* remove hardcoded MODEL_TS80
* #define MODEL_TS100 in sw4stm32/atollic config
* whitespace fix
* use sum of 'defined' instead of logic
* only print handle temp, not PCBVersion
* whitespace fix
* Estimated pinout into the ioc file
* Fix Atollic paths to be somewhat more portable
* Add make command
* Add rough calls to ADC2 [untested]
* Using dual ADC injected modes
* Start both ADCs
* Move some IRQ's to ram exec
* Stabilize PID a bit more
* Add in ideas for tip type selection
* Update peripheral setup to support TS80
* Add tiptype formula / settings struct
* Add function ids to the settings menu
* Rough tip selection
* Rough out new cal routine for simple tips
* Hardware test is fairly close for first pass
* Add Simple calibration case [UNTESTED]
This adds the calibration option that uses boiling water to the calibration menu.
This is untested, and may need gain adjustments before use.
* [Feat] Add some QC testing code
* Typo fix
* Add double button press handler for different rising times
* Add hook for jump to sleep mode
* QC for 9V Works!
* Rough out QC handler, trim out old menu help text thats useless
* QC 9V working... Static all the things (Low on ROM)!
* Static all I2C to save space
* Move QC negotiation into background task so it doesnt block the UI
* Input V display works, tune ADC
* QC 3 steps working
* Start tip R measurements
* Impliment tip resistance
* Fix up the accel position, link in auto QC stages
* Fix tip title
* Tip type settings, Static OLED
* Revert I2C callbacks
* Misc Cleanup
* Better Gain value, need to investiate offset
* Add model warning
* Add TS80 Boot Logo (#367)
* Add TS80 Boot Logo
* Refined
* Moved down by 1px
* Add in power selection 18/24W
* Clean up accelerometer, fix TS100 builds, Fix voltage div cal
Finer input voltage calibration
Settings divisor is stored as uint16_t, not uint8_t.
* Allow more precise input voltage divider calibration.
The existing code changed the input voltage by multiple
tenths of a volt per adjustment, which is way too coarse.
This commit simply multiplies the ADC value (and its divisor)
by 4, which allows for finer calibration adjustments.
Unfortunately, for safety reasons this requires a settings
version bump. While old stored divider values can be detected
and multiplied by 4 on startup to update them, if the user
downgrades firmware it will happily read the new higher value
and cause all sorts of problems (which could be either reading
higher *or* lower depending on how getInputVoltageX10's
parameter wraps around in old firmware due to incorrect type.
* Add rough calls to ADC2 [untested]
* Using dual ADC injected modes
* Start both ADCs
* Move some IRQ's to ram exec
* Stabilize PID a bit more
* Add in ideas for tip type selection
* Add tiptype formula / settings struct
* Add function ids to the settings menu
* Rough tip selection
* Rough out new cal routine for simple tips
* Hardware test is fairly close for first pass
* Add Simple calibration case [UNTESTED]
This adds the calibration option that uses boiling water to the calibration menu.
This is untested, and may need gain adjustments before use.
* Simple Cal Roughly working
* Rough out advanced cal
Settings menu works
Movement working & TMP calibrated
Tip reading sensibily
Accuracy seems ok
Trimmed down overshoot by biasing integral
Saving to flash working, detailed idle
Sleep mode
Description scrolls
Building for DFU working
Motion detection update
Use manual alg instead, using highpass filter, then sum current change vs rolling average
Re-shuffle the pwm code organisation
