
Micro:bit biped robot
prusaprinters
How about using the popular micro:bit to make a Otto robot? this is how this robot came to life combining to great platforms and adding more articulations to create a new member of the Otto family.This a remix of the original Otto robot with the idea of using a micro:bit board instead of Arduino, it has 8 servos to control each joint including arms, LED mouth and Neopixel eyes.Graphical programming with MakeCode makes it easy to control the robot's featuresThe control of the servo motors it is more difficult in this robot because the Python code language use in micro:bit is not compatible with the original Otto robot code, which was developed for Arduino, using C++ Libraries, instead you will have to create those movements from a series of blocks in MakeCode intending to move the servos angle by angle in combination to walk and dance or use Python.Suitable for fans who have a certain programming foundation and hands-on ability., it may be too hard, specially if you have not use micro:bit before. FeaturesGraphical programming robot projects with Microsoft MakeCodeOn board battery source (with 3.7v battery source to VM)Drive 8 x servos and 4 x DC motors and the same timeDrive 2x Micro Stepper MotorsOn board buzzerOn board, 4x RGB Neo PixelsProduct parametersLength x width x height: 135mm x 70mm x 111mmNet weight: 245gGross weight: determined by the final size of the packageTechnical parametersVoltage: 5VCurrent: 1AOnboard full color RGB light8 steering gear simultaneous movementProgrammable buzzer18650-3.7V rechargeable lithium battery More details about the robotbit board herePart List3D Printed set of partsMicrobit (one more for remote control)Robotbit shield18650 lithium battery8 x SG90s servos9 servo package screw M2x3 (the steering gear package itself) x 49 servo package screw M2.3x8 (the steering gear package itself) x 12belt mat M1.3 screw 12cross round head self tapping screw flat tail M2x6 x 8Phillips screwdriver3D PrintingRecommended to use a FDM 3D printer with PLA material.Some parts need supports or raftsResolution: 0.28mmFill density: 20%For slicing and generating the g code for the machine FREE slicer software like PrusaSlicer or any of your preference (If you are outsourcing the printing no need to worry about it).After printing you will need to clean a little bit the legs and feet areas that fix the motors (generally) depends of the cleanness of your print.it should take around 12 hours to print a full set of parts for one Otto micro:bitMakeCode by Microsofthttps://makecode.microbit.org/Examples to start:Robot codeGamepad codeFor more you can copy or import the .hex files into MakeCode micro:bit then you can modify the blocks parameters in the examplesRobotBit board is capable of controlling DC motors, step motors or servos.On the board is an electric bell, multi-color RGB LEDs and handy 3Pin-conclusions for all ports of entry/output of the micro:bit board. These connectors allow you to connect to micro:bit most of all known additional devices for Arduino and other popular boards.The board is powered by a 18650 battery and has a built-in charging module to charge from any USB port. It is possible to connect the external power of the battery with a voltage of no more than 5B. The circuit board has standard Lego holes for attaching the board to the Lego-designer's details. Versatility makes this board an indispensable driver for micro:bit board and create your own DIY projects. MakeCode ExpansionIn an online editor, Makecode, add a Robotbit extension through keyword search (1). In the PC version of Makecode you can find the Robotbit extension in the same way. Click on the extension window to install it (2), after which the extension will appear on the Block Panel in the editor. Once you've unpacked the RobotBit board in the first place install the 18650 battery, pay attention to the polarity (there is protection against incorrect installation). You need to activate the battery power control system by pressing a small button next to the battery compartment (batteryAct). Every time you change your battery or board goes into protective mode, when the battery is discharged or hangs with the blue LIGHTS on, you need to press this button to get it back to normal. RobotBit Fast StartPlace the battery on the RobotBit board, paying attention to the battery polarity pattern and the pattern in the plastic compartment, do not confuse. Install micro:bit in the connector on the RobotBit board, keeping the right side of the setup Click on the small "battery act" button to activate the battery. You can also use this button if the RobotBit board is stuck. Switch the tumbler to turn on the built-in battery 18650 Open MakeCode Online Editor (1) and select Extensions (2) Enter in search of the word robotbitClick on the extension that appears and it will automatically be added to the workspace. A special section with blocks for the RobotBit board appeared in the editor's window Add blocks to the workspace, put the right I/O ports in the block settings that connect servos, motors, etc. Before you download your finished program, remember to connect the micro:bit board to your computer (it's a micro:bit board, not a RobotBit fee, because the usb connector on the RobotBit board is only for charging the battery). The micro:bit fee may remain snulged to the RobotBit board at this time. After clicking on this button, you'll see a window that's going to say where to go, save the file to the MICROBIT store, which will appear as a removable disk when the board is connected to the computer. Create the code as shown in the image below and click the Download button.Once you download the program and copy .hex file on the micro:bit board, the heart will start beating on the board!Assembly instructionsCheck the instruction manual folder in the files tab The first point to write first is that each servo should be installed with an initial position of 90°.Here there are some reference picturesWe invested lots of time and resources to provide open source code, software and hardware, please support this project by just giving us a ❤ Like and share and you are welcome to be a part of this friendly community of robot builders, teachers and makers. Join today our Otto Builder community
With this file you will be able to print Micro:bit biped robot with your 3D printer. Click on the button and save the file on your computer to work, edit or customize your design. You can also find more 3D designs for printers on Micro:bit biped robot.