Merge #1004
1004: Fix internal channels for adc v2 r=lulf a=chemicstry Internal channel reading was broken on adc_v2, because `Adc::read()` requires gpio pin trait, which was not implemented by `VrefInt`, `Temperature`, `Vbat`. The required configuration bits `tsvrefe`, `vbate` were not enabled either. This PR makes it a bit closer to how adc_v4 works. While at it, I also changed adc_v2 to use `RccPeripheral` instead of permanently enabling all ADCs. Co-authored-by: chemicstry <chemicstry@gmail.com>
This commit is contained in:
commit
ef533e6df4
4 changed files with 143 additions and 78 deletions
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@ -28,15 +28,20 @@ pub(crate) mod sealed {
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pub trait AdcPin<T: Instance> {
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fn channel(&self) -> u8;
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}
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pub trait InternalChannel<T> {
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fn channel(&self) -> u8;
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}
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}
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#[cfg(not(adc_f1))]
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#[cfg(not(any(adc_f1, adc_v2)))]
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pub trait Instance: sealed::Instance + 'static {}
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#[cfg(adc_f1)]
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#[cfg(any(adc_f1, adc_v2))]
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pub trait Instance: sealed::Instance + crate::rcc::RccPeripheral + 'static {}
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#[cfg(all(not(adc_f1), not(adc_v1)))]
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pub trait Common: sealed::Common + 'static {}
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pub trait AdcPin<T: Instance>: sealed::AdcPin<T> {}
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pub trait InternalChannel<T>: sealed::InternalChannel<T> {}
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#[cfg(not(stm32h7))]
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foreach_peripheral!(
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@ -3,7 +3,9 @@ use core::marker::PhantomData;
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use embassy_hal_common::into_ref;
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use embedded_hal_02::blocking::delay::DelayUs;
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use super::InternalChannel;
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use crate::adc::{AdcPin, Instance};
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use crate::peripherals::ADC1;
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use crate::time::Hertz;
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use crate::Peripheral;
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@ -12,20 +14,8 @@ 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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#[cfg(not(any(rcc_f4, rcc_f7)))]
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fn enable() {
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todo!()
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}
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#[cfg(any(rcc_f4, rcc_f7))]
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fn enable() {
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critical_section::with(|_| unsafe {
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// TODO do not enable all adc clocks if not needed
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crate::pac::RCC.apb2enr().modify(|w| w.set_adc1en(true));
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crate::pac::RCC.apb2enr().modify(|w| w.set_adc2en(true));
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crate::pac::RCC.apb2enr().modify(|w| w.set_adc3en(true));
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});
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}
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/// ADC turn-on time
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pub const ADC_POWERUP_TIME_US: u32 = 3;
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pub enum Resolution {
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TwelveBit,
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@ -61,24 +51,53 @@ impl Resolution {
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}
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pub struct VrefInt;
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impl<T: Instance> AdcPin<T> for VrefInt {}
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impl<T: Instance> super::sealed::AdcPin<T> for VrefInt {
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impl InternalChannel<ADC1> for VrefInt {}
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impl super::sealed::InternalChannel<ADC1> for VrefInt {
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fn channel(&self) -> u8 {
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17
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}
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}
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impl VrefInt {
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/// Time needed for internal voltage reference to stabilize
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pub fn start_time_us() -> u32 {
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10
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}
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}
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pub struct Temperature;
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impl<T: Instance> AdcPin<T> for Temperature {}
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impl<T: Instance> super::sealed::AdcPin<T> for Temperature {
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impl InternalChannel<ADC1> for Temperature {}
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impl super::sealed::InternalChannel<ADC1> for Temperature {
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fn channel(&self) -> u8 {
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16
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cfg_if::cfg_if! {
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if #[cfg(any(stm32f40, stm32f41))] {
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16
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} else {
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18
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}
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}
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}
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}
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impl Temperature {
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/// Converts temperature sensor reading in millivolts to degrees celcius
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pub fn to_celcius(sample_mv: u16) -> f32 {
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// From 6.3.22 Temperature sensor characteristics
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const V25: i32 = 760; // mV
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const AVG_SLOPE: f32 = 2.5; // mV/C
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(sample_mv as i32 - V25) as f32 / AVG_SLOPE + 25.0
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}
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/// Time needed for temperature sensor readings to stabilize
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pub fn start_time_us() -> u32 {
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10
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}
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}
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pub struct Vbat;
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impl<T: Instance> AdcPin<T> for Vbat {}
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impl<T: Instance> super::sealed::AdcPin<T> for Vbat {
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impl InternalChannel<ADC1> for Vbat {}
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impl super::sealed::InternalChannel<ADC1> for Vbat {
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fn channel(&self) -> u8 {
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18
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}
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@ -164,21 +183,19 @@ where
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{
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pub fn new(_peri: impl Peripheral<P = T> + 'd, delay: &mut impl DelayUs<u32>) -> Self {
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into_ref!(_peri);
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enable();
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T::enable();
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T::reset();
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let presc = unsafe { Prescaler::from_pclk2(crate::rcc::get_freqs().apb2) };
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let presc = Prescaler::from_pclk2(T::frequency());
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unsafe {
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T::common_regs().ccr().modify(|w| w.set_adcpre(presc.adcpre()));
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}
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unsafe {
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// disable before config is set
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T::regs().cr2().modify(|reg| {
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reg.set_adon(crate::pac::adc::vals::Adon::DISABLED);
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reg.set_adon(crate::pac::adc::vals::Adon::ENABLED);
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});
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}
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delay.delay_us(20); // TODO?
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delay.delay_us(ADC_POWERUP_TIME_US);
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Self {
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sample_time: Default::default(),
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@ -208,6 +225,45 @@ where
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((u32::from(sample) * self.vref_mv) / self.resolution.to_max_count()) as u16
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}
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/// Enables internal voltage reference and returns [VrefInt], which can be used in
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/// [Adc::read_internal()] to perform conversion.
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pub fn enable_vrefint(&self) -> VrefInt {
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unsafe {
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T::common_regs().ccr().modify(|reg| {
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reg.set_tsvrefe(crate::pac::adccommon::vals::Tsvrefe::ENABLED);
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});
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}
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VrefInt {}
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}
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/// Enables internal temperature sensor and returns [Temperature], which can be used in
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/// [Adc::read_internal()] to perform conversion.
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///
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/// On STM32F42 and STM32F43 this can not be used together with [Vbat]. If both are enabled,
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/// temperature sensor will return vbat value.
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pub fn enable_temperature(&self) -> Temperature {
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unsafe {
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T::common_regs().ccr().modify(|reg| {
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reg.set_tsvrefe(crate::pac::adccommon::vals::Tsvrefe::ENABLED);
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});
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}
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Temperature {}
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}
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/// Enables vbat input and returns [Vbat], which can be used in
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/// [Adc::read_internal()] to perform conversion.
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pub fn enable_vbat(&self) -> Vbat {
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unsafe {
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T::common_regs().ccr().modify(|reg| {
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reg.set_vbate(crate::pac::adccommon::vals::Vbate::ENABLED);
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});
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}
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Vbat {}
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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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unsafe {
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@ -238,44 +294,31 @@ where
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P: crate::gpio::sealed::Pin,
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{
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unsafe {
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// dissable ADC
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T::regs().cr2().modify(|reg| {
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reg.set_swstart(false);
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});
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T::regs().cr2().modify(|reg| {
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reg.set_adon(crate::pac::adc::vals::Adon::DISABLED);
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});
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pin.set_as_analog();
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// Configure ADC
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T::regs().cr1().modify(|reg| reg.set_res(self.resolution.res()));
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// Select channel
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T::regs().sqr3().write(|reg| reg.set_sq(0, pin.channel()));
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// Configure channel
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Self::set_channel_sample_time(pin.channel(), self.sample_time);
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// enable adc
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T::regs().cr2().modify(|reg| {
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reg.set_adon(crate::pac::adc::vals::Adon::ENABLED);
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});
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let val = self.convert();
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// dissable ADC
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T::regs().cr2().modify(|reg| {
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reg.set_swstart(false);
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});
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T::regs().cr2().modify(|reg| {
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reg.set_adon(crate::pac::adc::vals::Adon::DISABLED);
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});
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val
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self.read_channel(pin.channel())
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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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unsafe { self.read_channel(channel.channel()) }
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}
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unsafe fn read_channel(&mut self, channel: u8) -> u16 {
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// Configure ADC
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T::regs().cr1().modify(|reg| reg.set_res(self.resolution.res()));
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// Select channel
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T::regs().sqr3().write(|reg| reg.set_sq(0, channel));
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// Configure channel
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Self::set_channel_sample_time(channel, self.sample_time);
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let val = self.convert();
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val
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}
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unsafe fn set_channel_sample_time(ch: u8, sample_time: SampleTime) {
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if ch <= 9 {
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T::regs()
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@ -288,3 +331,9 @@ where
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}
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}
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}
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impl<'d, T: Instance> Drop for Adc<'d, T> {
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fn drop(&mut self) {
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T::disable();
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}
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}
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@ -5,7 +5,7 @@ use embedded_hal_02::blocking::delay::DelayUs;
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use pac::adc::vals::{Adcaldif, Boost, Difsel, Exten, Pcsel};
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use pac::adccommon::vals::Presc;
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use super::{AdcPin, Instance};
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use super::{AdcPin, Instance, InternalChannel};
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use crate::time::Hertz;
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use crate::{pac, Peripheral};
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@ -50,18 +50,10 @@ impl Resolution {
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}
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}
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pub trait InternalChannel<T>: sealed::InternalChannel<T> {}
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mod sealed {
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pub trait InternalChannel<T> {
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fn channel(&self) -> u8;
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}
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}
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// NOTE: Vrefint/Temperature/Vbat are only available on ADC3 on H7, this currently cannot be modeled with stm32-data, so these are available from the software on all ADCs
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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> sealed::InternalChannel<T> for VrefInt {
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impl<T: Instance> super::sealed::InternalChannel<T> for VrefInt {
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fn channel(&self) -> u8 {
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19
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}
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@ -69,7 +61,7 @@ impl<T: Instance> sealed::InternalChannel<T> for VrefInt {
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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> sealed::InternalChannel<T> for Temperature {
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impl<T: Instance> super::sealed::InternalChannel<T> for Temperature {
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fn channel(&self) -> u8 {
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18
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}
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@ -77,7 +69,7 @@ impl<T: Instance> sealed::InternalChannel<T> for Temperature {
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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> sealed::InternalChannel<T> for Vbat {
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impl<T: Instance> super::sealed::InternalChannel<T> for Vbat {
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fn channel(&self) -> u8 {
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// TODO this should be 14 for H7a/b/35
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17
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@ -2,9 +2,10 @@
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#![no_main]
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#![feature(type_alias_impl_trait)]
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use cortex_m::prelude::_embedded_hal_blocking_delay_DelayUs;
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use defmt::*;
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use embassy_executor::Spawner;
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use embassy_stm32::adc::Adc;
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use embassy_stm32::adc::{Adc, Temperature, VrefInt};
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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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let p = embassy_stm32::init(Default::default());
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info!("Hello World!");
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let mut adc = Adc::new(p.ADC1, &mut Delay);
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let mut delay = Delay;
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let mut adc = Adc::new(p.ADC1, &mut delay);
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let mut pin = p.PC1;
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let mut vrefint = adc.enable_vrefint();
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let mut temp = adc.enable_temperature();
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// Startup delay can be combined to the maximum of either
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delay.delay_us(Temperature::start_time_us().max(VrefInt::start_time_us()));
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loop {
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// Read pin
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let v = adc.read(&mut pin);
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info!("--> {} - {} mV", v, adc.to_millivolts(v));
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info!("PC1: {} ({} mV)", v, adc.to_millivolts(v));
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// Read internal temperature
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let v = adc.read_internal(&mut temp);
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let celcius = Temperature::to_celcius(adc.to_millivolts(v));
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info!("Internal temp: {} ({} C)", v, celcius);
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// Read internal voltage reference
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let v = adc.read_internal(&mut vrefint);
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info!("VrefInt: {} ({} mV)", v, adc.to_millivolts(v));
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Timer::after(Duration::from_millis(100)).await;
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}
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}
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