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https://github.com/espressif/esp-idf.git
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driver: Add esp32c3 ADC driver
Based on internal commit 3ef01301fffa552d4be6d81bc9d199c223224305
This commit is contained in:
Angus Gratton
@@ -20,13 +20,6 @@
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/*---------------------------------------------------------------
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Digital controller setting
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---------------------------------------------------------------*/
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void adc_hal_digi_init(void)
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{
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adc_hal_init();
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adc_ll_digi_set_clk_div(SOC_ADC_DIGI_SAR_CLK_DIV_DEFAULT);
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}
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void adc_hal_digi_deinit(void)
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{
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adc_ll_digi_trigger_disable(); // boss
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@@ -40,37 +33,29 @@ void adc_hal_digi_deinit(void)
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adc_hal_deinit();
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}
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static inline void adc_set_init_code(adc_ll_num_t adc_n, adc_channel_t channel, adc_atten_t atten)
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{
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uint32_t cal_val = adc_hal_calibration(adc_n, channel, atten, true, false);
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adc_hal_set_calibration_param(adc_n, cal_val);
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}
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void adc_hal_digi_controller_config(const adc_digi_config_t *cfg)
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{
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//only one pattern table is supported on C3, but LL still needs one argument.
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const int pattern_both = 0;
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/* If enable digtal controller, adc xpd should always on. */
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adc_ll_set_power_manage(ADC_POWER_SW_ON);
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/* Single channel mode or multi channel mode. */
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adc_ll_digi_set_convert_mode(cfg->conv_mode);
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if (cfg->conv_mode & ADC_CONV_SINGLE_UNIT_1) {
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if (cfg->adc1_pattern_len) {
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adc_ll_digi_clear_pattern_table(ADC_NUM_1);
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adc_ll_digi_set_pattern_table_len(ADC_NUM_1, cfg->adc1_pattern_len);
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for (int i = 0; i < cfg->adc1_pattern_len; i++) {
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adc_ll_digi_set_pattern_table(ADC_NUM_1, i, cfg->adc1_pattern[i]);
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}
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if (cfg->adc_pattern_len) {
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adc_ll_digi_clear_pattern_table(pattern_both);
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adc_ll_digi_set_pattern_table_len(pattern_both, cfg->adc_pattern_len);
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for (int i = 0; i < cfg->adc_pattern_len; i++) {
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adc_ll_digi_set_pattern_table(pattern_both, i, cfg->adc_pattern[i]);
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adc_set_init_code(pattern_both, cfg->adc_pattern[i].channel, cfg->adc_pattern[i].atten);
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}
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}
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if (cfg->conv_mode & ADC_CONV_SINGLE_UNIT_2) {
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if (cfg->adc2_pattern_len) {
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adc_ll_digi_clear_pattern_table(ADC_NUM_2);
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adc_ll_digi_set_pattern_table_len(ADC_NUM_2, cfg->adc2_pattern_len);
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for (int i = 0; i < cfg->adc2_pattern_len; i++) {
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adc_ll_digi_set_pattern_table(ADC_NUM_2, i, cfg->adc2_pattern[i]);
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}
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}
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}
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if (cfg->conv_mode & ADC_CONV_SINGLE_UNIT_1) {
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adc_ll_set_controller(ADC_NUM_1, ADC_CTRL_DIG);
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}
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if (cfg->conv_mode & ADC_CONV_SINGLE_UNIT_2) {
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adc_ll_set_controller(ADC_NUM_2, ADC_CTRL_DIG);
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}
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adc_ll_digi_set_output_format(cfg->format);
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adc_ll_set_controller(pattern_both, ADC_CTRL_DIG);
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if (cfg->conv_limit_en) {
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adc_ll_digi_set_convert_limit_num(cfg->conv_limit_num);
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adc_ll_digi_convert_limit_enable();
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@@ -80,7 +65,6 @@ void adc_hal_digi_controller_config(const adc_digi_config_t *cfg)
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adc_ll_digi_set_trigger_interval(cfg->interval);
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adc_hal_digi_clk_config(&cfg->dig_clk);
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adc_ll_digi_dma_set_eof_num(cfg->dma_eof_num);
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}
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/**
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@@ -154,27 +138,44 @@ void adc_hal_arbiter_config(adc_arbiter_t *config)
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/*---------------------------------------------------------------
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ADC calibration setting
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---------------------------------------------------------------*/
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#define ADC_HAL_CAL_TIMES (10)
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#define ADC_HAL_CAL_OFFSET_RANGE (4096)
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static uint32_t read_cal_channel(adc_ll_num_t adc_n, int channel)
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#define ADC_HAL_CAL_OFFSET_RANGE (4096)
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#define ADC_HAL_CAL_TIMES (10)
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static uint16_t s_adc_cali_param[ADC_NUM_MAX][ADC_ATTEN_MAX] = { {0}, {0} };
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static uint32_t adc_hal_read_self_cal(adc_ll_num_t adc_n, int channel)
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{
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adc_ll_rtc_start_convert(adc_n, channel);
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while (adc_ll_rtc_convert_is_done(adc_n) != true);
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return (uint32_t)adc_ll_rtc_get_convert_value(adc_n);
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}
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uint32_t adc_hal_self_calibration(adc_ll_num_t adc_n, adc_channel_t channel, adc_atten_t atten, bool internal_gnd)
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uint32_t adc_hal_calibration(adc_ll_num_t adc_n, adc_channel_t channel, adc_atten_t atten, bool internal_gnd, bool force_cal)
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{
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adc_hal_set_power_manage(ADC_POWER_SW_ON);
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if (!force_cal) {
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if (s_adc_cali_param[adc_n][atten]) {
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return (uint32_t)s_adc_cali_param[adc_n][atten];
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}
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}
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uint32_t code_list[ADC_HAL_CAL_TIMES] = {0};
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uint32_t code_sum = 0;
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uint32_t code_h = 0;
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uint32_t code_l = 0;
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uint32_t chk_code = 0;
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uint32_t dout = 0;
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adc_hal_set_power_manage(ADC_POWER_SW_ON);
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if (adc_n == ADC_NUM_2) {
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adc_arbiter_t config = ADC_ARBITER_CONFIG_DEFAULT();
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adc_hal_arbiter_config(&config);
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}
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adc_hal_set_controller(adc_n, ADC_CTRL_RTC); //Set controller
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// adc_hal_arbiter_config(adc_arbiter_t *config)
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adc_ll_calibration_prepare(adc_n, channel, internal_gnd);
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/* Enable/disable internal connect GND (for calibration). */
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if (internal_gnd) {
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adc_ll_rtc_disable_channel(adc_n, channel);
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@@ -184,31 +185,25 @@ uint32_t adc_hal_self_calibration(adc_ll_num_t adc_n, adc_channel_t channel, adc
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adc_ll_set_atten(adc_n, channel, atten);
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}
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uint32_t code_list[ADC_HAL_CAL_TIMES] = {0};
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uint32_t code_sum = 0;
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uint32_t code_h = 0;
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uint32_t code_l = 0;
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uint32_t chk_code = 0;
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for (uint8_t rpt = 0 ; rpt < ADC_HAL_CAL_TIMES ; rpt ++) {
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code_h = ADC_HAL_CAL_OFFSET_RANGE;
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code_l = 0;
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chk_code = (code_h + code_l) / 2;
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adc_ll_set_calibration_param(adc_n, chk_code);
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uint32_t self_cal = read_cal_channel(adc_n, channel);
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dout = adc_hal_read_self_cal(adc_n, channel);
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while (code_h - code_l > 1) {
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if (self_cal == 0) {
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if (dout == 0) {
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code_h = chk_code;
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} else {
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code_l = chk_code;
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}
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chk_code = (code_h + code_l) / 2;
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adc_ll_set_calibration_param(adc_n, chk_code);
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self_cal = read_cal_channel(adc_n, channel);
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dout = adc_hal_read_self_cal(adc_n, channel);
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if ((code_h - code_l == 1)) {
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chk_code += 1;
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adc_ll_set_calibration_param(adc_n, chk_code);
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self_cal = read_cal_channel(adc_n, channel);
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dout = adc_hal_read_self_cal(adc_n, channel);
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}
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}
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code_list[rpt] = chk_code;
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@@ -225,10 +220,12 @@ uint32_t adc_hal_self_calibration(adc_ll_num_t adc_n, adc_channel_t channel, adc
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}
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}
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chk_code = code_h + code_l;
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uint32_t ret = ((code_sum - chk_code) % (ADC_HAL_CAL_TIMES - 2) < 4)
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dout = ((code_sum - chk_code) % (ADC_HAL_CAL_TIMES - 2) < 4)
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? (code_sum - chk_code) / (ADC_HAL_CAL_TIMES - 2)
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: (code_sum - chk_code) / (ADC_HAL_CAL_TIMES - 2) + 1;
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adc_ll_set_calibration_param(adc_n, dout);
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adc_ll_calibration_finish(adc_n);
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return ret;
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s_adc_cali_param[adc_n][atten] = (uint16_t)dout;
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return dout;
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}
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