This is the second in a series which shows how to use Flowcode to program commonly-found hardware. In our last blog post, we discussed using the PICkit3 with
At Matrix we develop both hardware and software solutions. In terms of software, there is of course Flowcode. Our hardware includes our popular E-blocks2 platform, which allows both
Historically, the hardware side of Flowcode has only targeted microcontrollers such as PIC, AVR (including Arduino) and ARM. Flowcode 8 now targets the hugely popular Raspberry Pi. Moreover,
An interesting and useful new feature within Flowcode 8 is that users can now convert most C code to graphical flowchart icons. Flowcode has always allowed users to
Flowcode 8 offers lots of variety when it comes to programming. In a previous post and video, we showed the new Blocks mode, which allows users to program
Flowcode supports in the development of engineers who are new to programming microcontrollers. Instead of engineers worrying about becoming bogged down in the detail of text-based coding languages
Flowcode 8 has a host of new and exciting features, whilst maintaining the core benefits and speed of microcontroller programming, that have made Flowcode so successful for so
Note: this article was originally published in April 2016 and has been re-written in March 2018. As part of the new BTEC level 3 (RQF) in Engineering extended
E-blocks2 is the latest generation of microcontroller boards from Matrix. E-blocks2 modular boards provide learners and developers with a flexible suite of electronic blocks that snap together using