#include "bsp/adc.h" #include "foc_type.h" #include "libs/utils.h" #include "libs/logger.h" #define NB_OFFSET_SAMPLES 32 #define Rvbus 0.0005f #define Gvbus (13.1f) //母线电流的运放 #define Rds_Defualt 0.005f//欧 #define Gmos (1.7f)//mos 电流的运放 #define Sample_R Rds_Defualt #define Lower_Pass_p 0.2f #define VBUS_VOL(adc) (((float)(adc)) * 3.3f / 4096.0f / Gvbus) #define MOSds_VOL(adc) (((float)(adc)) * 3.3f / 4096.0f / Gmos) #define current_i(v, r) ((v)/(r)) void phase_current_init(current_samp_t *cs) { cs->offset_sample_count = NB_OFFSET_SAMPLES; } void phase_current_offset(current_samp_t *cs) { #if 1 s32 phase_current1, phase_current2; adc_phase_current_read(cs->sector, &phase_current1, &phase_current2); if (cs->offset_sample_count > 0) { cs->offset_sample_count--; if (cs->sector == SECTOR_5 && cs->offset_sample_count >= 0) { cs->adc_offset_a += phase_current1; cs->adc_offset_c += phase_current2; if (cs->offset_sample_count == 0) { cs->adc_offset_a = cs->adc_offset_a / NB_OFFSET_SAMPLES; cs->adc_offset_c = cs->adc_offset_c / NB_OFFSET_SAMPLES; } } if (cs->sector == SECTOR_1 && cs->offset_sample_count >= 0) { cs->adc_offset_b += phase_current1; if (cs->offset_sample_count == 0) { cs->adc_offset_b = cs->adc_offset_b / NB_OFFSET_SAMPLES; } } } #else cs->adc_offset_a = adc_sample_regular_channel(U_PHASE_I_CHAN, 16); cs->adc_offset_a = adc_sample_regular_channel(U_PHASE_I_CHAN, 64); cs->adc_offset_b = adc_sample_regular_channel(V_PHASE_I_CHAN, 64); cs->adc_offset_c = adc_sample_regular_channel(W_PHASE_I_CHAN, 64); #endif } void phase_current_sample(current_samp_t *cs){ s32 phase_current1, phase_current2; adc_phase_current_read(cs->sector, &phase_current1, &phase_current2); if (cs->sector == SECTOR_1 || cs->sector == SECTOR_2) { /* Current on Phase C is not accessible */ /* Ia = PhaseAOffset - ADC converted value) */ cs->Ib = current_i(MOSds_VOL(phase_current1 - cs->adc_offset_b), Sample_R); cs->Ia = current_i(MOSds_VOL(phase_current2 - cs->adc_offset_a), Sample_R); cs->Ic = -(cs->Ia + cs->Ib); }else if (cs->sector == SECTOR_3 || cs->sector == SECTOR_4) { /* Current on Phase A is not accessible */ /* Ib = PhaseBOffset - ADC converted value) */ cs->Ic = current_i(MOSds_VOL(phase_current1 - cs->adc_offset_c), Sample_R); cs->Ib = current_i(MOSds_VOL(phase_current2 - cs->adc_offset_b), Sample_R); cs->Ia = -(cs->Ib + cs->Ic); }else if (cs->sector == SECTOR_5 || cs->sector == SECTOR_6) { /* Current on Phase B is not accessible */ /* Ia = PhaseAOffset - ADC converted value) */ cs->Ia = current_i(MOSds_VOL(phase_current1 - cs->adc_offset_a), Sample_R); cs->Ic = current_i(MOSds_VOL(phase_current2 - cs->adc_offset_c), Sample_R); cs->Ib = -(cs->Ia + cs->Ic); } //log_chan_value(1, (int)(cs->Ia * 1000)); } u32 get_phase_sample_point(current_samp_t *cs, phase_time_t *time, u8 sector){ u32 low_side_low_duty = FOC_PWM_Half_Period - time->low; cs->sector = sector; //duty > deadtime + max(Rise time, Noise time) if (low_side_low_duty > (TDead + MAX(TRise, TNoise))) { cs->sector = SECTOR_1; return FOC_PWM_Half_Period - 1; }else { log_chan_value(2, 111); u32 low_side_mid_duty = FOC_PWM_Half_Period - time->midle; u32 delta_duty = low_side_mid_duty - low_side_low_duty; if (delta_duty > low_side_low_duty * 2) { return time->low - TADC; }else { u32 sample_point = time->low + (TDead + MAX(TRise, TNoise)); if (sample_point >= FOC_PWM_Half_Period) { //这里需要修改触发方式,GD不支持adc设置上升或下降沿触发,考虑切换pwm模式??? sample_point = ( 2u * FOC_PWM_Half_Period ) - sample_point - (uint16_t) 1; } return sample_point; } } } void phase_current_adc_triger(current_samp_t *cs){ //adc_enable_ext_trigger(); }