MIDI is an industry standard music technology protocol that connects products from many different companies including digital musical instruments, computers, tablets, and smartphones. MIDI is used every day around the world by musicians, DJs, producers, educators, artists, and hobbyists to create, perform, learn, and share music and artistic works.
MIDI music can be stored in standard files. Here’s what they look like and how they work and how we can ‘play’ the files.
Continue reading “Playing MIDI files on Arduino – Part 1 Standard MIDI Files”
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The motivation for this project was to explore the separation between the algorithm for managing a game and the user interface for the game. Discovering a Tic-tac-toe algorithm simple enough to implement on the Arduino allowed an exploration of this concept in a game with simple user interface requirements.
A recent feature of the 
The key function of the Parola library is to display text using different animations. From version 2.7 onwards, Parola allows user code to manage mixing graphics with the text. The extensions to the library and what they do is the subject of this article.
One of the great features of the Arduino community is the availability of thousands of pre-written libraries that add hardware and other functionality to your projects without needing to write your own code. There are usually quite a few to pick from and your code will often depend on libraries, so the quality of the library you use can be critical to how your code performs. How do you write good libraries and how would you evaluate the quality of the latest library you downloaded?
The LM3x series of sensors are precision, easily-calibrated, integrated circuit temperature sensors. These are ideal as a beginner sensor, only to disappoint when code is copied from somewhere, run on the MCU and the temperature readings seem to be wildly varying and incorrect. Why is this happening and what can be done about it? Read on.
Once I started using rotary encoders to provide a ‘modern’ user input experience, the elimination of panel mounted potentiometers for circuit settings and other adjustments was the next logical step. Panel mounted pots have a very different feel from the clicks of a rotary encoder, and potentiometers cannot easily be controlled by a microcontroller.
One of the great things about Arduino systems is they enable us to try ideas and experiment with concepts. At a software level this is simple – write, compile and download. Hardware components, however, can be more time consuming as you either have to wire up a temporary breadboard or you have to build dedicated circuits.