update the way that date send to uart. Add Flow route selection Algorithm

This commit is contained in:
不吃油炸鸡
2025-08-14 13:30:27 +08:00
parent e291e27c9c
commit f825971aee
4 changed files with 89 additions and 15 deletions

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@@ -15,11 +15,16 @@ extern "C" {
#define EN2_PORT GPIOA #define EN2_PORT GPIOA
#define EN2_PIN GPIO_PIN_15 #define EN2_PIN GPIO_PIN_15
// // Flow route selection
#define HIGH_CUR 2 #define HIGH_CUR 2
#define MID_CUR 1 #define MID_CUR 1
#define LOW_CUR 0 #define LOW_CUR 0
// Resistance values in ohms
#define HIGH_CUR_RES 0.005 // 5 m ohm
#define MID_CUR_RES 0.5 // 500 m ohm
#define LOW_CUR_RES 50.0 // 50 ohm
void Gate_Port_Init(void); void Gate_Port_Init(void);
void flow_route_selection(uint8_t selection); void flow_route_selection(uint8_t selection);
uint8_t Gate_get_status(void); uint8_t Gate_get_status(void);

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@@ -30,12 +30,12 @@
/* protocol frame /* protocol frame
+ 0x55 0xAA header + 0x55 0xAA header
+ 1byte direct & unit, 0x0? for positive, 0x1? for negative, + 1byte direct & unit, 0x0? for positive, 0x1? for negative,
0x?0 for uA (0-500.00uA), 0x?1 for mA (0.50-500.00mA), 0x?2 for A (0.50-5.00A) 0x?0 for uA (0-500.00uA), 0x?1 for uA (0.50-500.00mA), 0x?2 for mA (0.50-5.00A)
+ 2byte current (100 times) + 4byte current (100 times)
+ 2byte voltage (100 times) + 2byte voltage (100 times)
+ 0xAA 0x55 footer + 0xAA 0x55 footer
*/ */
uint8_t protocol_frame[] = {0x55, 0xAA, 0x02, 0x01, 0x23, 0x01, 0xf4, 0xAA, 0x55}; uint8_t protocol_frame[] = {0x55, 0xAA, 0x02, 0x00, 0x00, 0x01, 0x23, 0x01, 0xf4, 0xAA, 0x55};
/* Private function prototypes -----------------------------------------------*/ /* Private function prototypes -----------------------------------------------*/

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@@ -4,14 +4,71 @@
#include "main.h" #include "main.h"
#include "adc.h" #include "adc.h"
#include "gate.h" #include "gate.h"
#include "usart.h"
/* Private typedef -----------------------------------------------------------*/ /* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/ /* Private define ------------------------------------------------------------*/
// 定义档位阈值
#define LOW_TO_MID_THRESHOLD 55000 // 550uA
#define MID_TO_LOW_THRESHOLD 45000 // 450uA (滞回)
#define MID_TO_HIGH_THRESHOLD 5000000 // 50mA
#define HIGH_TO_MID_THRESHOLD 4500 // 45mA (滞回)
// 定义连续超过阈值的次数
#define SWITCH_COUNT_THRESHOLD 2
// 切换计数器
uint8_t low_to_mid_count = 0;
uint8_t mid_to_low_count = 0;
uint8_t mid_to_high_count = 0;
uint8_t high_to_mid_count = 0;
/* Private variables ---------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/
/* Private function prototypes -----------------------------------------------*/ /* Private function prototypes -----------------------------------------------*/
// 检查当前电流并根据阈值切换流路
void check_and_switch_flow_route(uint8_t unit, uint32_t cur) {
if (unit == LOW_CUR) {
if (cur > LOW_TO_MID_THRESHOLD) {
low_to_mid_count++;
if (low_to_mid_count >= SWITCH_COUNT_THRESHOLD) {
flow_route_selection(MID_CUR); // 切换到中档位
low_to_mid_count = 0; // 重置计数器
}
} else {
low_to_mid_count = 0; // 清零计数器
}
} else if (unit == MID_CUR) {
if (cur > MID_TO_HIGH_THRESHOLD) {
mid_to_high_count++;
if (mid_to_high_count >= SWITCH_COUNT_THRESHOLD) {
flow_route_selection(HIGH_CUR); // 切换到高档位
mid_to_high_count = 0; // 重置计数器
}
} else if (cur < MID_TO_LOW_THRESHOLD) {
mid_to_low_count++;
if (mid_to_low_count >= SWITCH_COUNT_THRESHOLD) {
flow_route_selection(LOW_CUR); // 切换到低档位
mid_to_low_count = 0; // 重置计数器
}
} else {
mid_to_high_count = 0; // 清零计数器
mid_to_low_count = 0; // 清零计数器
}
} else if (unit == HIGH_CUR) {
if (cur < HIGH_TO_MID_THRESHOLD) {
high_to_mid_count++;
if (high_to_mid_count >= SWITCH_COUNT_THRESHOLD) {
flow_route_selection(MID_CUR); // 切换到中档位
high_to_mid_count = 0; // 重置计数器
}
} else {
high_to_mid_count = 0; // 清零计数器
}
}
}
/** /**
* @brief task for send messages or data * @brief task for send messages or data
@@ -32,25 +89,37 @@ void UartSendTask(void *argument)
for(int i = 0 ; i < ADC_TIMES ; i++) for(int i = 0 ; i < ADC_TIMES ; i++)
{ {
// direct & unit // direct & unit
uint8_t dir_unit = 0x00; // positive, uA uint8_t dir_unit = 0x00; // 0x00 means: positive, (A) unit
uint8_t unit = Gate_get_status(); // 0 - low current, 1 - mid current, 2 - high current uint8_t unit = Gate_get_status(); // 0 - low current(500uA), 1 - mid current(50mA), 2 - high current(5A)
dir_unit |= (unit & 0x0F); // unit dir_unit = (unit & 0x0F); // unit
// current // current
uint32_t cur; uint32_t cur;
// voltage *100times uint64_t cur_adc; // 64位避免溢出
uint32_t volt = adc_buf[i][3] * 3 * 100 / 4096; // 12bit ADC, 0-4095 // voltage = VADC/4096 * 3.0Vref * 11( this means: 1MR + 100kR)
uint16_t volt = adc_buf[i][3] * 3 * 11 * 100 / 4096; // 100times
// cur direction and value // cur direction and value
if(adc_buf[i][2-unit] > cur_bias) { if(adc_buf[i][2-unit] > cur_bias) {
dir_unit |= 0x10; // negative dir_unit |= 0x10; // negative
// cur *100times cur_adc = adc_buf[i][2-unit] - cur_bias;
cur = (adc_buf[i][2-unit] - cur_bias) * 3 * 100 / 4096; // 3.0 Vref, 100 times, 12bit ADC
} }
else { else {
// cur *100times cur_adc = cur_bias - adc_buf[i][2-unit];
cur = (cur_bias - adc_buf[i][2-unit]) * 3 * 100 / 4096; // 3.0 Vref, 100 times, 12bit ADC
} }
// cur = (IADC/4096 * 3.0Vref - 1.5Vref) / 50(ina199) / R
if(unit == HIGH_CUR) {
cur = cur_adc * 3 * 100 * 1000 / HIGH_CUR_RES / 50 / 4096; // 100times. (mA)
}
else if(unit == MID_CUR) {
cur = cur_adc * 3 * 100 * 1000000 / MID_CUR_RES / 50 / 4096; // 100times. (uA)
}
else if(unit == LOW_CUR) {
cur = cur_adc * 3 * 100 * 1000000 / LOW_CUR_RES / 50 / 4096; // 100times. (uA)
}
check_and_switch_flow_route(unit, cur); // 检查并切换流路
// protocol frame // protocol frame
uint8_t protocol_frame[9] = {0x55, 0xAA, dir_unit, (cur<<8 & 0xff), (cur & 0xff), (volt<<8 & 0xff), (volt & 0xff), 0xAA, 0x55}; uint8_t protocol_frame[11] = {0x55, 0xAA, dir_unit, (cur>>24 & 0xff), (cur>>16 & 0xff), (cur>>8 & 0xff), (cur & 0xff), (volt>>8 & 0xff), (volt & 0xff), 0xAA, 0x55};
UART6_TX_Send(protocol_frame, sizeof(protocol_frame)); UART6_TX_Send(protocol_frame, sizeof(protocol_frame));
} }
osDelay(1); osDelay(1);

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@@ -39,7 +39,7 @@ const osThreadAttr_t HardwareInitTask_attributes = {
osThreadId_t UartSendTaskHandle; osThreadId_t UartSendTaskHandle;
const osThreadAttr_t UartSendTask_attributes = { const osThreadAttr_t UartSendTask_attributes = {
.name = "UartSendTask", .name = "UartSendTask",
.stack_size = 128 * 1, .stack_size = 128 * 2,
.priority = (osPriority_t) osPriorityHigh1, .priority = (osPriority_t) osPriorityHigh1,
}; };