The Socket Protection code for the low power mode.
Go to file
jakeg00dwin 4df6f93b32 Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
dist/default Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
inc Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
mocks Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
nbproject Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
queuelogs Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
src Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
tests Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
.gitignore Initial commit 2024-07-27 18:43:42 +00:00
CMakeLists.txt Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
Doxyfile Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
README.md Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
avr-gcc-toolchain.cmake Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
defmplabxtrace.log Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
defmplabxtrace.log.inx Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
otto.sh Inital commit of code from main/test 2024-07-27 11:50:15 -07:00
setup.sh Inital commit of code from main/test 2024-07-27 11:50:15 -07:00

README.md

FG004_A(Triac Testing)

Description

This embedded firmware is the testing mode for the triac software.

It causes the attiny404 to generate pulses continuously, which are delayed by a value configured in the config.h file.

The timing is done after the PZC(positive zero crossing) of the AC input waveform.

Micro Controller Pins

ATtiny404

  1. VDD(+5v)
  2. PA4(ADC_LOAD1)
  3. PA5(ADC_LOAD2)
  4. PA6(ADC_LOAD3)
  5. PA7(zerocrossing)
  6. PB3(G2)
  7. PB2(G3)
  8. PB1(SDA)
  9. PB0(SCL)
  10. RST(NC)
  11. PA1(G1)
  12. PA2(NC)
  13. PA3(NC)
  14. VSS(GND)

key NC:: Not Connected PBX:: Port B pin X PAX:: Port A pin X RST:: Reset pin

Project Layout

Tree -L 1, output

.
├── avr-gcc-toolchain.cmake
├── build
├── CMakeLists.txt
├── compile_commands.json -> ./build/compile_commands.json
├── docs
├── Doxyfile
├── inc
├── mocks
├── otto.sh
├── README.md
├── setup.sh
├── src
└── tests

6 directories, 7 files

The source code required to run/build the project is in the /src directory, with the headers residing inside the /inc directory for most public modules.

All other directories are for supporting the development cycle and are used for testitng the code base to ensure accuracy and quality. These are contained in the tests and mocks directories.

Documentation that has been generated is inside the docs folder which contains the html output that can be browswed via your regular web browser.

PDF genreation from the doumentaiton is also possible if enabled through the Doxyfile inside the projects root directory.

The build directory contains the output and makefiles genrerated automatically when using CMake.

This build directory also holds the bin files genreated along with the hex and elf files.

Build Requirements

  • AVR-GCC toolchain OR XC8 from microchip.
  • Make OR CMAKE
  • avrdude
  • A AVR programmer, usbasp for older chips and UPDI for newer ones.

Dev Requirements

  • ATtiny404 series micro-controller
  • AVR-GCC toolchain.
  • Cmake
  • cpputest(Unit testing harness.)
  • Doxygen(For documentation)
  • Git(For version control)

Running Unit Tests

To run the cppunit tests you can use the included shell script inside a bash shell.

echo "1" | ./otto.sh

The command runs the otto script which automates parts of the development cycle such as running and building tests, compiling hex files and flashing the code to a micro-controller using arvdude.

Roadmap

Some stuff that still needs done.

  • Add ADC Mocked interface.
  • Write tests for ADC Mock
  • Write ZCD using ADC Mock.
  • Write ADC version for ATtiny404
  • Add Triac module.
  • Add Triac tests.