Smart Fan:
The best cooling solution
for Raspberry Pi


The Smart Fan raised $20,000 on Kickstarter and is now in production. Shipping starts in March.

Order yours now!

  • 40x40mm fan with 6 cfm airflow
  • Less than 100mA of power
  • Full stackable allows adding other cards to Raspberry Pi
  • Leaves full use of all GPIO pins
  • Super quiet and efficient.
  • On board processor keeps constant temperature with PWM

Available on backorder

Install Raspberry Pi and the Smart Fan on DIN-Rail

DIN-RAIL Kit Type 2
Perpendicular Mount
for Raspberry Pi

  • Installs Raspberry Pi perpendicular to DIN-Rail
  • Works for all versions from Zero to 4
  • Custom steel plate assures mechanical stability
  • All required hardware included




SMART FAN for Raspberry Pi cooling: a must for all mission critical installations

Raspberry Pi four was welcomed by the Pi enthusiasts for the increased processing power. However, this came at a price. The Pi 4 can draw up to 3 Amps, which means it has to dissipate 15 watts of power. Raspberry Pi cooling is a must.

From the simplest passive heat sink, through elaborate fan blowers and even to an exotic water-cooled idea, many options are available.

Raspberry Pi Heat SinkRaspberry Pi Heat SinkRaspberry Pi Heat SinkRaspberry Pi Heat SinkRaspberry Pi Cooling

While lacking no imagination, all have a common denominator: it is almost impossible to plug an add on card into the GPIO  expansion header.


The most elegant, compact and inexpensive cooling solution for your Raspberry Pi.

Smart fan for Raspberry Pi


The Smart Fan has the form factor of the Raspberry Pi HAT. Its own tinny 32 bit processor receives commands from Raspberry Pi through the I2C interface. A step-up power supply converts the 5 Volts provided by Raspberry Pi to 12 Volts, ensuring precise speed control. Using pulse width modulation, it powers the fan just enough to maintain a constant temperature of the Raspberry Pi processor.

Smart Fan for Raspberry Pi

The Smart Fan preserves all the GPIO pins, allowing any number of cards to be stacked on top of Raspberry Pi. If another add-on card has to dissipate power, a secondary Smart Fan can be added to the stack.

Smart Fan for Raspberry Pi


The Smart Fan can be controlled from any program using simple command line or Python functions. A Node Red interface let’s you set and monitor the temperature from the browser. The software can maintain the temperature history in a log file which can be plotted in Excel.

Node-Red picture coming here


Together with multiple add-on cards, the Smart Fan can be installed on the DIN-Rail, for sturdy industrial applications.



The Smart Fan has a LED controlled by the local processor. At power up, the processor powers up the fan for 1 second, so the user can make sure the system is functional. The on board LED shows the status of the fan. When the fan is off, the LED blinks 1 time per second. When the fan is turned on, the LED blinks between 2 to 10 times per second, proportional with the speed of the fan.


Since the fan can be installed either on the top or on the bottom of the card, it comes unassembled. If you plan to use the Smart Fan to cool the Raspberry Pi, we recommend to install it on the bottom. To cool any other add-on card, install it on the top. All mounting hardware for installing the fan on the card, and the card on Raspberry Pi, is included.

Smart Fan Card

Smart Fan for Raspberry Pi

40x40x10mm Fan with mounting screws

40x40mm fan

Mounting hardware

Mounting Hardware


  1. Plug your SMART-FAN card on top of your Raspberry Pi and power up the system.
  2. Enable I2C communication on Raspberry Pi using raspi-config.
  3. Install the smart-fan software from

~$ git clone


~$ cd /home/pi/SmartFan-rpi/

~/SmartFan-rpi/$ sudo make install

~/SmartFan-rpi/$ fan-h

The program will respond with a list of available commands.


Since the Smart Fan is slave to the I2C interface, Raspberry Pi must tell it what to do. Command line and Python functions are available to control the fan speed. Raspberry Pi needs to monitor the processor temperature and control the fan speed accordingly. A PID loop sample program can be downloaded from GitHub. In case of malfunction, if the temperature exceeds a safe limit, Raspberry Pi must shut itself off to prevent burnout.


Additional information

Weight50 g
Dimensions10 × 7 × 2 cm