MQ5 Flammable Gas Sensor Pinout

The MQ5 is an analog gas sensor designed to detect flammable gases such as LPG, natural gas, and town gas by measuring changes in the resistance of a heated sensing element. It provides both an analog output proportional to gas concentration and a digital output that can be triggered at a user-defined threshold.

The sensor offers high sensitivity to common fuel gases while maintaining relatively low sensitivity to alcohol vapors and smoke, helping to reduce false alarms in household and industrial environments. Due to its reliability, affordability, and ease of integration, the MQ5 is widely used in gas leak detection systems, safety alarms, industrial monitoring equipment, and portable gas detection devices.

What is MQ5?

MQ5 Sensor

The sensitive material of the MQ5 gas sensor is SnO2, which has lower conductivity in clean air. When the target flammable gas is present, the sensor’s conductivity increases along with the gas concentration rising. This change in conductivity is converted to a corresponding output signal of gas concentration through a simple circuit.

The MQ5 has high sensitivity to butane, propane, and methane and can detect methane and propane simultaneously. It is especially well-suited to LPG (propane) detection. Unlike the MQ2, which covers a broad range of flammable and combustible gases including smoke, the MQ5 is tuned more narrowly to natural gas, LPG, and town gas — making it a better fit for domestic piped gas and cylinder gas monitoring where specificity matters.

MQ5 overview

ParameterValue
Sensor TypeMetal Oxide Semiconductor (MOS) Gas Sensor
Target GasLPG, Natural Gas (CH4), Town Gas
Detection Range300 – 10000 ppm (CH4, C3H8)
Circuit Voltage (VC)≤24V DC (standard 5V ±0.1V)
Heater Voltage (VH)5.0V ±0.1V AC or DC
Heater Resistance26Ω ±3Ω (room temperature)
Heater Power Consumption≤950mW
Output TypeAnalog (AO) + Digital TTL (DO)
Sensor Lifespan10 years
Operating Temperature−10°C to +50°C
CommunicationAnalog Voltage / Digital Threshold
Mounting TypeThrough Hole (6-pin bare sensor)
Compatible BoardsArduino Uno, ESP32, Raspberry Pi

Pinout

MQ5 pinout

Breakout Module Pinout (4-pin)

PinTypeDescription
VCCPowerModule supply — 5V
GNDPowerGround
AOOutputAnalog output — voltage proportional to gas concentration (0V – 5V)
DOOutputDigital TTL output — LOW when gas exceeds threshold, HIGH otherwise

Working principle

The sensor requires two voltage inputs: heater voltage (VH) and circuit voltage (VC). VH supplies the standard working temperature to the sensor and can use DC or AC power. VC supplies the detection voltage to the load resistance RL in series with the sensor and must be DC.

As flammable gas concentration rises, sensor resistance RS falls, and the output voltage on AO increases through the voltage divider:

VOUT = VC × RL / (RS + RL)

The DO pin uses an onboard LM393 comparator to convert this into a TTL HIGH/LOW output against a threshold set by the onboard potentiometer.

The sensitivity characteristic shows the sensor’s resistance ratio (Rs/R0) against gas concentration. Rs is the resistance in the target gas at different concentrations, and R0 is the resistance in clean air. The output voltage in 2000ppm propane under standard test conditions is 2.5V to 4.0V, with a recommended load resistance of around 20kΩ (10kΩ to 47kΩ range).

Sensitivity to different gases (relative):

GasRelative Sensitivity
LPG / Propane (C3H8)Highest (primary target)
Natural Gas (CH4)High
Town Gas / ButaneHigh
Alcohol (C2H5OH)Low (interference resistant)
SmokeLow (interference resistant)

MQ5 module construction

MQ7 Module Construction

(Image source)

MQ5 Sensor Element The sensor is composed of a micro Al₂O₃ ceramic tube with a tin dioxide (SnO2) sensitive layer, measuring electrodes, and a heater coil, all fixed into a crust made of plastic and stainless steel mesh. The stainless steel mesh allows gas to diffuse into the sensing chamber while acting as a flame arrestor, preventing any internal ignition from propagating outward — critical given that the sensor is designed to detect flammable gases.

LM393 Voltage Comparator Converts the analog signal from the sensor into a digital TTL output. It compares the sensor voltage against the reference set by the potentiometer and switches the DO pin LOW when the threshold is exceeded.

Sensitivity Adjustment Potentiometer Sets the LM393 reference voltage, which directly controls the gas concentration level at which DO triggers. Calibrating against 1000ppm LPG or H₂ with a load resistance of approximately 20kΩ is recommended for accurate threshold setting.

Power LED Illuminates when 5V is applied to VCC, confirming the module is powered and the heater coil is active.

Threshold LED Turns on when the DO pin triggers – providing immediate visual confirmation that the set gas concentration threshold has been crossed without requiring a microcontroller.

Decoupling Capacitors Filter noise on the 5V supply rail. The heater draws close to 190mA continuously at 5V, which can cause supply ripple that affects analog output accuracy without proper filtering.

Specifications

The complete specifications are mentioned below.

ParameterValue
Target GasLPG, Natural Gas (CH4), Town Gas
Detection Range300 – 10000 ppm (CH4, C3H8)
Circuit Voltage (VC)≤24V DC (standard 5V ±0.1V)
Heater Voltage (VH)5.0V ±0.1V (AC or DC)
Heater Resistance26Ω ±3Ω (room temperature)
Heater Power Consumption≤950mW
Heater Current~190mA (typical at 5V)
Sensitivity (S)Rs(air) / Rs(2000ppm C3H8) ≥ 5
Output Voltage (Vs)2.5V – 4.0V (in 2000ppm C3H8)
Concentration Slope (α)≤0.6 (R3000ppm / R1000ppm C3H8)
Recommended Load Resistance20kΩ (10kΩ – 47kΩ range)
Analog Output (AO)0V – 5V
Digital Output (DO)TTL — LOW when gas exceeds threshold
Comparator ICLM393
DO ThresholdAdjustable via onboard potentiometer
Preheat Time (first use)≥48 hours
Preheat Time (after 1–6 months storage)≥72 hours
Preheat Time (after 6+ months storage)≥168 hours
Minimum O₂ Concentration18% (below this, readings are affected)
Standard Test Temperature20°C ±2°C
Standard Test Humidity55% ±5% RH
Operating Temperature−10°C to +50°C
Operating Humidity<95% RH (non-condensing)
Sensor Lifespan10 years
Module Supply5V DC
Sensor Package6-pin through hole (Bakelite, metal cap)

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