123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163 |
- /*
- 60W PD Powered Automatic Reflow Hoteplate
- Author: tobychui
- Firmware version for v6 or above PCB
-
- Notes:
- - Temperature sensing is done using 1k 1% resistor and a 100k Thermistor
- You might need to change the code if you are using other values
- - If you are using the type-C 6p version of the reflow PCB, and after
- pluggin in the type C cable no led lights up, try flip the type C
- cable upside down
- Button Mappings (Active Low, aka not pressing = HIGH)
- Start Btn: P1.4
- Stop Btn: P1.7
- Download Settings
- CH552
- 16Mhz (internal, 3.3V or 5V)
- */
- #include <Serial.h>
- /* Hardware Definations */
- #define TEMP_PIN 11 //P1.1
- #define HEATER_PIN 34 //P3.4
- #define LED_PREHEAT 15 //P1.5
- #define LED_REFLOW 16 //P1.6
- #define START_BTN 14 //P1.4
- #define STOP_BTN 17 //P1.7
- #define FAN_PIN 33 //P3.3
- /* Software Definations */
- //Timing settings. Each cycle is approximately 100ms
- #define HOLDSTART_TIME 30 //START Button hold down time in cycles
- #define HOLDSTOP_TIME 10 //STOP Button hold down time in cycles
- #define SOAKING_TIME 600 //SOAKING temperature upkeep time in cycles
- #define MAX_CONTINUE_OPR_TIME 3000 //MAX_CONTINUE_OPR automatic shutdown desolder heatbed if continue operate for ~5 minutes for safty reasons
- /*
- Temperature Settings
- The ADC value can be calculated using the following line equation
- t=-0.7x+250
- where X is ADC reading and t is target temp in degree C
- Note that different setup (e.g. ref resistor value / NTC resistor value) might have different equations
- You can experiment with yours and get a few data point to plot your own line
- */
- #define COOLDOWN_TEMP_ADC 255 //Room temperature
- //Preheat temp & power
- #define PREHEAT_START_ADC 143 //150 degree C
- #define PREHEAT_TEMP_ADC 122 //160 degree C
- #define PREHEAT_PWR_PWM 155 //60% power output
- //Reflow temp & power
- #define REFLOW_TEMP_ADC 58 //220 degree C
- #define REFLOW_PWR_PWM 255 //100% power output
- //Overheat cutoff temp
- #define CUTOFF_TEMP_ADC 53 //250 degree C
- /* Function Prototypes */
- bool updateHeaterPowerState();
- void updateKeyStates();
- void handleLEDBlinking();
- void handleReflowProcedures();
- void handleDesolderProcedures();
- void enterStandbyMode();
- int readTemp();
- /* Runtime Variables */
- bool reflowing = false; //Reflow has started
- bool reflowComplete = false; //Indicate if the stopping is done because of reflow complete
- bool startPressed = false; //Start button is pressed down
- bool stopPressed = false; //Stop button is pressed down
- /*
- Reflow Stages define what is the next state the hotplate should reach
- 0: Standby
- 1: Preheating
- 2: Preheat Holding / Soaking
- 3: Reflowing
- 4: Cooling down
- 10: Preheating to reflow temp for desoldering
- 11: Desolder Mode (Keep at REFLOW_TEMP_ADC)
- */
- int reflowStages = 0;
- int startCountdown = HOLDSTART_TIME; //Hold for HOLDSTART_TIME to start to prevent accidental touches
- int stopcountdown = HOLDSTOP_TIME; //Hold for HOLDSTOP_TIME to stop reflowing
- int cycleCounter = 0; //Record cycle time up to 10 seconds
- int soakingCountdown = SOAKING_TIME;
- int desolderCountdown = MAX_CONTINUE_OPR_TIME; //Prevent overheat
- //Blink state controls
- bool blinkState = false; //If blinking this will be switching between true and false
- bool blinkYellow = true; //Slow blink yellow if enabled (Standby). Do not enable both yellow and red at the same time
- bool blinkRed = false; //Slow blink red if enable (End of Reflow). Do not enable both yellow and red at the same time
- bool fastBlinkState = false;
- bool fastblinkRed = false;
- //Real-time temperature control targets
- int targetTempADC = 255; //Target ADC reading to reach, 255 = room temperature
- int targetPwrPWM = 0; //Target PWM cycle for heater, 255 = full power, 0 = off
- int offset = 0; //Allow +-offset for the ADC reading before reheating / cooling
- void setup() {
- //Set button pins to input
- pinMode(START_BTN, INPUT);
- pinMode(STOP_BTN, INPUT);
- //Set LED pins to output
- pinMode(LED_PREHEAT, OUTPUT);
- pinMode(LED_REFLOW, OUTPUT);
- digitalWrite(LED_PREHEAT, LOW);
- digitalWrite(LED_REFLOW, LOW);
- //Set temp sense pin to input
- pinMode(TEMP_PIN, INPUT);
- //Set mosfet control pins to output and disable it
- pinMode(HEATER_PIN, OUTPUT);
- digitalWrite(HEATER_PIN, LOW);
- pinMode(FAN_PIN, OUTPUT);
- digitalWrite(FAN_PIN, LOW);
- USBSerial_println("Reflow Hotplate Ready!");
- }
- void loop() {
- /* State Check */
- updateKeyStates();
- /* Main reflowing logics */
- //Add delay to the end of each conditions so each loop cycle is approximate 100ms
- if (reflowing && reflowStages < 10) {
- //Automatic Reflow
- handleReflowProcedures();
- } else if (reflowing && reflowStages >= 10) {
- //Desolder hotplate
- handleDesolderProcedures();
- } else {
- /* Standby Mode */
- digitalWrite(HEATER_PIN, LOW);
- blinkYellow = true;
- delay(100); //adjust this if needed to make sure reflow cycles use the same time as standby cycles
- }
- /* Blink Signal Handlers */
- handleLEDBlinking();
- /*
- Cycle Counter
- Counter are limited to 600 to prevent overflow.
- */
- cycleCounter++;
- if (cycleCounter > 600) {
- cycleCounter = 0;
- }
- }
|