use ThermodynamicTemperature
parent
b1b6d1ea94
commit
dda1f2f0b4
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@ -1,7 +1,13 @@
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use smoltcp::time::Instant;
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use uom::si::{
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f64::ElectricPotential,
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f64::{
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ElectricPotential,
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ElectricalResistance,
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ThermodynamicTemperature,
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},
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electric_potential::volt,
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electrical_resistance::ohm,
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temperature_interval::kelvin,
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};
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use crate::{
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ad7172,
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@ -39,9 +45,10 @@ impl ChannelState {
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}
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/// Update PID state on ADC input, calculate new DAC output
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pub fn update_pid(&mut self) -> f64 {
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pub fn update_pid(&mut self) {
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// Update PID controller
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self.pid.update(self.get_temperature().unwrap())
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// self.pid.update(self.get_temperature().unwrap().get::<kelvin>())
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// TODO: add output field
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}
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pub fn get_adc(&self) -> Option<ElectricPotential> {
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@ -49,8 +56,10 @@ impl ChannelState {
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Some(ElectricPotential::new::<volt>(volts))
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}
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pub fn get_temperature(&self) -> Option<f64> {
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pub fn get_temperature(&self) -> Option<ThermodynamicTemperature> {
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let r = self.get_adc()?.get::<volt>();
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// TODO:
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let r = ElectricalResistance::new::<ohm>(r);
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let temperature = self.sh.get_temperature(r);
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Some(temperature)
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}
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@ -76,7 +76,8 @@ impl Channels {
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};
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if let Some(dac_value) = dac_value {
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// Forward PID output to i_set DAC
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self.set_dac(channel.into(), ElectricPotential::new::<volt>(dac_value));
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// TODO:
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// self.set_dac(channel.into(), ElectricPotential::new::<volt>(dac_value));
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}
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channel
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20
src/main.rs
20
src/main.rs
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@ -34,10 +34,12 @@ use uom::{
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f64::{
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ElectricPotential,
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ElectricalResistance,
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ThermodynamicTemperature,
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},
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electric_current::ampere,
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electric_potential::volt,
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electrical_resistance::ohm,
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thermodynamic_temperature::degree_celsius,
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},
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};
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@ -260,9 +262,19 @@ fn main() -> ! {
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socket, "channel {}: Steinhart-Hart equation parameters",
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channel,
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);
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let _ = writeln!(socket, "- t0={}", state.sh.t0);
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let _ = writeln!(socket, "- t0={}", state.sh.t0.into_format_args(degree_celsius, Abbreviation));
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let _ = writeln!(socket, "- b={}", state.sh.b);
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let _ = writeln!(socket, "- r0={}", state.sh.r0);
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let _ = writeln!(socket, "- r0={}", state.sh.r0.into_format_args(ohm, Abbreviation));
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match (state.get_adc(), state.get_temperature()) {
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(Some(adc), Some(temp)) => {
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let _ = writeln!(
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socket, "- adc={} temp={:.3}K",
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adc.into_format_args(volt, Abbreviation),
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temp.into_format_args(degree_celsius, Abbreviation),
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);
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}
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_ => {}
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}
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let _ = writeln!(socket, "");
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}
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}
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@ -361,9 +373,9 @@ fn main() -> ! {
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let sh = &mut channels.channel_state(channel).sh;
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use command_parser::ShParameter::*;
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match parameter {
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T0 => sh.t0 = value,
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T0 => sh.t0 = ThermodynamicTemperature::new::<degree_celsius>(value),
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B => sh.b = value,
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R0 => sh.r0 = value,
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R0 => sh.r0 = ElectricalResistance::new::<ohm>(value),
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}
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let _ = writeln!(socket, "Steinhart-Hart equation parameter updated");
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}
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@ -1,11 +1,23 @@
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use num_traits::float::Float;
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use uom::si::{
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f64::{
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ElectricalResistance,
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ThermodynamicTemperature,
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},
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electrical_resistance::ohm,
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ratio::ratio,
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thermodynamic_temperature::{degree_celsius, kelvin},
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};
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/// Steinhart-Hart equation parameters
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#[derive(Clone, Debug)]
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pub struct Parameters {
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pub t0: f64,
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/// Base temperature
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pub t0: ThermodynamicTemperature,
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/// Base resistance
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pub r0: ElectricalResistance,
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/// Beta
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pub b: f64,
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pub r0: f64,
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}
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impl Parameters {
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@ -14,18 +26,18 @@ impl Parameters {
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/// Result unit: Kelvin
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///
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/// TODO: verify
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pub fn get_temperature(&self, r: f64) -> f64 {
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let inv_temp = 1.0 / self.t0 + (r / self.r0).ln() / self.b;
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1.0 / inv_temp
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pub fn get_temperature(&self, r: ElectricalResistance) -> ThermodynamicTemperature {
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let inv_temp = 1.0 / self.t0.get::<kelvin>() + (r / self.r0).get::<ratio>().ln() / self.b;
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ThermodynamicTemperature::new::<kelvin>(1.0 / inv_temp)
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}
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}
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impl Default for Parameters {
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fn default() -> Self {
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Parameters {
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t0: 0.001_4,
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b: 0.000_000_099,
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r0: 5_110.0,
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t0: ThermodynamicTemperature::new::<degree_celsius>(25.0),
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r0: ElectricalResistance::new::<ohm>(10_000.0),
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b: 3800.0,
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}
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}
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}
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