Motor power is not taken directly from the Raspberry Pi, so there's no risk of your Pi dropping out. Instead, the PicoBorg utilises a battery pack to drive the motors; meaning you're not restricted to 5V motors, in fact you can drive ANY motors up to 20V!
The PicoBorg is perfect for any small motor project, for example:
4 fans on/off control over all and vary speed on one fan
4 DC motors (on / off control over all and vary speed on one motor)
Control one 6 wire stepper motor in both directions
The PicoBorg Features:
Drive 4 x DC Motors (on/off) or 1 x 6-Wire Stepper motor (Bi-Direction)
Allows speed control on 1 x Motor
Max 20V recommended 12V or less
Max current 2.5A (stall) or less
Primarily designed to be used with large resistance, low inductance motors and for learning and experimenting purposes.
As there are no pull up or pull down resistors on the inputs, the picoBorg expects the Pi to be controlling the pins when the power is applied. Power the Pi first, run the software and then apply power to the PicoBorg.
There is no thermal shutoff, keep an eye on temperature of the FETs and diodes
There is no current limiting, you must observe current restrictions
There is no short circuit or reverse voltage protection
For commercial applications and control of larger motors and lower resistance coils etc, PiBorg or PiBorg nano may be a better solution
If you are new to electronics and getting started, we recommend you don't use a battery, rather a low current <100ma power supply as this can be more forgiving if you get things wrong.
Be very careful of connections and soldering as mistakes could potentially hurt your picoBorg and Raspberry Pi.