2024-07-04 17:10:01 +02:00
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//! MAX11619 ADC example application.
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//!
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//! You can turn the potentiometer knob of the REB1 board to measure
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//! different ADC values.
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2024-06-16 16:16:45 +02:00
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#![no_main]
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#![no_std]
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use core::convert::Infallible;
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use cortex_m_rt::entry;
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use embedded_hal::digital::OutputPin;
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2024-09-20 10:32:25 +02:00
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use embedded_hal::spi::{SpiBus, SpiDevice, MODE_0};
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2024-06-16 16:16:45 +02:00
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use embedded_hal::{delay::DelayNs, spi};
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use max116xx_10bit::VoltageRefMode;
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use max116xx_10bit::{AveragingConversions, AveragingResults};
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use panic_rtt_target as _;
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use rtt_target::{rprintln, rtt_init_print};
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2024-09-19 16:37:59 +02:00
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use va108xx_hal::spi::{OptionalHwCs, SpiClkConfig};
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2024-06-16 16:16:45 +02:00
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use va108xx_hal::timer::CountDownTimer;
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use va108xx_hal::{
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gpio::PinsA,
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pac::{self, interrupt},
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prelude::*,
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2024-09-20 10:32:25 +02:00
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spi::{Spi, SpiBase, SpiConfig},
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2024-06-16 16:16:45 +02:00
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timer::{default_ms_irq_handler, set_up_ms_tick, DelayMs, IrqCfg},
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};
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use va108xx_hal::{port_mux, FunSel, PortSel};
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use vorago_reb1::max11619::{
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max11619_externally_clocked_no_wakeup, max11619_externally_clocked_with_wakeup,
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max11619_internally_clocked, EocPin, AN2_CHANNEL, POTENTIOMETER_CHANNEL,
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};
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#[derive(Debug, PartialEq, Copy, Clone)]
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pub enum ExampleMode {
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UsingEoc,
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NotUsingEoc,
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NotUsingEocWithDelay,
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}
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#[derive(Debug, PartialEq, Copy, Clone)]
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pub enum ReadMode {
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Single,
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Multiple,
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MultipleNToHighest,
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AverageN,
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}
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#[derive(Debug, PartialEq, Copy, Clone)]
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pub enum MuxMode {
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None,
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PortB19to17,
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}
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const EXAMPLE_MODE: ExampleMode = ExampleMode::NotUsingEoc;
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const READ_MODE: ReadMode = ReadMode::Multiple;
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const MUX_MODE: MuxMode = MuxMode::None;
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// This is probably more or less a re-implementation of https://docs.rs/embedded-hal-bus/latest/embedded_hal_bus/spi/struct.ExclusiveDevice.html.
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// Users should look at the embedded-hal-bus crate for sharing the bus.
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pub struct SpiWithHwCs<Delay, HwCs> {
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inner: SpiBase<pac::Spib, u8>,
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delay_provider: Delay,
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hw_cs: HwCs,
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}
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impl<Delay: DelayNs, HwCs: OptionalHwCs<pac::Spib>> SpiWithHwCs<Delay, HwCs> {
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pub fn new(spi: SpiBase<pac::Spib, u8>, hw_cs: HwCs, delay_provider: Delay) -> Self {
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Self {
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inner: spi,
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hw_cs,
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delay_provider,
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}
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}
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}
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impl<Delay, HwCs> embedded_hal::spi::ErrorType for SpiWithHwCs<Delay, HwCs> {
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type Error = Infallible;
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}
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impl<Delay: DelayNs, HwCs: OptionalHwCs<pac::Spib>> SpiDevice for SpiWithHwCs<Delay, HwCs> {
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fn transaction(
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&mut self,
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operations: &mut [spi::Operation<'_, u8>],
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) -> Result<(), Self::Error> {
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// Only the HW CS is configured here. This is not really necessary, but showcases
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// that we could scale this multiple SPI devices.
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self.inner.cfg_hw_cs_with_pin(&self.hw_cs);
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for operation in operations {
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match operation {
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spi::Operation::Read(buf) => self.inner.read(buf).ok().unwrap(),
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spi::Operation::Write(buf) => self.inner.write(buf).ok().unwrap(),
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spi::Operation::Transfer(read, write) => {
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self.inner.transfer(read, write).ok().unwrap()
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}
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spi::Operation::TransferInPlace(buf) => {
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self.inner.transfer_in_place(buf).ok().unwrap()
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}
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spi::Operation::DelayNs(delay) => self.delay_provider.delay_ns(*delay),
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};
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}
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self.inner.cfg_hw_cs_disable();
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Ok(())
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}
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}
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2024-09-19 16:37:59 +02:00
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const SYS_CLK: Hertz = Hertz::from_raw(50_000_000);
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2024-06-16 16:16:45 +02:00
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#[entry]
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fn main() -> ! {
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rtt_init_print!();
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rprintln!("-- Vorago ADC Example --");
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let mut dp = pac::Peripherals::take().unwrap();
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let tim0 = set_up_ms_tick(
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IrqCfg::new(pac::Interrupt::OC0, true, true),
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&mut dp.sysconfig,
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Some(&mut dp.irqsel),
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2024-09-19 16:37:59 +02:00
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SYS_CLK,
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2024-06-16 16:16:45 +02:00
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dp.tim0,
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);
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let delay = DelayMs::new(tim0).unwrap();
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unsafe {
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cortex_m::peripheral::NVIC::unmask(pac::Interrupt::OC0);
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}
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let pinsa = PinsA::new(&mut dp.sysconfig, None, dp.porta);
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2024-09-20 10:32:25 +02:00
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let spi_cfg = SpiConfig::default()
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.clk_cfg(SpiClkConfig::from_clk(SYS_CLK, 3.MHz()).unwrap())
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.mode(MODE_0)
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.blockmode(true);
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2024-06-16 16:16:45 +02:00
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let (sck, mosi, miso) = (
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pinsa.pa20.into_funsel_2(),
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pinsa.pa19.into_funsel_2(),
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pinsa.pa18.into_funsel_2(),
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);
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if MUX_MODE == MuxMode::PortB19to17 {
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port_mux(&mut dp.ioconfig, PortSel::PortB, 19, FunSel::Sel1).ok();
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port_mux(&mut dp.ioconfig, PortSel::PortB, 18, FunSel::Sel2).ok();
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port_mux(&mut dp.ioconfig, PortSel::PortB, 17, FunSel::Sel1).ok();
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port_mux(&mut dp.ioconfig, PortSel::PortB, 16, FunSel::Sel1).ok();
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}
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// Set the accelerometer chip select low in case the board slot is populated
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let mut accel_cs = pinsa.pa16.into_push_pull_output();
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accel_cs
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.set_high()
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.expect("Setting accelerometer chip select high failed");
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2024-07-04 17:10:01 +02:00
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let spi = Spi::new(
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&mut dp.sysconfig,
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50.MHz(),
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2024-06-16 16:16:45 +02:00
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dp.spib,
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(sck, miso, mosi),
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spi_cfg,
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)
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.downgrade();
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let delay_provider = CountDownTimer::new(&mut dp.sysconfig, 50.MHz(), dp.tim1);
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let spi_with_hwcs = SpiWithHwCs::new(spi, pinsa.pa17.into_funsel_2(), delay_provider);
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match EXAMPLE_MODE {
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ExampleMode::NotUsingEoc => spi_example_externally_clocked(spi_with_hwcs, delay),
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ExampleMode::UsingEoc => {
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spi_example_internally_clocked(spi_with_hwcs, delay, pinsa.pa14.into_floating_input());
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}
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ExampleMode::NotUsingEocWithDelay => {
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let delay_us = CountDownTimer::new(&mut dp.sysconfig, 50.MHz(), dp.tim2);
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spi_example_externally_clocked_with_delay(spi_with_hwcs, delay, delay_us);
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}
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}
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}
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#[interrupt]
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#[allow(non_snake_case)]
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fn OC0() {
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default_ms_irq_handler();
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}
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/// Use the SPI clock as the conversion clock
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fn spi_example_externally_clocked(spi: impl SpiDevice, mut delay: DelayMs) -> ! {
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let mut adc = max11619_externally_clocked_no_wakeup(spi)
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.expect("Creating externally clocked MAX11619 device failed");
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if READ_MODE == ReadMode::AverageN {
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adc.averaging(
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AveragingConversions::FourConversions,
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AveragingResults::FourResults,
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)
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.expect("Error setting up averaging register");
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}
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let mut cmd_buf: [u8; 32] = [0; 32];
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let mut counter = 0;
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loop {
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rprintln!("-- Measurement {} --", counter);
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match READ_MODE {
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ReadMode::Single => {
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rprintln!("Reading single potentiometer channel");
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let pot_val = adc
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.read_single_channel(&mut cmd_buf, POTENTIOMETER_CHANNEL)
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.expect("Creating externally clocked MAX11619 ADC failed");
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rprintln!("Single channel read:");
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rprintln!("\tPotentiometer value: {}", pot_val);
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}
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ReadMode::Multiple => {
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let mut res_buf: [u16; 4] = [0; 4];
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adc.read_multiple_channels_0_to_n(
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&mut cmd_buf,
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&mut res_buf.iter_mut(),
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POTENTIOMETER_CHANNEL,
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)
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.expect("Multi-Channel read failed");
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print_res_buf(&res_buf);
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}
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ReadMode::MultipleNToHighest => {
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let mut res_buf: [u16; 2] = [0; 2];
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adc.read_multiple_channels_n_to_highest(
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&mut cmd_buf,
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&mut res_buf.iter_mut(),
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AN2_CHANNEL,
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)
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.expect("Multi-Channel read failed");
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rprintln!("Multi channel read from 2 to 3:");
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rprintln!("\tAN2 value: {}", res_buf[0]);
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rprintln!("\tAN3 / Potentiometer value: {}", res_buf[1]);
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}
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ReadMode::AverageN => {
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rprintln!("Scanning and averaging not possible for externally clocked mode");
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}
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}
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counter += 1;
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delay.delay_ms(500);
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}
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}
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fn spi_example_externally_clocked_with_delay(
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spi: impl SpiDevice,
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mut delay: DelayMs,
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mut delay_us: impl DelayNs,
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) -> ! {
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let mut adc =
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max11619_externally_clocked_with_wakeup(spi).expect("Creating MAX116xx device failed");
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let mut cmd_buf: [u8; 32] = [0; 32];
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let mut counter = 0;
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loop {
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rprintln!("-- Measurement {} --", counter);
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match READ_MODE {
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ReadMode::Single => {
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rprintln!("Reading single potentiometer channel");
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let pot_val = adc
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.read_single_channel(&mut cmd_buf, POTENTIOMETER_CHANNEL, &mut delay_us)
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.expect("Creating externally clocked MAX11619 ADC failed");
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rprintln!("Single channel read:");
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rprintln!("\tPotentiometer value: {}", pot_val);
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}
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ReadMode::Multiple => {
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let mut res_buf: [u16; 4] = [0; 4];
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adc.read_multiple_channels_0_to_n(
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&mut cmd_buf,
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&mut res_buf.iter_mut(),
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POTENTIOMETER_CHANNEL,
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&mut delay_us,
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)
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.expect("Multi-Channel read failed");
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print_res_buf(&res_buf);
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}
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ReadMode::MultipleNToHighest => {
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let mut res_buf: [u16; 2] = [0; 2];
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adc.read_multiple_channels_n_to_highest(
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&mut cmd_buf,
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&mut res_buf.iter_mut(),
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AN2_CHANNEL,
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&mut delay_us,
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)
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.expect("Multi-Channel read failed");
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rprintln!("Multi channel read from 2 to 3:");
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rprintln!("\tAN2 value: {}", res_buf[0]);
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rprintln!("\tAN3 / Potentiometer value: {}", res_buf[1]);
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}
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ReadMode::AverageN => {
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rprintln!("Scanning and averaging not possible for externally clocked mode");
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}
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}
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counter += 1;
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delay.delay_ms(500);
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}
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}
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/// This function uses the EOC pin to determine whether the conversion finished
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fn spi_example_internally_clocked(spi: impl SpiDevice, mut delay: DelayMs, eoc_pin: EocPin) -> ! {
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let mut adc = max11619_internally_clocked(
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spi,
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eoc_pin,
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VoltageRefMode::ExternalSingleEndedNoWakeupDelay,
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)
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.expect("Creating MAX116xx device failed");
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let mut counter = 0;
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loop {
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rprintln!("-- Measurement {} --", counter);
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match READ_MODE {
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ReadMode::Single => {
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adc.request_single_channel(POTENTIOMETER_CHANNEL)
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.expect("Requesting single channel value failed");
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let pot_val = nb::block!(adc.get_single_channel())
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.expect("Reading single channel value failed");
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rprintln!("\tPotentiometer value: {}", pot_val);
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}
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ReadMode::Multiple => {
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adc.request_multiple_channels_0_to_n(POTENTIOMETER_CHANNEL)
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.expect("Requesting single channel value failed");
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let mut res_buf: [u16; 4] = [0; 4];
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nb::block!(adc.get_multi_channel(&mut res_buf.iter_mut()))
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.expect("Requesting multiple channel values failed");
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print_res_buf(&res_buf);
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}
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ReadMode::MultipleNToHighest => {
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adc.request_multiple_channels_n_to_highest(AN2_CHANNEL)
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.expect("Requesting single channel value failed");
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let mut res_buf: [u16; 4] = [0; 4];
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nb::block!(adc.get_multi_channel(&mut res_buf.iter_mut()))
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.expect("Requesting multiple channel values failed");
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rprintln!("Multi channel read from 2 to 3:");
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rprintln!("\tAN2 value: {}", res_buf[0]);
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rprintln!("\tAN3 / Potentiometer value: {}", res_buf[1]);
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}
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ReadMode::AverageN => {
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adc.request_channel_n_repeatedly(POTENTIOMETER_CHANNEL)
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.expect("Reading channel multiple times failed");
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let mut res_buf: [u16; 16] = [0; 16];
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nb::block!(adc.get_multi_channel(&mut res_buf.iter_mut()))
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.expect("Requesting multiple channel values failed");
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rprintln!("Reading potentiometer 4 times");
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rprintln!("\tValue 0: {}", res_buf[0]);
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rprintln!("\tValue 1: {}", res_buf[1]);
|
|
|
|
rprintln!("\tValue 2: {}", res_buf[2]);
|
|
|
|
rprintln!("\tValue 3: {}", res_buf[3]);
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
counter += 1;
|
|
|
|
delay.delay_ms(500);
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
fn print_res_buf(buf: &[u16; 4]) {
|
|
|
|
rprintln!("Multi channel read from 0 to 3:");
|
|
|
|
rprintln!("\tAN0 value: {}", buf[0]);
|
|
|
|
rprintln!("\tAN1 value: {}", buf[1]);
|
|
|
|
rprintln!("\tAN2 value: {}", buf[2]);
|
|
|
|
rprintln!("\tAN3 / Potentiometer value: {}", buf[3]);
|
|
|
|
}
|