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stm32/adc: update g4 for new pac.
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embassy-stm32/src/adc/g4.rs
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304
embassy-stm32/src/adc/g4.rs
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@ -0,0 +1,304 @@
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#[allow(unused)]
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use pac::adc::vals::{Adcaldif, Difsel, Exten};
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use pac::adccommon::vals::Presc;
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use super::{blocking_delay_us, Adc, AdcPin, Instance, InternalChannel, Resolution, SampleTime};
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use crate::time::Hertz;
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use crate::{pac, Peripheral};
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/// Default VREF voltage used for sample conversion to millivolts.
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pub const VREF_DEFAULT_MV: u32 = 3300;
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/// VREF voltage used for factory calibration of VREFINTCAL register.
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pub const VREF_CALIB_MV: u32 = 3300;
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/// Max single ADC operation clock frequency
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#[cfg(stm32g4)]
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const MAX_ADC_CLK_FREQ: Hertz = Hertz::mhz(60);
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#[cfg(stm32h7)]
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const MAX_ADC_CLK_FREQ: Hertz = Hertz::mhz(50);
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#[cfg(stm32g4)]
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const VREF_CHANNEL: u8 = 18;
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#[cfg(stm32g4)]
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const TEMP_CHANNEL: u8 = 16;
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#[cfg(stm32h7)]
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const VREF_CHANNEL: u8 = 19;
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#[cfg(stm32h7)]
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const TEMP_CHANNEL: u8 = 18;
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// TODO this should be 14 for H7a/b/35
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const VBAT_CHANNEL: u8 = 17;
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// NOTE: Vrefint/Temperature/Vbat are not available on all ADCs, this currently cannot be modeled with stm32-data, so these are available from the software on all ADCs
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/// Internal voltage reference channel.
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pub struct VrefInt;
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impl<T: Instance> InternalChannel<T> for VrefInt {}
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impl<T: Instance> super::SealedInternalChannel<T> for VrefInt {
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fn channel(&self) -> u8 {
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VREF_CHANNEL
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}
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}
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/// Internal temperature channel.
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pub struct Temperature;
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impl<T: Instance> InternalChannel<T> for Temperature {}
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impl<T: Instance> super::SealedInternalChannel<T> for Temperature {
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fn channel(&self) -> u8 {
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TEMP_CHANNEL
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}
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}
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/// Internal battery voltage channel.
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pub struct Vbat;
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impl<T: Instance> InternalChannel<T> for Vbat {}
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impl<T: Instance> super::SealedInternalChannel<T> for Vbat {
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fn channel(&self) -> u8 {
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VBAT_CHANNEL
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}
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}
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// NOTE (unused): The prescaler enum closely copies the hardware capabilities,
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// but high prescaling doesn't make a lot of sense in the current implementation and is ommited.
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#[allow(unused)]
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enum Prescaler {
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NotDivided,
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DividedBy2,
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DividedBy4,
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DividedBy6,
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DividedBy8,
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DividedBy10,
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DividedBy12,
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DividedBy16,
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DividedBy32,
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DividedBy64,
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DividedBy128,
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DividedBy256,
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}
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impl Prescaler {
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fn from_ker_ck(frequency: Hertz) -> Self {
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let raw_prescaler = frequency.0 / MAX_ADC_CLK_FREQ.0;
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match raw_prescaler {
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0 => Self::NotDivided,
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1 => Self::DividedBy2,
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2..=3 => Self::DividedBy4,
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4..=5 => Self::DividedBy6,
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6..=7 => Self::DividedBy8,
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8..=9 => Self::DividedBy10,
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10..=11 => Self::DividedBy12,
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_ => unimplemented!(),
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}
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}
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fn divisor(&self) -> u32 {
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match self {
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Prescaler::NotDivided => 1,
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Prescaler::DividedBy2 => 2,
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Prescaler::DividedBy4 => 4,
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Prescaler::DividedBy6 => 6,
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Prescaler::DividedBy8 => 8,
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Prescaler::DividedBy10 => 10,
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Prescaler::DividedBy12 => 12,
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Prescaler::DividedBy16 => 16,
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Prescaler::DividedBy32 => 32,
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Prescaler::DividedBy64 => 64,
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Prescaler::DividedBy128 => 128,
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Prescaler::DividedBy256 => 256,
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}
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}
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fn presc(&self) -> Presc {
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match self {
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Prescaler::NotDivided => Presc::DIV1,
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Prescaler::DividedBy2 => Presc::DIV2,
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Prescaler::DividedBy4 => Presc::DIV4,
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Prescaler::DividedBy6 => Presc::DIV6,
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Prescaler::DividedBy8 => Presc::DIV8,
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Prescaler::DividedBy10 => Presc::DIV10,
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Prescaler::DividedBy12 => Presc::DIV12,
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Prescaler::DividedBy16 => Presc::DIV16,
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Prescaler::DividedBy32 => Presc::DIV32,
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Prescaler::DividedBy64 => Presc::DIV64,
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Prescaler::DividedBy128 => Presc::DIV128,
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Prescaler::DividedBy256 => Presc::DIV256,
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}
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}
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}
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impl<'d, T: Instance> Adc<'d, T> {
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/// Create a new ADC driver.
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pub fn new(adc: impl Peripheral<P = T> + 'd) -> Self {
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embassy_hal_internal::into_ref!(adc);
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T::enable_and_reset();
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let prescaler = Prescaler::from_ker_ck(T::frequency());
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T::common_regs().ccr().modify(|w| w.set_presc(prescaler.presc()));
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let frequency = Hertz(T::frequency().0 / prescaler.divisor());
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info!("ADC frequency set to {} Hz", frequency.0);
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if frequency > MAX_ADC_CLK_FREQ {
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panic!("Maximal allowed frequency for the ADC is {} MHz and it varies with different packages, refer to ST docs for more information.", MAX_ADC_CLK_FREQ.0 / 1_000_000 );
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}
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let mut s = Self {
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adc,
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sample_time: SampleTime::from_bits(0),
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};
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s.power_up();
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s.configure_differential_inputs();
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s.calibrate();
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blocking_delay_us(1);
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s.enable();
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s.configure();
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s
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}
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fn power_up(&mut self) {
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T::regs().cr().modify(|reg| {
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reg.set_deeppwd(false);
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reg.set_advregen(true);
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});
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blocking_delay_us(10);
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}
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fn configure_differential_inputs(&mut self) {
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T::regs().difsel().modify(|w| {
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for n in 0..20 {
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w.set_difsel(n, Difsel::SINGLEENDED);
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}
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});
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}
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fn calibrate(&mut self) {
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T::regs().cr().modify(|w| {
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w.set_adcaldif(Adcaldif::SINGLEENDED);
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});
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T::regs().cr().modify(|w| w.set_adcal(true));
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while T::regs().cr().read().adcal() {}
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}
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fn enable(&mut self) {
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T::regs().isr().write(|w| w.set_adrdy(true));
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T::regs().cr().modify(|w| w.set_aden(true));
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while !T::regs().isr().read().adrdy() {}
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T::regs().isr().write(|w| w.set_adrdy(true));
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}
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fn configure(&mut self) {
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// single conversion mode, software trigger
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T::regs().cfgr().modify(|w| {
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w.set_cont(false);
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w.set_exten(Exten::DISABLED);
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});
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}
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/// Enable reading the voltage reference internal channel.
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pub fn enable_vrefint(&self) -> VrefInt {
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T::common_regs().ccr().modify(|reg| {
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reg.set_vrefen(true);
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});
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VrefInt {}
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}
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/// Enable reading the temperature internal channel.
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pub fn enable_temperature(&self) -> Temperature {
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T::common_regs().ccr().modify(|reg| {
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reg.set_vsenseen(true);
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});
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Temperature {}
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}
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/// Enable reading the vbat internal channel.
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pub fn enable_vbat(&self) -> Vbat {
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T::common_regs().ccr().modify(|reg| {
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reg.set_vbaten(true);
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});
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Vbat {}
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}
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/// Set the ADC sample time.
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pub fn set_sample_time(&mut self, sample_time: SampleTime) {
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self.sample_time = sample_time;
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}
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/// Set the ADC resolution.
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pub fn set_resolution(&mut self, resolution: Resolution) {
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T::regs().cfgr().modify(|reg| reg.set_res(resolution.into()));
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}
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/// Perform a single conversion.
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fn convert(&mut self) -> u16 {
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T::regs().isr().modify(|reg| {
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reg.set_eos(true);
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reg.set_eoc(true);
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});
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// Start conversion
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T::regs().cr().modify(|reg| {
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reg.set_adstart(true);
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});
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while !T::regs().isr().read().eos() {
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// spin
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}
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T::regs().dr().read().0 as u16
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}
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/// Read an ADC pin.
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pub fn read<P>(&mut self, pin: &mut P) -> u16
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where
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P: AdcPin<T>,
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P: crate::gpio::Pin,
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{
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pin.set_as_analog();
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self.read_channel(pin.channel())
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}
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/// Read an ADC internal channel.
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pub fn read_internal(&mut self, channel: &mut impl InternalChannel<T>) -> u16 {
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self.read_channel(channel.channel())
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}
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fn read_channel(&mut self, channel: u8) -> u16 {
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// Configure channel
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Self::set_channel_sample_time(channel, self.sample_time);
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#[cfg(stm32h7)]
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{
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T::regs().cfgr2().modify(|w| w.set_lshift(0));
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T::regs()
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.pcsel()
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.write(|w| w.set_pcsel(channel as _, Pcsel::PRESELECTED));
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}
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T::regs().sqr1().write(|reg| {
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reg.set_sq(0, channel);
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reg.set_l(0);
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});
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self.convert()
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}
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fn set_channel_sample_time(ch: u8, sample_time: SampleTime) {
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let sample_time = sample_time.into();
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if ch <= 9 {
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T::regs().smpr().modify(|reg| reg.set_smp(ch as _, sample_time));
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} else {
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T::regs().smpr2().modify(|reg| reg.set_smp((ch - 10) as _, sample_time));
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}
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}
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}
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@ -12,6 +12,7 @@
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#[cfg_attr(adc_v2, path = "v2.rs")]
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#[cfg_attr(any(adc_v3, adc_g0, adc_h5), path = "v3.rs")]
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#[cfg_attr(adc_v4, path = "v4.rs")]
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#[cfg_attr(adc_g4, path = "g4.rs")]
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mod _version;
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#[allow(unused)]
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@ -79,13 +80,37 @@ pub(crate) fn blocking_delay_us(us: u32) {
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}
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/// ADC instance.
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#[cfg(not(any(adc_f1, adc_v1, adc_l0, adc_v2, adc_v3, adc_v4, adc_f3, adc_f3_v1_1, adc_g0, adc_h5)))]
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#[cfg(not(any(
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adc_f1,
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adc_v1,
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adc_l0,
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adc_v2,
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adc_v3,
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adc_v4,
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adc_g4,
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adc_f3,
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adc_f3_v1_1,
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adc_g0,
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adc_h5
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)))]
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#[allow(private_bounds)]
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pub trait Instance: SealedInstance + crate::Peripheral<P = Self> {
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type Interrupt: crate::interrupt::typelevel::Interrupt;
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}
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/// ADC instance.
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#[cfg(any(adc_f1, adc_v1, adc_l0, adc_v2, adc_v3, adc_v4, adc_f3, adc_f3_v1_1, adc_g0, adc_h5))]
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#[cfg(any(
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adc_f1,
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adc_v1,
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adc_l0,
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adc_v2,
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adc_v3,
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adc_v4,
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adc_g4,
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adc_f3,
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adc_f3_v1_1,
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adc_g0,
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adc_h5
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))]
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#[allow(private_bounds)]
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pub trait Instance: SealedInstance + crate::Peripheral<P = Self> + crate::rcc::RccPeripheral {
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type Interrupt: crate::interrupt::typelevel::Interrupt;
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@ -29,7 +29,7 @@ async fn main(_spawner: Spawner) {
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info!("Hello World!");
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let mut adc = Adc::new(p.ADC2);
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adc.set_sample_time(SampleTime::CYCLES32_5);
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adc.set_sample_time(SampleTime::CYCLES24_5);
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loop {
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let measured = adc.read(&mut p.PA7);
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