* Provide ADC values in mV instead of requiring the user to scale them
* Changelog
* Try converting poly calibration also
* Update changelog and comments
* Fix example
* Remove duplicated `analog` modules, which are not necessary
* Merge the `SarAdcExt` and `SensExt` traits into a single `AnalogExt` trait
* Clean up/simplify the analog module a bit
* Update `CHANGELOG.md`
* No longer publicly expose the `PeripheralClockControl` struct
* Update examples as needed to get things building again
* Update CHANGELOG.md
* Address review feedback, fix a warning
* Use a critical section for all devices other than the ESP32-C6/H2, as they modify multiple registers
* Rebase and update `etm` driver to fix build errors
* Make ADC reads return u16s, not generic types
* Changelog entry
* Add the PR number to the changelog
---------
Co-authored-by: Jesse Braham <jessebraham@users.noreply.github.com>
* Executor related touchups
* Fix typos
* Clean up DAC, remove hidden public API
* Clean up ADC
* Clean up analog peripheral reexports
* Properly hide rmt macros
* adc_cal: c2: Add efuse functions for reading calibration
* adc_cal: c3: Add efuse functions for reading calibration
* adc_cal: c6: Add efuse functions for reading calibration
* adc_cal: Add extra traits to support calibration
- `AdcCalScheme<ADCI>` implemented for each calibration scheme (basic, linear, curved)
- `AdcCalEfuse` implemented for each ADC unit to get calibration data from efuse bits
* adc_cal: Add basic ADC calibration scheme
Basic calibration is related to setting some initial bias value to ADC unit.
Such values usually is stored in efuse bit fields but also can be measured
in runtime by connecting ADC input to ground internally.
* adc_cal: Add line fitting ADC calibration scheme
This scheme also includes basic calibration and implements gain correction based
on reference point.
Reference point is a pair of reference voltage and corresponding mean raw ADC
value. Such raw values usually is stored in efuse bit fields for each supported
attenuation.
Possibly it also can be measured in runtime by connecting ADC to reference
voltage internally.
* adc_cal: Add curve fitting ADC calibration scheme
This scheme also includes basic and linear and implements final polynomial error
correction.
* adc_cal: riscv: Add ADC calibration implementation for riscv chips
* adc_cal: c2: Add calibrated ADC reading example
This example uses line fitting calibration scheme by default.
It periodically prints both raw measured value and computed millivolts.
* adc_cal: c3: Add calibrated ADC reading example
This example uses curve fitting calibration scheme by default.
It periodically prints both raw measured value and computed millivolts.
* adc_cal: c6: Add calibrated ADC reading example
This example uses curve fitting calibration scheme by default.
It periodically prints both raw measured value and computed millivolts.
* adc_cal: riscv: Add changelog entry for ADC calibration
* Create an `soc` module with a submodule for each chip, move `peripherals` in
* Move the `cpu_control` module into `soc`
* Move the `efuse` module into `soc`
* Refactor type definitions from `gpio` module into `soc`
* Put all embassy-related files in a common directory
* Change visibility of `GpioPin` constructor
* Create the `esp32c6-hal` package
* Teach `esp-hal-common` about the ESP32-C6
* Get a number of peripheral drivers building for the ESP32-C6
bckup
initial clocks_ii
* Create the `esp32c6-hal` package
C6: update
* Simplify and fix the linker script
update
* C6: add I2S
* Create the `esp32c6-hal` package
* Teach `esp-hal-common` about the ESP32-C6
* Get a number of peripheral drivers building for the ESP32-C6
bckup
initial clocks_ii
* Create the `esp32c6-hal` package
* C6: update
* Simplify and fix the linker script
* update
* C6: add I2S
* update
* C6 Interrupts
* C6: Update build.rs, linker scripts and initial examples
* C6: RMT
* Fix interrupt handling
* Fix `ClockControl::configure`
* C6: revert to I2S0 instead of just I2S
* C6: rebase and update
* RTC not buildable
* Implement RWDT and SWD disable
* C6: working LEDC
* C6: working RMT
* C6: add aes
* C6: add mcpwm
* C6: add rtc_cntln - not finished
* C6: update and formatting
* C6: add pcnt
* C6: add examples and format
* Remove inline assembly, fix interrupts and linker scripts
* Remove unused features, update cargo config for atomic emu, misc cleanup
* Get ADC building and example "working" (as much as it ever does)
* Remove a bunch of unused constants which were copied from ESP-IDF
* The `mcpwm` example now works correctly
* Get `TWAI` peripheral driver building for C6
* Clean up the `rtc_cntl` module and get all the other HALs building again
* Add the C6 to our CI workflow
* Fix various things that have been missed when rebasing
Still missing a few examples (`clock_monitor`, `embassy_spi`, `ram`)
* C6: Small updates in wdt (#1)
* C6: Update WDT
* C6: Update examples with WDT update
* Update `esp-println` dependency to fix build errors
* Fix formatting issues causing pre-commit hook to fail
* Get some more examples working
* Working `ram` example
* Sync with changes in `main` after rebasing
* Working `embassy_spi` example
* Use a git dependency for the PAC until we publish a release
* Fix I2S for ESP32-C6
* Fix esp32c6 direct boot (#4)
* Add direct boot support for C6
* Fix direct boot for c6
- Actually copy into rtc ram
- remove dummy section that is no longer needed (was just a waste of
flash space)
- Move RTC stuff before the no load sections
* Update RWDT and refactor RTC (#3)
* C6: Update RWDT and add example, refactor RTC and add not-really-good example
* Update based on review comments, resolve bunch of warnings and run cargo fmt
* Update C6 esp-pacs rev commit
* Fix clocks_ll/esp32c6.rs
* Fix riscv interrupts
* Remove clock_monitor example for now
* RAM example works in direct-boot mode
* Add a TODO for &mut TIMG0 and cargo fmt
* Fix linker script after a bad rebase
* Update CI and Cargo.toml embassy required features
* use riscv32imac-unknown-none-elf target for C6 in CI
* change default target to riscv32imac-unknown-none-elf
* add riscv32imac-unknown-none-elf target to MSRV job
* another cleanup
---------
Co-authored-by: bjoernQ <bjoern.quentin@mobile-j.de>
Co-authored-by: Jesse Braham <jesse@beta7.io>
* Make required changes to include new `RADIO` peripheral
* Use published versions of PAC and `esp-println`
* Use the correct target extensions (`imac`)
* Fix the super watchdog timer, plus a few more examples
* Fix UART clock configuration
* Make sure to sync UART registers when configuring AT cmd detection
* Disable APM in direct-boot mode
* Address a number of review comments
* Fix `SPI` clocks and `rtc_watchdog` example (#6)
* fix SPI clocks
* run cargo fmt
* Add comment about used default clk src
* Fix rtc_watchdog example in BL mode
* run cargo fmt
* Update rtc_watchdog example that it works in DB mode
* README and example fixes/cleanup
* Add I2C peripheral enable and reset
* Fix `ApbSarAdc` configuration in `system.rs`
---------
Co-authored-by: bjoernQ <bjoern.quentin@mobile-j.de>
Co-authored-by: Juraj Sadel <juraj.sadel@espressif.com>
Co-authored-by: Juraj Sadel <jurajsadel@gmail.com>
Co-authored-by: Scott Mabin <scott@mabez.dev>
* Allow the creation of peripherals _not_ from the pac in the peripherals macro
* Add RADIO peripheral
- Remove DerefMut hack, replace with proper Sealed impls
- Add RADIO peripheral for all chips
* Add RADIO peripheral with split method into each radio feature
* Peripheral ref/sha (#312)
* Add SHA to list of peripherals to be created
* Refactor SHA peripheral to use PeripheralRef
* Update SHA examples to get them building again
* Fix async time drivers
* Fix usb otg
* Fix s3
Co-authored-by: Jesse Braham <jessebraham@users.noreply.github.com>
* Update the build script to inject a configuration value for the enabled chip
* Update all cfg gates to use the new symbols instead of the chip features
* Inject architecture and core count symbols as well, update as needed
* Organize the imports and exports of `esp-hal-common`
