The Raspberry Pi packs plenty of processing power in a small and inexpensive package and thatmakes it perfect for robot brains! The only problem? The Raspberry Pi may have plenty of low-level hardware peripherals but motor controllers aren't one of them. That's why the RaspiRobot project got started. The RaspiRobot board is an expansion board for the Pi that turns it into a robot controller.
The board comes as a kit of through-hole parts which is easy to assemble with even a basic soldering iron and limited soldering experience. A step-by-step assembly guide is available to help you through the process.
After you've assembled it, simply plug the RaspiRobot Board into the GPIO port on the Raspberry Pi and it provides dual bi-directional motor controllers, two open collector outputs, two switch inputs, a pair of status LEDs and even a voltage regulator capable of powering the Pi using a battery source from 7-12VDC.
A Python library module makes it easy to interface with the robot hardware from your software on the Pi. The combination of Raspberry PI and the RaspiRobot Board makes it easier and more affordable than you might think to build a robot with computer vision, web access or even machine learning using the linux operating system and Python code.
- Dual Bi-directional Motor Control
- Voltage Regulator powers Raspberry Pi from Batteries (7-12V)
- 2 x Open collector outputs (25mA)
- 2 x LEDs
- 2 x Switch inputs
- 5V Serial connector
- 3.3V I2C connector
- Simple to use Python library module
- RaspiRobot Board PCB
- 1 x L293DNE 4-Channel Motor Driver
- 1 x SN7406N Hex Inverter Buffer/Driver
- 1 x LM2940 Voltage Regulator
- 3 x 270 Ohm Resistors
- 1 x 470 Ohm Resistor
- 4 x 1K Resistors
- 1 x 220uF Capacitor
- 1 x 100uF Capacitor
- 1 x 0.1uF Capacitor
- 2 x Green 3mm LEDs
- 2 x 2-Pin Female Headers
- 2 x Male Pin Headers
- 2 x 4-Pin Female Headers
- 1 x Female Header 2x13
- 2 x 2-Pin 3.5mm Screw Terminals
- 1 x DC Barrel Jack Connector
- Additional Information
Processor No Architecture No Clock Speed No Digital Pins No Analog Pins No PWM Pins No Hardware UART No Programming Interface No Flash Memory No Operating Voltage No Power Output No Antenna No Range (Indoor/Urban) No Range (Outdoor/RF Line of Sight) No Channel Capacity No Frequency No Transmit Current @ 3.3V No