/// Image calibration. /// /// Argument of [`calibrate_image`]. /// /// [`calibrate_image`]: crate::subghz::SubGhz::calibrate_image #[derive(Debug, PartialEq, Eq, Clone, Copy)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub struct CalibrateImage(pub(crate) u8, pub(crate) u8); impl CalibrateImage { /// Image calibration for the 430 - 440 MHz ISM band. pub const ISM_430_440: CalibrateImage = CalibrateImage(0x6B, 0x6F); /// Image calibration for the 470 - 510 MHz ISM band. pub const ISM_470_510: CalibrateImage = CalibrateImage(0x75, 0x81); /// Image calibration for the 779 - 787 MHz ISM band. pub const ISM_779_787: CalibrateImage = CalibrateImage(0xC1, 0xC5); /// Image calibration for the 863 - 870 MHz ISM band. pub const ISM_863_870: CalibrateImage = CalibrateImage(0xD7, 0xDB); /// Image calibration for the 902 - 928 MHz ISM band. pub const ISM_902_928: CalibrateImage = CalibrateImage(0xE1, 0xE9); /// Create a new `CalibrateImage` structure from raw values. /// /// # Example /// /// ``` /// use stm32wlxx_hal::subghz::CalibrateImage; /// /// const CAL: CalibrateImage = CalibrateImage::new(0xE1, 0xE9); /// assert_eq!(CAL, CalibrateImage::ISM_902_928); /// ``` pub const fn new(f1: u8, f2: u8) -> CalibrateImage { CalibrateImage(f1, f2) } /// Create a new `CalibrateImage` structure from two frequencies. /// /// # Arguments /// /// The units for `freq1` and `freq2` are in MHz. /// /// # Panics /// /// * Panics if `freq1` is less than `freq2`. /// * Panics if `freq1` or `freq2` is not a multiple of 4MHz. /// * Panics if `freq1` or `freq2` is greater than `1020`. /// /// # Example /// /// Create an image calibration for the 430 - 440 MHz ISM band. /// /// ``` /// use stm32wlxx_hal::subghz::CalibrateImage; /// /// let cal: CalibrateImage = CalibrateImage::from_freq(428, 444); /// assert_eq!(cal, CalibrateImage::ISM_430_440); /// ``` pub fn from_freq(freq1: u16, freq2: u16) -> CalibrateImage { assert!(freq2 >= freq1); assert_eq!(freq1 % 4, 0); assert_eq!(freq2 % 4, 0); assert!(freq1 <= 1020); assert!(freq2 <= 1020); CalibrateImage((freq1 / 4) as u8, (freq2 / 4) as u8) } } impl Default for CalibrateImage { fn default() -> Self { CalibrateImage::new(0xE1, 0xE9) } } /// Block calibration. /// /// Argument of [`calibrate`]. /// /// [`calibrate`]: crate::subghz::SubGhz::calibrate #[derive(PartialEq, Eq, Debug, Clone, Copy)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] #[repr(u8)] pub enum Calibrate { /// Image calibration Image = 1 << 6, /// RF-ADC bulk P calibration AdcBulkP = 1 << 5, /// RF-ADC bulk N calibration AdcBulkN = 1 << 4, /// RF-ADC pulse calibration AdcPulse = 1 << 3, /// RF-PLL calibration Pll = 1 << 2, /// Sub-GHz radio RC 13 MHz calibration Rc13M = 1 << 1, /// Sub-GHz radio RC 64 kHz calibration Rc64K = 1, } impl Calibrate { /// Get the bitmask for the block calibration. /// /// # Example /// /// ``` /// use stm32wlxx_hal::subghz::Calibrate; /// /// assert_eq!(Calibrate::Image.mask(), 0b0100_0000); /// assert_eq!(Calibrate::AdcBulkP.mask(), 0b0010_0000); /// assert_eq!(Calibrate::AdcBulkN.mask(), 0b0001_0000); /// assert_eq!(Calibrate::AdcPulse.mask(), 0b0000_1000); /// assert_eq!(Calibrate::Pll.mask(), 0b0000_0100); /// assert_eq!(Calibrate::Rc13M.mask(), 0b0000_0010); /// assert_eq!(Calibrate::Rc64K.mask(), 0b0000_0001); /// ``` pub const fn mask(self) -> u8 { self as u8 } }