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@ -67,6 +67,7 @@ |
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#define ADC_CAL_ADDRESS (0x1ffff7ba) |
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#define ADC_CAL1 ((uint16_t*)0x1ffff7b8) |
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#define ADC_CAL2 ((uint16_t*)0x1ffff7c2) |
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#define ADC_CAL_BITS (12) |
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#elif defined(STM32F4) |
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@ -76,6 +77,7 @@ |
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#define ADC_CAL_ADDRESS (0x1fff7a2a) |
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#define ADC_CAL1 ((uint16_t*)(ADC_CAL_ADDRESS + 2)) |
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#define ADC_CAL2 ((uint16_t*)(ADC_CAL_ADDRESS + 4)) |
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#define ADC_CAL_BITS (12) |
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#elif defined(STM32F7) |
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@ -91,6 +93,7 @@ |
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#define ADC_CAL1 ((uint16_t*)(ADC_CAL_ADDRESS + 2)) |
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#define ADC_CAL2 ((uint16_t*)(ADC_CAL_ADDRESS + 4)) |
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#define ADC_CAL_BITS (12) |
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#elif defined(STM32H7) |
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@ -100,6 +103,7 @@ |
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#define ADC_CAL_ADDRESS (0x1FF1E860) |
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#define ADC_CAL1 ((uint16_t*)(0x1FF1E820)) |
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#define ADC_CAL2 ((uint16_t*)(0x1FF1E840)) |
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#define ADC_CAL_BITS (16) |
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#define ADC_CHANNEL_VBAT ADC_CHANNEL_VBAT_DIV4 |
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#elif defined(STM32L4) |
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@ -110,6 +114,7 @@ |
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#define ADC_CAL_ADDRESS (0x1fff75aa) |
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#define ADC_CAL1 ((uint16_t*)(ADC_CAL_ADDRESS - 2)) |
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#define ADC_CAL2 ((uint16_t*)(ADC_CAL_ADDRESS + 0x20)) |
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#define ADC_CAL_BITS (12) |
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#else |
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@ -149,7 +154,7 @@ |
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#define CORE_TEMP_AVG_SLOPE (3) /* (2.5mv/3.3v)*(2^ADC resoultion) */ |
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// scale and calibration values for VBAT and VREF
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#define ADC_SCALE (ADC_SCALE_V / 4095) |
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#define ADC_SCALE (ADC_SCALE_V / ((1 << ADC_CAL_BITS) - 1)) |
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#define VREFIN_CAL ((uint16_t *)ADC_CAL_ADDRESS) |
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typedef struct _pyb_obj_adc_t { |
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@ -699,13 +704,14 @@ int adc_get_resolution(ADC_HandleTypeDef *adcHandle) { |
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return 12; |
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} |
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int adc_read_core_temp(ADC_HandleTypeDef *adcHandle) { |
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int32_t raw_value = adc_config_and_read_channel(adcHandle, ADC_CHANNEL_TEMPSENSOR); |
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// Note: constants assume 12-bit resolution, so we scale the raw value to
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// be 12-bits.
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raw_value <<= (12 - adc_get_resolution(adcHandle)); |
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STATIC uint32_t adc_config_and_read_ref(ADC_HandleTypeDef *adcHandle, uint32_t channel) { |
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uint32_t raw_value = adc_config_and_read_channel(adcHandle, channel); |
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// Scale raw reading to the number of bits used by the calibration constants
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return raw_value << (ADC_CAL_BITS - adc_get_resolution(adcHandle)); |
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} |
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int adc_read_core_temp(ADC_HandleTypeDef *adcHandle) { |
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int32_t raw_value = adc_config_and_read_ref(adcHandle, ADC_CHANNEL_TEMPSENSOR); |
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return ((raw_value - CORE_TEMP_V25) / CORE_TEMP_AVG_SLOPE) + 25; |
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} |
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@ -714,31 +720,18 @@ int adc_read_core_temp(ADC_HandleTypeDef *adcHandle) { |
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STATIC volatile float adc_refcor = 1.0f; |
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float adc_read_core_temp_float(ADC_HandleTypeDef *adcHandle) { |
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int32_t raw_value = adc_config_and_read_channel(adcHandle, ADC_CHANNEL_TEMPSENSOR); |
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// constants assume 12-bit resolution so we scale the raw value to 12-bits
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raw_value <<= (12 - adc_get_resolution(adcHandle)); |
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int32_t raw_value = adc_config_and_read_ref(adcHandle, ADC_CHANNEL_TEMPSENSOR); |
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float core_temp_avg_slope = (*ADC_CAL2 - *ADC_CAL1) / 80.0; |
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return (((float)raw_value * adc_refcor - *ADC_CAL1) / core_temp_avg_slope) + 30.0f; |
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} |
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float adc_read_core_vbat(ADC_HandleTypeDef *adcHandle) { |
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uint32_t raw_value = adc_config_and_read_channel(adcHandle, ADC_CHANNEL_VBAT); |
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// Note: constants assume 12-bit resolution, so we scale the raw value to
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// be 12-bits.
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raw_value <<= (12 - adc_get_resolution(adcHandle)); |
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uint32_t raw_value = adc_config_and_read_ref(adcHandle, ADC_CHANNEL_VBAT); |
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return raw_value * VBAT_DIV * ADC_SCALE * adc_refcor; |
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} |
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float adc_read_core_vref(ADC_HandleTypeDef *adcHandle) { |
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uint32_t raw_value = adc_config_and_read_channel(adcHandle, ADC_CHANNEL_VREFINT); |
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// Note: constants assume 12-bit resolution, so we scale the raw value to
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// be 12-bits.
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raw_value <<= (12 - adc_get_resolution(adcHandle)); |
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uint32_t raw_value = adc_config_and_read_ref(adcHandle, ADC_CHANNEL_VREFINT); |
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// update the reference correction factor
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adc_refcor = ((float)(*VREFIN_CAL)) / ((float)raw_value); |
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Damien George
6 years ago