implement setting i_set centerpoint
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README.md
48
README.md
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@ -46,26 +46,28 @@ The scope of this setting is per TCP session.
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### Commands
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| Syntax | Function |
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| --- | --- |
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| `report` | Show current input |
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| `report mode` | Show current report mode |
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| `report mode <off/on>` | Set report mode |
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| `pwm` | Show current PWM settings |
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| `pwm <0/1> max_i_pos <ratio>` | Set PWM duty cycle for **max_i_pos** to *ampere* |
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| `pwm <0/1> max_i_neg <ratio>` | Set PWM duty cycle for **max_i_neg** to *ampere* |
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| `pwm <0/1> max_v <ratio>` | Set PWM duty cycle for **max_v** to *volt* |
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| `pwm <0/1> <volts>` | Disengage PID, set **i_set** DAC to *ampere* |
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| `pwm <0/1> pid` | Set PWM to be controlled by PID |
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| `pid` | Show PID configuration |
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| `pid <0/1> target <value>` | Set the PID controller target |
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| `pid <0/1> kp <value>` | Set proportional gain |
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| `pid <0/1> ki <value>` | Set integral gain |
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| `pid <0/1> kd <value>` | Set differential gain |
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| `pid <0/1> output_min <value>` | Set mininum output |
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| `pid <0/1> output_max <value>` | Set maximum output |
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| `pid <0/1> integral_min <value>` | Set integral lower bound |
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| `pid <0/1> integral_max <value>` | Set integral upper bound |
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| `s-h` | Show Steinhart-Hart equation parameters |
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| `s-h <0/1> <t/b/r0> <value>` | Set Steinhart-Hart parameter for a channel |
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| `postfilter <0/1> rate <rate>` | Set postfilter output data rate |
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| Syntax | Function |
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| --- | --- |
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| `report` | Show current input |
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| `report mode` | Show current report mode |
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| `report mode <off/on>` | Set report mode |
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| `pwm` | Show current PWM settings |
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| `pwm <0/1> max_i_pos <ratio>` | Set PWM duty cycle for **max_i_pos** to *ampere* |
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| `pwm <0/1> max_i_neg <ratio>` | Set PWM duty cycle for **max_i_neg** to *ampere* |
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| `pwm <0/1> max_v <ratio>` | Set PWM duty cycle for **max_v** to *volt* |
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| `pwm <0/1> <volts>` | Disengage PID, set **i_set** DAC to *ampere* |
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| `pwm <0/1> pid` | Set PWM to be controlled by PID |
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| `center <0/1> <volts>` | Set the MAX1968 0A-centerpoint to *volts* |
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| `center <0/1> vref` | Set the MAX1968 0A-centerpoint to measure from VREF |
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| `pid` | Show PID configuration |
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| `pid <0/1> target <value>` | Set the PID controller target |
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| `pid <0/1> kp <value>` | Set proportional gain |
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| `pid <0/1> ki <value>` | Set integral gain |
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| `pid <0/1> kd <value>` | Set differential gain |
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| `pid <0/1> output_min <value>` | Set mininum output |
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| `pid <0/1> output_max <value>` | Set maximum output |
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| `pid <0/1> integral_min <value>` | Set integral lower bound |
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| `pid <0/1> integral_max <value>` | Set integral upper bound |
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| `s-h` | Show Steinhart-Hart equation parameters |
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| `s-h <0/1> <t/b/r0> <value>` | Set Steinhart-Hart parameter for a channel |
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| `postfilter <0/1> rate <rate>` | Set postfilter output data rate |
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@ -13,6 +13,7 @@ use crate::{
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ad7172,
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pid,
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steinhart_hart as sh,
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command_parser::CenterPoint,
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};
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const R_INNER: f64 = 2.0 * 5100.0;
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@ -24,6 +25,8 @@ pub struct ChannelState {
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pub adc_time: Instant,
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/// VREF for the TEC (1.5V)
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pub vref: ElectricPotential,
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/// i_set 0A center point
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pub center: CenterPoint,
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pub dac_value: ElectricPotential,
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pub pid_engaged: bool,
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pub pid: pid::Controller,
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@ -36,8 +39,9 @@ impl ChannelState {
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adc_data: None,
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adc_calibration,
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adc_time: Instant::from_secs(0),
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// can be initialized later with Channels.read_vref()
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vref: ElectricPotential::new::<volt>(3.3 / 2.0),
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// updated later with Channels.read_vref()
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vref: ElectricPotential::new::<volt>(1.5),
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center: CenterPoint::Vref,
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dac_value: ElectricPotential::new::<volt>(0.0),
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pid_engaged: false,
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pid: pid::Controller::new(pid::Parameters::default()),
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@ -13,7 +13,7 @@ use crate::{
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ad7172,
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channel::{Channel, Channel0, Channel1},
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channel_state::ChannelState,
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command_parser::PwmPin,
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command_parser::{CenterPoint, PwmPin},
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pins,
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};
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@ -99,11 +99,17 @@ impl Channels {
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}
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pub fn get_i(&mut self, channel: usize) -> (ElectricCurrent, ElectricCurrent) {
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let vref = self.channel_state(channel).vref;
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let state = self.channel_state(channel);
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let center_point = match state.center {
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CenterPoint::Vref =>
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state.vref,
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CenterPoint::Override(center_point) =>
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ElectricPotential::new::<volt>(center_point),
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};
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let r_sense = ElectricalResistance::new::<ohm>(R_SENSE);
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let (voltage, max) = self.get_dac(channel);
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let i_tec = (voltage - vref) / (10.0 * r_sense);
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let max = (max - vref) / (10.0 * r_sense);
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let i_tec = (voltage - center_point) / (10.0 * r_sense);
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let max = (max - center_point) / (10.0 * r_sense);
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(i_tec, max)
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}
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@ -127,12 +133,18 @@ impl Channels {
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}
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pub fn set_i(&mut self, channel: usize, i_tec: ElectricCurrent) -> (ElectricCurrent, ElectricCurrent) {
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let vref = self.channel_state(channel).vref;
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let state = self.channel_state(channel);
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let center_point = match state.center {
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CenterPoint::Vref =>
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state.vref,
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CenterPoint::Override(center_point) =>
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ElectricPotential::new::<volt>(center_point),
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};
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let r_sense = ElectricalResistance::new::<ohm>(R_SENSE);
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let voltage = i_tec * 10.0 * r_sense + vref;
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let voltage = i_tec * 10.0 * r_sense + center_point;
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let (voltage, max) = self.set_dac(channel, voltage);
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let i_tec = (voltage - vref) / (10.0 * r_sense);
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let max = (max - vref) / (10.0 * r_sense);
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let i_tec = (voltage - center_point) / (10.0 * r_sense);
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let max = (max - center_point) / (10.0 * r_sense);
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(i_tec, max)
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}
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@ -122,6 +122,12 @@ pub enum PwmPin {
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MaxV,
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}
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#[derive(Debug, Clone, Copy, PartialEq)]
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pub enum CenterPoint {
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Vref,
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Override(f64),
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}
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#[derive(Debug, Clone, PartialEq)]
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pub enum Command {
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Quit,
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@ -137,6 +143,10 @@ pub enum Command {
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PwmPid {
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channel: usize,
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},
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CenterPoint {
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channel: usize,
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center: CenterPoint,
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},
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/// PID parameter setting
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Pid {
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channel: usize,
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@ -290,6 +300,25 @@ fn pwm(input: &[u8]) -> IResult<&[u8], Result<Command, Error>> {
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))(input)
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}
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fn center_point(input: &[u8]) -> IResult<&[u8], Result<Command, Error>> {
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let (input, _) = tag("center")(input)?;
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let (input, _) = whitespace(input)?;
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let (input, channel) = channel(input)?;
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let (input, _) = whitespace(input)?;
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let (input, center) = alt((
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value(Ok(CenterPoint::Vref), tag("vref")),
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|input| {
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let (input, value) = float(input)?;
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Ok((input, value.map(CenterPoint::Override)))
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}
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))(input)?;
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end(input)?;
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Ok((input, center.map(|center| Command::CenterPoint {
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channel,
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center,
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})))
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}
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/// `pid <0-1> <parameter> <value>`
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fn pid_parameter(input: &[u8]) -> IResult<&[u8], Result<Command, Error>> {
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let (input, channel) = channel(input)?;
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@ -378,6 +407,7 @@ fn command(input: &[u8]) -> IResult<&[u8], Result<Command, Error>> {
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alt((value(Ok(Command::Quit), tag("quit")),
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map(report, Ok),
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pwm,
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center_point,
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pid,
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steinhart_hart,
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postfilter,
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@ -529,4 +559,22 @@ mod test {
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rate: 21.0,
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}));
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}
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#[test]
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fn parse_center_point() {
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let command = Command::parse(b"center 0 1.5");
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assert_eq!(command, Ok(Command::CenterPoint {
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channel: 0,
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center: CenterPoint::Override(1.5),
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}));
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}
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#[test]
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fn parse_center_point_vref() {
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let command = Command::parse(b"center 1 vref");
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assert_eq!(command, Ok(Command::CenterPoint {
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channel: 1,
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center: CenterPoint::Vref,
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}));
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}
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}
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45
src/main.rs
45
src/main.rs
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@ -55,7 +55,7 @@ use server::Server;
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mod session;
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use session::{Session, SessionOutput};
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mod command_parser;
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use command_parser::{Command, ShowCommand, PwmPin};
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use command_parser::{CenterPoint, Command, ShowCommand, PwmPin};
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mod timer;
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mod pid;
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mod steinhart_hart;
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@ -221,18 +221,32 @@ fn main() -> ! {
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}
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Command::Show(ShowCommand::Pwm) => {
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for channel in 0..CHANNELS {
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let i_set = channels.get_i(channel);
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let state = channels.channel_state(channel);
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let _ = writeln!(
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socket, "channel {}: PID={}",
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channel,
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if state.pid_engaged { "engaged" } else { "disengaged" }
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);
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let i_set = channels.get_i(channel);
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let _ = writeln!(
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socket, "- i_set={:.3} / {:.3}",
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let _ = write!(
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socket, "- i_set={:.3} / {:.3} ",
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i_set.0.into_format_args(ampere, Abbreviation),
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i_set.1.into_format_args(ampere, Abbreviation),
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);
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match state.center {
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CenterPoint::Vref => {
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let _ = writeln!(
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socket, "center=vref vref={:.3}",
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state.vref.into_format_args(volt, Abbreviation),
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);
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}
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CenterPoint::Override(volts) => {
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let _ = writeln!(
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socket, "center={:.3} V",
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volts,
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);
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}
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}
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let max_v = channels.get_max_v(channel);
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let _ = writeln!(
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socket, "- max_v={:.3} / {:.3}",
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@ -321,7 +335,7 @@ fn main() -> ! {
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let voltage = ElectricPotential::new::<volt>(value);
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let (voltage, max) = channels.set_max_v(channel, voltage);
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let _ = writeln!(
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socket, "channel {:.3}: max_v set to {:.3} / {:.3}",
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socket, "channel {}: max_v set to {:.3} / {:.3}",
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channel,
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voltage.into_format_args(volt, Abbreviation),
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max.into_format_args(volt, Abbreviation),
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@ -331,7 +345,7 @@ fn main() -> ! {
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let current = ElectricCurrent::new::<ampere>(value);
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let (current, max) = channels.set_max_i_pos(channel, current);
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let _ = writeln!(
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socket, "channel {:.3}: max_i_pos set to {:.3} / {:.3}",
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socket, "channel {}: max_i_pos set to {:.3} / {:.3}",
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channel,
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current.into_format_args(ampere, Abbreviation),
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max.into_format_args(ampere, Abbreviation),
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@ -341,7 +355,7 @@ fn main() -> ! {
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let current = ElectricCurrent::new::<ampere>(value);
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let (current, max) = channels.set_max_i_neg(channel, current);
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let _ = writeln!(
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socket, "channel {:.3}: max_i_neg set to {:.3} / {:.3}",
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socket, "channel {}: max_i_neg set to {:.3} / {:.3}",
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channel,
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current.into_format_args(ampere, Abbreviation),
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max.into_format_args(ampere, Abbreviation),
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@ -349,6 +363,23 @@ fn main() -> ! {
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}
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}
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}
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Command::CenterPoint { channel, center } => {
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let (i_tec, _) = channels.get_i(channel);
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let state = channels.channel_state(channel);
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state.center = center;
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if !state.pid_engaged {
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channels.set_i(channel, i_tec);
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let _ = writeln!(
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socket, "channel {}: center point updated, output readjusted for {:.3}",
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channel, i_tec.into_format_args(ampere, Abbreviation),
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);
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} else {
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let _ = writeln!(
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socket, "channel {}: center point updated",
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channel,
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);
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}
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}
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Command::Pid { channel, parameter, value } => {
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let pid = &mut channels.channel_state(channel).pid;
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use command_parser::PidParameter::*;
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