Added new float state; Some fixes
Typical charge cycle: MPPT until 14.4V, then switch to CV and hold 14.4V. After 2 hours switch to float charging at 13.8V.
This commit is contained in:
parent
c3c33b3753
commit
d41c63f948
154
src/main.c
154
src/main.c
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@ -17,7 +17,7 @@
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#include "lcd.h"
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#include "lcd.h"
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#include "debug.h"
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#include "debug.h"
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#define CONV_PWM_PERIOD 960
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#define CONV_PWM_PERIOD 360
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#define CONV_PWM_MAX (98*CONV_PWM_PERIOD/100)
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#define CONV_PWM_MAX (98*CONV_PWM_PERIOD/100)
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#define TIM_CH_CONV TIM_OC1
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#define TIM_CH_CONV TIM_OC1
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@ -31,6 +31,7 @@
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enum OperState {
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enum OperState {
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Bootstrap,
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Bootstrap,
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ConvConstVoltage,
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ConvConstVoltage,
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ConvFloat,
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ConvConstCurrent,
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ConvConstCurrent,
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ConvMPP,
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ConvMPP,
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Idle,
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Idle,
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@ -358,6 +359,21 @@ struct PowerState {
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fxp_t power_avg;
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fxp_t power_avg;
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};
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};
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static void load_on(void)
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{
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gpio_set(GPIOA, GPIO15);
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}
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static void load_off(void)
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{
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gpio_clear(GPIOA, GPIO15);
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}
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static bool load_status(void)
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{
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return gpio_get(GPIOA, GPIO15) != 0;
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}
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static void report_status(struct PowerState *power_state,
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static void report_status(struct PowerState *power_state,
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int32_t pwm, enum OperState operState)
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int32_t pwm, enum OperState operState)
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{
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{
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@ -387,6 +403,10 @@ static void report_status(struct PowerState *power_state,
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fxp_format(power_state->temp_avg, number, 1);
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fxp_format(power_state->temp_avg, number, 1);
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debug_send_string(number);
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debug_send_string(number);
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debug_send_string(":");
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fxp_format_int(load_status(), number);
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debug_send_string(number);
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debug_send_string("\r\n");
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debug_send_string("\r\n");
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}
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}
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@ -415,7 +435,7 @@ struct MPPState {
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#define MPP_TEST_DURATION (MPP_TEST_IGNORE_DURATION + MPP_TEST_ACCU_DURATION)
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#define MPP_TEST_DURATION (MPP_TEST_IGNORE_DURATION + MPP_TEST_ACCU_DURATION)
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#define MPP_TEST_STEPS 6
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#define MPP_TEST_STEPS 6
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const int32_t mpp_pwm_offsets[MPP_TEST_STEPS] = {-3, 4, -16, 15};
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const int32_t mpp_pwm_offsets[MPP_TEST_STEPS] = {-1, 2, -6, 5};
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static void mpp_run(
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static void mpp_run(
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uint32_t time_in_state, struct MPPState *mpp_state,
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uint32_t time_in_state, struct MPPState *mpp_state,
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@ -522,16 +542,6 @@ static void mpp_run(
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}
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}
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}
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}
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static void load_on(void)
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{
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gpio_set(GPIOA, GPIO15);
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}
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static void load_off(void)
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{
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gpio_clear(GPIOA, GPIO15);
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}
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int main(void)
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int main(void)
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{
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{
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//uint32_t cpuload = 0;
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//uint32_t cpuload = 0;
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@ -554,6 +564,8 @@ int main(void)
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fxp_t pErr = 0, iErr = 0;
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fxp_t pErr = 0, iErr = 0;
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fxp_t controlAction = 0;
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fxp_t controlAction = 0;
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fxp_t setPoint = 0;
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uint32_t sleep_time = 10;
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uint32_t sleep_time = 10;
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uint64_t force_display_update_time = 1000;
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uint64_t force_display_update_time = 1000;
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@ -569,11 +581,13 @@ int main(void)
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fxp_t AVG_FACT = fxp_from_float(0.01f);
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fxp_t AVG_FACT = fxp_from_float(0.01f);
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fxp_t AVG_FACT_INV = fxp_sub(fxp_from_int(1), AVG_FACT);
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fxp_t AVG_FACT_INV = fxp_sub(fxp_from_int(1), AVG_FACT);
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fxp_t MAX_VOLTAGE = fxp_from_float(14.400f);
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fxp_t MPP_MAX_VOLTAGE = fxp_from_float(14.400f);
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fxp_t CONST_VOLTAGE = fxp_from_float(13.800f);
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fxp_t CONST_VOLTAGE = MPP_MAX_VOLTAGE;
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fxp_t CONST_FLOAT_VOLTAGE = fxp_from_float(13.800f);
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fxp_t MAX_CURRENT = fxp_from_float( 5.000f);
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fxp_t MAX_CURRENT = fxp_from_float( 5.000f);
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fxp_t MPP_VOLTAGE_THR = fxp_sub(CONST_VOLTAGE, fxp_from_float(0.500f));
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fxp_t VOLTAGE_THR_CV_TO_MPP = fxp_sub(CONST_VOLTAGE, fxp_from_float(0.300f));
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fxp_t VOLTAGE_THR_FLOAT_TO_MPP = fxp_sub(CONST_FLOAT_VOLTAGE, fxp_from_float(0.300f));
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fxp_t MPP_CURRENT_THR = fxp_sub(MAX_CURRENT, fxp_from_float(0.500f));
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fxp_t MPP_CURRENT_THR = fxp_sub(MAX_CURRENT, fxp_from_float(0.500f));
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// input voltage must exceed output voltage by this value to leave idle mode
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// input voltage must exceed output voltage by this value to leave idle mode
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@ -584,21 +598,21 @@ int main(void)
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//
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//
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// If the battery voltage is below LOAD_LOW_VOLTAGE_THRESHOLD, the battery
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// If the battery voltage is below LOAD_LOW_VOLTAGE_THRESHOLD, the battery
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// voltage is monitored more closely during idle mode.
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// voltage is monitored more closely during idle mode.
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fxp_t LOAD_ON_THRESHOLD = fxp_from_float(13.000f);
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fxp_t LOAD_ON_THRESHOLD = fxp_from_float(13.500f);
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fxp_t LOAD_OFF_THRESHOLD = fxp_from_float(11.200f);
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fxp_t LOAD_OFF_THRESHOLD = fxp_from_float(12.500f);
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fxp_t LOAD_LOW_VOLTAGE_THRESHOLD = fxp_from_float(11.600f);
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fxp_t LOAD_LOW_VOLTAGE_THRESHOLD = fxp_from_float(12.600f);
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// Calculated values
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// Calculated values
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//fxp_t VIN_SCALE = fxp_from_float(3.3f * (100 + 10.0f) / 10.0f / 4095.0f);
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//fxp_t VIN_SCALE = fxp_from_float(3.3f * (100 + 10.0f) / 10.0f / 4095.0f);
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//fxp_t VOUT_SCALE = fxp_from_float(3.3f * (100 + 12.0f) / 12.0f / 4095.0f);
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//fxp_t VOUT_SCALE = fxp_from_float(3.3f * (100 + 12.0f) / 12.0f / 4095.0f);
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// Calibrated from measurements
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// Calibrated from measurements
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fxp_t VIN_SCALE = fxp_from_float(36.41f / 4096.0f);
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fxp_t VIN_SCALE = fxp_from_float(36.23f / 4096.0f);
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fxp_t VOUT_SCALE = fxp_from_float(30.87f / 4096.0f);
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fxp_t VOUT_SCALE = fxp_from_float(30.75f / 4096.0f);
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// current = adc • 0.00166 + -0.0725 = adc • m + t
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// current = adc • 0.00166 + -0.0725 = adc • m + t
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fxp_t ADC2CURRENT_M = fxp_from_float( 0.00166f);
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fxp_t ADC2CURRENT_M = fxp_from_float( 0.00225f);
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fxp_t ADC2CURRENT_T = fxp_from_float(-0.07250f);
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fxp_t ADC2CURRENT_T = fxp_from_float(-0.2255f);
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/* if power changes by more than this factor, MPP is tested again */
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/* if power changes by more than this factor, MPP is tested again */
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MPP_MAX_POWER_CHANGE_FACTOR = fxp_from_float(0.2f);
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MPP_MAX_POWER_CHANGE_FACTOR = fxp_from_float(0.2f);
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@ -739,14 +753,18 @@ int main(void)
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timer_set_oc_value(TIM1, TIM_CH_BOOTSTRAP, 24);
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timer_set_oc_value(TIM1, TIM_CH_BOOTSTRAP, 24);
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if(time_in_state >= 10) { // bootstrap duration in ms
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if(time_in_state >= 10) { // bootstrap duration in ms
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//iErr = 0;
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// bootstrap off
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timer_set_oc_value(TIM1, TIM_CH_BOOTSTRAP, 0);
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// go to next state
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operState = nextState;
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operState = nextState;
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}
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}
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break;
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break;
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case ConvConstVoltage:
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case ConvConstVoltage:
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// bootstrap off
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if(time_in_state == 0) {
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timer_set_oc_value(TIM1, TIM_CH_BOOTSTRAP, 0);
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iErr = 0;
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}
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// calculate error values
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// calculate error values
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pErr = fxp_sub(CONST_VOLTAGE, power_state.vout_avg);
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pErr = fxp_sub(CONST_VOLTAGE, power_state.vout_avg);
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@ -771,6 +789,76 @@ int main(void)
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timer_set_oc_value(TIM1, TIM_CH_CONV, pwm);
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timer_set_oc_value(TIM1, TIM_CH_CONV, pwm);
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#ifdef DEBUG
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if((time_in_state % 100) == 0) {
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debug_send_string("pErr: ");
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fxp_format(pErr, msg, 3);
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debug_send_string(msg);
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debug_send_string(" iErr: ");
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fxp_format(iErr, msg, 3);
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debug_send_string(msg);
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debug_send_string(" controlAction: ");
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fxp_format(controlAction, msg, 3);
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debug_send_string(msg);
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sentSomething = 1;
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}
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#endif
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if(time_in_state > 3600*1000) {
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operState = ConvFloat;
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}
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if(time_in_state > 5000 && fxp_to_int(controlAction) > CONV_PWM_MAX && power_state.current_avg < CURRENT_THRESHOLD) {
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operState = Bootstrap;
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nextState = ConvConstVoltage;
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}
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if(time_in_state > 1000 && power_state.vout_avg < VOLTAGE_THR_CV_TO_MPP) {
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pwm = CONV_PWM_MAX * 8 / 10;
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operState = ConvMPP;
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}
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if(power_state.current_avg > MAX_CURRENT) {
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operState = ConvConstCurrent;
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}
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if(power_state.vin_avg < power_state.vout_avg) {
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operState = Idle;
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}
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break;
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case ConvFloat:
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if(time_in_state < 120000) {
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setPoint =
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fxp_add(CONST_VOLTAGE,
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fxp_mult(fxp_sub(CONST_FLOAT_VOLTAGE, CONST_VOLTAGE), fxp_div(time_in_state, 120000)));
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} else {
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setPoint = CONST_FLOAT_VOLTAGE;
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}
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// calculate error values
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pErr = fxp_sub(setPoint, power_state.vout_avg);
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iErr = fxp_add(iErr, pErr);
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// limit integral error range
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if (iErr > IERR_LIMIT) iErr = IERR_LIMIT;
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else if(iErr < -IERR_LIMIT) iErr = -IERR_LIMIT;
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// calculate the controller output ("action")
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controlAction = fxp_add(
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fxp_mult(pErr, PGAIN_CV),
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fxp_mult(iErr, IGAIN_CV));
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pwm = fxp_to_int(controlAction);
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if(pwm > CONV_PWM_MAX) {
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pwm = CONV_PWM_MAX;
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} else if(pwm < 0) {
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pwm = 0;
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}
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timer_set_oc_value(TIM1, TIM_CH_CONV, pwm);
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#ifdef DEBUG
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#ifdef DEBUG
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if((time_in_state % 100) == 0) {
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if((time_in_state % 100) == 0) {
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debug_send_string("pErr: ");
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debug_send_string("pErr: ");
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@ -791,7 +879,8 @@ int main(void)
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nextState = ConvConstVoltage;
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nextState = ConvConstVoltage;
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}
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}
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if(time_in_state > 1000 && power_state.vout_avg < MPP_VOLTAGE_THR) {
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if(time_in_state > 1000 && power_state.vout_avg < VOLTAGE_THR_FLOAT_TO_MPP) {
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pwm = CONV_PWM_MAX * 8 / 10;
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operState = ConvMPP;
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operState = ConvMPP;
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}
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}
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@ -809,9 +898,6 @@ int main(void)
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iErr = 0;
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iErr = 0;
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}
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}
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// bootstrap off
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timer_set_oc_value(TIM1, TIM_CH_BOOTSTRAP, 0);
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// calculate error values
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// calculate error values
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pErr = fxp_sub(MAX_CURRENT, power_state.current_avg);
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pErr = fxp_sub(MAX_CURRENT, power_state.current_avg);
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iErr = fxp_add(iErr, pErr);
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iErr = fxp_add(iErr, pErr);
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@ -844,15 +930,12 @@ int main(void)
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operState = ConvMPP;
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operState = ConvMPP;
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}
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}
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if(power_state.vout_avg > MAX_VOLTAGE) {
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if(power_state.vout_avg > MPP_MAX_VOLTAGE) {
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operState = ConvConstVoltage;
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operState = ConvConstVoltage;
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}
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}
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break;
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break;
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case ConvMPP:
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case ConvMPP:
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// bootstrap off
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timer_set_oc_value(TIM1, TIM_CH_BOOTSTRAP, 0);
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mpp_run(time_in_state, &mpp_state, &power_state, &pwm);
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mpp_run(time_in_state, &mpp_state, &power_state, &pwm);
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if(pwm > mpp_state.mppMaxPWM) {
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if(pwm > mpp_state.mppMaxPWM) {
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pwm = mpp_state.mppMaxPWM;
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pwm = mpp_state.mppMaxPWM;
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}
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}
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if(power_state.vout_avg > MAX_VOLTAGE) {
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if(power_state.vout_avg > MPP_MAX_VOLTAGE) {
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operState = ConvConstVoltage;
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operState = ConvConstVoltage;
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}
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}
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@ -984,6 +1067,9 @@ int main(void)
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case ConvConstVoltage:
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case ConvConstVoltage:
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lcd_send_string("CV ");
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lcd_send_string("CV ");
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break;
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break;
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case ConvFloat:
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lcd_send_string("FLT");
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break;
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case ConvMPP:
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case ConvMPP:
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lcd_send_string("MPP");
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lcd_send_string("MPP");
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break;
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break;
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