Use native ADC resolution where possible (#15719)
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9201197878
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a84e3d1b80
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@ -25,6 +25,8 @@
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#include HAL_PATH(.,HAL.h)
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#define HAL_ADC_RANGE _BV(HAL_ADC_RESOLUTION)
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inline void watchdog_refresh() {
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#if ENABLED(USE_WATCHDOG)
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HAL_watchdog_refresh();
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@ -365,6 +365,7 @@ inline void HAL_adc_init() {
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#define HAL_START_ADC(pin) ADCSRB = 0; SET_ADMUX_ADCSRA(pin)
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#endif
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#define HAL_ADC_RESOLUTION 10
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#define HAL_READ_ADC() ADC
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#define HAL_ADC_READY() !TEST(ADCSRA, ADSC)
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@ -133,6 +133,7 @@ extern uint16_t HAL_adc_result; // result of last ADC conversion
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inline void HAL_adc_init() {}//todo
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#define HAL_START_ADC(pin) HAL_adc_start_conversion(pin)
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#define HAL_ADC_RESOLUTION 10
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#define HAL_READ_ADC() HAL_adc_result
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#define HAL_ADC_READY() true
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@ -111,6 +111,7 @@ void eeprom_update_block (const void *__src, void *__dst, size_t __n);
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void HAL_adc_init();
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#define HAL_START_ADC(pin) HAL_adc_start_conversion(pin)
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#define HAL_ADC_RESOLUTION 10
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#define HAL_READ_ADC() HAL_adc_result
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#define HAL_ADC_READY() true
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@ -89,6 +89,7 @@ int freeMemory();
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// ADC
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#define HAL_ANALOG_SELECT(pin) HAL_adc_enable_channel(pin)
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#define HAL_START_ADC(pin) HAL_adc_start_conversion(pin)
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#define HAL_ADC_RESOLUTION 10
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#define HAL_READ_ADC() HAL_adc_get_result()
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#define HAL_ADC_READY() true
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@ -131,11 +131,14 @@ int freeMemory();
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// K = 6, 565 samples, 500Hz sample rate, 1.13s convergence on full range step
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// Memory usage per ADC channel (bytes): 4 (32 Bytes for 8 channels)
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using FilteredADC = LPC176x::ADC<ADC_LOWPASS_K_VALUE, ADC_MEDIAN_FILTER_SIZE>;
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#define HAL_ADC_RESULT_BITS 12 // 15 bit maximum, raw temperature is stored as int16_t
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#define HAL_ADC_FILTERED // Disable oversampling done in Marlin as ADC values already filtered in HAL
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#define HAL_ADC_RESOLUTION HAL_ADC_RESULT_BITS
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using FilteredADC = LPC176x::ADC<ADC_LOWPASS_K_VALUE, ADC_MEDIAN_FILTER_SIZE>;
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extern uint32_t HAL_adc_reading;
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[[gnu::always_inline]] inline void HAL_start_adc(const pin_t pin) {
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HAL_adc_reading = FilteredADC::read(pin) >> 6; // returns 16bit value, reduce to 10bit
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HAL_adc_reading = FilteredADC::read(pin) >> (16 - HAL_ADC_RESULT_BITS); // returns 16bit value, reduce to required bits
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}
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[[gnu::always_inline]] inline uint16_t HAL_read_adc() {
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return HAL_adc_reading;
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@ -110,6 +110,7 @@ extern uint16_t HAL_adc_result; // result of last ADC conversion
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void HAL_adc_init();
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#define HAL_START_ADC(pin) HAL_adc_start_conversion(pin)
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#define HAL_ADC_RESOLUTION 10
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#define HAL_READ_ADC() HAL_adc_result
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#define HAL_ADC_READY() true
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@ -188,6 +188,7 @@ void eeprom_update_block(const void *__src, void *__dst, size_t __n);
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inline void HAL_adc_init() {}
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#define HAL_START_ADC(pin) HAL_adc_start_conversion(pin)
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#define HAL_ADC_RESOLUTION 10
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#define HAL_READ_ADC() HAL_adc_result
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#define HAL_ADC_READY() true
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@ -238,6 +238,7 @@ void eeprom_update_block(const void *__src, void *__dst, size_t __n);
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void HAL_adc_init();
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#define HAL_START_ADC(pin) HAL_adc_start_conversion(pin)
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#define HAL_ADC_RESOLUTION 10
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#define HAL_READ_ADC() HAL_adc_result
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#define HAL_ADC_READY() true
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@ -208,6 +208,7 @@ void eeprom_update_block (const void *__src, void *__dst, size_t __n);
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inline void HAL_adc_init() {}
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#define HAL_START_ADC(pin) HAL_adc_start_conversion(pin)
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#define HAL_ADC_RESOLUTION 10
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#define HAL_READ_ADC() HAL_adc_result
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#define HAL_ADC_READY() true
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@ -109,6 +109,7 @@ extern "C" {
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void HAL_adc_init();
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#define HAL_START_ADC(pin) HAL_adc_start_conversion(pin)
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#define HAL_ADC_RESOLUTION 10
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#define HAL_READ_ADC() HAL_adc_get_result()
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#define HAL_ADC_READY() true
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@ -115,6 +115,7 @@ extern "C" {
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void HAL_adc_init();
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#define HAL_START_ADC(pin) HAL_adc_start_conversion(pin)
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#define HAL_ADC_RESOLUTION 10
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#define HAL_READ_ADC() HAL_adc_get_result()
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#define HAL_ADC_READY() true
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@ -23,6 +23,7 @@
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#include "../inc/MarlinConfig.h"
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#include "../module/planner.h"
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#include "../module/thermistor/thermistors.h"
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class FilamentWidthSensor {
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public:
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@ -66,7 +67,7 @@ public:
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}
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// Convert raw measurement to mm
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static inline float raw_to_mm(const uint16_t v) { return v * 5.0f * RECIPROCAL(16383.0f); }
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static inline float raw_to_mm(const uint16_t v) { return v * 5.0f * RECIPROCAL(float(MAX_RAW_THERMISTOR_VALUE)); }
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static inline float raw_to_mm() { return raw_to_mm(raw); }
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// A scaled reading is ready
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@ -103,6 +103,10 @@
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#include "../feature/tmc_util.h"
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#endif
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#if HAS_ADC_BUTTONS
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#include "../module/thermistor/thermistors.h"
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#endif
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#if HAS_ENCODER_ACTION
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volatile uint8_t MarlinUI::buttons;
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#if HAS_SLOW_BUTTONS
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@ -1102,31 +1106,33 @@ void MarlinUI::update() {
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#endif
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// Calculate the ADC value for the voltage divider with specified pull-down resistor value
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#define ADC_BUTTON_VALUE(r) (int(4096.0 * (ADC_BUTTONS_VALUE_SCALE) * r / (r + ADC_BUTTONS_R_PULLUP)))
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#define ADC_BUTTON_VALUE(r) int(HAL_ADC_RANGE * (ADC_BUTTONS_VALUE_SCALE) * r / (r + ADC_BUTTONS_R_PULLUP))
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static constexpr uint16_t adc_button_tolerance = HAL_ADC_RANGE * 25 / 1024,
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adc_other_button = HAL_ADC_RANGE * 1000 / 1024;
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static const _stADCKeypadTable_ stADCKeyTable[] PROGMEM = {
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// VALUE_MIN, VALUE_MAX, KEY
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{ 4000, 4096, 1 + BLEN_KEYPAD_F1 }, // F1
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{ 4000, 4096, 1 + BLEN_KEYPAD_F2 }, // F2
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{ 4000, 4096, 1 + BLEN_KEYPAD_F3 }, // F3
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{ ADC_BUTTON_VALUE(ADC_BUTTONS_LEFT_R_PULLDOWN) - 100,
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ADC_BUTTON_VALUE(ADC_BUTTONS_LEFT_R_PULLDOWN) + 100, 1 + BLEN_KEYPAD_LEFT }, // LEFT ( 272 ... 472)
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{ ADC_BUTTON_VALUE(ADC_BUTTONS_RIGHT_R_PULLDOWN) - 100,
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ADC_BUTTON_VALUE(ADC_BUTTONS_RIGHT_R_PULLDOWN) + 100, 1 + BLEN_KEYPAD_RIGHT }, // RIGHT (1948 ... 2148)
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{ ADC_BUTTON_VALUE(ADC_BUTTONS_UP_R_PULLDOWN) - 100,
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ADC_BUTTON_VALUE(ADC_BUTTONS_UP_R_PULLDOWN) + 100, 1 + BLEN_KEYPAD_UP }, // UP ( 618 ... 818)
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{ ADC_BUTTON_VALUE(ADC_BUTTONS_DOWN_R_PULLDOWN) - 100,
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ADC_BUTTON_VALUE(ADC_BUTTONS_DOWN_R_PULLDOWN) + 100, 1 + BLEN_KEYPAD_DOWN }, // DOWN (2686 ... 2886)
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{ ADC_BUTTON_VALUE(ADC_BUTTONS_MIDDLE_R_PULLDOWN) - 100,
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ADC_BUTTON_VALUE(ADC_BUTTONS_MIDDLE_R_PULLDOWN) + 100, 1 + BLEN_KEYPAD_MIDDLE }, // ENTER (1205 ... 1405)
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{ adc_other_button, HAL_ADC_RANGE, 1 + BLEN_KEYPAD_F1 }, // F1
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{ adc_other_button, HAL_ADC_RANGE, 1 + BLEN_KEYPAD_F2 }, // F2
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{ adc_other_button, HAL_ADC_RANGE, 1 + BLEN_KEYPAD_F3 }, // F3
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{ ADC_BUTTON_VALUE(ADC_BUTTONS_LEFT_R_PULLDOWN) - adc_button_tolerance,
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ADC_BUTTON_VALUE(ADC_BUTTONS_LEFT_R_PULLDOWN) + adc_button_tolerance, 1 + BLEN_KEYPAD_LEFT }, // LEFT ( 272 ... 472)
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{ ADC_BUTTON_VALUE(ADC_BUTTONS_RIGHT_R_PULLDOWN) - adc_button_tolerance,
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ADC_BUTTON_VALUE(ADC_BUTTONS_RIGHT_R_PULLDOWN) + adc_button_tolerance, 1 + BLEN_KEYPAD_RIGHT }, // RIGHT (1948 ... 2148)
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{ ADC_BUTTON_VALUE(ADC_BUTTONS_UP_R_PULLDOWN) - adc_button_tolerance,
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ADC_BUTTON_VALUE(ADC_BUTTONS_UP_R_PULLDOWN) + adc_button_tolerance, 1 + BLEN_KEYPAD_UP }, // UP ( 618 ... 818)
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{ ADC_BUTTON_VALUE(ADC_BUTTONS_DOWN_R_PULLDOWN) - adc_button_tolerance,
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ADC_BUTTON_VALUE(ADC_BUTTONS_DOWN_R_PULLDOWN) + adc_button_tolerance, 1 + BLEN_KEYPAD_DOWN }, // DOWN (2686 ... 2886)
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{ ADC_BUTTON_VALUE(ADC_BUTTONS_MIDDLE_R_PULLDOWN) - adc_button_tolerance,
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ADC_BUTTON_VALUE(ADC_BUTTONS_MIDDLE_R_PULLDOWN) + adc_button_tolerance, 1 + BLEN_KEYPAD_MIDDLE }, // ENTER (1205 ... 1405)
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};
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uint8_t get_ADC_keyValue() {
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if (thermalManager.ADCKey_count >= 16) {
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const uint16_t currentkpADCValue = thermalManager.current_ADCKey_raw << 2;
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thermalManager.current_ADCKey_raw = 1024;
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const uint16_t currentkpADCValue = thermalManager.current_ADCKey_raw;
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thermalManager.current_ADCKey_raw = HAL_ADC_RANGE;
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thermalManager.ADCKey_count = 0;
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if (currentkpADCValue < 4000)
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if (currentkpADCValue < adc_other_button)
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for (uint8_t i = 0; i < ADC_KEY_NUM; i++) {
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const uint16_t lo = pgm_read_word(&stADCKeyTable[i].ADCKeyValueMin),
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hi = pgm_read_word(&stADCKeyTable[i].ADCKeyValueMax);
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@ -302,7 +302,7 @@ volatile bool Temperature::temp_meas_ready = false;
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// public:
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#if HAS_ADC_BUTTONS
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uint32_t Temperature::current_ADCKey_raw = 1024;
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uint32_t Temperature::current_ADCKey_raw = HAL_ADC_RANGE;
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uint8_t Temperature::ADCKey_count = 0;
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#endif
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}
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// maximum adc value .. take into account the over sampling
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const int adc_max = (THERMISTOR_ADC_RESOLUTION * OVERSAMPLENR) - 1,
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const int adc_max = MAX_RAW_THERMISTOR_VALUE,
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adc_raw = constrain(raw, 1, adc_max - 1); // constrain to prevent divide-by-zero
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const float adc_inverse = (adc_max - adc_raw) - 0.5f,
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next_sensor_state = adc_sensor_state; // redo this state
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else if (ADCKey_count < 16) {
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raw_ADCKey_value = HAL_READ_ADC();
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if (raw_ADCKey_value <= 900) {
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if (raw_ADCKey_value <= 900UL * HAL_ADC_RANGE / 1024UL) {
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NOMORE(current_ADCKey_raw, raw_ADCKey_value);
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ADCKey_count++;
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}
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if (ADCKey_count > 0) ADCKey_count++; else ADCKey_pressed = false;
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if (ADCKey_pressed) {
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ADCKey_count = 0;
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current_ADCKey_raw = 1024;
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current_ADCKey_raw = HAL_ADC_RANGE;
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}
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}
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}
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@ -217,7 +217,6 @@ typedef struct { int16_t raw_min, raw_max; } raw_range_t;
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typedef struct { int16_t mintemp, maxtemp; } celsius_range_t;
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typedef struct { int16_t raw_min, raw_max, mintemp, maxtemp; } temp_range_t;
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#define THERMISTOR_ADC_RESOLUTION 1024 // 10-bit ADC .. shame to waste 12-bits of resolution on 32-bit
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#define THERMISTOR_ABS_ZERO_C -273.15f // bbbbrrrrr cold !
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#define THERMISTOR_RESISTANCE_NOMINAL_C 25.0f // mmmmm comfortable
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@ -23,8 +23,21 @@
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#include "../../inc/MarlinConfig.h"
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#define THERMISTOR_TABLE_ADC_RESOLUTION 1024
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#define THERMISTOR_TABLE_SCALE (HAL_ADC_RANGE / (THERMISTOR_TABLE_ADC_RESOLUTION))
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#if ENABLED(HAL_ADC_FILTERED)
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#define OVERSAMPLENR 1
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#else
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#define OVERSAMPLENR 16
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#define OV(N) int16_t((N) * (OVERSAMPLENR))
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#endif
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#define MAX_RAW_THERMISTOR_VALUE (HAL_ADC_RANGE * (OVERSAMPLENR) - 1)
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// Currently Marlin stores all oversampled ADC values as int16_t, make sure the HAL settings do not overflow 15bit
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#if MAX_RAW_THERMISTOR_VALUE > ((1 << 15) - 1)
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#error "MAX_RAW_THERMISTOR_VALUE is too large for int16_t. Reduce OVERSAMPLENR or HAL_ADC_RESOLUTION."
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#endif
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#define OV(N) int16_t((N) * (OVERSAMPLENR) * (THERMISTOR_TABLE_SCALE))
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#define ANY_THERMISTOR_IS(n) (THERMISTOR_HEATER_0 == n || THERMISTOR_HEATER_1 == n || THERMISTOR_HEATER_2 == n || THERMISTOR_HEATER_3 == n || THERMISTOR_HEATER_4 == n || THERMISTOR_HEATER_5 == n || THERMISTORBED == n || THERMISTORCHAMBER == n)
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// For thermocouples the highest temperature results in the highest ADC value
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#ifndef HEATER_0_RAW_HI_TEMP
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#if defined(REVERSE_TEMP_SENSOR_RANGE) || !defined(HEATER_0_USES_THERMISTOR)
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#define HEATER_0_RAW_HI_TEMP 16383
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#define HEATER_0_RAW_HI_TEMP MAX_RAW_THERMISTOR_VALUE
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#define HEATER_0_RAW_LO_TEMP 0
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#else
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#define HEATER_0_RAW_HI_TEMP 0
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#define HEATER_0_RAW_LO_TEMP 16383
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#define HEATER_0_RAW_LO_TEMP MAX_RAW_THERMISTOR_VALUE
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#endif
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#endif
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#ifndef HEATER_1_RAW_HI_TEMP
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#if defined(REVERSE_TEMP_SENSOR_RANGE) || !defined(HEATER_1_USES_THERMISTOR)
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#define HEATER_1_RAW_HI_TEMP 16383
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#define HEATER_1_RAW_HI_TEMP MAX_RAW_THERMISTOR_VALUE
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#define HEATER_1_RAW_LO_TEMP 0
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#else
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#define HEATER_1_RAW_HI_TEMP 0
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#define HEATER_1_RAW_LO_TEMP 16383
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#define HEATER_1_RAW_LO_TEMP MAX_RAW_THERMISTOR_VALUE
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#endif
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#endif
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#ifndef HEATER_2_RAW_HI_TEMP
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#if defined(REVERSE_TEMP_SENSOR_RANGE) || !defined(HEATER_2_USES_THERMISTOR)
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#define HEATER_2_RAW_HI_TEMP 16383
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#define HEATER_2_RAW_HI_TEMP MAX_RAW_THERMISTOR_VALUE
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#define HEATER_2_RAW_LO_TEMP 0
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#else
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#define HEATER_2_RAW_HI_TEMP 0
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#define HEATER_2_RAW_LO_TEMP 16383
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#define HEATER_2_RAW_LO_TEMP MAX_RAW_THERMISTOR_VALUE
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#endif
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#endif
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#ifndef HEATER_3_RAW_HI_TEMP
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#if defined(REVERSE_TEMP_SENSOR_RANGE) || !defined(HEATER_3_USES_THERMISTOR)
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#define HEATER_3_RAW_HI_TEMP 16383
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#define HEATER_3_RAW_HI_TEMP MAX_RAW_THERMISTOR_VALUE
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#define HEATER_3_RAW_LO_TEMP 0
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#else
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#define HEATER_3_RAW_HI_TEMP 0
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#define HEATER_3_RAW_LO_TEMP 16383
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#define HEATER_3_RAW_LO_TEMP MAX_RAW_THERMISTOR_VALUE
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#endif
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#endif
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#ifndef HEATER_4_RAW_HI_TEMP
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#if defined(REVERSE_TEMP_SENSOR_RANGE) || !defined(HEATER_4_USES_THERMISTOR)
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#define HEATER_4_RAW_HI_TEMP 16383
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#define HEATER_4_RAW_HI_TEMP MAX_RAW_THERMISTOR_VALUE
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#define HEATER_4_RAW_LO_TEMP 0
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#else
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#define HEATER_4_RAW_HI_TEMP 0
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#define HEATER_4_RAW_LO_TEMP 16383
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#define HEATER_4_RAW_LO_TEMP MAX_RAW_THERMISTOR_VALUE
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#endif
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#endif
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#ifndef HEATER_5_RAW_HI_TEMP
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#if defined(REVERSE_TEMP_SENSOR_RANGE) || !defined(HEATER_5_USES_THERMISTOR)
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#define HEATER_5_RAW_HI_TEMP 16383
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#define HEATER_5_RAW_HI_TEMP MAX_RAW_THERMISTOR_VALUE
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#define HEATER_5_RAW_LO_TEMP 0
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#else
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#define HEATER_5_RAW_HI_TEMP 0
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#define HEATER_5_RAW_LO_TEMP 16383
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#define HEATER_5_RAW_LO_TEMP MAX_RAW_THERMISTOR_VALUE
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#endif
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#endif
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#ifndef HEATER_BED_RAW_HI_TEMP
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#if defined(REVERSE_TEMP_SENSOR_RANGE) || !defined(HEATER_BED_USES_THERMISTOR)
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#define HEATER_BED_RAW_HI_TEMP 16383
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#define HEATER_BED_RAW_HI_TEMP MAX_RAW_THERMISTOR_VALUE
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#define HEATER_BED_RAW_LO_TEMP 0
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#else
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#define HEATER_BED_RAW_HI_TEMP 0
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#define HEATER_BED_RAW_LO_TEMP 16383
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#define HEATER_BED_RAW_LO_TEMP MAX_RAW_THERMISTOR_VALUE
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#endif
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#endif
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#ifndef HEATER_CHAMBER_RAW_HI_TEMP
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#if defined(REVERSE_TEMP_SENSOR_RANGE) || !defined(HEATER_CHAMBER_USES_THERMISTOR)
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#define HEATER_CHAMBER_RAW_HI_TEMP 16383
|
||||
#define HEATER_CHAMBER_RAW_HI_TEMP MAX_RAW_THERMISTOR_VALUE
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#define HEATER_CHAMBER_RAW_LO_TEMP 0
|
||||
#else
|
||||
#define HEATER_CHAMBER_RAW_HI_TEMP 0
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||||
#define HEATER_CHAMBER_RAW_LO_TEMP 16383
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||||
#define HEATER_CHAMBER_RAW_LO_TEMP MAX_RAW_THERMISTOR_VALUE
|
||||
#endif
|
||||
#endif
|
||||
|
||||
|
|
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Reference in a new issue