handle protection, print current/voltage values
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1c516ca357
commit
c676102b33
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@ -81,7 +81,7 @@ pub fn set_fbv_pwm(duty: u16) {
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}
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#[derive(Clone, Copy)]
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#[derive(Clone, Copy, PartialEq, Eq)]
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pub enum EmissionRange {
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Low, // 22K
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Med, // 22K//(200Ω + compensated diode)
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@ -102,39 +102,41 @@ pub fn set_emission_range(range: EmissionRange) {
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});
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}
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fn reset_error() {
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pub fn reset_error() {
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cortex_m::interrupt::free(|cs| {
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let gpio_l = tm4c129x::GPIO_PORTL.borrow(cs);
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let gpio_q = tm4c129x::GPIO_PORTQ.borrow(cs);
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gpio_q.data.modify(|r, w| w.data().bits(r.data().bits() & !ERR_RESN));
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while gpio_l.data.read().bits() as u8 & ERR_LATCHN == 0 {}
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gpio_q.data.modify(|r, w| w.data().bits(r.data().bits() | ERR_RESN));
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});
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}
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pub fn process_errors() {
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pub fn error_latched() -> bool {
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cortex_m::interrupt::free(|cs| {
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let gpio_l = tm4c129x::GPIO_PORTL.borrow(cs);
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let errors_n = gpio_l.data.read().bits() as u8;
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if errors_n & FV_ERRN == 0 {
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hprintln!("Filament overvolt");
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}
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if errors_n & FBV_ERRN == 0 {
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hprintln!("Filament bias overvolt");
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}
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if errors_n & FBI_ERRN == 0 {
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hprintln!("Filament bias overcurrent");
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}
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if errors_n & AV_ERRN == 0 {
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hprintln!("Anode overvolt");
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}
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if errors_n & AI_ERRN == 0 {
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hprintln!("Anode overcurrent");
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}
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if errors_n & ERR_LATCHN == 0 {
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hprintln!("Protection latched");
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}
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gpio_l.data.read().bits() as u8 & ERR_LATCHN == 0
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})
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}
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pub fn process_errors() {
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let errors_n = cortex_m::interrupt::free(|cs| {
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let gpio_l = tm4c129x::GPIO_PORTL.borrow(cs);
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gpio_l.data.read().bits() as u8
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});
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if errors_n & FV_ERRN == 0 {
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println!("Filament overvolt");
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}
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if errors_n & FBV_ERRN == 0 {
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println!("Filament bias overvolt");
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}
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if errors_n & FBI_ERRN == 0 {
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println!("Filament bias overcurrent");
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}
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if errors_n & AV_ERRN == 0 {
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println!("Anode overvolt");
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}
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if errors_n & AI_ERRN == 0 {
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println!("Anode overcurrent");
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}
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}
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pub fn init() {
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@ -30,10 +30,21 @@ impl Controller {
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}
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pub fn set_target(&mut self, volts: f32) {
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self.pid.set_target(volts*board::AV_ADC_GAIN)
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self.pid.target = volts*board::AV_ADC_GAIN;
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}
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pub fn ready(&mut self) -> bool {
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pub fn ready(&self) -> bool {
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self.pid.is_within(1.0*board::AV_ADC_GAIN)
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}
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pub fn reset(&mut self) {
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self.pid.reset();
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}
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pub fn debug_print(&self) {
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println!("anode ready: {}", self.ready());
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if self.pid.last_input.is_some() {
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println!("voltage: {}V", self.pid.last_input.unwrap()/board::AV_ADC_GAIN);
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}
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}
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}
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@ -55,7 +55,7 @@ impl Controller {
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fbi_r225 + (fbi_voltage - fd_voltage)/board::FBI_R223
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},
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board::EmissionRange::High => {
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let fd_voltage = 0.8;
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let fd_voltage = 0.9;
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fbi_r225 + (fbi_voltage - fd_voltage)/board::FBI_R224
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}
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};
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@ -92,9 +92,10 @@ impl Controller {
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}
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pub fn emission_ready(&self) -> bool {
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let tolerance = if self.fbi_range == board::EmissionRange::High { 0.20 } else { 0.02 };
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match self.last_fbi {
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None => false,
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Some(last_fbi) => (self.fbi_target - last_fbi).abs()/self.fbi_target < 0.02
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Some(last_fbi) => (self.fbi_target - last_fbi).abs()/self.fbi_target < tolerance
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}
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}
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@ -106,9 +107,27 @@ impl Controller {
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}
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pub fn ready(&self) -> bool {
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hprintln!("emission current: {}mA", 1000.0*self.last_fbi.unwrap());
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hprintln!("filament voltage: {}V", self.last_fv.unwrap());
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hprintln!("bias voltage: {}V", self.last_fbv.unwrap());
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self.emission_ready() & self.bias_ready()
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}
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pub fn reset(&mut self) {
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self.pid.reset();
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self.fbi_buffer_count = 0;
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self.last_fbi = None;
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self.last_fv = None;
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self.last_fbv = None;
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}
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pub fn debug_print(&self) {
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println!("cathode ready: {}", self.ready());
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if self.last_fbi.is_some() {
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println!("emission: {}mA", 1000.0*self.last_fbi.unwrap());
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}
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if self.last_fv.is_some() {
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println!("fil voltage: {}V", self.last_fv.unwrap());
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}
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if self.last_fbv.is_some() {
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println!("bias voltage: {}V", self.last_fbv.unwrap());
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}
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}
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}
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@ -1,24 +1,44 @@
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#![feature(used, const_fn, core_float)]
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#![no_std]
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#[macro_use]
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extern crate cortex_m;
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extern crate cortex_m_rt;
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extern crate tm4c129x;
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use core::cell::{Cell, RefCell};
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use core::fmt;
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use cortex_m::ctxt::Local;
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use cortex_m::exception::Handlers as ExceptionHandlers;
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use cortex_m::interrupt::Mutex;
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use tm4c129x::interrupt::Interrupt;
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use tm4c129x::interrupt::Handlers as InterruptHandlers;
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#[macro_export]
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macro_rules! print {
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($($arg:tt)*) => ({
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use core::fmt::Write;
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write!($crate::UART0, $($arg)*).unwrap()
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})
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}
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#[macro_export]
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macro_rules! println {
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($fmt:expr) => (print!(concat!($fmt, "\n")));
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($fmt:expr, $($arg:tt)*) => (print!(concat!($fmt, "\n"), $($arg)*));
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}
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#[macro_use]
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mod board;
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mod pid;
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mod loop_anode;
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mod loop_cathode;
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static TIME: Mutex<Cell<u64>> = Mutex::new(Cell::new(0));
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fn get_time() -> u64 {
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cortex_m::interrupt::free(|cs| {
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TIME.borrow(cs).get()
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})
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}
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static LOOP_ANODE: Mutex<RefCell<loop_anode::Controller>> = Mutex::new(RefCell::new(
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loop_anode::Controller::new()));
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@ -42,21 +62,6 @@ impl fmt::Write for UART0 {
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}
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}
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#[macro_export]
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macro_rules! print {
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($($arg:tt)*) => ({
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use core::fmt::Write;
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write!($crate::UART0, $($arg)*).unwrap()
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})
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}
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#[macro_export]
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macro_rules! println {
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($fmt:expr) => (print!(concat!($fmt, "\n")));
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($fmt:expr, $($arg:tt)*) => (print!(concat!($fmt, "\n"), $($arg)*));
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}
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fn main() {
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board::init();
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@ -70,7 +75,7 @@ fn main() {
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let mut loop_anode = LOOP_ANODE.borrow(cs).borrow_mut();
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let mut loop_cathode = LOOP_CATHODE.borrow(cs).borrow_mut();
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let anode_cathode = 60.0;
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let anode_cathode = 20.0;
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let cathode_bias = 12.0;
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loop_anode.set_target(anode_cathode+cathode_bias);
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loop_cathode.set_emission_target(anode_cathode/10000.0);
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@ -78,18 +83,65 @@ fn main() {
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board::set_fv_pwm(10);
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});
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println!("ready");
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println!(r#"
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_ _
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(_) | |
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_ ___ _ __ _ __ __ _| |
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| |/ _ \| '_ \| '_ \ / _` | |/ /
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| | (_) | | | | |_) | (_| | <
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|_|\___/|_| |_| .__/ \__,_|_|\_\
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Ready."#);
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let mut next_blink = 0;
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let mut next_info = 0;
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let mut led_state = true;
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let mut latch_reset_time = None;
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loop {
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board::process_errors();
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let time = get_time();
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if time > next_blink {
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led_state = !led_state;
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next_blink = time + 100;
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board::set_led(1, led_state);
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}
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if time > next_info {
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// FIXME: done in ISR now because of FPU snafu
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/*cortex_m::interrupt::free(|cs| {
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LOOP_CATHODE.borrow(cs).borrow().debug_print();
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});*/
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next_info = next_info + 300;
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}
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if board::error_latched() {
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match latch_reset_time {
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None => {
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println!("Protection latched");
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latch_reset_time = Some(time + 1000);
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}
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Some(t) => if time > t {
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latch_reset_time = None;
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cortex_m::interrupt::free(|cs| {
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board::reset_error();
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// reset PID loops as they have accumulated large errors
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// while the protection was active, which would cause
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// unnecessary overshoots.
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LOOP_ANODE.borrow(cs).borrow_mut().reset();
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LOOP_CATHODE.borrow(cs).borrow_mut().reset();
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});
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println!("Protection reset");
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}
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}
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}
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}
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}
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use tm4c129x::interrupt::ADC0SS0;
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extern fn adc0_ss0(ctxt: ADC0SS0) {
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static ELAPSED: Local<Cell<u32>, ADC0SS0> = Local::new(Cell::new(0));
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let elapsed = ELAPSED.borrow(&ctxt);
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extern fn adc0_ss0(_ctxt: ADC0SS0) {
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cortex_m::interrupt::free(|cs| {
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let adc0 = tm4c129x::ADC0.borrow(cs);
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if adc0.ostat.read().ov0().bit() {
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@ -97,7 +149,7 @@ extern fn adc0_ss0(ctxt: ADC0SS0) {
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}
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adc0.isc.write(|w| w.in0().bit(true));
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let _ic_sample = adc0.ssfifo0.read().data().bits();
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let ic_sample = adc0.ssfifo0.read().data().bits();
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let fbi_sample = adc0.ssfifo0.read().data().bits();
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let fv_sample = adc0.ssfifo0.read().data().bits();
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let fd_sample = adc0.ssfifo0.read().data().bits();
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@ -109,17 +161,13 @@ extern fn adc0_ss0(ctxt: ADC0SS0) {
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loop_anode.adc_input(av_sample);
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loop_cathode.adc_input(fbi_sample, fd_sample, fv_sample, fbv_sample);
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elapsed.set(elapsed.get() + 1);
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if elapsed.get() % 100 == 0 {
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board::set_led(1, true);
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board::set_led(2, false);
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}
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if elapsed.get() % 100 == 50 {
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board::set_led(1, false);
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board::set_led(2, true);
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}
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if elapsed.get() == 1000 {
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loop_cathode.ready();
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let time = TIME.borrow(cs);
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time.set(time.get() + 1);
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if time.get() % 300 == 0 {
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loop_anode.debug_print();
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loop_cathode.debug_print();
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println!("{}", ic_sample);
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}
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});
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}
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@ -13,9 +13,9 @@ pub struct Parameters {
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pub struct Controller {
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parameters: Parameters,
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target: f32,
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pub target: f32,
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integral: f32,
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last_input: Option<f32>
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pub last_input: Option<f32>
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}
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impl Controller {
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@ -58,10 +58,6 @@ impl Controller {
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output
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}
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pub fn set_target(&mut self, target: f32) {
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self.target = target
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}
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#[allow(dead_code)]
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pub fn is_within(&self, tolerance: f32) -> bool {
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match self.last_input {
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