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Location: therm/main.c - annotation
85577cf826aa
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Add F0 CPAL just in case we need i2c...
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7d17184d77c2 280a8ff82f9b 31284ec8ec2c 7d17184d77c2 7d17184d77c2 169432b428c7 169432b428c7 0a84663f1f40 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 fe0367a9a87a fe0367a9a87a 7c9cefbe2702 b3359e4381b1 31284ec8ec2c 31284ec8ec2c 7d17184d77c2 280a8ff82f9b 7d17184d77c2 31284ec8ec2c 7d17184d77c2 169432b428c7 169432b428c7 0a84663f1f40 0a84663f1f40 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 fe0367a9a87a fe0367a9a87a 7c9cefbe2702 b3359e4381b1 31284ec8ec2c 7d17184d77c2 7d17184d77c2 280a8ff82f9b 7d17184d77c2 31284ec8ec2c 7d17184d77c2 169432b428c7 169432b428c7 0a84663f1f40 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 c23168e6420f 7d17184d77c2 7d17184d77c2 b3359e4381b1 7d17184d77c2 7d17184d77c2 7d17184d77c2 7d17184d77c2 e0a38751daed e0a38751daed e0a38751daed e81ace60fae3 a0df808541ba e0a38751daed e81ace60fae3 e81ace60fae3 280a8ff82f9b 280a8ff82f9b 280a8ff82f9b 280a8ff82f9b 280a8ff82f9b 7d17184d77c2 7d17184d77c2 0a84663f1f40 0a84663f1f40 970a161634a0 970a161634a0 970a161634a0 970a161634a0 970a161634a0 0a84663f1f40 970a161634a0 970a161634a0 970a161634a0 970a161634a0 970a161634a0 970a161634a0 e331ae8a06e7 970a161634a0 970a161634a0 63171fecb213 | #include "main.h"
#include "stm32l100c_discovery.h"
#include "ssd1306.h"
#include "config.h"
#include "eeprom_min.h"
#include "gpio.h"
#include "spi.h"
// USB includes
#include "hw_config.h"
#include "usb_lib.h"
#include "usb_desc.h"
#include "usb_pwr.h"
#include "stringhelpers.h"
// TODO: Grab buttonpresses with interrupts
// USB Supporting Vars
extern __IO uint8_t Receive_Buffer[64];
extern __IO uint32_t Receive_length ;
extern __IO uint32_t length ;
uint8_t Send_Buffer[64];
uint32_t packet_sent=1;
uint32_t packet_receive=1;
// Globalish setting vars
uint8_t boottobrew = 0;
uint16_t windup_guard = 1;
uint16_t k_p = 1;
uint16_t k_i = 1;
uint16_t k_d = 1;
// ISR ticks var
volatile uint32_t ticks = 0;
int16_t setpoint_brew = 0;
int16_t setpoint_steam = 0;
// State definition
enum state {
STATE_IDLE = 0,
STATE_SETP,
STATE_SETI,
STATE_SETD,
STATE_SETWINDUP,
STATE_SETBOOTTOBREW,
STATE_PREHEAT_BREW,
STATE_MAINTAIN_BREW,
STATE_PREHEAT_STEAM,
STATE_MAINTAIN_STEAM,
};
uint8_t state = STATE_IDLE;
static __IO uint32_t TimingDelay;
// Move to header file
void process();
void machine();
void restore_settings();
void save_settings();
void save_setpoints();
int main(void)
{
// Init clocks
SystemInit();
// Init GPIO
init_gpio();
// Turn on power LED
GPIO_SetBits(LED_POWER);
// TODO: Awesome pwm of power LED (TIM4_CH4 or TIM11_CH1)
// Configure 1ms SysTick (change if more temporal resolution needed)
RCC_ClocksTypeDef RCC_Clocks;
RCC_GetClocksFreq(&RCC_Clocks);
SysTick_Config(RCC_Clocks.HCLK_Frequency / 1000);
// Init SPI busses
init_spi();
// Init OLED over SPI
ssd1306_Init();
ssd1306_clearscreen();
// Check for problems on startup
if(clock_fail) {
//ssd1306_DrawStringBig("ERROR: Check Xtal", 2, 0);
ssd1306_DrawStringBig("NO XTAL", 2, 0);
delay(1000);
ssd1306_clearscreen();
}
// Init USB
//Set_System(); // hw_config.h
Set_USBClock();
USB_Interrupts_Config();
USB_Init();
//SYSCFG_USBPuCmd(ENABLE);
//PowerOn();
// Startup screen
ssd1306_DrawString("therm v0.1", 1, 40);
ssd1306_DrawString("protofusion.org/therm", 3, 0);
delay(1500);
ssd1306_clearscreen();
restore_settings();
if(boottobrew)
state = STATE_PREHEAT_BREW; // Go to brew instead of idle if configured thusly
GPIO_ResetBits(LED_STAT);
// Main loop
while(1)
{
// Process sensor inputs
process();
// Run state machine
machine();
}
}
// Read temperature and update global temp vars
int16_t temp = 0;
uint8_t temp_frac = 0;
void update_temp() {
// Assert CS
GPIO_ResetBits(MAX_CS);
delay(1);
// This may not clock at all... might need to send 16 bits first
SPI_I2S_SendData(SPI2, 0xAAAA); // send dummy data
//SPI_I2S_SendData(SPI2, 0xAA); // send dummy data
uint16_t temp_pre = SPI_I2S_ReceiveData(SPI2);
if(temp_pre & 0b0000000000000010) {
ssd1306_DrawString("Fatal Error", 2, 35);
}
else if(temp_pre & 0b0000000000000001) {
ssd1306_DrawString("Error: No TC", 2, 40);
temp = 0;
temp_frac = 0;
}
else
{
uint8_t sign = temp >> 15;// top bit is sign
temp_pre = temp_pre >> 2; // Drop 2 lowest bits
temp_frac = temp_pre & 0b11; // get fractional part
temp_frac *= 25; // each bit is .25 a degree, up to fixed point
temp_pre = temp_pre >> 2; // Drop 2 fractional bits
if(sign) {
temp = -temp_pre;
}
else {
temp = temp_pre;
}
}
// Deassert CS
delay(1);
GPIO_SetBits(MAX_CS);
}
// PID implementation
// TODO: Make struct that has the last_temp and i_state in it, pass by ref. Make struct that has other input values maybe.
int16_t last_pid_temp = 0;
uint8_t last_pid_temp_frac = 0;
int16_t i_state = 0;
int16_t update_pid(uint16_t k_p, uint16_t k_i, uint16_t k_d, int16_t temp, uint8_t temp_frac, int16_t setpoint)
{
// Calculate instantaneous error
int16_t error = (int16_t)setpoint - (int16_t)temp; // TODO: Use fixed point fraction
// Proportional component
int16_t p_term = k_p * error;
// Error accumulator (integrator)
i_state += error;
// to prevent the iTerm getting huge despite lots of
// error, we use a "windup guard"
// (this happens when the machine is first turned on and
// it cant help be cold despite its best efforts)
// not necessary, but this makes windup guard values
// relative to the current iGain
int16_t windup_guard_res = windup_guard / k_i;
// Calculate integral term with windup guard
if (i_state > windup_guard_res)
i_state = windup_guard_res;
else if (i_state < -windup_guard_res)
i_state = -windup_guard_res;
int16_t i_term = k_i * i_state;
// Calculate differential term (slope since last iteration)
int16_t d_term = (k_d * (temp - last_pid_temp));
// Save temperature for next iteration
last_pid_temp = temp;
last_pid_temp_frac = temp_frac;
int16_t result = p_term + i_term - d_term;
// Put out tenths of percent, 0-1000.
if(result > 1000)
result = 1000;
else if(result < -1000)
result = -1000;
// Return feedback
return result;
}
uint32_t last_ssr_on = 0;
uint32_t last_led = 0;
int32_t setpoint = 0;
int16_t ssr_output = 0; // Duty cycle of ssr, 0 to SSR_PERIOD
uint8_t pid_enabled = 0;
// Process things
void process()
{
update_temp(); // Read MAX31855
// TODO: Add calibration offset (linear)
if(ticks - last_led > 400)
{
GPIO_ToggleBits(LED_POWER);
last_led = ticks;
}
// Every 200ms, set the SSR on unless output is 0
if((ticks - last_ssr_on > SSR_PERIOD))
{
if(pid_enabled)
{
// Get ssr output for next time
int16_t power_percent = update_pid(k_p, k_i, k_d, temp, temp_frac, setpoint);
//power-percent is 0-1000
ssr_output = power_percent; //(((uint32_t)SSR_PERIOD * (uint32_t)10 * (uint32_t)100) * power_percent) / (uint32_t)1000000;
}
else
{
ssr_output = 0;
}
// Only support heating (ssr_output > 0) right now
if(ssr_output > 0) {
char tempstr[6];
itoa(ssr_output, tempstr);
ssd1306_DrawString(tempstr, 0, 90);
GPIO_SetBits(LED_STAT);
GPIO_SetBits(SSR_PIN);
last_ssr_on = ticks;
}
}
// Kill SSR after elapsed period less than SSR_PERIOD
if(ticks - last_ssr_on > ssr_output || ssr_output == 0)
{
GPIO_ResetBits(LED_STAT);
GPIO_ResetBits(SSR_PIN);
}
}
void draw_setpoint() {
char tempstr[3];
itoa_fp(temp, temp_frac, tempstr);
ssd1306_DrawStringBig(" ", 3, 0);
ssd1306_DrawStringBig(tempstr, 3, 0);
ssd1306_DrawStringBig(">", 3, 74);
itoa(setpoint, tempstr);
ssd1306_DrawStringBig(" ", 3, 90);
ssd1306_DrawStringBig(tempstr, 3, 90);
}
uint8_t goto_mode = 2;
// State machine
uint8_t sw_btn_last = 0;
uint8_t sw_up_last = 0;
uint8_t sw_down_last = 0;
uint8_t sw_left_last = 0;
uint8_t sw_right_last = 0;
#define SW_BTN_PRESSED (sw_btn_last == 0 && sw_btn == 1) // rising edge on buttonpress
#define SW_UP_PRESSED (sw_up_last == 0 && sw_up == 1)
#define SW_DOWN_PRESSED (sw_down_last == 0 && sw_down == 1)
#define SW_LEFT_PRESSED (sw_left_last == 0 && sw_left == 1)
#define SW_RIGHT_PRESSED (sw_right_last == 0 && sw_right == 1)
void save_settings()
{
Minimal_EEPROM_Unlock();
// Try programming a word at an address divisible by 4
Minimal_EEPROM_ProgramWord(EEPROM_BASE_ADDR + EEPROM_ADDR_BOOTTOBREW, boottobrew);
Minimal_EEPROM_ProgramWord(EEPROM_BASE_ADDR + EEPROM_ADDR_WINDUP_GUARD, windup_guard);
Minimal_EEPROM_ProgramWord(EEPROM_BASE_ADDR + EEPROM_ADDR_K_P, k_p);
Minimal_EEPROM_ProgramWord(EEPROM_BASE_ADDR + EEPROM_ADDR_K_I, k_i);
Minimal_EEPROM_ProgramWord(EEPROM_BASE_ADDR + EEPROM_ADDR_K_D, k_d);
Minimal_EEPROM_Lock();
}
void save_setpoints()
{
Minimal_EEPROM_Unlock();
Minimal_EEPROM_ProgramWord(EEPROM_BASE_ADDR + EEPROM_ADDR_BREWTEMP, setpoint_brew);
Minimal_EEPROM_ProgramWord(EEPROM_BASE_ADDR + EEPROM_ADDR_STEAMTEMP, setpoint_steam);
Minimal_EEPROM_Lock();
}
// TODO: Make a struct that has all settings in it. Pass by ref to this func in a library.
void restore_settings()
{
Minimal_EEPROM_Unlock();
while(Minimal_FLASH_GetStatus()==FLASH_BUSY);
boottobrew = (*(__IO uint32_t*)(EEPROM_BASE_ADDR + EEPROM_ADDR_BOOTTOBREW));
while(Minimal_FLASH_GetStatus()==FLASH_BUSY);
windup_guard = (*(__IO uint32_t*)(EEPROM_BASE_ADDR + EEPROM_ADDR_WINDUP_GUARD));
while(Minimal_FLASH_GetStatus()==FLASH_BUSY);
k_p = (*(__IO uint32_t*)(EEPROM_BASE_ADDR + EEPROM_ADDR_K_P));
while(Minimal_FLASH_GetStatus()==FLASH_BUSY);
k_i = (*(__IO uint32_t*)(EEPROM_BASE_ADDR + EEPROM_ADDR_K_I));
while(Minimal_FLASH_GetStatus()==FLASH_BUSY);
k_d = (*(__IO uint32_t*)(EEPROM_BASE_ADDR + EEPROM_ADDR_K_D));
while(Minimal_FLASH_GetStatus()==FLASH_BUSY);
setpoint_brew = (*(__IO uint32_t*)(EEPROM_BASE_ADDR + EEPROM_ADDR_BREWTEMP));
while(Minimal_FLASH_GetStatus()==FLASH_BUSY);
setpoint_steam = (*(__IO uint32_t*)(EEPROM_BASE_ADDR + EEPROM_ADDR_STEAMTEMP));
Minimal_EEPROM_Lock();
}
int16_t last_temp = 21245;
void machine()
{
uint8_t last_state = state;
uint8_t temp_changed = temp != last_temp;
last_temp = temp;
uint8_t sw_btn = !GPIO_ReadInputDataBit(SW_BTN);
uint8_t sw_up = !GPIO_ReadInputDataBit(SW_UP);
uint8_t sw_down = !GPIO_ReadInputDataBit(SW_DOWN);
uint8_t sw_left = !GPIO_ReadInputDataBit(SW_LEFT);
uint8_t sw_right = !GPIO_ReadInputDataBit(SW_RIGHT);
switch(state)
{
// Idle state
case STATE_IDLE:
{
// Write text to OLED
// [ therm :: idle ]
ssd1306_DrawString("therm :: idle ", 0, 40);
pid_enabled = 0;
if(temp_changed) {
char tempstr[6];
itoa_fp(temp, temp_frac, tempstr);
ssd1306_DrawString("Temp: ", 3, 40);
ssd1306_DrawString(" ", 3, 72);
ssd1306_DrawString(tempstr, 3, 72);
}
ssd1306_drawlogo();
switch(goto_mode) {
case 2:
{
ssd1306_DrawString("-> brew ", 1, 40);
} break;
case 1:
{
ssd1306_DrawString("-> setup ", 1, 40);
} break;
case 0:
{
ssd1306_DrawString("-> reset ", 1, 40);
} break;
}
// Button handler
if(SW_BTN_PRESSED) {
switch(goto_mode) {
case 2:
state = STATE_PREHEAT_BREW;
break;
case 1:
state = STATE_SETP;
break;
case 0:
state = STATE_IDLE;
break;
default:
state = STATE_PREHEAT_BREW;
}
}
else if(SW_UP_PRESSED && goto_mode < 2) {
goto_mode++;
}
else if(SW_DOWN_PRESSED && goto_mode > 0) {
goto_mode--;
}
// Event Handler
// N/A
} break;
case STATE_SETP:
{
// Write text to OLED
// [ therm :: set p ]
// [ p = 12 ]
ssd1306_DrawString("Proportional", 0, 40);
ssd1306_drawlogo();
char tempstr[6];
itoa(k_p, tempstr);
ssd1306_DrawString("P=", 1, 45);
ssd1306_DrawString(" ", 1, 57);
ssd1306_DrawString(tempstr, 1, 57);
ssd1306_DrawString("Press to accept", 3, 40);
// Button handler
if(SW_BTN_PRESSED) {
state = STATE_SETI;
}
else {
user_input(&k_p);
}
// Event Handler
// N/A
} break;
case STATE_SETI:
{
// Write text to OLED
// [ therm :: set i ]
// [ i = 12 ]
ssd1306_DrawString("Integral", 0, 40);
ssd1306_drawlogo();
char tempstr[6];
itoa(k_i, tempstr);
ssd1306_DrawString("I=", 1, 45);
ssd1306_DrawString(" ", 1, 57);
ssd1306_DrawString(tempstr, 1, 57);
ssd1306_DrawString("Press to accept", 3, 40);
// Button handler
if(SW_BTN_PRESSED) {
state = STATE_SETD;
}
else {
user_input(&k_i);
}
// Event Handler
// N/A
} break;
case STATE_SETD:
{
// Write text to OLED
// [ therm :: set d ]
// [ d = 12 ]
ssd1306_DrawString("Derivative", 0, 40);
ssd1306_drawlogo();
char tempstr[6];
itoa(k_d, tempstr);
ssd1306_DrawString("D=", 1, 45);
ssd1306_DrawString(" ", 1, 57);
ssd1306_DrawString(tempstr, 1, 57);
ssd1306_DrawString("Press to accept", 3, 40);
// Button handler
if(SW_BTN_PRESSED) {
state = STATE_SETWINDUP;
}
else {
user_input(&k_d);
}
// Event Handler
// N/A
} break;
case STATE_SETWINDUP:
{
// Write text to OLED
// [ therm :: set windup ]
// [ g = 12 ]
ssd1306_DrawString("Windup Guard", 0, 40);
ssd1306_drawlogo();
char tempstr[6];
itoa(windup_guard, tempstr);
ssd1306_DrawString("G=", 1, 45);
ssd1306_DrawString(" ", 1, 57);
ssd1306_DrawString(tempstr, 1, 57);
ssd1306_DrawString("Press to accept", 3, 40);
// Button handler
if(SW_BTN_PRESSED) {
state = STATE_SETBOOTTOBREW;
}
else {
user_input(&windup_guard);
}
// Event Handler
// N/A
} break;
case STATE_SETBOOTTOBREW:
{
// Write text to OLED
// [ therm :: set windup ]
// [ g = 12 ]
ssd1306_DrawString("Boot to Brew", 0, 40);
ssd1306_drawlogo();
ssd1306_DrawString("btb=", 1, 45);
if(boottobrew)
ssd1306_DrawString("Enabled ", 1, 70);
else
ssd1306_DrawString("Disabled", 1, 70);
ssd1306_DrawString("Press to accept", 3, 40);
// Button handler
if(SW_BTN_PRESSED) {
save_settings();
state = STATE_IDLE;
}
else if(!GPIO_ReadInputDataBit(SW_UP)) {
boottobrew = 1;
}
else if(!GPIO_ReadInputDataBit(SW_DOWN)) {
boottobrew = 0;
}
// Event Handler
// N/A
} break;
case STATE_PREHEAT_BREW:
{
// Write text to OLED
// [ therm : preheating brew ]
// [ 30 => 120 C ]
ssd1306_DrawString("Preheating...", 0, 0);
//ssd1306_drawlogo();
draw_setpoint();
pid_enabled = 1;
setpoint = setpoint_brew;
// Button handler
if(SW_BTN_PRESSED) {
save_setpoints(); // TODO: Check for mod
state = STATE_IDLE;
}
else {
user_input(&setpoint_brew);
}
// Event Handler
if(temp >= setpoint) {
state = STATE_MAINTAIN_BREW;
}
} break;
case STATE_MAINTAIN_BREW:
{
// Write text to OLED
// [ therm : ready to brew ]
// [ 30 => 120 C ]
ssd1306_DrawString("Preheated!", 0, 0);
//ssd1306_drawlogo();
draw_setpoint();
pid_enabled = 1;
setpoint = setpoint_brew;
// Button handler
if(SW_BTN_PRESSED) {
save_setpoints(); // TODO: Check for mod
state = STATE_IDLE;
}
else {
user_input(&setpoint_brew);
}
// Event Handler
// N/A
} break;
case STATE_PREHEAT_STEAM:
{
// Write text to OLED
// [ therm : preheating steam ]
// [ 30 => 120 C ]
ssd1306_DrawString("Preheating...", 0, 0);
//ssd1306_drawlogo();
draw_setpoint();
pid_enabled = 1;
setpoint = setpoint_steam;
// Button handler
if(SW_BTN_PRESSED) {
state = STATE_IDLE;
save_setpoints(); // TODO: Check for mod
}
else {
user_input(&setpoint_steam);
}
// Event Handler
if(temp >= setpoint) {
state = STATE_MAINTAIN_STEAM;
}
} break;
case STATE_MAINTAIN_STEAM:
{
// Write text to OLED
// [ therm : ready to steam ]
// [ 30 => 120 C ]
ssd1306_DrawString("Ready to Steam!", 0, 0);
//ssd1306_drawlogo();
draw_setpoint();
pid_enabled = 1;
setpoint = setpoint_steam;
// Button handler
if(SW_BTN_PRESSED) {
state = STATE_IDLE;
save_setpoints(); // TODO: Check for mod
}
else {
user_input(&setpoint_steam);
}
// Event Handler
// N/A
} break;
// Something is terribly wrong
default:
{
state = STATE_IDLE;
pid_enabled = 0;
} break;
}
if(last_state != state) {
// Clear screen on state change
goto_mode = 2;
ssd1306_clearscreen();
}
// Last buttonpress
sw_btn_last = sw_btn;
sw_up_last = sw_up;
sw_down_last = sw_down;
sw_left_last = sw_left;
sw_right_last = sw_right;
}
// Delay a number of systicks
void delay(__IO uint32_t nTime)
{
TimingDelay = nTime;
while(TimingDelay != 0);
}
// ISR-triggered decrement of delay and increment of tickcounter
void TimingDelay_Decrement(void)
{
if (TimingDelay != 0x00)
{
TimingDelay--;
}
ticks++;
}
// vim:softtabstop=4 shiftwidth=4 expandtab
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