The ESP8266 is an amazing microcontroller that includes a Wifi chip, for a very low price (about $15 for two on Amazon). It offers enough resources to make it the ideal microcontroller choice for most Internet of Things projects. There are several ways to program it, including but not limited to, pseudo-C++ with the Arduino IDE, LUA scripts or MicroPython. In this tutorial we will learn how to set up the ESP8266 with a MicroPython firmware, making it possible to run MictoPython scripts.
Most of the time, embedded systems have time sensitive inputs that need to be handled as soon as they are triggered, with minimal delay. This is usually done by using interrupts. Interrupts are pieces of code that are run when an event occurs on one of the microcontroller’s ports, or internal components such as a timer. The execution of the main program is paused, and the microcontroller jumps to the interrupt code (in reality, it jumps to a given address in the program memory, reserved to the interrupt instructions). Once it finishes executing the interrupt code, it will go back to where it stopped in the main program. In this tutorial we’re going to learn how to implement an interrupt when a user pushes on a button.
The number of pins is often limited on microcontrollers, and when we have a significant number of outputs to control, we can quickly run out of pins. An easy solution to fix this problem is to use a shift register. In this tutorial we’re going to learn how to use a 74HC595 shift register, to output 8 bits of data with only 3 bits from the PIC.
As we’ve seen in the tutorial about creating a distance sensor for your garage, it’s important to have a convenient method to debug the systems we’re developing. This allows us to quickly access the values of variables, and lets us know the state of our program. In the distance sensor tutorial we used a LCD display, which is very user-friendly, but not the most efficient as it uses many pins of the PIC, and a lot of space on the board. In this tutorial, we’ll learn how to use one of the easiest and most lightweight embedded communication interface, the UART interface.
We learned in the first part of this tutorial how to measure a distance with a HC-SR04 ultrasonic sensor. In this second part, we’ll get rid of the LCD display, and instead show the distance on a custom meter made with LEDs. The idea is to turn colored LEDs ON/OFF depending on how close the car is from the wall.
If you don’t have a reverse backup radar system in your car, or if you park forward in your garage, you probably know this feeling of “am I too close, am I gonna hit the wall??”. Well, in this 2 part tutorial, we’re going to create a simple system to detect how close to the wall your car is.
In this tutorial we’ll learn how to control a LCD display from a PIC microcontroller. LCD displays are one of the most used devices to display information. It allows an electronic system to show text and is easily programmable using a microcontroller. We’ll use a PIC16F88 from Microchip. This tutorial can be used to control any LCD display based on a HD44780 controller. Let’s create a little library to control a LCD display!
As we’ve seen in the previous tutorial, it’s pretty easy to display a single digit number on a seven segment display. If you want to display two digits though, you’ll quickly see it’s a bit more complicated. Today we’ll learn how to multiplex two 7-segment displays in order to display a 2-digit number.
One of the key elements in embedded systems is the user interface. A good user interface will feature visual elements to communicate with the user, such as LEDs or a screen for example. Seven segment displays are widely used in electronic devices, as they can display information in an easy way. We find 7 segment displays everywhere in our homes: our alarm clocks, microwave ovens or even the screens of some devices. Let’s see how to use this component in an embedded system! We’ll start simple, with a single 7 segment display.
So we’ve completed the first part of this tutorial, and are now ready to start doing interesting things. It’s time to build a simple circuit and put some life in it with a program. We’ll start with something very basic, and program our microcontroller to blink a LED blink.