Rewrite MAX1968 Driver Generically
- Set variable to proper types(Rate, ElectricalPotential, etc) - Declare const MAX_I_POS, MAX_I_NEG, MAX_V conversion
This commit is contained in:
parent
0179e7641a
commit
4cf7b7fdf9
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@ -1,6 +1,6 @@
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use super::{gpio, sys_timer, usb};
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use crate::{laser_diode::current_sources::*};
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use crate::{thermostat::max1968::MAX1968}
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use crate::laser_diode::current_sources::*;
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use crate::thermostat::max1968::MAX1968;
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use fugit::ExtU32;
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use log::info;
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use stm32f4xx_hal::{
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@ -10,17 +10,17 @@ use stm32f4xx_hal::{
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watchdog::IndependentWatchdog,
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};
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use uom::si::{
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electric_current::ampere,
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f64::ElectricCurrent,
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};
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use uom::si::{electric_current::ampere, f64::ElectricCurrent};
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#[cfg(not(feature = "semihosting"))]
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const WATCHDOG_PERIOD: u32 = 1000;
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#[cfg(feature = "semihosting")]
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const WATCHDOG_PERIOD: u32 = 30000;
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pub fn bootup(mut core_perif: CorePeripherals, perif: Peripherals) -> IndependentWatchdog {
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pub fn bootup(
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mut core_perif: CorePeripherals,
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perif: Peripherals,
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) -> (IndependentWatchdog, MAX1968) {
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core_perif.SCB.enable_icache();
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core_perif.SCB.enable_dcache(&mut core_perif.CPUID);
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@ -65,6 +65,7 @@ pub fn bootup(mut core_perif: CorePeripherals, perif: Peripherals) -> Independen
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laser.set_current(0.1).unwrap();
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let mut tec_driver = MAX1968::new(max1968_phy, perif.ADC1);
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tec_driver.setup();
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tec_driver.set_i(ElectricCurrent::new::<ampere>(1.0));
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@ -77,5 +78,5 @@ pub fn bootup(mut core_perif: CorePeripherals, perif: Peripherals) -> Independen
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info!("Kirdy setup complete");
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wd
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(wd, tec_driver)
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}
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@ -1,6 +1,6 @@
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use crate::laser_diode::current_sources::*;
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use crate::thermostat::ad5680;
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use crate::thermostat::max1968::{MAX1968PinSet, PWM_FREQ_KHZ};
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use crate::thermostat::max1968::{Channel0, MAX1968PinSet, MAX1968Phy, PWM_FREQ_KHZ};
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use fugit::RateExtU32;
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use stm32_eth::EthPins;
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use stm32f4xx_hal::{
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@ -36,7 +36,7 @@ pub fn setup(
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EthernetPins,
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USB,
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CurrentSourcePhyConstruct<CurrentSourcePhyCh0>,
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MAX1968PinSet,
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MAX1968Phy<Channel0>,
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// photo_diode_phy,
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// thermostat_phy
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) {
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@ -92,10 +92,11 @@ pub fn setup(
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gpiob.pb8.into_alternate(),
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);
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let (max_i_neg0, max_v0, max_i_pos0) =
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tim4.pwm_hz(pwm_chs, PWM_FREQ_KHZ.kHz(), &clocks).split();
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tim4.pwm_hz(pwm_chs, PWM_FREQ_KHZ.convert(), &clocks).split();
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let max1968_phy = MAX1968PinSet {
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dac_spi: Spi::new(
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let max1968_phy = MAX1968Phy::new(MAX1968PinSet {
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dac: ad5680::Dac::new(
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Spi::new(
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spi1,
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(
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gpiob.pb3.into_alternate(),
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@ -103,19 +104,20 @@ pub fn setup(
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gpiob.pb5.into_alternate(),
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),
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ad5680::SPI_MODE,
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ad5680::SPI_CLOCK_MHZ.MHz(),
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ad5680::SPI_CLOCK_MHZ.convert(),
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&clocks,
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),
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dac_sync: gpiob.pb4.into_push_pull_output(),
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dac_vfb: gpioc.pc0.into_analog(),
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gpiob.pb4.into_push_pull_output(),
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),
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shdn: gpioa.pa5.into_push_pull_output(),
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vref: gpioa.pa6.into_analog(),
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vtec: gpiob.pb0.into_analog(),
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itec: gpiob.pb1.into_analog(),
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max_v0: max_v0,
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max_i_pos0: max_i_pos0,
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max_i_neg0: max_i_neg0,
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};
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vref_pin: gpioa.pa6.into_analog(),
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itec_pin: gpiob.pb1.into_analog(),
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dac_feedback_pin: gpioc.pc0.into_analog(),
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vtec_pin: gpiob.pb0.into_analog(),
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max_v: max_v0,
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max_i_pos: max_i_pos0,
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max_i_neg: max_i_neg0,
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});
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(eth_pins, usb, current_source_phy, max1968_phy)
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}
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@ -34,7 +34,7 @@ fn main() -> ! {
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let core_perif = CorePeripherals::take().unwrap();
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let perif = Peripherals::take().unwrap();
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let mut wd = bootup(core_perif, perif);
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let (mut wd, mut tec_driver) = bootup(core_perif, perif);
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loop {
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wd.feed();
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@ -1,4 +1,5 @@
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use crate::device::sys_timer::sleep;
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use fugit::MegahertzU32;
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use stm32f4xx_hal::{
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hal::{blocking::spi::Transfer, digital::v2::OutputPin},
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spi,
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@ -9,7 +10,7 @@ pub const SPI_MODE: spi::Mode = spi::Mode {
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polarity: spi::Polarity::IdleLow,
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phase: spi::Phase::CaptureOnSecondTransition,
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};
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pub const SPI_CLOCK_MHZ: u32 = 30;
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pub const SPI_CLOCK_MHZ: MegahertzU32 = MegahertzU32::from_raw(30);
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pub const MAX_VALUE: u32 = 0x3FFFF;
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@ -1,15 +1,16 @@
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use core::marker::PhantomData;
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use core::u16;
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use crate::thermostat::ad5680;
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use fugit::RateExtU32;
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use fugit::KilohertzU32;
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use stm32f4xx_hal::{
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adc::{
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config::{self, AdcConfig},
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Adc,
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},
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gpio::{gpioa::*, gpiob::*, gpioc::*, Alternate, Analog, Output, PushPull},
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hal,
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hal::{self, blocking::spi::Transfer, digital::v2::OutputPin},
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pac::{ADC1, SPI1, TIM4},
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rcc::Clocks,
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spi::{NoMiso, Spi, TransferModeNormal},
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@ -24,29 +25,108 @@ use uom::si::{
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ratio::ratio,
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};
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pub const PWM_FREQ_KHZ: u32 = 20;
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pub const R_SENSE: f64 = 0.05;
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pub const PWM_FREQ_KHZ: KilohertzU32 = KilohertzU32::from_raw(20);
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pub const R_SENSE: ElectricalResistance = ElectricalResistance {
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dimension: PhantomData,
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units: PhantomData,
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value: 0.05,
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};
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// Rev 0_2: DAC Chip connects 3V3 reference voltage and thus provide 0-3.3V output range
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// TODO: Rev 0_3: DAC Chip connects 3V3 reference voltage,
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// which is then passed through a resistor divider to provide 0-3V output range
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const DAC_OUT_V_MAX: f64 = 3.3;
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const TEC_VSEC_BIAS_V: f64 = 1.65;
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const MAX_V_DUTY_MAX: f64 = 1.5 / 3.3;
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const MAX_I_POS_DUTY_MAX: f64 = 1.5 / 3.3;
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const MAX_I_NEG_DUTY_MAX: f64 = 1.5 / 3.3;
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const TEC_VSEC_BIAS_V: ElectricPotential = ElectricPotential {
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dimension: PhantomData,
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units: PhantomData,
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value: 1.65,
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};
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pub struct MAX1968PinSet {
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pub dac_spi: DacSpi,
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pub dac_sync: DacSync,
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pub shdn: PA5<Output<PushPull>>,
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pub dac_vfb: PC0<Analog>,
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pub vref: PA6<Analog>,
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pub vtec: PB0<Analog>,
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pub itec: PB1<Analog>,
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pub max_v0: PwmChannel<TIM4, 1>,
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pub max_i_pos0: PwmChannel<TIM4, 2>,
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pub max_i_neg0: PwmChannel<TIM4, 0>,
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// Kirdy Design Specs:
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// MaxV = 5.0V
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// MAX Current = +- 1.0A
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const MAX_V_DUTY_TO_CURRENT_RATE: ElectricPotential = ElectricPotential {
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dimension: PhantomData,
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units: PhantomData,
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value: 4.0 * 3.3,
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};
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pub const MAX_V_MAX: ElectricPotential = ElectricPotential {
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dimension: PhantomData,
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units: PhantomData,
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value: 5.0,
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};
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const MAX_V_DUTY_MAX: f64 = MAX_V_MAX.value / MAX_V_DUTY_TO_CURRENT_RATE.value;
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const MAX_I_POS_NEG_DUTY_TO_CURRENT_RATE: ElectricCurrent = ElectricCurrent {
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dimension: PhantomData,
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units: PhantomData,
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value: 1.0 / (10.0 * R_SENSE.value / 3.3),
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};
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pub const MAX_I_POS_CURRENT: ElectricCurrent = ElectricCurrent {
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dimension: PhantomData,
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units: PhantomData,
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value: 1.0,
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};
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pub const MAX_I_NEG_CURRENT: ElectricCurrent = ElectricCurrent {
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dimension: PhantomData,
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units: PhantomData,
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value: 1.0,
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};
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// .get::<ratio>() is not implemented for const
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const MAX_I_POS_DUTY_MAX: f64 = MAX_I_POS_CURRENT.value / MAX_I_POS_NEG_DUTY_TO_CURRENT_RATE.value;
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const MAX_I_NEG_DUTY_MAX: f64 = MAX_I_NEG_CURRENT.value / MAX_I_POS_NEG_DUTY_TO_CURRENT_RATE.value;
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pub trait ChannelPins {
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type DacSpi: Transfer<u8>;
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type DacSync: OutputPin;
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type ShdnPin: OutputPin;
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type VRefPin;
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type ItecPin;
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type DacFeedbackPin;
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type VTecPin;
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type MaxVPin;
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type MaxIPosPin;
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type MAXINegPin;
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}
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pub struct Channel0;
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impl ChannelPins for Channel0 {
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type DacSpi = DacSpi;
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type DacSync = DacSync;
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type ShdnPin = PA5<Output<PushPull>>;
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type VRefPin = PA6<Analog>;
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type ItecPin = PB1<Analog>;
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type DacFeedbackPin = PC0<Analog>;
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type VTecPin = PB0<Analog>;
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type MaxVPin = PwmChannel<TIM4, 1>;
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type MaxIPosPin = PwmChannel<TIM4, 2>;
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type MAXINegPin = PwmChannel<TIM4, 0>;
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}
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pub struct MAX1968Phy<C: ChannelPins> {
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// state
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pub center_pt: ElectricPotential,
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pub dac: ad5680::Dac<C::DacSpi, C::DacSync>,
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pub shdn: C::ShdnPin,
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pub vref_pin: C::VRefPin,
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pub itec_pin: C::ItecPin,
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pub dac_feedback_pin: C::DacFeedbackPin,
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pub vtec_pin: C::VTecPin,
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pub max_v: C::MaxVPin,
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pub max_i_pos: C::MaxIPosPin,
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pub max_i_neg: C::MAXINegPin,
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}
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pub struct MAX1968PinSet<C: ChannelPins> {
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pub dac: ad5680::Dac<C::DacSpi, C::DacSync>,
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pub shdn: C::ShdnPin,
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pub vref_pin: C::VRefPin,
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pub itec_pin: C::ItecPin,
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pub dac_feedback_pin: C::DacFeedbackPin,
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pub vtec_pin: C::VTecPin,
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pub max_v: C::MaxVPin,
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pub max_i_pos: C::MaxIPosPin,
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pub max_i_neg: C::MAXINegPin,
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}
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type DacSpi = Spi<SPI1, (PB3<Alternate<5>>, NoMiso, PB5<Alternate<5>>), TransferModeNormal>;
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@ -59,13 +139,11 @@ pub struct MaxAdcPins {
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}
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pub struct MAX1968 {
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pub center_pt: ElectricPotential, // To be moved to a miniconf crate's struct
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pub adc: Adc<ADC1>,
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pub dac: ad5680::Dac<DacSpi, DacSync>,
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pub shdn: PA5<Output<PushPull>>,
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pub adc_pins: MaxAdcPins,
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pub pwm_pins: PwmPins,
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// settings
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pub phy: MAX1968Phy<Channel0>,
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pub pins_adc: Adc<ADC1>,
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}
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pub struct PwmPins {
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pub max_v0: PwmChannel<TIM4, 1>,
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pub max_i_pos0: PwmChannel<TIM4, 2>,
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@ -86,8 +164,6 @@ pub enum AdcReadTarget {
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impl PwmPins {
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fn setup(clocks: Clocks, tim4: TIM4, max_v0: PB7, max_i_pos0: PB8, max_i_neg0: PB6) -> PwmPins {
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let freq = 20.kHz();
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fn init_pwm_pin<P: hal::PwmPin<Duty = u16>>(pin: &mut P) {
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pin.set_duty(0);
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pin.enable();
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@ -100,7 +176,7 @@ impl PwmPins {
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);
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let (mut max_i_neg0, mut max_v0, mut max_i_pos0) =
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tim4.pwm_hz(channels, freq, &clocks).split();
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tim4.pwm_hz(channels, PWM_FREQ_KHZ.convert(), &clocks).split();
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init_pwm_pin(&mut max_v0);
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init_pwm_pin(&mut max_i_neg0);
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@ -114,10 +190,25 @@ impl PwmPins {
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}
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}
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impl MAX1968 {
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pub fn new(pins: MAX1968PinSet, adc1: ADC1) -> Self {
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let dac = ad5680::Dac::new(pins.dac_spi, pins.dac_sync);
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impl<C: ChannelPins> MAX1968Phy<C> {
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pub fn new(pins: MAX1968PinSet<C>) -> Self {
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MAX1968Phy {
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center_pt: ElectricPotential::new::<volt>(1.5),
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dac: pins.dac,
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shdn: pins.shdn,
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vref_pin: pins.vref_pin,
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itec_pin: pins.itec_pin,
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dac_feedback_pin: pins.dac_feedback_pin,
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vtec_pin: pins.vtec_pin,
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max_v: pins.max_v,
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max_i_pos: pins.max_i_pos,
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max_i_neg: pins.max_i_neg,
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}
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}
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}
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impl MAX1968 {
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pub fn new(phy_ch0: MAX1968Phy<Channel0>, adc1: ADC1) -> Self {
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let config = AdcConfig::default()
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.clock(config::Clock::Pclk2_div_2)
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.default_sample_time(config::SampleTime::Cycles_480);
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@ -125,25 +216,12 @@ impl MAX1968 {
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let pins_adc = Adc::adc1(adc1, true, config);
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MAX1968 {
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center_pt: ElectricPotential::new::<millivolt>(1500.0),
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adc: pins_adc,
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dac: dac,
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shdn: pins.shdn,
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adc_pins: MaxAdcPins {
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dac_vfb: pins.dac_vfb,
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vref: pins.vref,
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itec: pins.itec,
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vtec: pins.vtec,
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},
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pwm_pins: PwmPins {
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max_v0: pins.max_v0,
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max_i_pos0: pins.max_i_pos0,
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max_i_neg0: pins.max_i_neg0,
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},
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phy: phy_ch0,
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pins_adc: pins_adc,
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}
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}
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pub fn setup(&mut self){
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pub fn setup(&mut self) {
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self.power_down();
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let vref = self.adc_read(AdcReadTarget::VREF, 2048);
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@ -158,28 +236,28 @@ impl MAX1968 {
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}
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pub fn power_down(&mut self) {
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let _ = self.shdn.set_low();
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let _ = self.phy.shdn.set_low();
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}
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pub fn power_up(&mut self) {
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let _ = self.shdn.set_high();
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let _ = self.phy.shdn.set_high();
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}
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pub fn set_center_point(&mut self, value: ElectricPotential) {
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self.center_pt = value;
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self.phy.center_pt = value;
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}
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fn set_dac(&mut self, voltage: ElectricPotential) -> ElectricPotential {
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let value = ((voltage / ElectricPotential::new::<volt>(DAC_OUT_V_MAX)).get::<ratio>()
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* (ad5680::MAX_VALUE as f64)) as u32;
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self.dac.set(value).unwrap();
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self.phy.dac.set(value).unwrap();
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// TODO: Store the set-ed DAC Voltage Value
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voltage
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}
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pub fn set_i(&mut self, i_tec: ElectricCurrent) -> ElectricCurrent {
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let center_point = self.center_pt;
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let r_sense = ElectricalResistance::new::<ohm>(R_SENSE);
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let center_point = self.phy.center_pt;
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let r_sense = R_SENSE;
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let voltage = i_tec * 10.0 * r_sense + center_point;
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let voltage = self.set_dac(voltage);
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let i_tec = (voltage - center_point) / (10.0 * r_sense);
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@ -193,8 +271,8 @@ impl MAX1968 {
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sample = match adc_read_target {
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AdcReadTarget::VREF => {
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for _ in (0..avg_pt).rev() {
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sample += self.adc.convert(
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||||
&self.adc_pins.vref,
|
||||
sample += self.pins_adc.convert(
|
||||
&self.phy.vref_pin,
|
||||
stm32f4xx_hal::adc::config::SampleTime::Cycles_480,
|
||||
) as u32;
|
||||
}
|
||||
|
@ -202,8 +280,8 @@ impl MAX1968 {
|
|||
}
|
||||
AdcReadTarget::DacVfb => {
|
||||
for _ in (0..avg_pt).rev() {
|
||||
sample += self.adc.convert(
|
||||
&self.adc_pins.dac_vfb,
|
||||
sample += self.pins_adc.convert(
|
||||
&self.phy.dac_feedback_pin,
|
||||
stm32f4xx_hal::adc::config::SampleTime::Cycles_480,
|
||||
) as u32;
|
||||
}
|
||||
|
@ -211,8 +289,8 @@ impl MAX1968 {
|
|||
}
|
||||
AdcReadTarget::ITec => {
|
||||
for _ in (0..avg_pt).rev() {
|
||||
sample += self.adc.convert(
|
||||
&self.adc_pins.itec,
|
||||
sample += self.pins_adc.convert(
|
||||
&self.phy.itec_pin,
|
||||
stm32f4xx_hal::adc::config::SampleTime::Cycles_480,
|
||||
) as u32;
|
||||
}
|
||||
|
@ -220,15 +298,15 @@ impl MAX1968 {
|
|||
}
|
||||
AdcReadTarget::VTec => {
|
||||
for _ in (0..avg_pt).rev() {
|
||||
sample += self.adc.convert(
|
||||
&self.adc_pins.vtec,
|
||||
sample += self.pins_adc.convert(
|
||||
&self.phy.vtec_pin,
|
||||
stm32f4xx_hal::adc::config::SampleTime::Cycles_480,
|
||||
) as u32;
|
||||
}
|
||||
sample / avg_pt as u32
|
||||
}
|
||||
};
|
||||
let mv = self.adc.sample_to_millivolts(sample as u16);
|
||||
let mv = self.pins_adc.sample_to_millivolts(sample as u16);
|
||||
ElectricPotential::new::<millivolt>(mv as f64)
|
||||
}
|
||||
|
||||
|
@ -243,15 +321,14 @@ impl MAX1968 {
|
|||
}
|
||||
|
||||
pub fn get_tec_i(&mut self) -> ElectricCurrent {
|
||||
(self.adc_read(AdcReadTarget::ITec, 1) - self.center_pt)
|
||||
(self.adc_read(AdcReadTarget::ITec, 1) - self.phy.center_pt)
|
||||
/ ElectricalResistance::new::<ohm>(0.4)
|
||||
}
|
||||
|
||||
pub fn get_tec_v(&mut self) -> ElectricPotential {
|
||||
// Fixme: Rev0_2 has Analog Input Polarity Reversed
|
||||
// Remove the -ve sign for Rev0_3
|
||||
-(self.adc_read(AdcReadTarget::VTec, 1) - ElectricPotential::new::<volt>(TEC_VSEC_BIAS_V))
|
||||
* 4.0
|
||||
-(self.adc_read(AdcReadTarget::VTec, 1) - TEC_VSEC_BIAS_V) * 4.0
|
||||
}
|
||||
|
||||
fn set_pwm(&mut self, pwm_pin: PwmPinsEnum, duty: f64, max_duty: f64) -> f64 {
|
||||
|
@ -266,33 +343,27 @@ impl MAX1968 {
|
|||
let duty = duty.min(max_duty);
|
||||
|
||||
match pwm_pin {
|
||||
PwmPinsEnum::MaxV => set(&mut self.pwm_pins.max_v0, duty),
|
||||
PwmPinsEnum::MaxPosI => set(&mut self.pwm_pins.max_i_pos0, duty),
|
||||
PwmPinsEnum::MaxNegI => set(&mut self.pwm_pins.max_i_neg0, duty),
|
||||
PwmPinsEnum::MaxV => set(&mut self.phy.max_v, duty),
|
||||
PwmPinsEnum::MaxPosI => set(&mut self.phy.max_i_pos, duty),
|
||||
PwmPinsEnum::MaxNegI => set(&mut self.phy.max_i_neg, duty),
|
||||
}
|
||||
}
|
||||
|
||||
pub fn set_max_v(&mut self, max_v: ElectricPotential) -> (ElectricPotential, ElectricPotential) {
|
||||
let max = ElectricPotential::new::<volt>(6.0);
|
||||
let v = max_v / 4.0;
|
||||
let duty = (v / ElectricPotential::new::<volt>(3.3)).get::<ratio>();
|
||||
pub fn set_max_v(&mut self, max_v: ElectricPotential) -> ElectricPotential {
|
||||
let duty = (max_v / MAX_V_DUTY_TO_CURRENT_RATE).get::<ratio>();
|
||||
let duty = self.set_pwm(PwmPinsEnum::MaxV, duty, MAX_V_DUTY_MAX);
|
||||
(duty * max, max)
|
||||
duty * MAX_V_DUTY_TO_CURRENT_RATE
|
||||
}
|
||||
|
||||
pub fn set_max_i_pos(&mut self, max_i_pos: ElectricCurrent) -> (ElectricCurrent, ElectricCurrent) {
|
||||
let max = ElectricCurrent::new::<ampere>(3.0);
|
||||
let v = 10.0 * max_i_pos * ElectricalResistance::new::<ohm>(R_SENSE);
|
||||
let duty = (v / ElectricPotential::new::<volt>(3.3)).get::<ratio>();
|
||||
pub fn set_max_i_pos(&mut self, max_i_pos: ElectricCurrent) -> ElectricCurrent {
|
||||
let duty = (max_i_pos / MAX_I_POS_NEG_DUTY_TO_CURRENT_RATE).get::<ratio>();
|
||||
let duty = self.set_pwm(PwmPinsEnum::MaxPosI, duty, MAX_I_POS_DUTY_MAX);
|
||||
(duty * max * 3.3 / 1.5, max)
|
||||
duty * MAX_I_POS_NEG_DUTY_TO_CURRENT_RATE
|
||||
}
|
||||
|
||||
pub fn set_max_i_neg(&mut self, max_i_neg: ElectricCurrent) -> (ElectricCurrent, ElectricCurrent) {
|
||||
let max = ElectricCurrent::new::<ampere>(3.0);
|
||||
let v = 10.0 * max_i_neg * ElectricalResistance::new::<ohm>(R_SENSE);
|
||||
let duty = (v / ElectricPotential::new::<volt>(3.3)).get::<ratio>();
|
||||
pub fn set_max_i_neg(&mut self, max_i_neg: ElectricCurrent) -> ElectricCurrent {
|
||||
let duty = (max_i_neg / MAX_I_POS_NEG_DUTY_TO_CURRENT_RATE).get::<ratio>();
|
||||
let duty = self.set_pwm(PwmPinsEnum::MaxNegI, duty, MAX_I_NEG_DUTY_MAX);
|
||||
(duty * max * 3.3 / 1.5, max)
|
||||
duty * MAX_I_POS_NEG_DUTY_TO_CURRENT_RATE
|
||||
}
|
||||
}
|
||||
|
|
|
@ -0,0 +1,18 @@
|
|||
use crate::thermostat::ad5680;
|
||||
use crate::thermostat::MAX1968;
|
||||
|
||||
pub struct Thermostat {
|
||||
max1968: MAX1968,
|
||||
// TADC
|
||||
}
|
||||
|
||||
impl Thermostat{
|
||||
pub fn new (max1968: MAX1968) -> Self {
|
||||
Thermostat{
|
||||
max1968
|
||||
}
|
||||
}
|
||||
pub fn setup(&mut self){
|
||||
self.max1968.setup();
|
||||
}
|
||||
}
|
Loading…
Reference in New Issue