use super::ValueError; /// HSE32 load capacitor trimming. /// /// Argument of [`set_hse_in_trim`] and [`set_hse_out_trim`]. /// /// [`set_hse_in_trim`]: crate::subghz::SubGhz::set_hse_in_trim /// [`set_hse_out_trim`]: crate::subghz::SubGhz::set_hse_out_trim #[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Clone, Copy)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub struct HseTrim { val: u8, } impl HseTrim { /// Maximum capacitor value, ~33.4 pF pub const MAX: HseTrim = HseTrim::from_raw(0x2F); /// Minimum capacitor value, ~11.3 pF pub const MIN: HseTrim = HseTrim::from_raw(0x00); /// Power-on-reset capacitor value, ~20.3 pF /// /// This is the same as `default`. /// /// # Example /// /// ``` /// use stm32wlxx_hal::subghz::HseTrim; /// /// assert_eq!(HseTrim::POR, HseTrim::default()); /// ``` pub const POR: HseTrim = HseTrim::from_raw(0x12); /// Create a new [`HseTrim`] structure from a raw value. /// /// Values greater than the maximum of `0x2F` will be set to the maximum. /// /// # Example /// /// ``` /// use stm32wlxx_hal::subghz::HseTrim; /// /// assert_eq!(HseTrim::from_raw(0xFF), HseTrim::MAX); /// assert_eq!(HseTrim::from_raw(0x2F), HseTrim::MAX); /// assert_eq!(HseTrim::from_raw(0x00), HseTrim::MIN); /// ``` pub const fn from_raw(raw: u8) -> HseTrim { if raw > 0x2F { HseTrim { val: 0x2F } } else { HseTrim { val: raw } } } /// Create a HSE trim value from farads. /// /// Values greater than the maximum of 33.4 pF will be set to the maximum. /// Values less than the minimum of 11.3 pF will be set to the minimum. /// /// # Example /// /// ``` /// use stm32wlxx_hal::subghz::HseTrim; /// /// assert!(HseTrim::from_farads(1.0).is_err()); /// assert!(HseTrim::from_farads(1e-12).is_err()); /// assert_eq!(HseTrim::from_farads(20.2e-12), Ok(HseTrim::default())); /// ``` pub fn from_farads(farads: f32) -> Result> { const MAX: f32 = 33.4E-12; const MIN: f32 = 11.3E-12; if farads > MAX { Err(ValueError::too_high(farads, MAX)) } else if farads < MIN { Err(ValueError::too_low(farads, MIN)) } else { Ok(HseTrim::from_raw(((farads - 11.3e-12) / 0.47e-12) as u8)) } } /// Get the capacitance as farads. /// /// # Example /// /// ``` /// use stm32wlxx_hal::subghz::HseTrim; /// /// assert_eq!((HseTrim::MAX.as_farads() * 10e11) as u8, 33); /// assert_eq!((HseTrim::MIN.as_farads() * 10e11) as u8, 11); /// ``` pub fn as_farads(&self) -> f32 { (self.val as f32) * 0.47E-12 + 11.3E-12 } } impl From for u8 { fn from(ht: HseTrim) -> Self { ht.val } } impl Default for HseTrim { fn default() -> Self { Self::POR } }