기능구현중

6 months ago · 83df3d9269
parent f2cc324ece
commit 83df3d9269
23 changed files with 3803 additions and 1118 deletions
--- a/Project/.vscode/settings.json
+++ b/Project/.vscode/settings.json
@ -0,0 +1,5 @@
 {
    "files.associations": {
        "driver_ds3231.h": "c"
    }
 }
--- a/Project/A31G12x_Co2_Sensor_Logger.uvguix.Imbis
+++ b/Project/A31G12x_Co2_Sensor_Logger.uvguix.Imbis
--- a/Project/A31G12x_Co2_Sensor_Logger.uvoptx
+++ b/Project/A31G12x_Co2_Sensor_Logger.uvoptx
@ -28,7 +28,7 @@
    <TargetOption>
      <CLKADS>12000000</CLKADS>
      <OPTTT>
-        <gFlags>0</gFlags>
+        <gFlags>1</gFlags>
        <BeepAtEnd>1</BeepAtEnd>
        <RunSim>0</RunSim>
        <RunTarget>1</RunTarget>
@ -103,7 +103,7 @@
        <bEvRecOn>1</bEvRecOn>
        <bSchkAxf>0</bSchkAxf>
        <bTchkAxf>0</bTchkAxf>
-        <nTsel>0</nTsel>
+        <nTsel>3</nTsel>
        <sDll></sDll>
        <sDllPa></sDllPa>
        <sDlgDll></sDlgDll>
@ -114,28 +114,82 @@
        <tDlgDll></tDlgDll>
        <tDlgPa></tDlgPa>
        <tIfile></tIfile>
-        <pMon>BIN\UL2CM3.DLL</pMon>
+        <pMon>BIN\CMSIS_AGDI.dll</pMon>
      </DebugOpt>
      <TargetDriverDllRegistry>
        <SetRegEntry>
          <Number>0</Number>
          <Key>ARMRTXEVENTFLAGS</Key>
          <Name>-L70 -Z18 -C0 -M0 -T1</Name>
        </SetRegEntry>
        <SetRegEntry>
          <Number>0</Number>
          <Key>DLGTARM</Key>
          <Name>(1010=-1,-1,-1,-1,0)(1007=-1,-1,-1,-1,0)(1008=-1,-1,-1,-1,0)</Name>
        </SetRegEntry>
        <SetRegEntry>
          <Number>0</Number>
          <Key>ARMDBGFLAGS</Key>
          <Name></Name>
        </SetRegEntry>
        <SetRegEntry>
          <Number>0</Number>
          <Key>DLGUARM</Key>
          <Name></Name>
        </SetRegEntry>
        <SetRegEntry>
          <Number>0</Number>
          <Key>CMSIS_AGDI</Key>
          <Name>-X"Any" -UAny -O206 -S0 -C0 -P00000000 -N00("ARM CoreSight SW-DP") -D00(0BC11477) -L00(0) -TO65554 -TC10000000 -TT10000000 -TP20 -TDS8007 -TDT0 -TDC1F -TIEFFFFFFFF -TIP8 -FO11 -FD20000000 -FC1000 -FN2 -FF0A31G12x_series_FLASH.FLM -FS00 -FL010000 -FP0($$Device:A31G123$A31G12x\Flashloader\A31G12x_series_FLASH.FLM) -FF1A31G12x_series_CFG.FLM -FS11FFFF200 -FL1600 -FP1($$Device:A31G123$A31G12x\Flashloader\A31G12x_series_CFG.FLM)</Name>
        </SetRegEntry>
        <SetRegEntry>
          <Number>0</Number>
          <Key>UL2CM3</Key>
          <Name>UL2CM3(-S0 -C0 -P0 -FD20000000 -FC1000 -FN2 -FF0A31G12x_series_FLASH -FS00 -FL010000 -FF1A31G12x_series_CFG -FS11FFFF200 -FL1600 -FP0($$Device:A31G123$A31G12x\Flashloader\A31G12x_series_FLASH.FLM) -FP1($$Device:A31G123$A31G12x\Flashloader\A31G12x_series_CFG.FLM))</Name>
        </SetRegEntry>
      </TargetDriverDllRegistry>
-      <Breakpoint/>
+      <Breakpoint>
        <Bp>
          <Number>0</Number>
          <Type>0</Type>
          <LineNumber>132</LineNumber>
          <EnabledFlag>1</EnabledFlag>
          <Address>3244</Address>
          <ByteObject>0</ByteObject>
          <HtxType>0</HtxType>
          <ManyObjects>0</ManyObjects>
          <SizeOfObject>0</SizeOfObject>
          <BreakByAccess>0</BreakByAccess>
          <BreakIfRCount>1</BreakIfRCount>
          <Filename>.\Application\gpio_switch.c</Filename>
          <ExecCommand></ExecCommand>
          <Expression>\\S_DustSensorView\Application/gpio_switch.c\132</Expression>
        </Bp>
      </Breakpoint>
      <WatchWindow1>
        <Ww>
          <count>0</count>
          <WinNumber>1</WinNumber>
          <ItemText>SW_Timer_Info</ItemText>
        </Ww>
        <Ww>
          <count>1</count>
          <WinNumber>1</WinNumber>
          <ItemText>Gpio_Led_Ctrl_Info</ItemText>
        </Ww>
      </WatchWindow1>
      <Tracepoint>
        <THDelay>0</THDelay>
      </Tracepoint>
      <DebugFlag>
        <trace>0</trace>
        <periodic>0</periodic>
-        <aLwin>0</aLwin>
+        <aLwin>1</aLwin>
        <aCover>0</aCover>
        <aSer1>0</aSer1>
        <aSer2>0</aSer2>
        <aPa>0</aPa>
-        <viewmode>0</viewmode>
+        <viewmode>1</viewmode>
        <vrSel>0</vrSel>
        <aSym>0</aSym>
        <aTbox>0</aTbox>
@ -523,6 +577,30 @@
      <RteFlg>0</RteFlg>
      <bShared>0</bShared>
    </File>
    <File>
      <GroupNumber>1</GroupNumber>
      <FileNumber>30</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
      <bDave2>0</bDave2>
      <PathWithFileName>.\Application\spi13.c</PathWithFileName>
      <FilenameWithoutPath>spi13.c</FilenameWithoutPath>
      <RteFlg>0</RteFlg>
      <bShared>0</bShared>
    </File>
    <File>
      <GroupNumber>1</GroupNumber>
      <FileNumber>31</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
      <bDave2>0</bDave2>
      <PathWithFileName>.\Application\usart11_rs485.c</PathWithFileName>
      <FilenameWithoutPath>usart11_rs485.c</FilenameWithoutPath>
      <RteFlg>0</RteFlg>
      <bShared>0</bShared>
    </File>
  </Group>
  <Group>
@ -533,7 +611,7 @@
    <RteFlg>0</RteFlg>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>30</FileNumber>
+      <FileNumber>32</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -545,7 +623,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>31</FileNumber>
+      <FileNumber>33</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -557,7 +635,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>32</FileNumber>
+      <FileNumber>34</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -569,7 +647,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>33</FileNumber>
+      <FileNumber>35</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -581,7 +659,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>34</FileNumber>
+      <FileNumber>36</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -593,7 +671,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>35</FileNumber>
+      <FileNumber>37</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -605,7 +683,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>36</FileNumber>
+      <FileNumber>38</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -617,7 +695,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>37</FileNumber>
+      <FileNumber>39</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -629,7 +707,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>38</FileNumber>
+      <FileNumber>40</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -641,7 +719,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>39</FileNumber>
+      <FileNumber>41</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -653,7 +731,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>40</FileNumber>
+      <FileNumber>42</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -665,7 +743,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>41</FileNumber>
+      <FileNumber>43</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -677,7 +755,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>42</FileNumber>
+      <FileNumber>44</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -689,7 +767,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>43</FileNumber>
+      <FileNumber>45</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -701,7 +779,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>44</FileNumber>
+      <FileNumber>46</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -713,7 +791,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>45</FileNumber>
+      <FileNumber>47</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -725,7 +803,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>46</FileNumber>
+      <FileNumber>48</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -737,7 +815,7 @@
    </File>
    <File>
      <GroupNumber>2</GroupNumber>
-      <FileNumber>47</FileNumber>
+      <FileNumber>49</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -757,7 +835,7 @@
    <RteFlg>0</RteFlg>
    <File>
      <GroupNumber>3</GroupNumber>
-      <FileNumber>48</FileNumber>
+      <FileNumber>50</FileNumber>
      <FileType>2</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -777,7 +855,7 @@
    <RteFlg>0</RteFlg>
    <File>
      <GroupNumber>4</GroupNumber>
-      <FileNumber>49</FileNumber>
+      <FileNumber>51</FileNumber>
      <FileType>5</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -789,7 +867,7 @@
    </File>
    <File>
      <GroupNumber>4</GroupNumber>
-      <FileNumber>50</FileNumber>
+      <FileNumber>52</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -801,7 +879,7 @@
    </File>
    <File>
      <GroupNumber>4</GroupNumber>
-      <FileNumber>51</FileNumber>
+      <FileNumber>53</FileNumber>
      <FileType>5</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -821,7 +899,7 @@
    <RteFlg>0</RteFlg>
    <File>
      <GroupNumber>5</GroupNumber>
-      <FileNumber>52</FileNumber>
+      <FileNumber>54</FileNumber>
      <FileType>2</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -841,7 +919,7 @@
    <RteFlg>0</RteFlg>
    <File>
      <GroupNumber>6</GroupNumber>
-      <FileNumber>53</FileNumber>
+      <FileNumber>55</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -853,7 +931,7 @@
    </File>
    <File>
      <GroupNumber>6</GroupNumber>
-      <FileNumber>54</FileNumber>
+      <FileNumber>56</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -865,7 +943,7 @@
    </File>
    <File>
      <GroupNumber>6</GroupNumber>
-      <FileNumber>55</FileNumber>
+      <FileNumber>57</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -877,7 +955,7 @@
    </File>
    <File>
      <GroupNumber>6</GroupNumber>
-      <FileNumber>56</FileNumber>
+      <FileNumber>58</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -889,7 +967,7 @@
    </File>
    <File>
      <GroupNumber>6</GroupNumber>
-      <FileNumber>57</FileNumber>
+      <FileNumber>59</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
@ -901,7 +979,7 @@
    </File>
    <File>
      <GroupNumber>6</GroupNumber>
-      <FileNumber>58</FileNumber>
+      <FileNumber>60</FileNumber>
      <FileType>1</FileType>
      <tvExp>0</tvExp>
      <tvExpOptDlg>0</tvExpOptDlg>
--- a/Project/A31G12x_Co2_Sensor_Logger.uvprojx
+++ b/Project/A31G12x_Co2_Sensor_Logger.uvprojx
@ -528,6 +528,16 @@
              <FileType>1</FileType>
              <FilePath>.\Application\uart_packet.c</FilePath>
            </File>
            <File>
              <FileName>spi13.c</FileName>
              <FileType>1</FileType>
              <FilePath>.\Application\spi13.c</FilePath>
            </File>
            <File>
              <FileName>usart11_rs485.c</FileName>
              <FileType>1</FileType>
              <FilePath>.\Application\usart11_rs485.c</FilePath>
            </File>
          </Files>
        </Group>
        <Group>
--- a/Project/Application/action_process.c
+++ b/Project/Application/action_process.c
@ -9,11 +9,58 @@
 #include "rtc_process.h"
 #include "save_file.h"
 #define KEY_POWER       KEY_PUSH_SW1
 #define KEY_MODE_SET    KEY_PUSH_SW2
 #define KEY_UP          KEY_PUSH_SW3
 #define KEY_DOWN        KEY_PUSH_SW4
 typedef enum _control_step
 {
    CONTROL_STEP_INIT,
    CONTROL_STEP_INIT_BUZZER_ON,
    CONTROL_STEP_INIT_ALL_LED_ON,
    CONTROL_STEP_INIT_ALL_LED_ON_WAIT,
    CONTROL_STEP_INIT_VERSION_ON,
    CONTROL_STEP_INIT_VERSION_ON_WAIT,
    CONTROL_STEP_INIT_POWER_ON_KEY_SET,
    CONTROL_STEP_INIT_COMPLETE,
    CONTROL_STEP_ACTION_IDLE,
    CONTROL_STEP_ACTION_RUN_NOW_SENSOR_DATA,
    CONTROL_STEP_ACTION_RUN_MAX_SENSOR_DATA,   
    CONTROL_STEP_ACTION_RUN_MIN_SENSOR_DATA,
    CONTROL_STEP_ACTION_RUN_SET_MAX_SENSOR_DATA,
    CONTROL_STEP_ACTION_RUN_SET_MIN_SENSOR_DATA,
    CONTROL_STEP_ACTION_RUN_COMPLETE,
 }CONTROL_STEP;
 typedef struct _control_info
 {
-    bool        isActionRun;
+    bool            isInitView;
-    uint32_t    Co2_MaxValue;
+    bool            isActionRun;
-    uint32_t    Co2_MinValue;
+    CONTROL_STEP    Step;
    uint32_t        StartTickCount;
    uint32_t        Co2_Now;
    uint32_t        Co2_MaxValue;
    uint32_t        Co2_MinValue;
 }CONTROL_INFO;
@ -25,12 +72,36 @@ static CONTROL_INFO Control_Info;
 static void Action_Process(void);
 static void Action_PowerOn_Init_Process(void);
 static void Action_PowerOn_Process(void);
 static void Action_Power_On_Key_Set(void);
 static void Action_Power_On_Key_Push_Callback(void);
 static void Action_Power_Off_Key_Set(void);
 static void Action_Power_Off_Key_Push_Callback(void);
 static void Action_Mode_Key_Push(void);
 static void Action_Set_Key_Push(void);
 static void Action_Up_Key_Push(void);
 static void Action_Down_Key_Push(void);
 #if 0
 static void Action_PowerKey_Push(void);
 static void Action_PowerKey_LongPush(void);
 static void Action_Sensor_Read_Process(void);
 #endif
 void Action_Initialization(void)
 {
    Control_Info.isInitView = false;
    Control_Info.Step = CONTROL_STEP_INIT;
    Gpio_Swtich_Set_Callback(KEY_MODE_SET, Action_Mode_Key_Push, Action_Set_Key_Push, NULL);
    Gpio_Swtich_Set_Callback(KEY_UP, Action_Up_Key_Push, NULL, NULL);
    Gpio_Swtich_Set_Callback(KEY_DOWN, Action_Down_Key_Push, NULL, NULL);
    SW_Timer_Callback_Register(SW_TIMER_RUN_CONTINUE, 1, Action_Process);
 }
@ -38,13 +109,187 @@ void Action_Initialization(void)
 static void Action_Process(void)
 {
-    
+    if(Control_Info.isInitView == false)
    {
        Action_PowerOn_Init_Process();
    }
    else
    {
        if(Control_Info.isActionRun == true)
            Action_PowerOn_Process();
    }
 }
 static void Action_PowerOn_Init_Process(void)
 {
    uint8_t i;
    switch(Control_Info.Step)
    {
        case CONTROL_STEP_INIT:
            Control_Info.Step = CONTROL_STEP_INIT_BUZZER_ON;
        break;
        case CONTROL_STEP_INIT_BUZZER_ON:
            Buzzer_On(500);
            Control_Info.Step = CONTROL_STEP_INIT_ALL_LED_ON;
        break;
        case CONTROL_STEP_INIT_ALL_LED_ON:
            Segment_All_Set_Data(0xFF);
            for(i = 0 ; i < GPIO_LED_MAX ; i++)
            {
                Gpio_Led_OutputSet(i, GPIO_LED_MODE_ON, 0, 0);
            }
            Control_Info.StartTickCount = millis();
            Control_Info.Step = CONTROL_STEP_INIT_ALL_LED_ON_WAIT;
        break;
        case CONTROL_STEP_INIT_ALL_LED_ON_WAIT:
            if((millis() - Control_Info.StartTickCount) >= ACTION_INIT_LED_ON_WAIT_TIME)
            {
                Control_Info.Step = CONTROL_STEP_INIT_VERSION_ON;
            }            
        break;
        case CONTROL_STEP_INIT_VERSION_ON:
            Segment_Show_Version();
            Control_Info.StartTickCount = millis();
            Control_Info.Step = CONTROL_STEP_INIT_VERSION_ON_WAIT;
        break;
        case CONTROL_STEP_INIT_VERSION_ON_WAIT:
            if((millis() - Control_Info.StartTickCount) >= ACTION_INIT_LED_ON_WAIT_TIME)
            {
                Segment_All_Set_Data(0x00);
                for(i = 0 ; i < GPIO_LED_MAX ; i++)
                {
                    Gpio_Led_OutputSet(i, GPIO_LED_MODE_OFF, 0, 0);
                }   
                Control_Info.Step = CONTROL_STEP_INIT_POWER_ON_KEY_SET;
            }
        break;
        case CONTROL_STEP_INIT_POWER_ON_KEY_SET:
            Gpio_Led_OutputSet(GPIO_LED_LE1, GPIO_LED_MODE_TOGGLE, ACTION_LE1_IDLE_ON_TIME, ACTION_LE1_IDLE_OFF_TIME);            
            Action_Power_On_Key_Set();
            Control_Info.Step = CONTROL_STEP_INIT_COMPLETE;
        break;
        case CONTROL_STEP_INIT_COMPLETE:
            Control_Info.isInitView = true;
        break;
    }
 }
 static void Action_PowerOn_Process(void)
 {
    switch (Control_Info.Step)
    {
        case CONTROL_STEP_INIT:
            Action_Power_Off_Key_Set();
            Gpio_Led_OutputSet(GPIO_LED_LE1, GPIO_LED_MODE_TOGGLE, ACTION_LE1_RUN_ON_TIME, ACTION_LE1_RUN_OFF_TIME);
            Gpio_Led_OutputSet(GPIO_LED_D1, GPIO_LED_MODE_OFF, 0, 0);
            Gpio_Led_OutputSet(GPIO_LED_D2, GPIO_LED_MODE_ON, 0, 0);
            Gpio_Led_OutputSet(GPIO_LED_D3, GPIO_LED_MODE_OFF, 0, 0);
            if(EEPROM_Read_SettingValue(&Control_Info.Co2_MaxValue, &Control_Info.Co2_MinValue) == false)
            {
                Control_Info.Co2_MaxValue = DEFAULT_SENSOR_MAX_DATA;
                Control_Info.Co2_MinValue = DEFAULT_SENSOR_MIN_DATA;
            }
            Control_Info.Step = CONTROL_STEP_ACTION_RUN_NOW_SENSOR_DATA;
        break;
        case CONTROL_STEP_ACTION_RUN_NOW_SENSOR_DATA:
            Segment_Show_Time();            
            Segment_Show_SensorData(Control_Info.Co2_Now);
        break;
        case CONTROL_STEP_ACTION_RUN_MAX_SENSOR_DATA:
            Segment_Show_Time();            
            Segment_Show_SensorData(Control_Info.Co2_MaxValue);
        break;
        case CONTROL_STEP_ACTION_RUN_MIN_SENSOR_DATA:
            Segment_Show_Time();            
            Segment_Show_SensorData(Control_Info.Co2_MinValue);
        break;
        case CONTROL_STEP_ACTION_RUN_SET_MAX_SENSOR_DATA:
        break;
        case CONTROL_STEP_ACTION_RUN_SET_MIN_SENSOR_DATA:
        break;
        case CONTROL_STEP_ACTION_RUN_COMPLETE:
            Gpio_Led_OutputSet(GPIO_LED_LE1, GPIO_LED_MODE_TOGGLE, ACTION_LE1_IDLE_ON_TIME, ACTION_LE1_IDLE_OFF_TIME);
            Action_Power_On_Key_Set();
            Segment_All_Set_Data(0x00);
            EEPROM_Write_SettingValue(Control_Info.Co2_MaxValue, Control_Info.Co2_MinValue);
            Control_Info.Step = CONTROL_STEP_INIT;
            Control_Info.isActionRun = false;
        break;
    }
 }
 static void Action_Power_On_Key_Set(void)
 {
    Gpio_Swtich_Set_PushCount(KEY_POWER, DEFAULT_KEY_PUSH_COUNT, KEY_POWER_ON_CHECK_PUSH_COUNT);
    Gpio_Swtich_Set_Callback(KEY_POWER, NULL, Action_Power_On_Key_Push_Callback, NULL);
 }
 static void Action_Power_Off_Key_Set(void)
 {
    Gpio_Swtich_Set_PushCount(KEY_POWER, DEFAULT_KEY_PUSH_COUNT, KEY_POWER_OFF_CHECK_PUSH_COUNT);
    Gpio_Swtich_Set_Callback(KEY_POWER, NULL, Action_Power_Off_Key_Push_Callback, NULL);
 }
 static void Action_Power_On_Key_Push_Callback(void)
 {
    Buzzer_On(DEFAULT_KEY_PUSH_BUZZER_TIME_COUNT);
    Control_Info.isActionRun = true;
    Control_Info.Step = CONTROL_STEP_INIT;
    dbg_printf("power on\r\n");
 }
 static void Action_Power_Off_Key_Push_Callback(void)
 {
    Buzzer_On(DEFAULT_KEY_PUSH_BUZZER_TIME_COUNT);        
    Control_Info.Step = CONTROL_STEP_ACTION_RUN_COMPLETE;
    dbg_printf("power off\r\n");
 }
 static void Action_Mode_Key_Push(void)
 {
    switch(Control_Info.Step)
    {
        case CONTROL_STEP_ACTION_RUN_NOW_SENSOR_DATA:
            Buzzer_On(DEFAULT_KEY_PUSH_BUZZER_TIME_COUNT);
            Gpio_Led_OutputSet(GPIO_LED_D1, GPIO_LED_MODE_ON, 0, 0);
            Gpio_Led_OutputSet(GPIO_LED_D2, GPIO_LED_MODE_OFF, 0, 0);
            Gpio_Led_OutputSet(GPIO_LED_D3, GPIO_LED_MODE_OFF, 0, 0);
            Control_Info.Step = CONTROL_STEP_ACTION_RUN_MAX_SENSOR_DATA;
        break;
        case CONTROL_STEP_ACTION_RUN_MAX_SENSOR_DATA:
            Buzzer_On(DEFAULT_KEY_PUSH_BUZZER_TIME_COUNT);
            Gpio_Led_OutputSet(GPIO_LED_D1, GPIO_LED_MODE_OFF, 0, 0);
            Gpio_Led_OutputSet(GPIO_LED_D2, GPIO_LED_MODE_OFF, 0, 0);
            Gpio_Led_OutputSet(GPIO_LED_D3, GPIO_LED_MODE_ON, 0, 0);
            Control_Info.Step = CONTROL_STEP_ACTION_RUN_MIN_SENSOR_DATA;
        break;
        case CONTROL_STEP_ACTION_RUN_MIN_SENSOR_DATA:
            Buzzer_On(DEFAULT_KEY_PUSH_BUZZER_TIME_COUNT);
            Gpio_Led_OutputSet(GPIO_LED_D1, GPIO_LED_MODE_OFF, 0, 0);
            Gpio_Led_OutputSet(GPIO_LED_D2, GPIO_LED_MODE_ON, 0, 0);
            Gpio_Led_OutputSet(GPIO_LED_D3, GPIO_LED_MODE_OFF, 0, 0);
            Control_Info.Step = CONTROL_STEP_ACTION_RUN_NOW_SENSOR_DATA;
        break;
    }
 }
 static void Action_Set_Key_Push(void)
 {
 }
 static void Action_Up_Key_Push(void)
 {
 }
 static void Action_Down_Key_Push(void)
 {
 }
--- a/Project/Application/dbg_printf.c
+++ b/Project/Application/dbg_printf.c
@ -1,12 +1,6 @@
 #include "dbg_printf.h"
 #include "uart1.h"
 /*-------------------------------------------------------------------------*//**
 * @brief         Puts a character to file
 * @param[in]     ch
--- a/Project/Application/define.h
+++ b/Project/Application/define.h
@ -57,19 +57,51 @@
-#define VERSION_MAJOR   0   // max 9
+#define VERSION_MAJOR   1   // max 9
 #define VERSION_MINOR   0   // max 9
 #define VERSION_PATCH   1   // max 99
-#define SEGMENT_CHECK_WAIT_TIME     300 // 
+
-#define SEGMENT_VERSION_WAIT_TIME   1000
+#define ACTION_INIT_LED_ON_WAIT_TIME    2000
 #define ACTION_LE1_IDLE_ON_TIME         250
 #define ACTION_LE1_IDLE_OFF_TIME        750
 #define ACTION_LE1_RUN_ON_TIME          500
 #define ACTION_LE1_RUN_OFF_TIME         1500
 #define DEFAULT_KEY_PUSH_COUNT          50
 #define DEFAULT_LONGKEY_PUSH_COUNT      1000
 #define KEY_POWER_ON_CHECK_PUSH_COUNT   1000
 #define KEY_POWER_OFF_CHECK_PUSH_COUNT  2000
 #define DEFAULT_SENSOR_MAX_DATA         3000
 #define DEFAULT_SENSOR_MIN_DATA         0
 #define DEFAULT_KEY_PUSH_BUZZER_TIME_COUNT  80
 #if 0
 #define SEGMENT_CHECK_WAIT_TIME     300 // 
 #define SEGMENT_VERSION_WAIT_TIME   1000
 #define DUST_SENSOR_POWER_ON_WAIT_TIME_COUNT    100
 #define DUST_SENSOR_POWER_OFF_WAIT_TIME_COUNT   100
@ -89,7 +121,7 @@
 #define SEGMENT_TOGGLE_TIME                     250
-
+#endif
 #endif
--- a/Project/Application/eeprom.c
+++ b/Project/Application/eeprom.c
@ -9,8 +9,9 @@ typedef union _eeprom_info
    struct 
    {
        uint8_t isSave;
-        uint8_t Mode;
+        uint16_t SensorMAX;
-        uint8_t Reserved[SECTOR_SIZE_BYTE - 3];
+        uint16_t SensorMIN;
        uint8_t Reserved[SECTOR_SIZE_BYTE - 6];
        uint8_t CheckSum;
    }eeprom_data;
    uint8_t eeprom_buffer[SECTOR_SIZE_BYTE];
@ -59,7 +60,7 @@ void FlashMEM_Clock_Initialization(void)
-bool EEPROM_Read_Mode(uint8_t* pMode)
+bool EEPROM_Read_SettingValue(uint16_t* pGetMax, uint16_t* pGetMin)
 {
    uint8_t i;
    uint16_t checksum_init = 0x5AA5;
@ -93,14 +94,15 @@ bool EEPROM_Read_Mode(uint8_t* pMode)
    if((checksum_result & 0xFF) == eeprom_info.eeprom_data.CheckSum)
    {
-        *pMode = eeprom_info.eeprom_data.Mode;
+        *pGetMax = eeprom_info.eeprom_data.SensorMAX;
        *pGetMin = eeprom_info.eeprom_data.SensorMIN;
        return true;
    }
    return false;
 }
-bool EEPROM_Write_Mode(uint8_t Mode)
+bool EEPROM_Write_SettingValue(uint16_t SetMax, uint16_t SetMin)
 {
    uint8_t i;
    uint16_t checksum_init = 0x5AA5;
@ -108,13 +110,14 @@ bool EEPROM_Write_Mode(uint8_t Mode)
    if(eeprom_info.eeprom_data.isSave == true)
    {
-        if(eeprom_info.eeprom_data.Mode == Mode)
+        if(eeprom_info.eeprom_data.SensorMAX == SetMax && eeprom_info.eeprom_data.SensorMIN == SetMin)
            return true;
    }    
    memset(&eeprom_info.eeprom_buffer[0], 0, SECTOR_SIZE_BYTE);
    eeprom_info.eeprom_data.isSave = true;
-    eeprom_info.eeprom_data.Mode = Mode;
+    eeprom_info.eeprom_data.SensorMAX = SetMax;
    eeprom_info.eeprom_data.SensorMIN = SetMin;
    // CRC Block Calculation
    CRC->INIT = checksum_init;
@ -145,62 +148,3 @@ bool EEPROM_Write_Mode(uint8_t Mode)
    return true;
 }
 #if 0
 void EEPROM_Read_Setting_Data(void)
 {     
    #if 0
    __disable_irq();
    memcpy(&Save_control_Info, (uint32_t *)CONFIG_ADDRESS, SECTOR_SIZE_BYTE);
    __enable_irq();
    if(Save_control_Info.SaveFlag != EEPROM_SAVE_CHECK_FLAG_DATA)
    {
        Save_control_Info.SaveFlag              = EEPROM_SAVE_CHECK_FLAG_DATA;          // 1
        Save_control_Info.SaveActionMode        = ACTION_MODE_ACTION_AUTO_1;            // 2    
        Save_control_Info.isPowerOnReservation  = FALSE;                                // 3
        Save_control_Info.isPowerOnSaturDay     = FALSE;                                // 4        
        Save_control_Info.PowerOn_Hour          = 0;                                    // 5
        Save_control_Info.PowerOn_Min           = 0;                                    // 6
        Save_control_Info.isPowerOffReservation = FALSE;                                // 7
        Save_control_Info.PowerOff_Hour         = 0;                                    // 8
        Save_control_Info.PowerOff_Min          = 0;                                    // 9
        Save_control_Info.FanActionTime_1       = 0;                                    // 10
        Save_control_Info.FanActionTime_2       = 0;                                    // 11
    }
 #endif    
 }
 void EEPROM_Write_Seting_Data(void)
 {
 #if 0    
    if(Control_Info.isEepromSave == TRUE)
    {
        Control_Info.isEepromSave = FALSE;
        __disable_irq();
        FlashMem_Do_PageEr(CONFIG_ADDRESS);
        FlashMem_Do_PageWt(CONFIG_ADDRESS, (uint32_t *)&Save_control_Info);
        __enable_irq();
    }
 #endif    
 }
 #endif
--- a/Project/Application/eeprom.h
+++ b/Project/Application/eeprom.h
@ -10,8 +10,10 @@
 void FlashMEM_Clock_Initialization(void);
-bool EEPROM_Read_Mode(uint8_t* pMode);
+
-bool EEPROM_Write_Mode(uint8_t Mode);
+
 bool EEPROM_Read_SettingValue(uint16_t* pGetMax, uint16_t* pGetMin);
 bool EEPROM_Write_SettingValue(uint16_t SetMax, uint16_t SetMin);
 #endif
--- a/Project/Application/gpio_i2c.h
+++ b/Project/Application/gpio_i2c.h
@ -59,8 +59,8 @@
 #define I2C2_SDA_PORT	    PC
 #define I2C2_SCL_PORT	    PC
-#define I2C2_SDA_PIN		5
+#define I2C2_SDA_PIN		6
-#define I2C2_SCL_PIN		6
+#define I2C2_SCL_PIN		5
 #define I2C2_DELAY          30
--- a/Project/Application/gpio_state_led.c
+++ b/Project/Application/gpio_state_led.c
@ -2,9 +2,139 @@
 #include "sw_timer.h"
 #define GPIO_LED_LE1_PORT               (Pn_Type*)PF
 #define GPIO_LED_LE1_PIN_NUM            4
 #define GPIO_LED_D1_PORT                (Pn_Type*)PE
 #define GPIO_LED_D1_PIN_NUM             4
 #define GPIO_LED_D2_PORT                (Pn_Type*)PE
 #define GPIO_LED_D2_PIN_NUM             3
 #define GPIO_LED_D3_PORT                (Pn_Type*)PE
 #define GPIO_LED_D3_PIN_NUM             2
 #define GPIO_LED_D4_PORT                (Pn_Type*)PE
 #define GPIO_LED_D4_PIN_NUM             1
 static void State_Led_Output_Process(void);
 static void State_Led_Off(GPIO_LED_LIST gpio_led_index);
 static void State_Led_On(GPIO_LED_LIST gpio_led_index);
 typedef void (*GPIO_LED_ON_OFF_FUNC)(GPIO_LED_LIST gpio_led_index);
 typedef struct 
 {
    Pn_Type*            Port;
    uint8_t             Pin;
    GPIO_LED_MODE       Mode;
    bool                isLedOn;
    uint32_t            nCheckTime;
    uint32_t            nOnTime;
    uint32_t            nOffTime;    
    GPIO_LED_ON_OFF_FUNC   LedOnFunction;
    GPIO_LED_ON_OFF_FUNC   LedOffunction;    
 }GPIO_STATE_LED_INFO;
 static GPIO_STATE_LED_INFO    Gpio_Led_Ctrl_Info[GPIO_LED_MAX] = 
 {
    {GPIO_LED_LE1_PORT, GPIO_LED_LE1_PIN_NUM, GPIO_LED_MODE_OFF, 0, 0, NULL, NULL},
    {GPIO_LED_D1_PORT, GPIO_LED_D1_PIN_NUM, GPIO_LED_MODE_OFF, 0, 0, NULL, NULL},
    {GPIO_LED_D2_PORT, GPIO_LED_D2_PIN_NUM, GPIO_LED_MODE_OFF, 0, 0, NULL, NULL},
    {GPIO_LED_D3_PORT, GPIO_LED_D3_PIN_NUM, GPIO_LED_MODE_OFF, 0, 0, NULL, NULL},
    {GPIO_LED_D4_PORT, GPIO_LED_D4_PIN_NUM, GPIO_LED_MODE_OFF, 0, 0, NULL, NULL},
 };
 void Gpio_StateLed_Initialization(void)
 {
    uint8_t i;
    for(i = 0 ; i < GPIO_LED_MAX ; i++)
    {
        HAL_GPIO_ConfigOutput(Gpio_Led_Ctrl_Info[i].Port, Gpio_Led_Ctrl_Info[i].Pin, PUSH_PULL_OUTPUT);    
        HAL_GPIO_ConfigPullup(Gpio_Led_Ctrl_Info[i].Port, Gpio_Led_Ctrl_Info[i].Pin, PUPDx_EnablePU);
        Gpio_Led_Ctrl_Info[i].LedOnFunction = State_Led_On;
        Gpio_Led_Ctrl_Info[i].LedOffunction = State_Led_Off;
    }
    SW_Timer_Callback_Register(SW_TIMER_RUN_CONTINUE, 1, State_Led_Output_Process);
 }
 void Gpio_Led_OutputSet(GPIO_LED_LIST gpio_led_index, GPIO_LED_MODE gpio_led_mode, uint32_t OnTime, uint32_t OffTime)
 {
    Gpio_Led_Ctrl_Info[gpio_led_index].Mode = gpio_led_mode;
    Gpio_Led_Ctrl_Info[gpio_led_index].isLedOn = true;
    Gpio_Led_Ctrl_Info[gpio_led_index].nCheckTime = millis();
    Gpio_Led_Ctrl_Info[gpio_led_index].nOnTime = OnTime;
    Gpio_Led_Ctrl_Info[gpio_led_index].nOffTime = OffTime;
 }
 static void State_Led_Off(GPIO_LED_LIST gpio_led_index)
 {
    HAL_GPIO_SetPin(Gpio_Led_Ctrl_Info[gpio_led_index].Port, _BIT(Gpio_Led_Ctrl_Info[gpio_led_index].Pin));
 }
 static void State_Led_On(GPIO_LED_LIST gpio_led_index)
 {
    HAL_GPIO_ClearPin(Gpio_Led_Ctrl_Info[gpio_led_index].Port, _BIT(Gpio_Led_Ctrl_Info[gpio_led_index].Pin));
 }
 static void State_Led_Output_Process(void)
 {
    uint8_t i;
    GPIO_STATE_LED_INFO* pControlInfo;
    for(i = 0 ; i < GPIO_LED_MAX ; i++)
    {
        pControlInfo = &Gpio_Led_Ctrl_Info[i];
        switch (pControlInfo->Mode)
        {
            case GPIO_LED_MODE_OFF:
                pControlInfo->LedOffunction(i);
            break;
            case GPIO_LED_MODE_ON:
                pControlInfo->LedOnFunction(i);
            break;
            case GPIO_LED_MODE_TOGGLE:
                if(pControlInfo->isLedOn == true)
                {
                    if((millis() - pControlInfo->nCheckTime) > pControlInfo->nOnTime )
                    {
                        pControlInfo->nCheckTime = millis();
                        pControlInfo->isLedOn = false;
                    }
                    pControlInfo->LedOnFunction(i);
                }
                else
                {
                    if((millis() - pControlInfo->nCheckTime) > pControlInfo->nOffTime )
                    {
                        pControlInfo->nCheckTime = millis();
                        pControlInfo->isLedOn = true;
                    }
                    pControlInfo->LedOffunction(i);
                }
            break;
        }
    }
 }
 #if 0
 static STATE_LED_MODE       StateLedMode = STATE_LED_MODE_UNKNOW;
 static STATE_LED_STEP       StateLedStep = STATE_LED_STEP_INIT;
 static STATE_LED_ONOFF_TIME StateLedTime;
@ -81,3 +211,4 @@ static void State_Led_Output_Process(void)
 }
 #endif
--- a/Project/Application/gpio_state_led.h
+++ b/Project/Application/gpio_state_led.h
@ -5,6 +5,30 @@
 #include "define.h"
 #include "board_config.h"
 typedef enum
 {
    GPIO_LED_LE1,
    GPIO_LED_D1,
    GPIO_LED_D2,
    GPIO_LED_D3,
    GPIO_LED_D4,
    GPIO_LED_MAX,
 }GPIO_LED_LIST;
 typedef enum
 {
    GPIO_LED_MODE_OFF,
    GPIO_LED_MODE_ON,
    GPIO_LED_MODE_TOGGLE,
 }GPIO_LED_MODE;
 void Gpio_StateLed_Initialization(void);
 void Gpio_Led_OutputSet(GPIO_LED_LIST gpio_led_index, GPIO_LED_MODE gpio_led_mode, uint32_t OnTime, uint32_t OffTime);
 #if 0
 #define GPIO_STATE_LED_PORT         (Pn_Type*)PF
 #define GPIO_STATE_LED_PIN_NUM      4
 #define GPIO_STATE_LED_ON           HAL_GPIO_ClearPin(GPIO_STATE_LED_PORT, _BIT(GPIO_STATE_LED_PIN_NUM))
@ -43,3 +67,5 @@ void Gpio_StateLed_Set_Mode(STATE_LED_MODE mode);
 STATE_LED_MODE Gpio_StateLed_Get_Mode(void);
 #endif
 #endif
--- a/Project/Application/gpio_switch.c
+++ b/Project/Application/gpio_switch.c
@ -5,8 +5,17 @@
 #if 1
-#define GPIO_PUSH_SW1_PORT              (Pn_Type*)PB
+#define GPIO_PUSH_SW1_PORT              (Pn_Type*)PC
-#define GPIO_PUSH_SW1_PIN_NUM           8
+#define GPIO_PUSH_SW1_PIN_NUM           0
 #define GPIO_PUSH_SW2_PORT              (Pn_Type*)PC
 #define GPIO_PUSH_SW2_PIN_NUM           1
 #define GPIO_PUSH_SW3_PORT              (Pn_Type*)PC
 #define GPIO_PUSH_SW3_PIN_NUM           2
 #define GPIO_PUSH_SW4_PORT              (Pn_Type*)PC
 #define GPIO_PUSH_SW4_PIN_NUM           3
 #else
 #define GPIO_PUSH_SW1_PORT              (Pn_Type*)PF
 #define GPIO_PUSH_SW1_PIN_NUM           6
@ -32,21 +41,30 @@ typedef struct
 static KEY_CHECK    KeyCheckInfo[KEY_PUSH_SW_MAX] = 
 {
    {GPIO_PUSH_SW1_PORT, GPIO_PUSH_SW1_PIN_NUM, DEFAULT_KEY_PUSH_COUNT, DEFAULT_LONGKEY_PUSH_COUNT, NULL, NULL, NULL, false, false, 0},
    {GPIO_PUSH_SW2_PORT, GPIO_PUSH_SW2_PIN_NUM, DEFAULT_KEY_PUSH_COUNT, DEFAULT_LONGKEY_PUSH_COUNT, NULL, NULL, NULL, false, false, 0},
    {GPIO_PUSH_SW3_PORT, GPIO_PUSH_SW3_PIN_NUM, DEFAULT_KEY_PUSH_COUNT, DEFAULT_LONGKEY_PUSH_COUNT, NULL, NULL, NULL, false, false, 0},
    {GPIO_PUSH_SW4_PORT, GPIO_PUSH_SW4_PIN_NUM, DEFAULT_KEY_PUSH_COUNT, DEFAULT_LONGKEY_PUSH_COUNT, NULL, NULL, NULL, false, false, 0},
 };
 static void Gpio_Switch_Check_Process(void);
-
+static void Gpio_Switch_TestCallback(KEY_LIST key);
 ///////////////////////////////////////////////////////////////////////////////////////////////////////////
 void Gpio_Switch_Port_Initialization(void)
 {    
-    HAL_GPIO_ConfigOutput((Pn_Type*)GPIO_PUSH_SW1_PORT, GPIO_PUSH_SW1_PIN_NUM, INPUT);
+    uint8_t i;
-    HAL_GPIO_ConfigPullup((Pn_Type*)GPIO_PUSH_SW1_PORT, GPIO_PUSH_SW1_PIN_NUM, PUPDx_EnablePU);
+    for(i = 0 ; i < KEY_PUSH_SW_MAX ; i++)
-    HAL_GPIO_SetDebouncePin((Pn_Type*)GPIO_PUSH_SW1_PORT, GPIO_PUSH_SW1_PIN_NUM, DBCLK_HCLK64);
+    {
-    
+        HAL_GPIO_ConfigOutput((Pn_Type*)KeyCheckInfo[i].Port, KeyCheckInfo[i].Pin, INPUT);
        HAL_GPIO_ConfigPullup((Pn_Type*)KeyCheckInfo[i].Port, KeyCheckInfo[i].Pin, PUPDx_EnablePU);
        HAL_GPIO_SetDebouncePin((Pn_Type*)KeyCheckInfo[i].Port, KeyCheckInfo[i].Pin, DBCLK_HCLK64);
        Gpio_Swtich_Set_Callback(i, Gpio_Switch_TestCallback, NULL, NULL);
    }
    SW_Timer_Callback_Register(SW_TIMER_RUN_CONTINUE, 1, Gpio_Switch_Check_Process);
 }
@ -70,7 +88,10 @@ void Gpio_Swtich_Set_Callback(KEY_LIST key, GPIO_SW_CALLBACK_FN Push_Callback, G
    }
 }
-
+static void Gpio_Switch_TestCallback(KEY_LIST key)
 {
    printf("%d key push\r\n", key);
 }
 ///////////////////////////////////////////////////////////////////////////////////////////////////////////
 static void Gpio_Switch_Check_Process(void)
@ -95,7 +116,7 @@ static void Gpio_Switch_Check_Process(void)
                    KeyCheckInfo[i].isLongKeyPush = true;
                    if(KeyCheckInfo[i].LongPush_Callback != NULL)
                    {
-                        KeyCheckInfo[i].LongPush_Callback();
+                        KeyCheckInfo[i].LongPush_Callback(i);
                    }
                }
            }
@ -108,14 +129,14 @@ static void Gpio_Switch_Check_Process(void)
                {
                    if(KeyCheckInfo[i].Push_Callback != NULL)
                    {
-                        KeyCheckInfo[i].Push_Callback();
+                        KeyCheckInfo[i].Push_Callback(i);
                    }
                }
            }
            if(KeyCheckInfo[i].Release_Callback != NULL)
            {
-                KeyCheckInfo[i].Release_Callback();
+                KeyCheckInfo[i].Release_Callback(i);
            }
            KeyCheckInfo[i].isPush = false;
            KeyCheckInfo[i].isLongKeyPush = false;
--- a/Project/Application/gpio_switch.h
+++ b/Project/Application/gpio_switch.h
@ -8,10 +8,13 @@
 typedef enum
 {
    KEY_PUSH_SW1,
    KEY_PUSH_SW2,
    KEY_PUSH_SW3,
    KEY_PUSH_SW4,    
    KEY_PUSH_SW_MAX
 }KEY_LIST;
-typedef void (*GPIO_SW_CALLBACK_FN) (void);
+typedef void (*GPIO_SW_CALLBACK_FN) (KEY_LIST key);
--- a/Project/Application/main.c
+++ b/Project/Application/main.c
@ -3,6 +3,7 @@
 #include "gpio_state_led.h"
 #include "gpio_switch.h"
 #include "uart1.h"
 #include "usart11_rs485.h"
 #include "spi10.h"
 #include "spi13.h"
 #include "timer12.h"
@ -19,10 +20,27 @@
 void timer_test(void)
 {
-    //Buzzer_On(50);
+    static bool istoggle = true;
-    //Segment_In_Set_Humidity(12);
+    uint8_t i;
    uint8_t TxBuff[10];
    for(i = 0 ; i < 10 ; i++)
        TxBuff[i] = i;
    Usart11_TransmitData(TxBuff, 10);
 #if 0
    if(istoggle == true)
    {
        istoggle = false;
        I2C2_SCL_HIGH;
    }
    else
    {
        istoggle = true;
        I2C2_SCL_LOW;
    }
    #endif
 }
@ -32,43 +50,75 @@ int main(void)
 {    
    System_Clock_Initialization();
    Systick_Initialization(1);       
-    FlashMEM_Clock_Initialization();
+    FlashMEM_Clock_Initialization();   
    Usart11_Initialization(38400, USART1n_DATA_BIT_8, USART1n_PARITY_BIT_NONE, USART1n_STOP_BIT_1);
    Uart1_Initialization(115200, UARTn_DATA_BIT_8, UARTn_PARITY_BIT_NONE, UARTn_STOP_BIT_1);
    Uart_Packet_Initialization();
    Timer12_Initialization();
-    Uart1_Initialization(115200, UARTn_DATA_BIT_8, UARTn_PARITY_BIT_NONE, UARTn_STOP_BIT_1);
+    GPIO_I2C2_Initialization();       
    RTC_Process_Initialization();
    Buzzer_Initialization();
    Gpio_Switch_Port_Initialization();
    Gpio_StateLed_Initialization();
    Timer12_Initialization();
    SPI10_Initialization(1000000, SPI10_MODE0, false);
    SPI13_Initialization(1000000, SPI13_MODE0, false);
    Segment_Initialization();
    Action_Initialization();
    __enable_irq();
    SW_Timer_Callback_Register(SW_TIMER_RUN_CONTINUE, 250, timer_test);
    while(true)
    {
        SW_Timer_Callback_Process();
    }
-    Gpio_StateLed_Initialization();
+
-    Gpio_Switch_Port_Initialization();
+    #if 0
    Gpio_Sensor_PWR_Initialization();
    GPIO_I2C0_Initialization();
    GPIO_I2C1_Initialization();
    GPIO_I2C2_Initialization();       
    Segment_Initialization();
    __enable_irq();
-    RTC_Process_Initialization();
+    
-    Buzzer_Initialization();
+    
    Action_Initialization();
-    Uart_Packet_Initialization();
+    
    //Sensor_Save_SDCard_Process();
-    SW_Timer_Callback_Register(SW_TIMER_RUN_CONTINUE, 500, timer_test);
+    
    //Timer12_Set_Match_Interrupt_Callback(timer_test);
    #endif
-    while(true)
+    
    {
        SW_Timer_Callback_Process();
    }
 }
--- a/Project/Application/rtc_process.c
+++ b/Project/Application/rtc_process.c
@ -31,8 +31,8 @@ static void RTC_Get_IC_Time_Process(void)
    rtc_Time.rtc_Min = t.minute;
    rtc_Time.rtc_Sec = t.second;
-
+    dbg_printf("Read RTC : %04d-%02d-%02d %02d:%02d:%02d\r\n", rtc_Time.rtc_Year, rtc_Time.rtc_Month, rtc_Time.rtc_Date, rtc_Time.rtc_Hour, rtc_Time.rtc_Min, rtc_Time.rtc_Sec);
-   
+    
 }
--- a/Project/Application/segment.c
+++ b/Project/Application/segment.c
@ -1,5 +1,6 @@
 #include "segment.h"
 #include "segment_74hc595d.h"
 #include "rtc_process.h"
 const uint8_t SegmentData[SEG_INDEX_MAX] = 
 {
@ -50,6 +51,146 @@ const uint8_t SegmentData[SEG_INDEX_MAX] =
 uint8_t Segment_OutputBuff[SEGMENT_SELECT_MAX_INDEX][SEGMENT_MAX_DATA_INDEX];
 void Segment_Sensor_Error(void)
 {
    Segment_OutputBuff[SEGMENT_1000][SEGMENT_F2] = SegmentData[SEG_MINUS];
    Segment_OutputBuff[SEGMENT_100][SEGMENT_F2] = SegmentData[SEG_MINUS];
    Segment_OutputBuff[SEGMENT_10][SEGMENT_F2] = SegmentData[SEG_MINUS];
    Segment_OutputBuff[SEGMENT_1][SEGMENT_F2] = SegmentData[SEG_MINUS];
 }
 void Segment_All_Set_Data(uint8_t SegmentData)
 {
    uint8_t i;
    for(i = SEGMENT_COM1 ; i < SEGMENT_SELECT_MAX_INDEX ; i++)
    {
        Segment_OutputBuff[i][SEGMENT_F1] = SegmentData;
        Segment_OutputBuff[i][SEGMENT_F2] = SegmentData;        
    }
 }
 void Segment_Show_Version(void)
 {
    uint8_t temp;
    Segment_All_Set_Data(0x00);
    Segment_OutputBuff[SEGMENT_1000][SEGMENT_F1] = SegmentData[SEG_V];
    Segment_OutputBuff[SEGMENT_100][SEGMENT_F1] = SegmentData[SEG_E];
    Segment_OutputBuff[SEGMENT_10][SEGMENT_F1] = SegmentData[SEG_R];    
    temp = VERSION_MAJOR;
    if(temp >= 99)
    {
        temp = 99;
    }
    if(VERSION_MAJOR < 10)
    {
        Segment_OutputBuff[SEGMENT_1000][SEGMENT_F2] = SegmentData[SEG_CLEAR];
    }    
    else
    {
        Segment_OutputBuff[SEGMENT_1000][SEGMENT_F2] = SegmentData[temp/10];    
    }
    Segment_OutputBuff[SEGMENT_100][SEGMENT_F2] = SegmentData[temp%10] | 0x80;
    temp = VERSION_MINOR;
    if(temp >= 99)
    {
        temp = 99;
    }
    Segment_OutputBuff[SEGMENT_10][SEGMENT_F2] = SegmentData[temp/10];
    Segment_OutputBuff[SEGMENT_1][SEGMENT_F2] = SegmentData[temp%10];
 }
 void Segment_Show_Time(void)
 {
    uint32_t colon_on = millis() % 1000;;
    RTC_TIME rtc_time = RTC_Get_Time();
    Segment_OutputBuff[SEGMENT_1000][SEGMENT_F1] = SegmentData[rtc_time.rtc_Hour/10];
    Segment_OutputBuff[SEGMENT_100][SEGMENT_F1] = SegmentData[rtc_time.rtc_Hour%10];
    Segment_OutputBuff[SEGMENT_10][SEGMENT_F1] = SegmentData[rtc_time.rtc_Min/10];
    Segment_OutputBuff[SEGMENT_1][SEGMENT_F1] = SegmentData[rtc_time.rtc_Min%10];
    if(colon_on > 500)
    {
        Segment_OutputBuff[SEGMENT_EXT][SEGMENT_F1] = 0x02;
    }
    else
    {
        Segment_OutputBuff[SEGMENT_EXT][SEGMENT_F1] = SegmentData[SEG_CLEAR];
    }
 }
 void Segment_Show_SensorData(uint32_t SensorData)
 {
    if(SensorData >= 9999)
    {
        Segment_OutputBuff[SEGMENT_1000][SEGMENT_F2] = SegmentData[SEG_9];
        Segment_OutputBuff[SEGMENT_100][SEGMENT_F2] = SegmentData[SEG_9];
        Segment_OutputBuff[SEGMENT_10][SEGMENT_F2] = SegmentData[SEG_9];
        Segment_OutputBuff[SEGMENT_1][SEGMENT_F2] = SegmentData[SEG_9];
    }
    else if(SensorData >= 1000)
    {
        Segment_OutputBuff[SEGMENT_1000][SEGMENT_F2] = SegmentData[SensorData/1000];
        Segment_OutputBuff[SEGMENT_100][SEGMENT_F2] = SegmentData[(SensorData%1000)/100];
        Segment_OutputBuff[SEGMENT_10][SEGMENT_F2] = SegmentData[(SensorData%100)/10];
        Segment_OutputBuff[SEGMENT_1][SEGMENT_F2] = SegmentData[(SensorData%10)];
    }
    else if(SensorData >= 100)
    {
        Segment_OutputBuff[SEGMENT_1000][SEGMENT_F2] = SegmentData[SEG_CLEAR];
        Segment_OutputBuff[SEGMENT_100][SEGMENT_F2] = SegmentData[(SensorData%1000)/100];
        Segment_OutputBuff[SEGMENT_10][SEGMENT_F2] = SegmentData[(SensorData%100)/10];
        Segment_OutputBuff[SEGMENT_1][SEGMENT_F2] = SegmentData[(SensorData%10)];
    }
    else if(SensorData >= 10)
    {
        Segment_OutputBuff[SEGMENT_1000][SEGMENT_F2] = SegmentData[SEG_CLEAR];
        Segment_OutputBuff[SEGMENT_100][SEGMENT_F2] = SegmentData[SEG_CLEAR];
        Segment_OutputBuff[SEGMENT_10][SEGMENT_F2] = SegmentData[(SensorData%100)/10];
        Segment_OutputBuff[SEGMENT_1][SEGMENT_F2] = SegmentData[(SensorData%10)];
    }
    else
    {
        Segment_OutputBuff[SEGMENT_1000][SEGMENT_F2] = SegmentData[SEG_CLEAR];
        Segment_OutputBuff[SEGMENT_100][SEGMENT_F2] = SegmentData[SEG_CLEAR];
        Segment_OutputBuff[SEGMENT_10][SEGMENT_F2] = SegmentData[SEG_CLEAR];
        Segment_OutputBuff[SEGMENT_1][SEGMENT_F2] = SegmentData[(SensorData%10)];
    }
 }
 #if 0
 void Segment_In_Set_PM_1p0(uint32_t OutputData)
 {
    Segment_Toggle_In = false;
@ -581,3 +722,4 @@ void Segment_Out_Sensor_Error(void)
    Segment_OutputBuff[SEGMENT_F4C1][SEGMENT_DATA_4] = SegmentData[SEG_MINUS];
    Segment_OutputBuff[SEGMENT_F4C2][SEGMENT_DATA_4] = SegmentData[SEG_MINUS];    
 }
 #endif
--- a/Project/Application/segment.h
+++ b/Project/Application/segment.h
@ -49,23 +49,27 @@ typedef enum
 typedef enum
 {
-    SEGMENT_F1C1,
+    SEGMENT_COM1,
-    SEGMENT_F1C2,
+    SEGMENT_COM2,
-    SEGMENT_F2C1,
+    SEGMENT_COM3,
-    SEGMENT_F2C2,
+    SEGMENT_COM4,
-    SEGMENT_F3C1,
+    SEGMENT_COM5,    
    SEGMENT_F3C2,
    SEGMENT_F4C1,
    SEGMENT_F4C2,
    SEGMENT_SELECT_MAX_INDEX,
 }SEGMENT_SELECT_INDEX;
 typedef enum
 {
-    SEGMENT_DATA_1,
+    SEGMENT_1000,
-    SEGMENT_DATA_2,
+    SEGMENT_100,
-    SEGMENT_DATA_3,
+    SEGMENT_10,
-    SEGMENT_DATA_4,
+    SEGMENT_1,
    SEGMENT_EXT,    
 }SEGMENT_SELECT_NAME;
 typedef enum
 {
    SEGMENT_F1,
    SEGMENT_F2,    
    SEGMENT_MAX_DATA_INDEX,
 }SEGMENT_DATA_INDEX;
@ -74,24 +78,10 @@ extern uint8_t Segment_OutputBuff[SEGMENT_SELECT_MAX_INDEX][SEGMENT_MAX_DATA_IND
 extern const uint8_t SegmentData[SEG_INDEX_MAX];
-void Segment_In_Set_PM_1p0(uint32_t OutputData);
+void Segment_Sensor_Error(void);
 void Segment_In_Set_PM_2p5(uint32_t OutputData);
 void Segment_In_Set_PM_4p0(uint32_t OutputData);
 void Segment_In_Set_PM_10(uint32_t OutputData);
 void Segment_In_Set_Humidity(uint32_t OutputData);
 void Segment_In_Set_Temperature(int32_t OutputData);
 void Segment_In_Sensor_Error(void);
 void Segment_Out_Set_PM_1p0(uint32_t OutputData);
 void Segment_Out_Set_PM_2p5(uint32_t OutputData);
 void Segment_Out_Set_PM_4p0(uint32_t OutputData);
 void Segment_Out_Set_PM_10(uint32_t OutputData);
 void Segment_Out_Set_Humidity(uint32_t OutputData);
 void Segment_Out_Set_Temperature(int32_t OutputData);
 void Segment_Out_Sensor_Error(void);
 void Segment_All_Set_Data(uint8_t SegmentData);
 void Segment_Show_Version(void);
-void Segment_Show_Mode(uint8_t Mode);
+void Segment_Show_Time(void);
 void Segment_Show_SensorData(uint32_t SensorData);
 #endif
--- a/Project/Application/segment_74hc595d.c
+++ b/Project/Application/segment_74hc595d.c
@ -12,19 +12,8 @@ typedef enum
 }LSB_MSB_MODE;
 #define SEGMENT_74HC595D_SDATA_PORT         (Pn_Type*)PE
 #define SEGMENT_74HC595D_SDATA_PIN          8
 #define SEGMENT_74HC595D_SDATA_HIGH		    HAL_GPIO_SetPin(SEGMENT_74HC595D_SDATA_PORT,_BIT(SEGMENT_74HC595D_SDATA_PIN))
 #define SEGMENT_74HC595D_SDATA_LOW		    HAL_GPIO_ClearPin(SEGMENT_74HC595D_SDATA_PORT,_BIT(SEGMENT_74HC595D_SDATA_PIN))
 #define SEGMENT_74HC595D_SCK_PORT           (Pn_Type*)PE
 #define SEGMENT_74HC595D_SCK_PIN            9
 #define SEGMENT_74HC595D_SCK_HIGH		    HAL_GPIO_SetPin(SEGMENT_74HC595D_SCK_PORT,_BIT(SEGMENT_74HC595D_SCK_PIN))
 #define SEGMENT_74HC595D_SCK_LOW		    HAL_GPIO_ClearPin(SEGMENT_74HC595D_SCK_PORT,_BIT(SEGMENT_74HC595D_SCK_PIN))
 #define SEGMENT_74HC595D_LATCH_PORT         (Pn_Type*)PE
-#define SEGMENT_74HC595D_LATCH_PIN_NUM      10
+#define SEGMENT_74HC595D_LATCH_PIN_NUM      11
 #define SEGMENT_74HC595D_LATCH_H            HAL_GPIO_SetPin(SEGMENT_74HC595D_LATCH_PORT, _BIT(SEGMENT_74HC595D_LATCH_PIN_NUM))
 #define SEGMENT_74HC595D_LATCH_L            HAL_GPIO_ClearPin(SEGMENT_74HC595D_LATCH_PORT, _BIT(SEGMENT_74HC595D_LATCH_PIN_NUM))
 #define SEGMENT_74HC595D_LATCH_T            HAL_GPIO_TogglePin(SEGMENT_74HC595D_LATCH_PORT, _BIT(SEGMENT_74HC595D_LATCH_PIN_NUM))
@ -34,20 +23,15 @@ typedef union
 {
    struct 
    {
-        uint8_t HC595_4;
+        uint8_t HC595_1_COM1        : 1;
-        uint8_t HC595_3;
+        uint8_t HC595_1_COM2        : 1;
        uint8_t HC595_1_COM3        : 1;        
        uint8_t HC595_1_COM4        : 1;
        uint8_t HC595_1_COM5        : 1;
        uint8_t HC595_1_RESERVED    : 3;        
        uint8_t HC595_5_F1C1  : 1;
        uint8_t HC595_5_F1C2  : 1;
        uint8_t HC595_5_F2C1  : 1;        
        uint8_t HC595_5_F2C2  : 1;
        uint8_t HC595_5_F3C1  : 1;
        uint8_t HC595_5_F3C2  : 1;        
        uint8_t HC595_5_F4C1  : 1;
        uint8_t HC595_5_F4C2  : 1;                       
        uint8_t HC595_2;
-        uint8_t HC595_1;
+        uint8_t HC595_3;        
    }HC595_Data;
    uint8_t HC595_TxBuff[SEGMENT_74HC595D_IC_TOTAL_NUM];
 }HC595_OUTPUT_DATA;
@ -70,19 +54,11 @@ static void Segment_Output_Data(uint8_t* pTxData, uint8_t TxSize);
 void Segment_Initialization(void)
 {
    HAL_GPIO_ConfigOutput(SEGMENT_74HC595D_SDATA_PORT, SEGMENT_74HC595D_SDATA_PIN, PUSH_PULL_OUTPUT);    
    HAL_GPIO_ConfigPullup(SEGMENT_74HC595D_SDATA_PORT, SEGMENT_74HC595D_SDATA_PIN, PUPDx_EnablePU);
    HAL_GPIO_ConfigOutput(SEGMENT_74HC595D_SCK_PORT, SEGMENT_74HC595D_SCK_PIN, PUSH_PULL_OUTPUT);    
    HAL_GPIO_ConfigPullup(SEGMENT_74HC595D_SCK_PORT, SEGMENT_74HC595D_SCK_PIN, PUPDx_EnablePU);
    HAL_GPIO_ConfigOutput(SEGMENT_74HC595D_LATCH_PORT, SEGMENT_74HC595D_LATCH_PIN_NUM, PUSH_PULL_OUTPUT);    
    HAL_GPIO_ConfigPullup(SEGMENT_74HC595D_LATCH_PORT, SEGMENT_74HC595D_LATCH_PIN_NUM, PUPDx_EnablePU);
-    SEGMENT_74HC595D_LATCH_H;
+    SEGMENT_74HC595D_LATCH_H;   
    SEGMENT_74HC595D_SCK_LOW;
    SEGMENT_74HC595D_SDATA_HIGH;
    //Segmet_Output_Process();
    ToggleTickCount = millis();
@ -94,65 +70,29 @@ static void Segemet_Output_Process(void)
 {
    static uint8_t temp = 0;
-    memset(HC595_OutputData.HC595_TxBuff, 0, SEGMENT_74HC595D_IC_TOTAL_NUM);
+    memset(HC595_OutputData.HC595_TxBuff, 0, SEGMENT_74HC595D_IC_TOTAL_NUM);   
    if((millis() - ToggleTickCount) >= SEGMENT_TOGGLE_TIME)
    {
        ToggleTickCount = millis();
        isToggle = !isToggle;
    }
    switch(SegmentOutputStep)
    {
-        case SEGMENT_OUTPUT_F1C1:                        
+        case SEGMENT_OUTPUT_COM1:                        
-            HC595_OutputData.HC595_Data.HC595_5_F1C1 = true;
+            HC595_OutputData.HC595_Data.HC595_1_COM1 = true;
        break;
-        case SEGMENT_OUTPUT_F1C2:
+        case SEGMENT_OUTPUT_COM2:
-            HC595_OutputData.HC595_Data.HC595_5_F1C2 = true;
+            HC595_OutputData.HC595_Data.HC595_1_COM2 = true;
        break;        
-        case SEGMENT_OUTPUT_F2C1:
+        case SEGMENT_OUTPUT_COM3:
-            HC595_OutputData.HC595_Data.HC595_5_F2C1 = true;
+            HC595_OutputData.HC595_Data.HC595_1_COM3 = true;
        break;
        case SEGMENT_OUTPUT_F2C2:
            HC595_OutputData.HC595_Data.HC595_5_F2C2 = true;
        break;
        case SEGMENT_OUTPUT_F3C1:
            HC595_OutputData.HC595_Data.HC595_5_F3C1 = true;
        break;
        case SEGMENT_OUTPUT_F3C2:            
            HC595_OutputData.HC595_Data.HC595_5_F3C2 = true;
        break;
-        case SEGMENT_OUTPUT_F4C1:            
+        case SEGMENT_OUTPUT_COM4:
-            HC595_OutputData.HC595_Data.HC595_5_F4C1 = true;
+            HC595_OutputData.HC595_Data.HC595_1_COM4 = true;
        break;
-        case SEGMENT_OUTPUT_F4C2:
+        case SEGMENT_OUTPUT_COM5:
-            HC595_OutputData.HC595_Data.HC595_5_F4C2 = true;
+            HC595_OutputData.HC595_Data.HC595_1_COM5 = true;
-        break;
+        break;        
    }
    HC595_OutputData.HC595_Data.HC595_1 = Segment_OutputBuff[SegmentOutputStep][0];
    HC595_OutputData.HC595_Data.HC595_2 = Segment_OutputBuff[SegmentOutputStep][1];
    HC595_OutputData.HC595_Data.HC595_3 = Segment_OutputBuff[SegmentOutputStep][2];
    HC595_OutputData.HC595_Data.HC595_4 = Segment_OutputBuff[SegmentOutputStep][3];
    if(Segment_Toggle_In == true && isToggle == true)
    {
        if(SegmentOutputStep == DUST_SENSOR_PM40_SELECT_1 || SegmentOutputStep == DUST_SENSOR_PM40_SELECT_2)
        {
            HC595_OutputData.HC595_Data.HC595_1 = 0x00;
            HC595_OutputData.HC595_Data.HC595_2 = 0x00;
        }
    }
-    if(Segment_Toggle_Out == true && isToggle == true)
+    HC595_OutputData.HC595_Data.HC595_3 = Segment_OutputBuff[SegmentOutputStep][SEGMENT_F1];
-    {
+    HC595_OutputData.HC595_Data.HC595_2 = Segment_OutputBuff[SegmentOutputStep][SEGMENT_F2];  
        if(SegmentOutputStep == DUST_SENSOR_PM40_SELECT_1 || SegmentOutputStep == DUST_SENSOR_PM40_SELECT_2)
        {
            HC595_OutputData.HC595_Data.HC595_3 = 0x00;
            HC595_OutputData.HC595_Data.HC595_4 = 0x00;
        }
    }
    SEGMENT_74HC595D_LATCH_L;
    Segment_Output_Data(HC595_OutputData.HC595_TxBuff, SEGMENT_74HC595D_IC_TOTAL_NUM);
@ -161,60 +101,13 @@ static void Segemet_Output_Process(void)
    SegmentOutputStep++;
    if(SegmentOutputStep >= SEGMENT_OUTPUT_MAX)
    {
-        SegmentOutputStep = SEGMENT_OUTPUT_F1C1;
+        SegmentOutputStep = SEGMENT_OUTPUT_COM1;
    }
 }
 static void Segment_Output_Data(uint8_t* pTxData, uint8_t TxSize)
 {
-    uint8_t Temp;
+    SPI13_Transmit(pTxData, TxSize);    
    uint8_t i, j;
    if(HC595_OutputMode == LSB_FIRST)
    {
        for(i = 0 ; i < TxSize ; i++)
        {
            Temp = pTxData[i];
            for(j = 0 ; j < 8 ; j++)
            {
                if((Temp & 0x01))                
                {
                    SEGMENT_74HC595D_SDATA_HIGH;
                }
                else
                {
                    SEGMENT_74HC595D_SDATA_LOW;
                }
                SEGMENT_74HC595D_SCK_HIGH;
                SEGMENT_74HC595D_SCK_LOW;
                Temp = Temp >> 1;
            }
        }
    }
    else
    {
        for(i = 0 ; i < TxSize ; i++)
        {
            Temp = pTxData[i];
            for(j = 0 ; j < 8 ; j++)
            {
                if((Temp & 0x80))                
                {
                    SEGMENT_74HC595D_SDATA_HIGH;
                }
                else
                {
                    SEGMENT_74HC595D_SDATA_LOW;
                }
                SEGMENT_74HC595D_SCK_HIGH;
                SEGMENT_74HC595D_SCK_LOW;
                Temp = Temp << 1;
            }
        }
    }
    SEGMENT_74HC595D_SDATA_HIGH;
 }
--- a/Project/Application/segment_74hc595d.h
+++ b/Project/Application/segment_74hc595d.h
@ -6,7 +6,7 @@
 #include "board_config.h"
-#define SEGMENT_74HC595D_IC_DATA_NUM        4
+#define SEGMENT_74HC595D_IC_DATA_NUM        2
 #define SEGMENT_74HC595D_IC_SELECT_NUM      1
 #define SEGMENT_74HC595D_IC_TOTAL_NUM       (SEGMENT_74HC595D_IC_DATA_NUM + SEGMENT_74HC595D_IC_SELECT_NUM)
@ -25,14 +25,11 @@
 typedef enum
 {
-    SEGMENT_OUTPUT_F1C1,
+    SEGMENT_OUTPUT_COM1,
-    SEGMENT_OUTPUT_F1C2,
+    SEGMENT_OUTPUT_COM2,
-    SEGMENT_OUTPUT_F2C1,
+    SEGMENT_OUTPUT_COM3,
-    SEGMENT_OUTPUT_F2C2,
+    SEGMENT_OUTPUT_COM4,
-    SEGMENT_OUTPUT_F3C1,
+    SEGMENT_OUTPUT_COM5,    
    SEGMENT_OUTPUT_F3C2,
    SEGMENT_OUTPUT_F4C1,
    SEGMENT_OUTPUT_F4C2,
    SEGMENT_OUTPUT_MAX,
 }SEGMENT_OUTPUT_STEP;
--- a/Project/Application/usart11_rs485.c
+++ b/Project/Application/usart11_rs485.c
@ -1,14 +1,9 @@
-#include "usart11.h"
+#include "usart11_rs485.h"
 #include "ring_buffer.h"
 #include "sw_timer.h"
 #include "gpio_uart_led.h"
 #define USARTn_TX_INTERRUTP_ENABLE      FALSE
 #define USARTn_PERIPHERAL               USART11
 #define USARTn_INTERRUPT_HANDLER        USART11_IRQn
 #define USARTn_INTERRUPT_MASK           MSK_USART11
@ -19,10 +14,19 @@
 #define USARTn_RX_PORT                  PD
 #define USARTn_RX_PIN_NUM               3
-#define USARTn_TX_BUFFER_SIZE           600
+#define USARTn_TX_BUFFER_SIZE           100
 #define USARTn_RX_BUFFER_SIZE           100
 #define USARTn_RS485_REDE_PORT                   (Pn_Type*)PD
 #define USARTn_RS485_REDE_NUM                    4
 #define USARTn_RS485_RECEIVE                     HAL_GPIO_ClearPin(USARTn_RS485_REDE_PORT, _BIT(USARTn_RS485_REDE_NUM))
 #define USARTn_RS485_TRANSMIT                    HAL_GPIO_SetPin(USARTn_RS485_REDE_PORT, _BIT(USARTn_RS485_REDE_NUM))
 static uint8_t Tx_Buffer[USARTn_TX_BUFFER_SIZE];
 static uint8_t Rx_Buffer[USARTn_RX_BUFFER_SIZE];
@ -61,6 +65,10 @@ void Usart11_Initialization(uint32_t Baudrate, USART1n_DATA_BIT_Type Databit, US
    USART1n_Config.Stopbits = Stopbit;
    HAL_USART_Init( ( USART1n_Type* )USARTn_PERIPHERAL, &USART1n_Config );
    HAL_GPIO_ConfigOutput(USARTn_RS485_REDE_PORT, USARTn_RS485_REDE_NUM, PUSH_PULL_OUTPUT);
    HAL_GPIO_ConfigPullup(USARTn_RS485_REDE_PORT, USARTn_RS485_REDE_NUM, PUPDx_EnablePU);
    USARTn_RS485_RECEIVE;
    /* Enable UART Rx interrupt */
    HAL_USART_ConfigInterrupt((USART1n_Type*)USARTn_PERIPHERAL, USART1n_INTCFG_RXC, ENABLE );
@ -188,21 +196,37 @@ static void Usart11_Init_TransmitSet(void)
 #else
 static void Usart11_Transmit_Process(void)
 {
-    if(RingBuffer_Get_DataSize(&RingBuffer_Tx) != 0)
+    uint32_t TxCount = RingBuffer_Get_DataSize(&RingBuffer_Tx);
    if(TxCount != 0)
    {
-        uint8_t TxData;
+        uint8_t TxData;        
-        GPIO_UART_RS232_RX_LED_ON;
+        USARTn_RS485_TRANSMIT;
        RingBuffer_GetData(&RingBuffer_Tx, &TxData);
-         
+
-        if(HAL_USART_Transmit((USART1n_Type*)USARTn_PERIPHERAL, &TxData, 1, NONE_BLOCKING))
+        if(TxCount <= 2) 
        {
-            /* Update transmit ring FIFO tail pointer */
+            if(HAL_USART_CheckBusy((UARTn_Type *)USARTn_PERIPHERAL) == RESET)
-            RingBuffer_PopData(&RingBuffer_Tx);            
+            {
                if(HAL_USART_Transmit((USART1n_Type*)USARTn_PERIPHERAL, &TxData, 1, BLOCKING))
                {
                    /* Update transmit ring FIFO tail pointer */
                    RingBuffer_PopData(&RingBuffer_Tx);            
                }
            }
        }
-    }   
+        else
-    else
+        {
            if(HAL_USART_Transmit((USART1n_Type*)USARTn_PERIPHERAL, &TxData, 1, NONE_BLOCKING))
            {
                /* Update transmit ring FIFO tail pointer */
                RingBuffer_PopData(&RingBuffer_Tx);            
            }
        }               
    }           
    else 
    {
-        GPIO_UART_RS232_RX_LED_OFF;
+        if(HAL_USART_CheckBusy((UARTn_Type *)USARTn_PERIPHERAL) == RESET)
            USARTn_RS485_RECEIVE;        
    }
 }
 #endif
--- a/Project/Application/usart11_rs485.h
+++ b/Project/Application/usart11_rs485.h
@ -1,7 +1,8 @@
 /** \file usart11.h */ 
-#if !defined(USART11_H__358CA7DD_31CD_4E7D_9BFE_5B68A5DAD39D__INCLUDED_)
+#if !defined(USART11_RS485_H__358CA7DD_31CD_4E7D_9BFE_5B68A5DAD39D__INCLUDED_)
-#define USART11_H__358CA7DD_31CD_4E7D_9BFE_5B68A5DAD39D__INCLUDED_
+#define USART11_RS485_H__358CA7DD_31CD_4E7D_9BFE_5B68A5DAD39D__INCLUDED_
 #include "board_config.h"
 #include "define.h"
 void Usart11_Initialization(uint32_t Baudrate, USART1n_DATA_BIT_Type Databit, USART1n_PARITY_BIT_Type Paritybit, USART1n_STOP_BIT_Type Stopbit);
--- a/Project/Listings/S_DustSensorView.map
+++ b/Project/Listings/S_DustSensorView.map