Implementation of M190 bed temp hysteresis
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@ -192,11 +192,15 @@
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//#define TEMP_SENSOR_1_AS_REDUNDANT
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#define MAX_REDUNDANT_TEMP_SENSOR_DIFF 10
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// Actual temperature must be close to target for this long before M109 returns success
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// Actual temperature must be close to target for this long before M109/M190 returns success
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#define TEMP_RESIDENCY_TIME 10 // (seconds)
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#define TEMP_HYSTERESIS 3 // (degC) range of +/- temperatures considered "close" to the target one
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#define TEMP_WINDOW 1 // (degC) Window around target to start the residency timer x degC early.
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#define TEMP_BED_RESIDENCY_TIME 10 // (seconds)
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#define TEMP_BED_HYSTERESIS 3 // (degC) range of +/- temperatures considered "close" to the target one
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#define TEMP_BED_WINDOW 1 // (degC) Window around target to start the residency timer x degC early.
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// The minimal temperature defines the temperature below which the heater will not be enabled It is used
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// to check that the wiring to the thermistor is not broken.
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// Otherwise this would lead to the heater being powered on all the time.
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@ -4389,20 +4389,57 @@ inline void gcode_M109() {
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// Exit if S<lower>, continue if S<higher>, R<lower>, or R<higher>
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if (no_wait_for_cooling && wants_to_cool) return;
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#ifdef TEMP_BED_RESIDENCY_TIME
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millis_t residency_start_ms = 0;
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// Loop until the temperature has stabilized
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#define TEMP_BED_CONDITIONS (!residency_start_ms || PENDING(now, residency_start_ms + (TEMP_BED_RESIDENCY_TIME) * 1000UL))
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#else
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// Loop until the temperature is very close target
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#define TEMP_BED_CONDITIONS (wants_to_cool ? isCoolingBed() : isHeatingBed())
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#endif //TEMP_BED_RESIDENCY_TIME
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cancel_heatup = false;
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millis_t next_temp_ms = 0;
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millis_t now, next_temp_ms = 0;
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// Wait for temperature to come close enough
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do {
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millis_t now = millis();
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now = millis();
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if (ELAPSED(now, next_temp_ms)) { //Print Temp Reading every 1 second while heating up.
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next_temp_ms = now + 1000UL;
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print_heaterstates();
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SERIAL_EOL;
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#ifdef TEMP_BED_RESIDENCY_TIME
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SERIAL_PROTOCOLPGM(" W:");
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if (residency_start_ms) {
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long rem = (((TEMP_BED_RESIDENCY_TIME) * 1000UL) - (now - residency_start_ms)) / 1000UL;
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SERIAL_PROTOCOLLN(rem);
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}
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else {
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SERIAL_PROTOCOLLNPGM("?");
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}
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#else
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SERIAL_EOL;
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#endif
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}
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idle();
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refresh_cmd_timeout(); // to prevent stepper_inactive_time from running out
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} while (!cancel_heatup && (wants_to_cool ? isCoolingBed() : isHeatingBed()));
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#ifdef TEMP_BED_RESIDENCY_TIME
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float temp_diff = fabs(degBed() - degTargetBed());
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if (!residency_start_ms) {
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// Start the TEMP_BED_RESIDENCY_TIME timer when we reach target temp for the first time.
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if (temp_diff < TEMP_BED_WINDOW) residency_start_ms = millis();
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}
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else if (temp_diff > TEMP_BED_HYSTERESIS) {
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// Restart the timer whenever the temperature falls outside the hysteresis.
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residency_start_ms = millis();
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}
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#endif //TEMP_BED_RESIDENCY_TIME
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} while (!cancel_heatup && TEMP_BED_CONDITIONS);
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LCD_MESSAGEPGM(MSG_BED_DONE);
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}
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