STEM or STEAM is being adopted in school and microbit as the easiest to program and learn platform has gained popularity. If you like to build a small robot or mobile robot with micro:bit, you are on the right page. The Kittenbot Robotbit V2.1 is designed for primary school students/training institutions/parents/ enthusiasts as a robotic accessory. It is an enhanced version from the earlier version of Robotbit.
It has a powerful ability to drive DC motors, stepper motors, servos, comes with onboard buzzer and also four (4) RGB pixels and extended all valid IO pins from microbit, to support the most common electronics module in the market. It comes with 18650 battery holder, integrated lithium battery boost, charging, and protection chip. It also supports external power input. Mechanically this board supports KittenBot robotic chassis and LEGO technic slots. The powerful drive capability and built-in battery make DIY more convenient and flexible. We have received unanimous praise from the school teacher training institutions and individual enthusiasts. It is an excellent choice for your robotic projects based on micro:bit!
Note: 18650 Battery is not included, please get it separately here.
- Plug and use microbit breakout for robot or mobile robot project
- USB input voltage: 5V
- VM pin max output: 1A (onboard battery)
- External Voltage Input (the green terminal): 5V (only supports 5V input, do not connect over 5V, maximum current supports 3A)
- Dimensions: 78mm x 57mm x 23mm
- PCB Thickness: 1.5mm
- Small mechanical hole: 3.0mm
- Big mechanical hole: 4.8mm
- Net weight (without packaging): 37.5g
- 18650 battery voltage: 3.7V
- 1 x Kittenbot Robotbit V2.1
MakeCode from Microsoft:
KittenBlock（Developed by Kittenbot Team based on Scratch 3.0）
If you're used to code programming and want to get started by microbit python you have two options, directly Mu Editor kittenblock in micropython editor mode.
The above detailed tutorial can be found from our learn website for self-learning. If you encounter problems during the learning process, you are welcome to get us at our bbs or slack channel.
In makecode add extension panel directly search Robotbit. In our offline version of the makecode, you may find Robotbit in the default list and other useful extensions.
- 5V external power input（with anti-reverse protection）
- Power switch
- Power Indicator
- Battery Indicator
- Micro USB charging port
- 4-channel DC motor / 2-channel stepper motor
- Jumper for buzzer selection
- 8 channel IO（corresponding to micro:bit P0-P2、P8、P12-P15）
- 5V and GND port
- 8 channel servo port
- I2C interface (expandable I2C module)
- 18650 battery case
- Battery protection recovery push button
- micro:bit edge connector
- 4x RGB pixel
- Servo driver (PCA9685)
- 2xDc/Stepper driver (DRV8833)
- KittenBot robot chassis mounting hole
- Standard LEGO hole
Robotbit Detailed Description:
18650 battery case:
Once you got your RobotBit extension board please first install a 18650 battery, pay attention to the positive and negative pole (even we have anti-reverse protection). You have to activate the power management system by pressing the Battery Act push button. Each time you switch a battery cell or let the power management go into protection mode (over current or over-discharge), you have to redo this step.
18650 Power Switch:
Turn on the switch (in the direction of green terminal input), will provide onboard 3.3V 5V and VM(motors and servos directly driver by battery cell)
Micro USB Charger Port:
Only for charging and not for download! Computer USB host port or any other mobile phone charger which may output 1A or larger should be fine and may take about 2.5 hours to fully charge a 18650 cell. it will automatically cut off once full, no need to worry about overshoot.
Power and Battery Indicator:
LED(3) is the power indicator, will be always on after switch is turned on. LED(1) is a charging indicator, will be on while charging, and LED(2) be on once fully charged.
Micro:bit Stand Edge Connector:
For installing a micro:bit mainboard. Please install a micro:bit with led matrix and RGB led in the same direction.
4 x RGB NeoPixel:
The RobotBit extension for makecode has integrated NeoPixel support. Neopixel array connect to P16 of microbit.
8 Channels Servo Connector:
Servos are driven by an extension chip (PCA9685) with the power source from battery or external input. The extension chip communicates with Microbit via the i2c interface, so these S1~S8 interfaces can only be used for pulse output not as common IO. With onboard 18650 battery cell, it may drive eight 9g hobby servo (with maximum current less than 2A). If you plan to use larger servos like MG995 please use an external power resource connect to the green slot (the input still 5V). Robotbit extension has built-in blocks for controlling servos.
4 Channels DC Motors / 2 Channels 28BYJ Micro Steppers:
Robotbit extension has also built-in blocks for DC motors and steppers. With onboard battery, you may drive 4x TT motors or 2x 28BYJ steppers, or a mixture of both. Keep in mind that VM may out 2A to motors and servos. If you use external source please keep the input around 5V or less, a high voltage external input may damage the 5V boost circuit.
Buzzer and Selection Jumper:
The buzzer jumper cap is plugged in by default, and the corresponding buzzer is connected to the micro:bit P0 port. If you need P0 for other purposes please unplug the jumper. The buzzer associate with music blocks in makecode.
We have released P0-P2, P8, P12-P15 from microbit to RobotBit for common IO usage. P0~P2 has analog read/write support, others may act as digital IOs. You may connect commonly modules for Arduino to Robotbit, there is also 5V output in case your module only supports 5V power input. Please note that micro:bit IO signal level is 3.3V.
Expandable I2C module can only be used to plug in the I2C module.
2PIN External Power Input:
Although there is anti-reverse protection, still pay attention while wiring. The positive and negative silk ink of this interface is on the back of Robotbit. You can only input 5V or less into this port. If you have a higher voltage source you may need an LDO or DC-DC module to buck the voltage down.
ROBOTBIT QUICK START:
- Put the 18650 battery on the Robotbit, pay attention to the positive and negative pole.
- Plug the Microbit into the Robotbit and pay attention to the plugging direction.
- Click the battery activation button
- Turn on the 18650 battery switch
- Open the makecode editor (http://makecode.microbit.org) and press the add package.
- Search robotbit
- Drag some of the robotbit blocks out to workspace, remember to connect the corresponding motor servos, etc.
- Before downloading, remember to connect to Microbit's with a micro USB cable and click the download button.
- After clicking the download button, a file save box will prompt, please choose to save it to the Microbit removable disk.
- the final effect of the code block in the diagram above
The battery is plugged in, there is no response after turn on switch?
- Check if the battery activation button has been pressed? Check if the battery is positive or negative? Check if the battery has power?
What is the battery activation button used for?
- In the case of overcurrent, or short circuit, or switch battery cell, the battery protection chip will protect the the circuit. Click the battery activation button to resume normal working mode.
Plug-in the USB cable and I can't find microbit
- The USB on the robotbit can only be used for charging. It can't be used to download the program. It is plugged into the USB port of the robotbit. The computer will not respond.
Will it smoke if I insert battery inverse？
- No, the robotbit design is anti-reverse protect in consideration of general miss operations. Inversely plug in will just not output power.
Will micro:bit damage if plugin the face back?
- No, it will just refuse to work.
P0 pin control does not respond? Is it broken?
- You need to unplug the buzzer selection jumper to use P0 as common IO.
Where is the rest of Microbit's IOs？
- Nearly 20 programmable IO ports on the micro:bit, but many have been multiplexed with the dot matrix buttons on the board. Considering the inconvenience caused by multiplexing, beginners are likely to confuse these. We have bridge 8 IO with no conflict to matrix or buttons to Robotbit, it should be enough for most DIY projects. If you need all IO from the microbit please choose IOBit.
Can the servo interface act as common IO?
- No, the servo s1-s8 is extended with a special servo drive chip and can only be used for servo drive.
What is the use of the VM on the motor interface?
- The power source for 4-phase 5-wire stepper motor like 28BYJ. Usually, the VM is not used for the DC motor, and the DC motor only needs to connect A+A- or B+B-.
Can the board be placed on a metal surface or in a humid environment?
- No, it will be short-circuited, pay attention to insulation
What is the voltage input for the green external power supply? What will happens with higher voltage input?
- Can only be connected to 5V, above 5V will damage the board, the current is recommended 2~3A, which means that the maximum current supported by the board is 3A
I did follow the tutorial, not results
- If the test results are not corresponding, first check your wiring and procedures, some small place, in general, is missing, please double-check.