添加了探头有遮挡时的数据处理，协议中添加了错误日志，优化了协议解析时处理收到的错误数据的逻辑

2024-11-18 16:48:30 +08:00 · 2024-11-18 16:48:30 +08:00 · ca14efe43d
parent 7148a72c16
commit ca14efe43d
8 changed files with 120 additions and 30 deletions
--- a/App/Inc/anemometer_dev.h
+++ b/App/Inc/anemometer_dev.h
@ -115,6 +115,26 @@ typedef struct _mcs_para{
  float32_t precipitation_intensity;/* 光辐射 */
 }mcs_para;
 extern mcs_para g_stMcs_Para;
 typedef struct _error_log{
  uint16_t tof_error_NS:1;        /* 接受南北信号（tofy，tofx<0）很小  */
  uint16_t tof_error_WE:1;        /* 接受东西信号（tofy，tofx<0）很小 */
  uint16_t error_2:1;             /* 保留 */
  uint16_t error_3:1;             /* 保留 */
  uint16_t error_4:1;             /* 保留 */
  uint16_t error_5:1;             /* 保留 */
  uint16_t error_6:1;             /* 保留 */
  uint16_t error_7:1;             /* 保留 */
  uint16_t error_8:1;             /* 保留 */
  uint16_t error_9:1;             /* 保留 */
  uint16_t error_10:1;            /* 保留 */
  uint16_t error_11:1;            /* 保留 */
  uint16_t error_12:1;            /* 保留 */
  uint16_t error_13:1;            /* 保留 */
  uint16_t error_14:1;            /* 保留 */
  uint16_t error_15:1;            /* 保留 */
 }error_log;
 extern error_log g_error_log;
 #pragma pack(pop)
 // 切换通道
--- a/App/Inc/frt_protocol.h
+++ b/App/Inc/frt_protocol.h
@ -49,6 +49,7 @@ typedef enum
   FRT_REGISTER_TRANSDUCER_CFG_8R0       = 32, /* 换能器参数 */
   FRT_REGISTER_RSSI_RANGE               = 33, /* RSSI有效范围 */
   FRT_REGISTER_WAVE_DATA                = 34, /* 波形数据 */
   FRT_REGISTER_ERROR_LOG                 = 35, /* 错误日志 */
 }FRT_MsgRegister;
 #pragma pack(push,1)
--- a/App/Src/anemometer_dev.c
+++ b/App/Src/anemometer_dev.c
@ -9,6 +9,7 @@
 #include "FIR.h"
 #define AVE_TIME 600 //滑动平均时间，秒，最大600
 #define COVER_TINE 10 //探头遮挡后导致的接收次数过小的报错临界次数
 uint32_t run_time_us;
@ -40,7 +41,7 @@ float32_t av_speedy=0;
 Weather_param weather_info={0x00};
 mcs_para g_stMcs_Para={0x00};
-
+error_log g_error_log={0x00};
@ -363,8 +364,10 @@ char str[100];
 void wind_task(void const * argument)
 {
-  
+  //错误次数统计,南北，东西分开(接受信号很小)
-  int flag_init_msc_value = 1;
+  uint8_t tof_error_log_NS = 0;
  uint8_t tof_error_log_WE = 0;
 //  int flag_init_msc_value = 1;
  arm_rfft_fast_init_f32(&s,FFT_DATA_LEN);
  firFilterInit();
@ -403,26 +406,38 @@ void wind_task(void const * argument)
    // 接受信号很小
    if(tofx<0||tofy<0)
    {
      tof_error_log_NS ++;
      // 放弃本次采样，可以有效筛选雨滴等导致的异常大的风速数据
      // 但是持续的遮挡会导致风速数据保持不变。
      // 连续10次采样有问题判定为有遮挡，置错误标志位，将声速与风速分量置0
      if(tof_error_log_NS >= COVER_TINE)
      {
          g_error_log.tof_error_NS = 1;
          weather_info.wind_c = 0; 
          weather_info.wind_velocity_x = 0;
      }
      else
      {
          continue;
-      
+      }
      // 手动设置渡越时间差为0，会在探头受遮挡的时候输出0，持续遮挡的时候也输出0，但是计算出声速将变得很大
 //      tofx = tofx/ADC_SAMP_RATE_MHz+REV_MUTE_DELAY_US-1.0f/DRIVE_FREQ_MHz+0.0001f;
 //      tofy = tofy/ADC_SAMP_RATE_MHz+REV_MUTE_DELAY_US-1.0f/DRIVE_FREQ_MHz+0.0001f;
 //      dtof = 0;
    }else{
 //      遮挡没有之后数据正常，将标志位取消，错误计数置零
      tof_error_log_NS = 0;
      g_error_log.tof_error_NS = 0;
      // 计算成us
      tofx = ((tofx-FIR_PHASE_DELAY)/ADC_SAMP_RATE_MHz)+REV_MUTE_DELAY_US-1.0f/DRIVE_FREQ_MHz+0.0001f;
      tofy = ((tofy-FIR_PHASE_DELAY)/ADC_SAMP_RATE_MHz)+REV_MUTE_DELAY_US-1.0f/DRIVE_FREQ_MHz+0.0001f;
      // 通过各通道渡越时间求时间差
      dtof = tofx-tofy;
    }
      weather_info.wind_c = DISTANCE/2.0f*(1.0f/tofx+1.0f/tofy); 
      weather_info.wind_velocity_x = 0-DISTANCE*dtof/1.41422f/tofx/tofx;
    }
     // 通道3 通道4 测试东西风速
    // 通道3发送 通道4接收
@ -447,12 +462,21 @@ void wind_task(void const * argument)
    // 如果测量的信号幅值过小。
    if(tofx<0||tofy<0)
    {
      tof_error_log_WE ++;
      // 放弃本次采样，可以有效筛选雨滴等导致的异常大的风速数据
      // 但是持续的遮挡会导致风速数据保持不变。
      // 连续10次采样有问题判定为有遮挡，置错误标志位，将声速与风速分量置0
      if(tof_error_log_WE >= COVER_TINE)
      {
          g_error_log.tof_error_WE = 1;
          weather_info.wind_c = 0; 
          weather_info.wind_velocity_y = 0;
      }
      else
      {
          continue;
-      
+      }
      // 手动设置渡越时间差为0，会在探头受遮挡的时候输出0，持续遮挡的时候也输出0，但是计算出声速将变得很大
 //      tofx = tofx/ADC_SAMP_RATE_MHz+REV_MUTE_DELAY_US-1.0f/DRIVE_FREQ_MHz+0.0001f;
 //      tofy = tofy/ADC_SAMP_RATE_MHz+REV_MUTE_DELAY_US-1.0f/DRIVE_FREQ_MHz+0.0001f;
@ -460,16 +484,18 @@ void wind_task(void const * argument)
 //      dtof = 0;
    }else{
 //      遮挡没有之后数据正常，将标志位取消，错误计数置零
      tof_error_log_WE = 0;
      g_error_log.tof_error_WE = 0;
      // 计算成us
      tofx = ((tofx-FIR_PHASE_DELAY)/ADC_SAMP_RATE_MHz)+REV_MUTE_DELAY_US-1.0f/DRIVE_FREQ_MHz+0.000001f;
      tofy = ((tofy-FIR_PHASE_DELAY)/ADC_SAMP_RATE_MHz)+REV_MUTE_DELAY_US-1.0f/DRIVE_FREQ_MHz+0.000001f;
      // 通过各通道渡越时间求时间差
      dtof = tofx-tofy;
    }
      weather_info.wind_c = DISTANCE/2.0f*(1.0f/tofx+1.0f/tofy); 
      weather_info.wind_velocity_y = DISTANCE*dtof/1.41422f/tofx/tofx;
    }
    weather_info.wind_velocity = sqrtf(weather_info.wind_velocity_x*weather_info.wind_velocity_x + weather_info.wind_velocity_y*weather_info.wind_velocity_y);
    // 分母加0.0001 保证分母不为0
--- a/App/Src/frt_protocol.c
+++ b/App/Src/frt_protocol.c
@ -14,6 +14,7 @@ static void send_uart_pack(device_handle device,FRT_MsgFunctionCode_e cmd_type,
 static void FRT_MsgProc_ReadRegister(device_handle device, void *pMsg); 
 static void FRT_MsgProc_WriteRegister(device_handle device, void *pMsg);
 static u_int16_t FRT_ReadReg(unsigned char regId);
 /* 读 */
 static u_int16_t FRT_ReadRegMinWindDiretion(void *pMsg);
 static u_int16_t FRT_ReadRegAverageWindDirection(void *pMsg);
 static u_int16_t FRT_ReadRegMaxWindDirection(void *pMsg);
@ -24,27 +25,28 @@ static u_int16_t FRT_ReadRegTemperature(void *pMsg);
 static u_int16_t FRT_ReadRegHumidity(void *pMsg);
 static u_int16_t FRT_ReadRegPressure(void *pMsg);
 static u_int16_t FRT_ReadRegRain(void *pMsg);
-
+/* 读 */
 static u_int16_t FRT_ReadRegPrecipitationIntensity(void *pMsg);
 static u_int16_t FRT_ReadRegDeviceAddr(void *pMsg);
 static u_int16_t FRT_ReadRegCommuBaudRate(void *pMsg);
 static u_int16_t FRT_ReadRegSpeedAverageTime(void *pMsg);
 static u_int16_t FRT_ReadRegTempHumUpdateTime(void *pMsg);
 static u_int16_t FRT_ReadRegRainPowerCtl(void *pMsg);
-
+/* 写 */
 static u_int16_t FRT_WriteRegDeviceAddr(void *pMsg);
 static u_int16_t FRT_WriteRegCommuBaudRate(void *pMsg);
 static u_int16_t FRT_WriteRegSpeedAverageTime(void *pMsg);
 static u_int16_t FRT_WriteRegTempHumUpdateTime(void *pMsg);
 static u_int16_t FRT_WriteRegSoftReset(void *pMsg);
 static u_int16_t FRT_WriteRegResetDefault(void *pMsg);
-
+/* 读配置 */
 static u_int16_t FRT_ReadRegTransducerCFG1R5(void *pMsg);
 static u_int16_t FRT_ReadRegTransducerCFG4R5(void *pMsg);
 static u_int16_t FRT_ReadRegTransducerCFG8R0(void *pMsg);
 static u_int16_t FRT_ReadRegRSSIRange(void *pMsg);
 static u_int16_t FRT_ReadRegWaveData(void *pMsg);
-
+static u_int16_t FRT_ReadRegErrorData(void *pMsg);
 /* 写配置 */
 static u_int16_t FRT_WriteRegTransducerCFG1R5(void *pMsg);
 static u_int16_t FRT_WriteRegTransducerCFG4R5(void *pMsg);
 static u_int16_t FRT_WriteRegTransducerCFG8R0(void *pMsg);
@ -82,6 +84,7 @@ FRT_RegProcTable_s g_RegTbl[] =
    { FRT_REGISTER_TRANSDUCER_CFG_4R5,       FRT_ReadRegTransducerCFG4R5       }, /* 读换能器参数寄存器值4R5    */
    { FRT_REGISTER_TRANSDUCER_CFG_8R0,       FRT_ReadRegTransducerCFG8R0       }, /* 读换能器参数寄存器值8R0    */
    { FRT_REGISTER_RSSI_RANGE,               FRT_ReadRegRSSIRange              }, /* 读RSSI有效范围             */
    { FRT_REGISTER_ERROR_LOG,                FRT_ReadRegErrorData              }, /* 读错误日志                 */
 };
 /* 写寄存器处理表 */
@ -466,6 +469,16 @@ static u_int16_t FRT_ReadRegRSSIRange(void *pMsg)
      return FRT_swap_endian_16(value);
 }
 /**
  * @brief  读错误日志
  * @param  
  * @retval 
  */
 static u_int16_t FRT_ReadRegErrorData(void *pMsg)
 {
      u_int16_t value=*((u_int16_t*)&g_error_log); 
      return FRT_swap_endian_16(value);
 }
 /**
  * @brief  写换能器参数寄存器值1R5
@ -612,7 +625,7 @@ void FRT_MsgProc_ReadRegister(device_handle device, void *pMsg)
        start_reg_addr < 0x00                           ||\
       (start_reg_addr > 0x08 && start_reg_addr < 0x14) ||\
       (start_reg_addr > 0x17 && start_reg_addr < 0x1E) ||\
-        start_reg_addr > 0x22                             \
+        start_reg_addr > 0x23                             \
        )
    {
@ -624,7 +637,7 @@ void FRT_MsgProc_ReadRegister(device_handle device, void *pMsg)
        reg_num < 0x01                                                                          ||\
     (((reg_num +  start_reg_addr - 1) > 0x08) && ((reg_num +  start_reg_addr - 1) < 0x14))     ||\
     (((reg_num +  start_reg_addr -1) > 0x17) && ((reg_num +  start_reg_addr -1) < 0x1E))       ||\
-      ((reg_num +  start_reg_addr -1) > 0x22)                                                     \
+      ((reg_num +  start_reg_addr -1) > 0x23)                                                     \
        )
    {
@ -759,13 +772,20 @@ static int uart_read_frt_climate_pack(device_handle uart_handle,u_int8_t *buff,
 //           判断首字符是否是地址，是地址再开始读取，不是则将索引退一步
           if(offset == sizeof(unsigned char))
           {
-                if(buff[0] != g_stConfigInfo.addr)
+                if(buff[0] != g_stConfigInfo.addr && buff[0] != 0xFF)
                {
                    memcpy(buff, buff + 1, offset - 1);
                    offset--;
                    buff_size--;
                }
           }
 //           判断地址对不对，不对缩一位
           else if(buff[1] != FRT_FUNCTION_CODE_READ_REGISTER && buff[1] != FRT_FUNCTION_CODE_WRITE_REGISTER)
           {
               memcpy(buff, buff + 1, offset - 1);
               offset--;
               buff_size--;
           }
 //           读寄存器
           else if (buff[1] == FRT_FUNCTION_CODE_READ_REGISTER & offset == 8)
           {
--- a/Core/Src/main.c
+++ b/Core/Src/main.c
@ -166,7 +166,7 @@ void Flash_EnableReadProtection(void)
  /* USER CODE BEGIN 2 */
  init_term_uart();
  init_rs485_uart();
-  init_ec801_uart();
+//  init_ec801_uart();
  term_printf("Micro Climate Station Sensor.\r\n");
  term_printf("Version 1.0.0 Build: %s %s\r\n",__DATE__,__TIME__);
  HAL_ADCEx_Calibration_Start(&hadc1,ADC_SINGLE_ENDED);
--- a/Core/Src/system_stm32l4xx.c
+++ b/Core/Src/system_stm32l4xx.c
@ -1,4 +1,4 @@
-#define REMOTE_UPDATE // 控制是否远程升级
+//#define REMOTE_UPDATE // 控制是否远程升级
 #ifdef REMOTE_UPDATE
 /**
--- a/EWARM/micro_climate.ewp
+++ b/EWARM/micro_climate.ewp
@ -701,7 +701,7 @@
            <data>
                <extensions></extensions>
                <cmdline></cmdline>
-                <hasPrio>32</hasPrio>
+                <hasPrio>1</hasPrio>
                <buildSequence>inputOutputBased</buildSequence>
            </data>
        </settings>
@ -786,7 +786,7 @@
                </option>
                <option>
                    <name>IlinkIcfFile</name>
-                    <state>$PROJ_DIR$\stm32l496xx_flash_app-1109.icf</state>
+                    <state>$PROJ_DIR$\stm32l496xx_flash.icf</state>
                </option>
                <option>
                    <name>IlinkIcfFileSlave</name>
--- a/README.md
+++ b/README.md
@ -39,5 +39,28 @@
 | 30  | 换能器参数1R5 | 2 Byte | 读写：无符号整数； 0-100 |
 | 31   | 换能器参数4R5 | 2 Byte | 读写：无符号整数； 0-100 |
 | 32   | 换能器参数8R0 | 2 Byte | 读写：无符号整数； 0-100 |
-| 33   | RSSI有效范围      | 2 Byte | 读写：无符号整数； 0-100 |
+| 33   | RSSI有效范围      | 2 Byte | 读：无符号整数； 0-100 |
 | 34 |  |  |  |
 | 35 | 错误日志 | 2Byte | 读 |
 错误日志解析：
 | 位   | 备注             |
 | :-: | :------------------: |
 | 0    | 南北方向探头遮挡 |
 | 1    | 东西方向探头遮挡 |
 | 1    |                  |
 | 3    |                  |
 | 4    |                  |
 | 5    |                  |
 | 6    |                  |
 | 7    |                  |
 | 8    |                  |
 | 9    |                  |
 | 10   |                  |
 | 11   |                  |
 | 12   |                  |
 | 13   |                  |
 | 14   |                  |
 | 15   |                  |