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 MLX90614 
 Temperature sensors 

Infrared temperature sensor for non-contact measurement, ideal for medical, industrial, and automation applications with high accuracy.

 Maximum precision
+/- 0,2°K

 Minimum temperature
-70°C

 Maximum temperature
+380°C

 Resolution
0,02°C

 Power supply voltage

3,0→5,5V

Response time

0,1 à 1 s

 Typical current
1,5 mA

Price
High

What is a MLX90614 sensor ?Operating principleExample of digital conversion (SMBus bus)Temperature / Voltage Response Curve IRPrinciple diagram (SPI/I²C connection)Application areas

What is an MLX90614 sensor?


The MLX90614 is a non-contact infrared (IR) sensor that measures the temperature of an object or surface from a distance.

It converts thermal infrared radiation into absolute temperature using a thermopile and an integrated digital ASIC.

Available in narrow (5°) or wide (35°) field of view versions, it is used for both medical thermometers and industrial monitoring, HVAC systems, or smart devices.

Operating principle


The sensor is based on Planck's law and the principle of IR radiation.

A hot object emits radiation proportional to its absolute temperature; the thermopile of the MLX90614 converts this flux into voltage, which is then linearized, compensated, and digitized.

Simplified formula used in the sensor:

T_objet = ( V_IR / S + T_amb⁴ )^(1/4)

where:

  • VIR = voltage measured by the thermopile
  • S = sensitivity factor
  • Tamb = internal temperature of the sensor

💡 The internal calibration corrects for emissivity effects, thermal noise, and non-linearity.

Example of digital conversion (SMBus bus)


Register (hex)
Description

Resolution

0x06

Object temperature 1

0,02 °C / LSB

0x07 Object temperature 2 (if double optics)

0,02 °C / LSB

0x08 Ambient temperature

0,02 °C / LSB

T(°C) = (value x 0,02) - 273,15

Temperature / Voltage Response Curve IR


Temperature (°C)
Thermopile voltage (µV)

-40

5
0 18
50 42

100

75

200

160

300

250

380

310

💡 The relationship is nonlinear but corrected by the internal DSP.

Principle diagram (SPI/I²C connection)


+3.3V │ [MLX90614] │ SDA/SI ─────┐ │ SCL/SCK ────┤── MCU (I²C or SPI depending on version) │ PWM / SDA2 ─┘ (temperature signal output) │ GND

💡 Some industrial versions (MLX90614ESF-DCC) offer a direct PWM or SPI output.

Application areas


🏥 Non-contact medical thermometers

⚙️ Industrial monitoring and motorization

🚗 Engine / brake / exhaust temperature measurement

🏠 Home automation (HVAC, thermal presence detectors)

🧠 Robotics and intelligent assistance systems





Should I choose an MLX90614 sensor?

Strengths points

  • 🌡️ Contactless measurement
    → Ideal for inaccessible, dangerous, or moving areas.
  • 🎯 High precision ±0.2 K
    → Internal compensation of ambient temperature and factory calibration.
  • 🧠 Integrated DSP
    → Direct output in °C via SMBus or PWM, with no software processing required.
MLX90614 Sensors

Weaknesses points

  • 📏 Sensitivity to emissivity
    → Shiny or reflective surfaces can distort measurements without correction.
  • 💨 Tslow response time (~0.5 s)
    → Less suitable for rapid dynamic measurements.
  • 📦 Optical fragility
    → The IR lens requires a clean environment and protection against dust.

Useful information

Here is some useful information regarding the MLX90614 sensors.

Adress (hex) Name
Description
0x03 Ambient temperature 16 bits – in Kelvin ×50
0x04 Emissivity 0xFFFF = 1.0 (adjustable)
0x05 Sensor configuration SMBus/PWM Mode
0x06–0x07 Object temperature 1 / 2 16 bits
0x2E I²C Address Programmable (EEPROM)

i2c_start(); i2c_write(0x5A << 1); // Sensor address i2c_write(0x07); // Object temperature i2c_start(); i2c_write((0x5A << 1) | 1); LSB = i2c_read_ack(); MSB = i2c_read_nack(); i2c_stop(); raw = (MSB << 8) | LSB; tempC = (raw * 0.02) - 273.15;

✅ Example:

Gross value = 16450 → Temperature = 55.85 °C

3.3V ───────────┐ │ [MLX90614] │ SDA ───────┐ │ SCL ───────┤── MCU (Arduino, STM32, ESP32…) │ PWM ───────┘ (output temperature) │ GND

💡 A 100 nF capacitor between VCC and GND is recommended.

Measured surface
Emissivity
Poly aluminum 0,05
Stainless steel 0,10
Dry wood 0,90
Human skin 0,98
Black rubber 0,95
Water 0,96
💡 For accurate measurement, adjust register 0x04 according to the material.
Temperature (°C) Error (K)
−40 ±0,5
0 ±0,2
25 ±0,1
100 ±0,2
200 ±0,5
380 ±1,0
💡 The error remains low up to +200 °C, then increases slightly at very high temperatures.

 We integrate any sensor into any probe 

Smooth tube probe

 Smooth tube 

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 Waterproof

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 Bayonet

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 Slot

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 Atmosphere

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Stick-in

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Thread

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Contact

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Jacketed

PCBA Design

PCBA design

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Winding

More than 1,000,000 probes delivered in 2025

Contact us for a personalized offer

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Need a MLX90614 sensor?

Whether you need a few parts for a prototype or several hundred for a production line, we support you at every step.

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Presso Guilcor, la nostra missione è fornire a ogni cliente una soluzione di misurazione perfettamente adatta alle proprie esigenze specifiche. Con il pieno controllo sul design e sulla produzione, garantiamo la precisione e l'affidabilità dei nostri sensori anche negli ambienti più esigenti.

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