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https://github.com/embassy-rs/embassy.git
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stm32/adc: make v1 async and leave en
This commit is contained in:
parent
c573959a95
commit
d46920dce6
@ -31,15 +31,15 @@ pub struct Adc<'d, T: Instance> {
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}
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}
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pub(crate) mod sealed {
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pub(crate) mod sealed {
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#[cfg(adc_f3)]
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#[cfg(any(adc_f3, adc_v1))]
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use embassy_sync::waitqueue::AtomicWaker;
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use embassy_sync::waitqueue::AtomicWaker;
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#[cfg(adc_f3)]
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#[cfg(any(adc_f3, adc_v1))]
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pub struct State {
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pub struct State {
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pub waker: AtomicWaker,
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pub waker: AtomicWaker,
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}
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}
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#[cfg(adc_f3)]
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#[cfg(any(adc_f3, adc_v1))]
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impl State {
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impl State {
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pub const fn new() -> Self {
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pub const fn new() -> Self {
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Self {
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Self {
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@ -58,7 +58,7 @@ pub(crate) mod sealed {
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fn common_regs() -> crate::pac::adccommon::AdcCommon;
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fn common_regs() -> crate::pac::adccommon::AdcCommon;
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#[cfg(adc_f3)]
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#[cfg(adc_f3)]
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fn frequency() -> crate::time::Hertz;
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fn frequency() -> crate::time::Hertz;
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#[cfg(adc_f3)]
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#[cfg(any(adc_f3, adc_v1))]
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fn state() -> &'static State;
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fn state() -> &'static State;
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}
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}
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@ -96,7 +96,7 @@ foreach_adc!(
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unsafe { crate::rcc::get_freqs() }.$clock.unwrap()
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unsafe { crate::rcc::get_freqs() }.$clock.unwrap()
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}
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}
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#[cfg(adc_f3)]
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#[cfg(any(adc_f3, adc_v1))]
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fn state() -> &'static sealed::State {
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fn state() -> &'static sealed::State {
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static STATE: sealed::State = sealed::State::new();
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static STATE: sealed::State = sealed::State::new();
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&STATE
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&STATE
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@ -1,13 +1,35 @@
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use core::future::poll_fn;
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use core::marker::PhantomData;
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use core::task::Poll;
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use embassy_hal_internal::into_ref;
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use embassy_hal_internal::into_ref;
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use embedded_hal_02::blocking::delay::DelayUs;
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use embedded_hal_02::blocking::delay::DelayUs;
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use crate::adc::{Adc, AdcPin, Instance, InternalChannel, Resolution, SampleTime};
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use crate::adc::{Adc, AdcPin, Instance, InternalChannel, Resolution, SampleTime};
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use crate::interrupt::typelevel::Interrupt;
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use crate::peripherals::ADC;
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use crate::peripherals::ADC;
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use crate::Peripheral;
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use crate::{interrupt, Peripheral};
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pub const VDDA_CALIB_MV: u32 = 3300;
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pub const VDDA_CALIB_MV: u32 = 3300;
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pub const VREF_INT: u32 = 1230;
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pub const VREF_INT: u32 = 1230;
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/// Interrupt handler.
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pub struct InterruptHandler<T: Instance> {
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_phantom: PhantomData<T>,
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}
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impl<T: Instance> interrupt::typelevel::Handler<T::Interrupt> for InterruptHandler<T> {
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unsafe fn on_interrupt() {
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if T::regs().isr().read().eoc() {
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T::regs().ier().modify(|w| w.set_eocie(false));
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} else {
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return;
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}
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T::state().waker.wake();
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}
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}
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pub struct Vbat;
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pub struct Vbat;
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impl InternalChannel<ADC> for Vbat {}
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impl InternalChannel<ADC> for Vbat {}
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impl super::sealed::InternalChannel<ADC> for Vbat {
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impl super::sealed::InternalChannel<ADC> for Vbat {
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@ -33,7 +55,11 @@ impl super::sealed::InternalChannel<ADC> for Temperature {
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}
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}
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impl<'d, T: Instance> Adc<'d, T> {
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impl<'d, T: Instance> Adc<'d, T> {
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pub fn new(adc: impl Peripheral<P = T> + 'd, delay: &mut impl DelayUs<u32>) -> Self {
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pub fn new(
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adc: impl Peripheral<P = T> + 'd,
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_irq: impl interrupt::typelevel::Binding<T::Interrupt, InterruptHandler<T>> + 'd,
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delay: &mut impl DelayUs<u32>,
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) -> Self {
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into_ref!(adc);
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into_ref!(adc);
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T::enable();
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T::enable();
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T::reset();
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T::reset();
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@ -44,12 +70,32 @@ impl<'d, T: Instance> Adc<'d, T> {
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// tstab = 14 * 1/fadc
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// tstab = 14 * 1/fadc
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delay.delay_us(1);
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delay.delay_us(1);
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let s = Self {
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// A.7.1 ADC calibration code example
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T::regs().cfgr1().modify(|reg| reg.set_dmaen(false));
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T::regs().cr().modify(|reg| reg.set_adcal(true));
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while T::regs().cr().read().adcal() {}
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// A.7.2 ADC enable sequence code example
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if T::regs().isr().read().adrdy() {
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T::regs().isr().modify(|reg| reg.set_adrdy(true));
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}
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T::regs().cr().modify(|reg| reg.set_aden(true));
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while !T::regs().isr().read().adrdy() {
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// ES0233, 2.4.3 ADEN bit cannot be set immediately after the ADC calibration
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// Workaround: When the ADC calibration is complete (ADCAL = 0), keep setting the
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// ADEN bit until the ADRDY flag goes high.
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T::regs().cr().modify(|reg| reg.set_aden(true));
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}
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T::Interrupt::unpend();
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unsafe {
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T::Interrupt::enable();
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}
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Self {
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adc,
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adc,
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sample_time: Default::default(),
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sample_time: Default::default(),
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};
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}
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s.calibrate();
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s
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}
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}
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pub fn enable_vbat(&self, _delay: &mut impl DelayUs<u32>) -> Vbat {
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pub fn enable_vbat(&self, _delay: &mut impl DelayUs<u32>) -> Vbat {
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@ -80,21 +126,6 @@ impl<'d, T: Instance> Adc<'d, T> {
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Temperature
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Temperature
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}
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}
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fn calibrate(&self) {
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// A.7.1 ADC calibration code example
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if T::regs().cr().read().aden() {
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T::regs().cr().modify(|reg| reg.set_addis(true));
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}
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while T::regs().cr().read().aden() {
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// spin
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}
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T::regs().cfgr1().modify(|reg| reg.set_dmaen(false));
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T::regs().cr().modify(|reg| reg.set_adcal(true));
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while T::regs().cr().read().adcal() {
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// spin
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}
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}
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pub fn set_sample_time(&mut self, sample_time: SampleTime) {
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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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self.sample_time = sample_time;
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}
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}
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@ -103,57 +134,61 @@ impl<'d, T: Instance> Adc<'d, T> {
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T::regs().cfgr1().modify(|reg| reg.set_res(resolution.into()));
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T::regs().cfgr1().modify(|reg| reg.set_res(resolution.into()));
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}
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}
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pub fn read<P>(&mut self, pin: &mut P) -> u16
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pub async fn read<P>(&mut self, pin: &mut P) -> u16
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where
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where
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P: AdcPin<T> + crate::gpio::sealed::Pin,
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P: AdcPin<T> + crate::gpio::sealed::Pin,
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{
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{
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let channel = pin.channel();
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let channel = pin.channel();
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pin.set_as_analog();
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pin.set_as_analog();
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self.read_channel(channel)
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self.read_channel(channel).await
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}
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}
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pub fn read_internal(&mut self, channel: &mut impl InternalChannel<T>) -> u16 {
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pub async fn read_internal(&mut self, channel: &mut impl InternalChannel<T>) -> u16 {
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let channel = channel.channel();
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let channel = channel.channel();
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self.read_channel(channel)
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self.read_channel(channel).await
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}
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}
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fn read_channel(&mut self, channel: u8) -> u16 {
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async fn convert(&mut self) -> u16 {
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// A.7.2 ADC enable sequence code example
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if T::regs().isr().read().adrdy() {
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T::regs().isr().modify(|reg| reg.set_adrdy(true));
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}
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T::regs().cr().modify(|reg| reg.set_aden(true));
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while !T::regs().isr().read().adrdy() {
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// ES0233, 2.4.3 ADEN bit cannot be set immediately after the ADC calibration
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// Workaround: When the ADC calibration is complete (ADCAL = 0), keep setting the
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// ADEN bit until the ADRDY flag goes high.
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T::regs().cr().modify(|reg| reg.set_aden(true));
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}
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T::regs().isr().modify(|reg| {
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T::regs().isr().modify(|reg| {
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reg.set_eoc(true);
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reg.set_eoc(true);
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reg.set_eosmp(true);
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reg.set_eosmp(true);
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});
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});
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T::regs().smpr().modify(|reg| reg.set_smp(self.sample_time.into()));
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T::regs().ier().modify(|w| w.set_eocie(true));
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T::regs().cr().modify(|reg| reg.set_adstart(true));
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poll_fn(|cx| {
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T::state().waker.register(cx.waker());
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if T::regs().isr().read().eoc() {
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Poll::Ready(())
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} else {
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Poll::Pending
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}
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})
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.await;
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T::regs().dr().read().data()
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}
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async fn read_channel(&mut self, channel: u8) -> u16 {
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// A.7.5 Single conversion sequence code example - Software trigger
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// A.7.5 Single conversion sequence code example - Software trigger
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T::regs().chselr().write(|reg| reg.set_chselx(channel as usize, true));
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T::regs().chselr().write(|reg| reg.set_chselx(channel as usize, true));
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T::regs().smpr().modify(|reg| reg.set_smp(self.sample_time.into()));
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T::regs().cr().modify(|reg| reg.set_adstart(true));
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while !T::regs().isr().read().eoc() {
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// spin
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}
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let value = T::regs().dr().read().0 as u16;
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// A.7.3 ADC disable code example
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self.convert().await
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T::regs().cr().modify(|reg| reg.set_adstp(true));
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}
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while T::regs().cr().read().adstp() {
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}
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// spin
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}
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impl<'d, T: Instance> Drop for Adc<'d, T> {
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T::regs().cr().modify(|reg| reg.set_addis(true));
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fn drop(&mut self) {
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while T::regs().cr().read().aden() {
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// A.7.3 ADC disable code example
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// spin
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T::regs().cr().modify(|reg| reg.set_adstp(true));
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}
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while T::regs().cr().read().adstp() {}
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value
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T::regs().cr().modify(|reg| reg.set_addis(true));
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while T::regs().cr().read().aden() {}
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T::disable();
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}
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}
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}
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}
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@ -5,20 +5,26 @@
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use defmt::*;
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use defmt::*;
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use embassy_executor::Spawner;
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use embassy_executor::Spawner;
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use embassy_stm32::adc::{Adc, SampleTime};
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use embassy_stm32::adc::{Adc, SampleTime};
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use embassy_stm32::peripherals::ADC;
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use embassy_stm32::{adc, bind_interrupts};
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use embassy_time::{Delay, Duration, Timer};
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use embassy_time::{Delay, Duration, Timer};
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use {defmt_rtt as _, panic_probe as _};
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use {defmt_rtt as _, panic_probe as _};
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bind_interrupts!(struct Irqs {
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ADC1_COMP => adc::InterruptHandler<ADC>;
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});
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#[embassy_executor::main]
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#[embassy_executor::main]
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async fn main(_spawner: Spawner) {
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async fn main(_spawner: Spawner) {
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let p = embassy_stm32::init(Default::default());
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let p = embassy_stm32::init(Default::default());
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info!("Hello World!");
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info!("Hello World!");
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let mut adc = Adc::new(p.ADC, &mut Delay);
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let mut adc = Adc::new(p.ADC, Irqs, &mut Delay);
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adc.set_sample_time(SampleTime::Cycles71_5);
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adc.set_sample_time(SampleTime::Cycles71_5);
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let mut pin = p.PA1;
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let mut pin = p.PA1;
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let mut vrefint = adc.enable_vref(&mut Delay);
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let mut vrefint = adc.enable_vref(&mut Delay);
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let vrefint_sample = adc.read_internal(&mut vrefint);
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let vrefint_sample = adc.read_internal(&mut vrefint).await;
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let convert_to_millivolts = |sample| {
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let convert_to_millivolts = |sample| {
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// From https://www.st.com/resource/en/datasheet/stm32f031c6.pdf
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// From https://www.st.com/resource/en/datasheet/stm32f031c6.pdf
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// 6.3.4 Embedded reference voltage
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// 6.3.4 Embedded reference voltage
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@ -28,7 +34,7 @@ async fn main(_spawner: Spawner) {
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};
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};
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loop {
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loop {
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let v = adc.read(&mut pin);
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let v = adc.read(&mut pin).await;
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info!("--> {} - {} mV", v, convert_to_millivolts(v));
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info!("--> {} - {} mV", v, convert_to_millivolts(v));
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Timer::after(Duration::from_millis(100)).await;
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Timer::after(Duration::from_millis(100)).await;
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}
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}
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