Files
Power-Pico/Power_Pico/BSP/GATE/gate.c

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#include "gate.h"
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#include "data_queue.h"
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#include "usart.h"
#include "math.h"
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// 量程阈值
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#define THRESH_HIGH 4000-2048 // 对应550uA 50mA
#define THRESH_LOW 15 // 对应大概450uA 45mA
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// 次数
#define THRESH_TIMES 8
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uint8_t gate_status = HIGH_CUR; // Default status
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// 预先计算标度因子
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static const double SCALE_LOW = 3.0f / 4096.0f / 50.0f / LOW_CUR_RES * 1000000.0; // uA
static const double SCALE_MID = 3.0f / 4096.0f / 50.0f / MID_CUR_RES * 1000000.0; // uA
static const double SCALE_HIGH = 3.0f / 4096.0f / 50.0f / HIGH_CUR_RES * 1000000.0; // uA
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void Gate_Port_Init(void)
{
GPIO_InitTypeDef GPIO_InitStruct = {0};
/* GPIO Ports Clock Enable */
__HAL_RCC_GPIOA_CLK_ENABLE();
__HAL_RCC_GPIOB_CLK_ENABLE();
/*Configure GPIO pin Output Level */
HAL_GPIO_WritePin(EN1_PORT, EN1_PIN, GPIO_PIN_SET);
HAL_GPIO_WritePin(EN2_PORT, EN2_PIN, GPIO_PIN_RESET);
/*Configure GPIO pin : PB3 */
GPIO_InitStruct.Pin = EN1_PIN;
GPIO_InitStruct.Mode = GPIO_MODE_OUTPUT_PP;
GPIO_InitStruct.Pull = GPIO_NOPULL;
GPIO_InitStruct.Speed = GPIO_SPEED_FREQ_LOW;
HAL_GPIO_Init(EN1_PORT, &GPIO_InitStruct);
/*Configure GPIO pin : PB3 */
GPIO_InitStruct.Pin = EN2_PIN;
GPIO_InitStruct.Mode = GPIO_MODE_OUTPUT_PP;
GPIO_InitStruct.Pull = GPIO_NOPULL;
GPIO_InitStruct.Speed = GPIO_SPEED_FREQ_LOW;
HAL_GPIO_Init(EN2_PORT, &GPIO_InitStruct);
}
void flow_route_selection(uint8_t selection)
{
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if(selection > HIGH_CUR)
selection = HIGH_CUR; // Invalid selection
if(selection < LOW_CUR)
selection = LOW_CUR;
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if(selection == HIGH_CUR)
{
HAL_GPIO_WritePin(EN1_PORT, EN1_PIN, GPIO_PIN_SET);
HAL_GPIO_WritePin(EN2_PORT, EN2_PIN, GPIO_PIN_RESET);
}
else if(selection == MID_CUR)
{
HAL_GPIO_WritePin(EN1_PORT, EN1_PIN, GPIO_PIN_RESET);
HAL_GPIO_WritePin(EN2_PORT, EN2_PIN, GPIO_PIN_SET);
}
else if(selection == LOW_CUR)
{
HAL_GPIO_WritePin(EN1_PORT, EN1_PIN, GPIO_PIN_RESET);
HAL_GPIO_WritePin(EN2_PORT, EN2_PIN, GPIO_PIN_RESET);
}
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gate_status = selection; // Update the status
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}
uint8_t Gate_get_status(void)
{
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return gate_status;
}
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// 在DMA中断中执行, 不能有阻塞
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void Gate_Swich_and_UART_Send(ADC_Packet adc_packet)
{
static uint8_t high_times = 0;
static uint8_t low_times = 0;
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// adc码值
uint16_t ref_adc = adc_packet.data[0][4];
uint16_t vol_adc = adc_packet.data[0][0];
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uint16_t cur_adc = 0;
switch(Gate_get_status()) {
case LOW_CUR:
cur_adc = adc_packet.data[0][1];
break;
case MID_CUR:
cur_adc = adc_packet.data[0][2];
break;
case HIGH_CUR:
cur_adc = adc_packet.data[0][3];
break;
}
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// 计算电压电流值
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float voltage;
float current;
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uint16_t diff = abs((int)cur_adc - ref_adc);
adc_packet.header[3] = Gate_get_status();
ADC_Packet adc_packet_trans = adc_packet;
HAL_UART_Transmit_DMA(&huart6, (uint8_t*)&adc_packet_trans, sizeof(adc_packet_trans));
// 计算电压电流值
voltage = vol_adc * 3.0f / 4096.0f * 11.0f; // 11 = (100+10)/10
// 计算电流值
if(Gate_get_status() == LOW_CUR) {
current = adc_packet.data[0][1];
current = (current - ref_adc) * SCALE_LOW;
}
else if(Gate_get_status() == MID_CUR) {
current = adc_packet.data[0][2];
current = (current - ref_adc) * SCALE_MID;
}
else if(Gate_get_status() == HIGH_CUR) {
current = adc_packet.data[0][3];
current = (current - ref_adc) * SCALE_HIGH;
}
// 入队列
queue_push(global_voltage_queue, voltage);
queue_push(global_current_queue, current);
// 判断是否需要切换档位
// ADC码值超过量程
if(diff > THRESH_HIGH) {
high_times++;
low_times = 0;
if(high_times >= THRESH_TIMES) {
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high_times = 0;
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flow_route_selection(Gate_get_status()+1);
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}
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}
else if(diff < THRESH_LOW) {
low_times++;
high_times = 0;
if(low_times >= THRESH_TIMES) {
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low_times = 0;
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flow_route_selection(Gate_get_status()-1);
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}
}
else {
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high_times = 0;
low_times = 0;
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}
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}