In this series, we set up an ARM Cortex-M development environment and write some code targeting STM32F407, but using only open-source tools. The general process should be similar for all ARM Cortex-M processors.
This is the first part of the series, detailing the process of installing the IDE and the tools and setting up the development environment.
Continue reading “ARM development with Eclipse CDT – Part 1”
STC microcontrollers sometimes comes with built-in ADC. It can be a little bit tricky to use as the relevant pins have to be switched between analog and digital mode.
Continue reading “Exploring STC MCU part 6 – Feeling the environment”
Remember back in part 3 I wrote the timing code? That code only works with a 24MHz clock. And I didn’t have the watchdog running yet. So I am gonna fix it.
Continue reading “Exploring STC MCU part 4 – Better times”
The bug I encountered on STC15W4K61S4 is resolved: this chip, being much more complicated than the traditional 8051 my textbooks was written for, have a bit of quirks that can break code compatibility between them.
Continue reading “Exploring STC MCU part 3.5 – bug explained”
I am digging deeper into the STC 8051 ecosystem by attempting to write my first bits of actual code on this platform. This experiment took me a few days to execute as I need to wrestle a few bugs along the way, and ended up getting me ordering a few samples from STC directly.
Continue reading “Exploring STC MCU Part 3 – Samples, bugs, and the first lines of code”
STC proudly claims that their MCU are fast. And from what I see in their core clock timing table they have a new core design that accelerated the instructions a lot. So how fast is it? Continue reading “Exploring STC MCU Part 2 – So how fast is it?”
It seem to me that there are some interest in ultra cheap microcontrollers. The Chinese brand STC makes a few 8051-compatible MCU which sells at ridiculously cheap prices.
Continue reading “Exploring STC MCU Part 1 – The chips”
I have an old Dell Latitude D620 with Intel Core Duo T2300E processor, 4GB of RAM (aftermarket upgrade kit,) and nVidia Quadro NVS 110M graphics. The machine was sitting in storage for quite a while, but I suddenly I find myself in the need of a Windows-running PC with a real serial port for some maintenance work on my KVM adapter and my managed switch. So I decided to take it out of mothballs and give it somewhat a new life.
Continue reading “Upgrading my old Dell, and fixing the ID chip”
Soon after I delivered his order, Josh wrote a post on his blog about my USB to UART adapter line and the SHONEv1 LSOF project. I am so stoked!
Thank you Josh for praising my product and service, and I am going to roll a few SHONEv2 boards (and some testing gear DIY too) very, very soon. Sit tight and wait for it 🙂