer. So, let's jump right into it.

MQ-3 Alcohol Sensor Pinout

The MQ-3 Gas Detection Sensor Module includes four pins that may be used to extract data from the Sensor: VCC, GND, Aout, and Dout. The pinout of the MQ-3 Alcohol Detection Sensor is as follows:

VCC is the Gas Detection Sensor's power supply pin, which can be linked to a 5V source.

GND is the board's ground pin, which should be linked to the Arduino's ground pin.

DOUT is the board's digital output pin; a low output indicates that no alcohol is present in the environment, while a high output indicates that Alcohol is present.

AOUT is the board's Analog output pin, which will provide us with an analog signal that varies between Vcc and ground depending on the alcohol level detected:

MQ-3 Alcohol Sensor Module – Parts

The MQ-3 Sensor is popular among novices since it is used in most Arduino projects to detect Alcohol. These are also low-cost, simple-to-use sensors with a wide detecting range that may be narrowed to change sensitivity. The MQ-3 Sensor's component marks are shown below.

The MQ-3 Alcohol Sensor Module features four pins, two of which are for VCC and GND. The other two may simultaneously output analog and digital data, much like the other basic sensor modules. We're utilizing the Arduino's 5V pin to power the circuit since the module's working voltage range is 5V with a 0.1 percent tolerance. The module features two inbuilt LEDs, as seen in the figure above. When power is connected to the board, the power LED illuminates, and the Dout LED illuminates when the potentiometer's trigger value is achieved. This board also has an OP-Amp comparator that converts the incoming analog signal from the gas sensor to a digital signal.

How Does the MQ-3 Alcohol Sensor Module Work?

The MQ-3 gas sensor requires a heating element to identify Alcohol correctly. However, placing a heating element near Alcohol might be dangerous. Thus the Sensor is built with an anti-explosion network comprised of two thin layers of stainless steel mesh, as seen in the figure below. This stainless steel mesh contains a heating element.

This mesh structure also protects against dust and other suspended particles, allowing only gaseous components from the environment to pass through. When we disassemble the sensor, we can see that it comprises two primary components. The first is the heating element, which is made of nichrome wire, and the second is the detecting element, which is composed of platinum wire with a tin dioxide coating on it. The image below shows the mesh decapped from the actual sensor.

When the mesh is removed from the Sensor, it looks like this. We cut the stainless steel mesh and positioned it on the side of the Sensor, as you can see in the above image. The sensing aspect that we discussed previously is now visible as well. The Sensor's star-shaped pins are produced by constructing the actual detecting and heating element attached to the Sensor's six legs. The black base of the Sensor, which is made of Bakelite to promote heat conductivity, can also be seen.

Preheat Time for MQ-3 Sensor:

Working with this sort of alcohol sensor needs a preheat or stabilization period for the device to function correctly. If you look at the device's datasheet, you'll notice that it requires a 48-hour preheat period. Is this to say that it must be turned on for 48 hours before it may be used?

To this question, the clear answer is a resounding NO. You must operate it continuously for 48 hours to acquire the standard performance numbers stated in the datasheet. And it was tested in their lab after 48 hours. So, if you want to stay inside the parameters, you must adhere to the 48-hour preheating time. Thermal equilibrium will undoubtedly be attained within 30 minutes, given the Sensor's modest size. And getting within a few percent of the numbers supplied by the datasheet would probably take a few minutes.

The 48-hour warm-up period is only essential if you want an exact alcohol concentration measurement. You'll also need a robust sensor calibration and some way to correct for other environmental conditions like temperature, humidity, and so on.

The MQ-3 Sensor may be used to detect and measure alcohol levels in PPM. It's essential to keep in mind that detecting the vapour and measuring its concentration in PPM are two very different things. The primary focus of this essay is on seeing alcohol levels and concentration increases. The technique is slightly different if you want to compute the alcohol level in PPM precisely; nonetheless, we will briefly touch on it.

How to use MQ-3 Sensor to Detect Alcohol?

We have a container containing IPA in the above gif, and when it is sprayed, the gas concentration in the surrounding grows. When we pour it a second and third time, the alcohol concentration increases again. The output voltage from the sensor increases as the alcohol concentration rises, as can be seen on the multimeter. The green LED on the module illuminates when it exceeds a particular threshold (which may be controlled using the potentiometer). This may be seen in the backside photograph of the module that we've included for demonstration purposes.

How to measure Alcohol concentration in PPM using the MQ-3 Sensor?

This is a highly accurate sensor that is calibrated to detect the PPM of Alcohol present in the environment; however, to do so, you must first understand the sensitivity characteristics of the MQ-3 Sensor, which can be found in the MQ3 Sensor datasheet and look like the image below.

In the logarithmic graph, RS is the sensing resistance during the presence of Alcohol. While R0 is the sense resistance to clean air. This Sensor is designed to detect Alcohol and has minor sensitivity to Benzine, so this Sensor's resistance will change depending on the concentration of alcohol present in the atmosphere.

Commonly Asked Questions about MQ-3 Alcohol Sensor Module

Q-1: What does MQ3 sensor detect?

There are many gas detecting sensors available in the market. It's a low-cost semiconductor sensor that can detect alcohol. MQ-3 is suitable for detecting Alcohol, Benzine, CH4, Hexane, LPG, CO.

Q-2: What is the operating voltage of MQ-3 sensor?

The MQ3 alcohol sensor operates at 5V DC and consumes around 800mW. It can detect alcohol concentrations ranging from 25 to 500 parts per million (ppm).

Q-3: What is the sensing range of MQ-3 sensor?

It can detect alcohol gas concentrations ranging from 0.05 mg/L to 10 mg/L, or it can detect alcohol concentrations ranging from 25 to 500 parts per million (ppm).

Q-4: What are MQ Series Sensors?

MQ gas sensors are a type of sensor that can detect a broad range of gases, including alcohol, smoke, methane, LPG, hydrogen, NH3, Benzene, and Propane, among others. These sensors are constructed consisting of an electrode that has been covered with a sensing material which is heated to increase its reactivity and sensitivity.