A week ago, the updated FreeRTOS V7.5.0 has been released on FreeRTOS.org. So time to have my Processor Expert FreeRTOS component updated as well :-).
FreeRTOS V7.5.0
FreeRTOS V7.5.0 released
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Monthly Archives: July 2013
How to re-enable ‘Add to dictionary’ for the Eclipse Spell Checker
I love to have my sources ‘warning free’, so I spend an extra effort to have things clean and the way the compilers like it. In a similar way, I want to have my source comments spell-error free :-). For this, I love the Eclipse spell checker (see this post) which offers to add unknown words to the dictionary:
Add word to dictionary
But what if that ‘Add’ action is missing? How to re-enable it?
DIY Free Toolchain for Kinetis: Part 3 – Debugger (GDB Server with P&E and Segger)
This is the third part of a tutorial series how to ‘do-it-yourself’ a tool chain for the Freescale Kinetis microcontroller, with the FRDM-KL25Z as example. The tool chain is using GNU ARM gcc plus Eclipse Kepler release. So far I have the following parts:
List of Tutorials
- Part 1: Setting up ARM GNU tool chain
- Part 2: Setting up Eclipse IDE
- Part 3: Setting up the debugger (P&E and Segger)
- Part 4: Setting up Processor Expert
- Part 5: Setting up FreeRTOS Kernel Awareness
- Part 6: Linux Host Support with OpenOCD and CMSIS-DAP
- Part 7: GNU ARM Eclipse Plugins
- Part 8: Processor Expert with GNU ARM Eclipse Plugins
- Part 9: DIY Free Toolchain for Kinetis: Part 9 – Express Setup in 8 Steps
- Part 10 – Project Creation with GNU ARM Eclipse 2.1.1
So far things are very generic. But with debugging it means different hardware, and different hardware connections. And for this connection we need a GDB Server.
GDB Server
Eclipse CDT features a GNU Debugger (GDB), and this is what I want to use here: debugging my microcontroller with GDB inside Eclipse. In order to debug the microcontroller, I need two other things: a GDB Server and a Debug Probe.
GDB with GDB Server
DIY Free Toolchain for Kinetis: Part 2 – Eclipse IDE
This is the second part of a multi-part tutorial about how to set up an open source tool chain with GNU ARM gcc + Eclipse to build and debug an application for Kinetis ARM devices.
List of Tutorials
- Part 1: Setting up ARM GNU tool chain
- Part 2: Setting up Eclipse IDE
- Part 3: Setting up the debugger (P&E and Segger)
- Part 4: Setting up Processor Expert
- Part 5: Setting up FreeRTOS Kernel Awareness
- Part 6: Linux Host Support with OpenOCD and CMSIS-DAP
- Part 7: GNU ARM Eclipse Plugins
- Part 8: Processor Expert with GNU ARM Eclipse Plugins
- Part 9: DIY Free Toolchain for Kinetis: Part 9 – Express Setup in 8 Steps
- Part 10 – Project Creation with GNU ARM Eclipse 2.1.1
Eclipse Kepler
DIY Free Toolchain for Kinetis: Part 1 – GNU ARM Build Tools
This is the first part of a multi-part tutorial on setting up a free and functional GNU gcc + Eclipse + debugger environment for use with the Freescale FRDM-KL25Z board.
List of Tutorials
- Part 1: Setting up ARM GNU tool chain
- Part 2: Setting up Eclipse IDE
- Part 3: Setting up the debugger (P&E and Segger)
- Part 4: Setting up Processor Expert
- Part 5: Setting up FreeRTOS Kernel Awareness
- Part 6: Linux Host Support with OpenOCD and CMSIS-DAP
- Part 7: GNU ARM Eclipse Plugins
- Part 8: Processor Expert with GNU ARM Eclipse Plugins
- Part 9: DIY Free Toolchain for Kinetis: Part 9 – Express Setup in 8 Steps
- Part 10 – Project Creation with GNU ARM Eclipse 2.1.1
In this first part, I’m showing how to install the GNU ARM tool chain to build a ‘blinking LED’ application for the FRDM-KL25Z. With 100% free tools 😉
Blinking Red RGB LED made with free tools
Tutorial: Ultra Low Cost 2.4 GHz Wireless Transceiver with the FRDM Board
For my embedded systems lecture I need a wireless connection to the robot we will develop during that course. So far I have SMAC (IEEE802.15.4) and Bluetooth worked out. But that IEEE802.15.4 (ZigBee) is expensive, and the cheap Bluetooth modules are great for robot-to-host connection, but not for swarm robots which need to communicate to each other. Alex Vecchio (see this post) pointed me to a $2.75 (!) wireless module featuring the Nordic Semiconductor nRF24L01+. Exactly what I needed, with an incredible low price :-).
nRF24L01+ Module Detail
Hacking the Heating System for Cooling – Geothermal Drilling with extra Benefits
Summer finally has arrived in Switzerland. Yes, I live in a moderate climate zone, but if the outside temperature goes above 28-30° Celsius as these days, then sleeping at night is not that comfortable as it should be in my view. Luckily, I’m in a good constructed house with good insulation, so it takes a few days until it heats up. But I love to keep the temperature below 25° Celsius, especially at night. I do have a heating system which combines geothermal and solar heating. The question is: how can I use it for cooling during hot summer days? The solution: some extra plumbing, a Freescale Tower system and the Freescale FRDM-KL25Z board 🙂
FRDM-KL25Z with Arduino Data Logger Shield controlling Heating/Cooling System
FRDM-KL25Z talks to Android Phone
Ok, I still do not own an Android phone, but I know many readers of this blog do, and there were several questions how to use the FRDM-KL25Z with Android. And here is something exciting I just saw today: Kai Liu posted information how to connect the FRDM-KL25Z with USB OTG (On-The-Go) to Android: FRDM-KL25Z now talks to Android Phone
He published the S19 file so you can try things out. He still needs to organize the sources and decide on how to publish it (I hope it will be available soon).
If you do not own a FRDM-KL25Z RevE, then you need to consider this post about a hardware change: USB host HID demo times out on FRDM-KL25Z with reproduced USB host
Happy Droiding 🙂
USB MSD Host for the FRDM-K20D50M Board
The Freedom boards FRDM-KL25Z RevE and FRDM-K20D50M make it easier to use it as USB Host device, as they come with a special jumper to provide 5V to the USB device, so my earlier ‘hack’ is not needed any more :-). After I had USB MSD Host working for the FRDM-KL25Z, it was much harder to get the USB stack working for the FRDM-K20D50M board, because somehow the example Freescale provided with their USB stack refused to work properly on my board. After debugging it for several nightly hours, I decided to take my working Processor Expert project for KL25Z and added support for the K20. And the good news is: since tonight this is working :-).
FRDM-K20D50M as USB MSD Host
FreeRTOS Heap with Segmented Kinetis K SRAM
While working on a project for the FRDM-K20D50M, I faced a problem: I was running out of SRAM for my application. The GNU linker reports: “section `.bss’ will not fit in region `m_data'”: 😦
bss will not fit in region m_data
But my device has 16 KByte of SRAM, and I knew I use much less than 10 KByte. So what is the problem? Continue reading
MCU on Eclipse 