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@ -874,7 +874,7 @@ void Temperature::manage_heater() {
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// Derived from RepRap FiveD extruder::getTemperature()
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// Derived from RepRap FiveD extruder::getTemperature()
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// For hot end temperature measurement.
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// For hot end temperature measurement.
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float Temperature::analog2temp(int raw, uint8_t e) {
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float Temperature::analog2temp(const int raw, const uint8_t e) {
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#if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
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#if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
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if (e > HOTENDS)
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if (e > HOTENDS)
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#else
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#else
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@ -915,39 +915,41 @@ float Temperature::analog2temp(int raw, uint8_t e) {
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return ((raw * ((5.0 * 100.0) / 1024.0) / OVERSAMPLENR) * (TEMP_SENSOR_AD595_GAIN)) + TEMP_SENSOR_AD595_OFFSET;
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return ((raw * ((5.0 * 100.0) / 1024.0) / OVERSAMPLENR) * (TEMP_SENSOR_AD595_GAIN)) + TEMP_SENSOR_AD595_OFFSET;
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}
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}
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// Derived from RepRap FiveD extruder::getTemperature()
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#if HAS_TEMP_BED
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// For bed temperature measurement.
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// Derived from RepRap FiveD extruder::getTemperature()
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float Temperature::analog2tempBed(const int raw) {
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// For bed temperature measurement.
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#if ENABLED(BED_USES_THERMISTOR)
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float Temperature::analog2tempBed(const int raw) {
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float celsius = 0;
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#if ENABLED(BED_USES_THERMISTOR)
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byte i;
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float celsius = 0;
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byte i;
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for (i = 1; i < BEDTEMPTABLE_LEN; i++) {
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if (PGM_RD_W(BEDTEMPTABLE[i][0]) > raw) {
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for (i = 1; i < BEDTEMPTABLE_LEN; i++) {
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celsius = PGM_RD_W(BEDTEMPTABLE[i - 1][1]) +
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if (PGM_RD_W(BEDTEMPTABLE[i][0]) > raw) {
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(raw - PGM_RD_W(BEDTEMPTABLE[i - 1][0])) *
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celsius = PGM_RD_W(BEDTEMPTABLE[i - 1][1]) +
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(float)(PGM_RD_W(BEDTEMPTABLE[i][1]) - PGM_RD_W(BEDTEMPTABLE[i - 1][1])) /
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(raw - PGM_RD_W(BEDTEMPTABLE[i - 1][0])) *
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(float)(PGM_RD_W(BEDTEMPTABLE[i][0]) - PGM_RD_W(BEDTEMPTABLE[i - 1][0]));
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(float)(PGM_RD_W(BEDTEMPTABLE[i][1]) - PGM_RD_W(BEDTEMPTABLE[i - 1][1])) /
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break;
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(float)(PGM_RD_W(BEDTEMPTABLE[i][0]) - PGM_RD_W(BEDTEMPTABLE[i - 1][0]));
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break;
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}
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}
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}
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}
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// Overflow: Set to last value in the table
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// Overflow: Set to last value in the table
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if (i == BEDTEMPTABLE_LEN) celsius = PGM_RD_W(BEDTEMPTABLE[i - 1][1]);
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if (i == BEDTEMPTABLE_LEN) celsius = PGM_RD_W(BEDTEMPTABLE[i - 1][1]);
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return celsius;
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return celsius;
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#elif defined(BED_USES_AD595)
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#elif defined(BED_USES_AD595)
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return ((raw * ((5.0 * 100.0) / 1024.0) / OVERSAMPLENR) * (TEMP_SENSOR_AD595_GAIN)) + TEMP_SENSOR_AD595_OFFSET;
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return ((raw * ((5.0 * 100.0) / 1024.0) / OVERSAMPLENR) * (TEMP_SENSOR_AD595_GAIN)) + TEMP_SENSOR_AD595_OFFSET;
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#else
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#else
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UNUSED(raw);
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UNUSED(raw);
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return 0;
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return 0;
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#endif
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#endif
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}
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}
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#endif // HAS_TEMP_BED
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/**
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/**
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* Get the raw values into the actual temperatures.
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* Get the raw values into the actual temperatures.
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@ -1234,24 +1236,26 @@ void Temperature::init() {
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#endif // HOTENDS > 2
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#endif // HOTENDS > 2
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#endif // HOTENDS > 1
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#endif // HOTENDS > 1
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#ifdef BED_MINTEMP
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#if HAS_TEMP_BED
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while (analog2tempBed(bed_minttemp_raw) < BED_MINTEMP) {
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#ifdef BED_MINTEMP
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#if HEATER_BED_RAW_LO_TEMP < HEATER_BED_RAW_HI_TEMP
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while (analog2tempBed(bed_minttemp_raw) < BED_MINTEMP) {
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bed_minttemp_raw += OVERSAMPLENR;
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#if HEATER_BED_RAW_LO_TEMP < HEATER_BED_RAW_HI_TEMP
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#else
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bed_minttemp_raw += OVERSAMPLENR;
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bed_minttemp_raw -= OVERSAMPLENR;
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#else
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#endif
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bed_minttemp_raw -= OVERSAMPLENR;
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}
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#endif
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#endif // BED_MINTEMP
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}
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#ifdef BED_MAXTEMP
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#endif // BED_MINTEMP
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while (analog2tempBed(bed_maxttemp_raw) > BED_MAXTEMP) {
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#ifdef BED_MAXTEMP
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#if HEATER_BED_RAW_LO_TEMP < HEATER_BED_RAW_HI_TEMP
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while (analog2tempBed(bed_maxttemp_raw) > BED_MAXTEMP) {
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bed_maxttemp_raw -= OVERSAMPLENR;
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#if HEATER_BED_RAW_LO_TEMP < HEATER_BED_RAW_HI_TEMP
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#else
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bed_maxttemp_raw -= OVERSAMPLENR;
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bed_maxttemp_raw += OVERSAMPLENR;
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#else
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#endif
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bed_maxttemp_raw += OVERSAMPLENR;
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}
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#endif
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#endif // BED_MAXTEMP
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}
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#endif // BED_MAXTEMP
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#endif //HAS_TEMP_BED
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#if ENABLED(PROBING_HEATERS_OFF)
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#if ENABLED(PROBING_HEATERS_OFF)
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paused = false;
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paused = false;
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