Thermocouple Amplifier MAX31855 breakout board

Thermocouple Amplifier MAX31855 breakout board (MAX6675 upgrade)

Amplificador de termocuplas K con compensación fría, basado en MAX31855. <>.

COD: D000269

Peso: 0.001 Kg

Disponibilidad: Sin Stock

Su correo electrónico:

ARS 2663.00


El producto no está disponible para la venta en este momento



Thermocouples are very sensitive, requiring a good amplifier with a cold-compensation reference. The MAX31855K does everything for you, and can be easily interfaced with any microcontroller, even one without an analog input. This breakout board has the chip itself, a 3.3V regulator with 10uF bypass capacitors and level shifting circuitry, all assembled and tested. Comes with a 2 pin terminal block (for connecting to the thermocouple) and pin header (to plug into any breadboard or perfboard).

New! Now uses the MAX31855K instead of the MAX6675, so it can measure a wider temperature measurement range. Please note! the MAX31855 is not pin compatible or drop-in code compatible with the MAX6675. We do have an Arduino library for both chips but you'll need to adjust any existing MAX6675 designs for the mew MAX31855. The MAX6675 has been discontinued by Maxim. 

Version 2.0 now includes ferrite beads and filter capacitor onboard for better stability

  • Works with any K type thermocouple
  • Will not work with any other kind of thermocouple other than K type
  • -200°C to +1350°C output in 0.25 degree increments - note that K thermocouples have about ±2°C to ±6°C accuracy
  • Internal temperature reading
  • 3.3 to 5v power supply and logic level compliant!
  • SPI data output requires any 3 digital I/O pins.

Dimensions (without headers):

  • Length: 20mm/0.8in
  • Width: 20mm/0.8in
  • Height: 3.28mm/0.12in
  • Weight: 1.33g/0.05oz

Galería de Imágenes


Escribir Comentario

Juan Pablo (21/08/2014 - 11:19)

Hola Ignacio, Según las especificaciones, si se puede: "-200°C to +1350°C output in 0.25 degree increments" Obviamente la termocupla debe estar preparada para esa temperatura. Saludos!

Ignacio (05/08/2014 - 00:45)

Hola, consulta, se puede medir temperaturas negativas hasta los -200°C ? gracias