Learn how to connect a Snap Circuits LED to the snap:bit and control it with the micro:bit.
Print this device to evaluate a 3D Hall effect sensor in an angle + depth setup.
Get started developing with the PIC-BLE and AVR-BLE development boards.
How to convert from analog to digital signals and vice versa using simple Python on microcontrollers.
A motion-activated raffle device that can draw numbers or names. Users can specify the range of numbers or the list of names through WiFi.
Drive a 32x32 RGB LED matrix with the NXP i. MX RT1010 EVK.
The presented robot captures line position with IR Sensors. If the robot get off the line it will U turn and back to the line again.
Learn how to power the micro:bit from the battery holder of Snap Circuits.
GigaDevice's new GD32F103RCT6 loaded with 108MHz clock, faster than STM's.
Usage of inductive sensing (MagSense) by Cypress' PSoC4700S to measure contactless the speed of my Gyro Twister (Powerball).
Sending GPS coordinates using Azure Sphere MT3620 Starter Kit and smart phone as hotspot.
Learn how to play sounds and music from the BBC micro:bit through the Whistle Chip (WC) of Snap Circuits.
Learn how to play sounds and music from the BBC micro:bit through the Speaker of Snap Circuits.
Learn how to program the micro:bit to turn the Lamp (L1) of Snap Circuits on and off with the help of the NPN Transistor (Q2).
Here we are going to tell you about how to use PWM in STM32 based microcontroller, e.g. the STM32L100discovery-Discovery Kit.
This PIC-IoT project turns a fan on and off based on a temperature sensor.
First article in series about Line Following and Lane Following with CV
In this article we shall see what a robot controller is, what is it used for and how to get started with the Nano Robot controller.
Want to add your board to Microsoft's Fantastic Education Platform MakeCode and need a hand doing it? Check this out.
You can create a hardware notifier that lifts UP a paper astronaut to alert you each time the International Space Station passes over you.
Introducing GD32F103C8T6 by GigaDevice as a cheap and faster alternative to STM32F103C8T6.
Turn any LED from Snap Circuits into a blinking LED. The micro:bit will automatically turn the LED on and off every second.
Driving an OLED display with an ATtiny10 without using any library to make sure the program fits into the 1kB flash memory.
Learn how to program the micro:bit to turn the DC Motor (M1) of Snap Circuits on and off with the help of the NPN Transistor (Q2).