The Arduino Braccio++ robot is a revolutionary new robotic arm for college and higher education, a more advanced version of the Arduino Tinkerkit Braccio. It replicates industrial robots used for assembly lines to teach students concepts around manufacturing processes, product design, robotics, and automation. With 5 degrees of freedom, Braccio++ can be assembled in different ways to allow for diverse functionalities such as moving objects, mounting a camera and tracking movements, or attaching a solar panel and tracking the movement of the sun. Students will learn real life applications through the concepts of motions, forces, torque, gear ratios, stability, and weight of payload.

• Fully optimized carrier with RS485 serial communication, an LCD screen, and a joystick
• Includes the Arduino Nano RP 2040 Connect board
• Arduino smart motors (instead of classic servo motors)
• USB C powers the carrier and motors, and can be even used for charging your computer
• A more sustainable material, Ecoallene (instead of the ABS plastics)
• A larger base to mount the Braccio

Age group: Advanced high school and college students - 16+

Programming platform and learning resources: In addition to the open-source hardware in the kit, an online platform offers step-by-step instructions for projects and lessons.

University:
• Kinematic chains
• Mathematical tools for kinematics and the dynamics of robotic arms
• Methods to reason about 3-dimensional space and relationships between coordinate frames
• Delivering a payload to a specified location
• The geometry and mathematical representation of rigid body motion
• Forward and inverse kinematics of articulated mechanical arms
• Trajectory generation
• Manipulator dynamics
• Actuation and design issues
• Manipulator control

High school:
• Motions and forces
• Interactions of energy and matter
• Manufacturing processes, product design, robotics, and automation
• Robotic or automated system arm construction
• The concepts of torque, gear ratio, stability, and weight of payload
• The concepts of linkages and gearing in end effectors and their use in a robotic or automated arm system

• Assembly parts, screws, nuts, springs, and a screwdriver
• Six Arduino RS485 Smart Servo Motors (four SR418D servo motors which control the arm joints, and two SR312 servo motors which control the claw)
• Arduino Braccio Carrier
• Arduino Nano RP2040 Connect
• A printed guide on how to assemble the kit, make it work with the motors, and upload your first sketches