/// Power amplifier ramp time for FSK, MSK, and LoRa modulation. /// /// Argument of [`set_ramp_time`][`super::TxParams::set_ramp_time`]. #[derive(Debug, PartialEq, Eq, PartialOrd, Ord)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] #[repr(u8)] pub enum RampTime { /// 10µs Micros10 = 0x00, /// 20µs Micros20 = 0x01, /// 40µs Micros40 = 0x02, /// 80µs Micros80 = 0x03, /// 200µs Micros200 = 0x04, /// 800µs Micros800 = 0x05, /// 1.7ms Micros1700 = 0x06, /// 3.4ms Micros3400 = 0x07, } impl From for u8 { fn from(rt: RampTime) -> Self { rt as u8 } } impl From for core::time::Duration { fn from(rt: RampTime) -> Self { match rt { RampTime::Micros10 => core::time::Duration::from_micros(10), RampTime::Micros20 => core::time::Duration::from_micros(20), RampTime::Micros40 => core::time::Duration::from_micros(40), RampTime::Micros80 => core::time::Duration::from_micros(80), RampTime::Micros200 => core::time::Duration::from_micros(200), RampTime::Micros800 => core::time::Duration::from_micros(800), RampTime::Micros1700 => core::time::Duration::from_micros(1700), RampTime::Micros3400 => core::time::Duration::from_micros(3400), } } } impl From for embassy::time::Duration { fn from(rt: RampTime) -> Self { match rt { RampTime::Micros10 => embassy::time::Duration::from_micros(10), RampTime::Micros20 => embassy::time::Duration::from_micros(20), RampTime::Micros40 => embassy::time::Duration::from_micros(40), RampTime::Micros80 => embassy::time::Duration::from_micros(80), RampTime::Micros200 => embassy::time::Duration::from_micros(200), RampTime::Micros800 => embassy::time::Duration::from_micros(800), RampTime::Micros1700 => embassy::time::Duration::from_micros(1700), RampTime::Micros3400 => embassy::time::Duration::from_micros(3400), } } } /// Transmit parameters, output power and power amplifier ramp up time. /// /// Argument of [`set_tx_params`][`super::SubGhz::set_tx_params`]. #[derive(Debug, PartialEq, Eq, Clone, Copy)] #[cfg_attr(feature = "defmt", derive(defmt::Format))] pub struct TxParams { buf: [u8; 3], } impl TxParams { /// Optimal power setting for +15dBm output power with the low-power PA. /// /// This must be used with [`PaConfig::LP_15`](super::PaConfig::LP_15). pub const LP_15: TxParams = TxParams::new().set_power(0x0E); /// Optimal power setting for +14dBm output power with the low-power PA. /// /// This must be used with [`PaConfig::LP_14`](super::PaConfig::LP_14). pub const LP_14: TxParams = TxParams::new().set_power(0x0E); /// Optimal power setting for +10dBm output power with the low-power PA. /// /// This must be used with [`PaConfig::LP_10`](super::PaConfig::LP_10). pub const LP_10: TxParams = TxParams::new().set_power(0x0D); /// Optimal power setting for the high-power PA. /// /// This must be used with one of: /// /// * [`PaConfig::HP_22`](super::PaConfig::HP_22) /// * [`PaConfig::HP_20`](super::PaConfig::HP_20) /// * [`PaConfig::HP_17`](super::PaConfig::HP_17) /// * [`PaConfig::HP_14`](super::PaConfig::HP_14) pub const HP: TxParams = TxParams::new().set_power(0x16); /// Create a new `TxParams` struct. /// /// This is the same as `default`, but in a `const` function. /// /// # Example /// /// ``` /// use stm32wlxx_hal::subghz::TxParams; /// /// const TX_PARAMS: TxParams = TxParams::new(); /// assert_eq!(TX_PARAMS, TxParams::default()); /// ``` pub const fn new() -> TxParams { TxParams { buf: [super::OpCode::SetTxParams as u8, 0x00, 0x00], } } /// Set the output power. /// /// For low power selected in [`set_pa_config`]: /// /// * 0x0E: +14 dB /// * ... /// * 0x00: 0 dB /// * ... /// * 0xEF: -17 dB /// * Others: reserved /// /// For high power selected in [`set_pa_config`]: /// /// * 0x16: +22 dB /// * ... /// * 0x00: 0 dB /// * ... /// * 0xF7: -9 dB /// * Others: reserved /// /// # Example /// /// Set the output power to 0 dB. /// /// ``` /// use stm32wlxx_hal::subghz::{RampTime, TxParams}; /// /// const TX_PARAMS: TxParams = TxParams::new().set_power(0x00); /// # assert_eq!(TX_PARAMS.as_slice()[1], 0x00); /// ``` /// /// [`set_pa_config`]: super::SubGhz::set_pa_config #[must_use = "set_power returns a modified TxParams"] pub const fn set_power(mut self, power: u8) -> TxParams { self.buf[1] = power; self } /// Set the Power amplifier ramp time for FSK, MSK, and LoRa modulation. /// /// # Example /// /// Set the ramp time to 200 microseconds. /// /// ``` /// use stm32wlxx_hal::subghz::{RampTime, TxParams}; /// /// const TX_PARAMS: TxParams = TxParams::new().set_ramp_time(RampTime::Micros200); /// # assert_eq!(TX_PARAMS.as_slice()[2], 0x04); /// ``` #[must_use = "set_ramp_time returns a modified TxParams"] pub const fn set_ramp_time(mut self, rt: RampTime) -> TxParams { self.buf[2] = rt as u8; self } /// Extracts a slice containing the packet. /// /// # Example /// /// ``` /// use stm32wlxx_hal::subghz::{RampTime, TxParams}; /// /// const TX_PARAMS: TxParams = TxParams::new() /// .set_ramp_time(RampTime::Micros80) /// .set_power(0x0E); /// assert_eq!(TX_PARAMS.as_slice(), &[0x8E, 0x0E, 0x03]); /// ``` pub const fn as_slice(&self) -> &[u8] { &self.buf } } impl Default for TxParams { fn default() -> Self { Self::new() } }