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VC66_7C
Commit fa5f01c5 authored by hu's avatar hu
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调整电源管理

parent b69dc729
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Showing with 1044 additions and 915 deletions
source/Application/APP/PowerManagement/PowerManagement_user.c
View file @ fa5f01c5
......@@ -67,6 +67,8 @@
static uint8_t PowerGetNMStatus(void);
extern void SEG_LCD_Window_Switch(uint8_t Sw);
extern void DelayUs(uint32_t time);
extern void Sys_KL30_Init(void);
extern void Sys_Wakeup_Init(void);
Power_Status_t Power_KL30_Init ( void )
{
......@@ -311,7 +313,8 @@ Power_Status_t Power_Stay_ON(void)
u8PowerSts = m_IGN_ON;
}
}
if (((u8Condition3 == 1u) || (u8Condition3 >= 7u)))
//if (((u8Condition3 == 1u) || (u8Condition3 >= 7u)))
if (SYS_OPR_STAT_HALT)
{
u8PowerSts = m_IGN_LIMIT;
}
......
source/Application/APP/PowerManagement/System_Monitor.c
View file @ fa5f01c5
......@@ -2,8 +2,22 @@
#include "System_Monitor.h"
#define Base_Vol 0u
typedef struct
{
monitorlib_uint8_t SumCnt;
monitorlib_uint16_t DebounceTimer;
monitorlib_uint32_t ActVoltage;
monitorlib_uint8_t FinalSts;
monitorlib_uint8_t ActSts;
} MonitorStruct;
MonitorStruct SysFun_KL30Monitor;
MonitorStruct SysFun_KL15Monitor;
MonitorStruct SysNM_KL30Monitor;
MonitorStruct SysNM_KL15Monitor;
#define Base_Vol 0u
#define ENTER_LOW_N_RANGE 6500U
#define EXIT_LOW_N_RANGE 7000U
......@@ -20,21 +34,19 @@
#define Top_Vol 0xffffu
MonitorStruct SysFun_KL30Monitor;
MonitorStruct SysFun_KL15Monitor;
static monitorlib_uint8_t System_Calc_NMRange(monitorlib_uint16_t u16Vol);
static monitorlib_uint8_t System_Calc_FunRange(monitorlib_uint16_t u16Vol);
MonitorStruct SysNM_KL30Monitor;
MonitorStruct SysNM_KL15Monitor;
static void System_Fast_WakeUp(void);
static void System_Fun_Process(void);
static void System_NM_Process(void);
uint8_t SysWakeUpMode = 0u;
static uint8_t SetVolFlag = 0u;
MonitorExt_st pfunction;
static uint16_t t_NM_KL30_Debounce;
static uint16_t t_NM_KL15_Debounce;
static uint16_t t_FUN_KL30_Debounce;
static uint16_t t_FUN_KL15_Debounce;
monitorlib_uint8_t SysWakeUpMode = 0u;
monitorlib_uint8_t SetVolFlag = 0u;
static uint16_t FUNSysVol_Range[10u] =
monitorlib_uint16_t FUNSysVol_Range [ 10u ] =
{
Base_Vol,
ENTER_LOW_N_RANGE,
......@@ -48,7 +60,7 @@ static uint16_t FUNSysVol_Range[10u] =
Top_Vol,
};
static uint16_t NMSysVol_Range[10u] =
monitorlib_uint16_t NMSysVol_Range [ 10u ] =
{
Base_Vol,
ENTER_LOW_N_RANGE,
......@@ -62,17 +74,29 @@ static uint16_t NMSysVol_Range[10u] =
Top_Vol,
};
uint8_t Read_KL30_ConvertFinish(void)
monitorlib_uint16_t t_FUN_KL30_Debounce;
monitorlib_uint16_t t_FUN_KL15_Debounce;
monitorlib_uint16_t t_NM_KL30_Debounce;
monitorlib_uint16_t t_NM_KL15_Debounce;
monitorlib_uint16_t t_NM_KL30_Debounce_Cancel;
monitorlib_uint16_t t_NM_KL15_Debounce_Cancel;
monitorlib_uint16_t t_FUN_KL30_Debounce_Cancel;
monitorlib_uint16_t t_FUN_KL15_Debounce_Cancel;
monitorlib_uint16_t t_NM_KL30_timer;
monitorlib_uint16_t t_FUN_KL30_timer;
monitorlib_uint8_t Read_KL30_ConvertFinish(void)
{
return SysWakeUpMode;
}
static uint8_t System_Calc_FunRange(uint16_t u16Vol)
static monitorlib_uint8_t System_Calc_FunRange(monitorlib_uint16_t u16Vol)
{
uint8_t i;
for (i = 0u; i < (sizeof(FUNSysVol_Range) / sizeof(FUNSysVol_Range[0])); i++)
monitorlib_uint8_t i;
for ( i = 0u; i < (sizeof(FUNSysVol_Range) / sizeof(FUNSysVol_Range [ 0 ])); i++ )
{
if (u16Vol < FUNSysVol_Range[i])
if ( u16Vol < FUNSysVol_Range [ i ] )
{
break;
}
......@@ -80,12 +104,12 @@ static uint8_t System_Calc_FunRange(uint16_t u16Vol)
return i;
}
static uint8_t System_Calc_NMRange(uint16_t u16Vol)
static monitorlib_uint8_t System_Calc_NMRange(monitorlib_uint16_t u16Vol)
{
uint8_t i;
for (i = 0u; i < (sizeof(NMSysVol_Range) / sizeof(NMSysVol_Range[0])); i++)
monitorlib_uint8_t i;
for ( i = 0u; i < (sizeof(NMSysVol_Range) / sizeof(NMSysVol_Range [ 0 ])); i++ )
{
if (u16Vol < NMSysVol_Range[i])
if ( u16Vol < NMSysVol_Range [ i ] )
{
break;
}
......@@ -93,38 +117,50 @@ static uint8_t System_Calc_NMRange(uint16_t u16Vol)
return i;
}
void Sys_Set_VolRange(const uint16_t FUN_Vol[], const uint16_t NM_Vol[])
void Sys_Set_Pata(const monitorlib_uint16_t FUN_Vol [], MonitorExt_st *pfunc)
{
FUNSysVol_Range[0] = FUN_Vol[0];
FUNSysVol_Range[1] = FUN_Vol[1];
FUNSysVol_Range[2] = FUN_Vol[2];
FUNSysVol_Range[3] = FUN_Vol[3];
FUNSysVol_Range[4] = FUN_Vol[4];
FUNSysVol_Range[5] = FUN_Vol[5];
FUNSysVol_Range[6] = FUN_Vol[6];
FUNSysVol_Range[7] = FUN_Vol[7];
FUNSysVol_Range[8] = FUN_Vol[8];
FUNSysVol_Range[9] = FUN_Vol[9];
NMSysVol_Range[0] = NM_Vol[0];
NMSysVol_Range[1] = NM_Vol[1];
NMSysVol_Range[2] = NM_Vol[2];
NMSysVol_Range[3] = NM_Vol[3];
NMSysVol_Range[4] = NM_Vol[4];
NMSysVol_Range[5] = NM_Vol[5];
NMSysVol_Range[6] = NM_Vol[6];
NMSysVol_Range[7] = NM_Vol[7];
NMSysVol_Range[8] = NM_Vol[8];
NMSysVol_Range[9] = NM_Vol[9];
SetVolFlag = 0x55u;
}
FUNSysVol_Range [ 0 ] = FUN_Vol [ 0 ];
FUNSysVol_Range [ 1 ] = FUN_Vol [ 1 ];
FUNSysVol_Range [ 2 ] = FUN_Vol [ 2 ];
FUNSysVol_Range [ 3 ] = FUN_Vol [ 3 ];
FUNSysVol_Range [ 4 ] = FUN_Vol [ 4 ];
FUNSysVol_Range [ 5 ] = FUN_Vol [ 5 ];
FUNSysVol_Range [ 6 ] = FUN_Vol [ 6 ];
FUNSysVol_Range [ 7 ] = FUN_Vol [ 7 ];
FUNSysVol_Range [ 8 ] = FUN_Vol [ 8 ];
FUNSysVol_Range [ 9 ] = FUN_Vol [ 9 ];
t_FUN_KL30_Debounce = FUN_Vol [ 10 ];
t_FUN_KL15_Debounce = FUN_Vol [ 11 ];
NMSysVol_Range [ 0 ] = FUN_Vol [ 12 ];
NMSysVol_Range [ 1 ] = FUN_Vol [ 13 ];
NMSysVol_Range [ 2 ] = FUN_Vol [ 14 ];
NMSysVol_Range [ 3 ] = FUN_Vol [ 15 ];
NMSysVol_Range [ 4 ] = FUN_Vol [ 16 ];
NMSysVol_Range [ 5 ] = FUN_Vol [ 17 ];
NMSysVol_Range [ 6 ] = FUN_Vol [ 18 ];
NMSysVol_Range [ 7 ] = FUN_Vol [ 19 ];
NMSysVol_Range [ 8 ] = FUN_Vol [ 20 ];
NMSysVol_Range [ 9 ] = FUN_Vol [ 21 ];
t_NM_KL30_Debounce = FUN_Vol [ 22 ];
t_NM_KL15_Debounce = FUN_Vol [ 23 ];
t_NM_KL30_Debounce_Cancel = FUN_Vol [ 24 ];
t_FUN_KL30_Debounce_Cancel = FUN_Vol [ 25 ];
pfunction.SysGet_KL30_Valid = pfunc->SysGet_KL30_Valid;
pfunction.SysGet_KL15_Valid = pfunc->SysGet_KL15_Valid;
pfunction.SysGet_KL30_value_Force = pfunc->SysGet_KL30_value_Force;
pfunction.SysGet_KL15_value_Force = pfunc->SysGet_KL15_value_Force;
pfunction.SysGet_KL30_value = pfunc->SysGet_KL30_value;
pfunction.SysGet_KL15_value = pfunc->SysGet_KL15_value;
pfunction.SysGet_KL15Line = pfunc->SysGet_KL15Line;
pfunction.COM_Delay = pfunc->COM_Delay;
pfunction.SysMonitorLogic = pfunc->SysMonitorLogic;
void Sys_Set_DebounceTimer(uint16_t u16NMKL30, uint16_t u16NMKL15, uint16_t u16FUNKL30, uint16_t u16FUNKL15)
{
t_NM_KL30_Debounce = u16NMKL30;
t_NM_KL15_Debounce = u16NMKL15;
t_FUN_KL30_Debounce = u16FUNKL30;
t_FUN_KL15_Debounce = u16FUNKL15;
SetVolFlag = 0x55u;
}
void System_Monitor_KL30Init(void)
......@@ -154,48 +190,46 @@ void System_Monitor_KL30Init(void)
SysNM_KL15Monitor.FinalSts = 0u;
SysNM_KL15Monitor.ActSts = 0u;
if (t_NM_KL30_Debounce == 0U)
if ( SetVolFlag != 0x55u )
{
t_NM_KL30_Debounce = 1000u;
}
if (t_NM_KL15_Debounce == 0U)
{
t_NM_KL15_Debounce = 2u;
}
if (t_FUN_KL30_Debounce == 0U)
{
t_FUN_KL30_Debounce = 1000u;
}
if (t_FUN_KL15_Debounce == 0U)
{
t_FUN_KL15_Debounce = 2u;
}
if (SetVolFlag != 0x55u)
{
FUNSysVol_Range[0] = Base_Vol;
FUNSysVol_Range[1] = ENTER_LOW_N_RANGE;
FUNSysVol_Range[2] = EXIT_LOW_N_RANGE;
FUNSysVol_Range[3] = ENTER_LOW_Y_RANGE;
FUNSysVol_Range[4] = EXIT_LOW_Y_RANGE;
FUNSysVol_Range[5] = EXIT_HIGH_Y_RANGE;
FUNSysVol_Range[6] = ENTER_HIGH_Y_RANGE;
FUNSysVol_Range[7] = EXIT_HIGH_N_RANGE;
FUNSysVol_Range[8] = ENTER_HIGH_N_RANGE;
FUNSysVol_Range[9] = Top_Vol;
NMSysVol_Range[0] = Base_Vol;
NMSysVol_Range[1] = ENTER_LOW_N_RANGE;
NMSysVol_Range[2] = EXIT_LOW_N_RANGE;
NMSysVol_Range[3] = ENTER_LOW_Y_RANGE;
NMSysVol_Range[4] = EXIT_LOW_Y_RANGE;
NMSysVol_Range[5] = EXIT_HIGH_Y_RANGE;
NMSysVol_Range[6] = ENTER_HIGH_Y_RANGE;
NMSysVol_Range[7] = EXIT_HIGH_N_RANGE;
NMSysVol_Range[8] = ENTER_HIGH_N_RANGE;
NMSysVol_Range[9] = Top_Vol;
t_NM_KL30_Debounce_Cancel = 1000U;
t_NM_KL15_Debounce_Cancel = 2U;
t_FUN_KL30_Debounce_Cancel = 1000U;
t_FUN_KL15_Debounce_Cancel = 2U;
FUNSysVol_Range [ 0 ] = Base_Vol;
FUNSysVol_Range [ 1 ] = ENTER_LOW_N_RANGE;
FUNSysVol_Range [ 2 ] = EXIT_LOW_N_RANGE;
FUNSysVol_Range [ 3 ] = ENTER_LOW_Y_RANGE;
FUNSysVol_Range [ 4 ] = EXIT_LOW_Y_RANGE;
FUNSysVol_Range [ 5 ] = EXIT_HIGH_Y_RANGE;
FUNSysVol_Range [ 6 ] = ENTER_HIGH_Y_RANGE;
FUNSysVol_Range [ 7 ] = EXIT_HIGH_N_RANGE;
FUNSysVol_Range [ 8 ] = ENTER_HIGH_N_RANGE;
FUNSysVol_Range [ 9 ] = Top_Vol;
NMSysVol_Range [ 0 ] = Base_Vol;
NMSysVol_Range [ 1 ] = ENTER_LOW_N_RANGE;
NMSysVol_Range [ 2 ] = EXIT_LOW_N_RANGE;
NMSysVol_Range [ 3 ] = ENTER_LOW_Y_RANGE;
NMSysVol_Range [ 4 ] = EXIT_LOW_Y_RANGE;
NMSysVol_Range [ 5 ] = EXIT_HIGH_Y_RANGE;
NMSysVol_Range [ 6 ] = ENTER_HIGH_Y_RANGE;
NMSysVol_Range [ 7 ] = EXIT_HIGH_N_RANGE;
NMSysVol_Range [ 8 ] = ENTER_HIGH_N_RANGE;
NMSysVol_Range [ 9 ] = Top_Vol;
SetVolFlag = 0x55u;
}
if ( pfunction.COM_Delay != (( void * )0) )
{
pfunction.COM_Delay(260U);
}
System_Fast_WakeUp( );
}
void System_Monitor_WakeupInit(void)
......@@ -225,78 +259,87 @@ void System_Monitor_WakeupInit(void)
SysNM_KL15Monitor.FinalSts = 0u;
SysNM_KL15Monitor.ActSts = 0u;
if (t_NM_KL30_Debounce == 0U)
if ( SetVolFlag != 0x55u )
{
t_NM_KL30_Debounce = 1000u;
}
if (t_NM_KL15_Debounce == 0U)
{
t_NM_KL15_Debounce = 2u;
}
if (t_FUN_KL30_Debounce == 0U)
{
t_FUN_KL30_Debounce = 1000u;
}
if (t_FUN_KL15_Debounce == 0U)
{
t_FUN_KL15_Debounce = 2u;
}
if (SetVolFlag != 0x55u)
{
FUNSysVol_Range[0] = Base_Vol;
FUNSysVol_Range[1] = ENTER_LOW_N_RANGE;
FUNSysVol_Range[2] = EXIT_LOW_N_RANGE;
FUNSysVol_Range[3] = ENTER_LOW_Y_RANGE;
FUNSysVol_Range[4] = EXIT_LOW_Y_RANGE;
FUNSysVol_Range[5] = EXIT_HIGH_Y_RANGE;
FUNSysVol_Range[6] = ENTER_HIGH_Y_RANGE;
FUNSysVol_Range[7] = EXIT_HIGH_N_RANGE;
FUNSysVol_Range[8] = ENTER_HIGH_N_RANGE;
FUNSysVol_Range[9] = Top_Vol;
NMSysVol_Range[0] = Base_Vol;
NMSysVol_Range[1] = ENTER_LOW_N_RANGE;
NMSysVol_Range[2] = EXIT_LOW_N_RANGE;
NMSysVol_Range[3] = ENTER_LOW_Y_RANGE;
NMSysVol_Range[4] = EXIT_LOW_Y_RANGE;
NMSysVol_Range[5] = EXIT_HIGH_Y_RANGE;
NMSysVol_Range[6] = ENTER_HIGH_Y_RANGE;
NMSysVol_Range[7] = EXIT_HIGH_N_RANGE;
NMSysVol_Range[8] = ENTER_HIGH_N_RANGE;
NMSysVol_Range[9] = Top_Vol;
t_NM_KL30_Debounce_Cancel = 1000U;
t_NM_KL15_Debounce_Cancel = 2U;
t_FUN_KL30_Debounce_Cancel = 1000U;
t_FUN_KL15_Debounce_Cancel = 2U;
FUNSysVol_Range [ 0 ] = Base_Vol;
FUNSysVol_Range [ 1 ] = ENTER_LOW_N_RANGE;
FUNSysVol_Range [ 2 ] = EXIT_LOW_N_RANGE;
FUNSysVol_Range [ 3 ] = ENTER_LOW_Y_RANGE;
FUNSysVol_Range [ 4 ] = EXIT_LOW_Y_RANGE;
FUNSysVol_Range [ 5 ] = EXIT_HIGH_Y_RANGE;
FUNSysVol_Range [ 6 ] = ENTER_HIGH_Y_RANGE;
FUNSysVol_Range [ 7 ] = EXIT_HIGH_N_RANGE;
FUNSysVol_Range [ 8 ] = ENTER_HIGH_N_RANGE;
FUNSysVol_Range [ 9 ] = Top_Vol;
NMSysVol_Range [ 0 ] = Base_Vol;
NMSysVol_Range [ 1 ] = ENTER_LOW_N_RANGE;
NMSysVol_Range [ 2 ] = EXIT_LOW_N_RANGE;
NMSysVol_Range [ 3 ] = ENTER_LOW_Y_RANGE;
NMSysVol_Range [ 4 ] = EXIT_LOW_Y_RANGE;
NMSysVol_Range [ 5 ] = EXIT_HIGH_Y_RANGE;
NMSysVol_Range [ 6 ] = ENTER_HIGH_Y_RANGE;
NMSysVol_Range [ 7 ] = EXIT_HIGH_N_RANGE;
NMSysVol_Range [ 8 ] = ENTER_HIGH_N_RANGE;
NMSysVol_Range [ 9 ] = Top_Vol;
SetVolFlag = 0x55u;
}
System_Fast_WakeUp( );
}
void Sys_Status_Update_Service(void)
{
System_Fun_Process();
System_NM_Process();
Sys_LogicProcess();
System_Fun_Process( );
System_NM_Process( );
if ( pfunction.SysMonitorLogic != (( void * )0) )
{
pfunction.SysMonitorLogic( );
}
}
void System_Fast_WakeUp(void)
static void System_Fast_WakeUp(void)
{
uint16_t KL30_Voltage = 0U;
uint16_t KL15_Voltage = 0U;
uint8_t KL30_Valid = 0U;
uint8_t KL15_Valid = 0U;
uint16_t Voltage = 0U;
uint8_t NormalKL30Cnt = 0U;
uint8_t abnormalKL30Cnt = 0U;
uint8_t AttemptCnt = 0U;
monitorlib_uint16_t KL30_Voltage;
monitorlib_uint16_t KL15_Voltage;
monitorlib_uint16_t Voltage;
monitorlib_uint8_t NormalKL30Cnt = 0U;
monitorlib_uint8_t abnormalKL30Cnt = 0U;
monitorlib_uint8_t AttemptCnt = 0U;
AttemptCnt = 0u;
KL30_Voltage = Sys_Force_Read_KL30_Voltage();
KL15_Voltage = Sys_Force_Read_KL15_Voltage();
while (SysNM_KL30Monitor.FinalSts == 0u)
while ( SysNM_KL30Monitor.FinalSts == 0u )
{
if ( pfunction.COM_Delay != (( void * )0) )
{
/*KL30 KL15电压采集*/
KL30_Voltage = Sys_Force_Read_KL30_Voltage();
KL15_Voltage = Sys_Force_Read_KL15_Voltage();
if (KL30_Voltage > KL15_Voltage)
pfunction.COM_Delay(2U);
}
/*KL30 KL15 voltage */
if ( pfunction.SysGet_KL30_value_Force != ( void * )0 )
{
KL30_Voltage = pfunction.SysGet_KL30_value_Force( );
}
else
{
KL30_Voltage = 0u;
}
if ( pfunction.SysGet_KL15_value_Force != ( void * )0 )
{
KL15_Voltage = pfunction.SysGet_KL15_value_Force( );
}
else
{
KL15_Voltage = 0u;
}
if ( KL30_Voltage > KL15_Voltage )
{
Voltage = KL30_Voltage;
}
......@@ -305,7 +348,7 @@ void System_Fast_WakeUp(void)
Voltage = KL15_Voltage;
}
if ((Voltage <= FUNSysVol_Range[1]) || (Voltage >= FUNSysVol_Range[8]))
if ( (Voltage <= NMSysVol_Range [ 2 ]) || (Voltage >= NMSysVol_Range [ 7 ]) )
{
NormalKL30Cnt = 0U;
abnormalKL30Cnt++;
......@@ -315,73 +358,119 @@ void System_Fast_WakeUp(void)
NormalKL30Cnt++;
abnormalKL30Cnt = 0U;
}
/*消抖次数设置*/
if (NormalKL30Cnt >= 5U)
AttemptCnt++;
if ( AttemptCnt >= 10u )
{
break;
}
if ( NormalKL30Cnt >= 5U )
{
SysNM_KL30Monitor.FinalSts = 5u;
}
if (abnormalKL30Cnt >= 5U)
if ( abnormalKL30Cnt >= 5U )
{
/*设置成HALT模式*/
SysNM_KL30Monitor.FinalSts = 9u;
}
}
Sys_BlockDelay(20U); /*1*50us*/
AttemptCnt++;
if (AttemptCnt >= 100u)
if ( (SysNM_KL30Monitor.FinalSts != 0u) )
{
break;
SysWakeUpMode = 0x55U;
if ( pfunction.SysGet_KL15Line != (( void * )0) )
{
SysNM_KL15Monitor.FinalSts = pfunction.SysGet_KL15Line( );
SysNM_KL15Monitor.ActSts = pfunction.SysGet_KL15Line( );
}
else
{
SysNM_KL15Monitor.FinalSts = 0u;
SysNM_KL15Monitor.ActSts = 0u;
}
/*KL15 KL30采集结束,切换模式*/
if ((SysNM_KL30Monitor.FinalSts != 0u))
if ( pfunction.SysMonitorLogic != ( void * )0 )
{
/*切换模式*/
SysWakeUpMode = 0x55U;
SysNM_KL15Monitor.FinalSts = System_LINE_KL15();
SysNM_KL15Monitor.ActSts = System_LINE_KL15();
SysFun_KL30Monitor.FinalSts = SysNM_KL30Monitor.FinalSts;
SysFun_KL15Monitor.FinalSts = SysNM_KL15Monitor.ActSts;
/*发送唤醒状态*/
Sys_LogicProcess();
pfunction.SysMonitorLogic( );
}
}
}
static void System_NM_Process(void)
{
uint8_t m8;
static uint16_t DebpounceTimer;
uint16_t Voltage;
uint8_t VoltageKL30Valid;
uint8_t VoltageKL15Valid;
uint16_t Voltage_KL15;
uint16_t Voltage_KL30;
monitorlib_uint8_t m8;
static monitorlib_uint16_t DebpounceTimer;
monitorlib_uint16_t Voltage;
monitorlib_uint8_t VoltageKL30Valid;
monitorlib_uint8_t VoltageKL15Valid;
monitorlib_uint16_t Voltage_KL15;
monitorlib_uint16_t Voltage_KL30;
if (SysNM_KL15Monitor.ActSts != SysNM_KL15Monitor.FinalSts)
if ( pfunction.SysGet_KL15Line != (( void * )0) )
{
if ( SysNM_KL15Monitor.ActSts == pfunction.SysGet_KL15Line( ) )
{
if ( SysNM_KL15Monitor.DebounceTimer < t_NM_KL15_Debounce )
{
SysNM_KL15Monitor.DebounceTimer++;
if (SysNM_KL15Monitor.DebounceTimer >= t_NM_KL15_Debounce)
}
else
{
SysNM_KL15Monitor.FinalSts = SysNM_KL15Monitor.ActSts;
}
}
else
{
SysNM_KL15Monitor.FinalSts = System_LINE_KL15();
SysNM_KL15Monitor.DebounceTimer = 0u;
SysNM_KL15Monitor.ActSts = pfunction.SysGet_KL15Line( );
}
}
else
{
SysNM_KL15Monitor.FinalSts = 0u;
SysNM_KL15Monitor.ActSts = 0u;
SysNM_KL15Monitor.DebounceTimer = 0u;
SysNM_KL15Monitor.ActSts = System_LINE_KL15();
}
VoltageKL30Valid = Sys_Read_KL30_Valid();
VoltageKL15Valid = Sys_Read_KL15_Valid();
if ( pfunction.SysGet_KL30_Valid != ( void * )0 )
{
VoltageKL30Valid = pfunction.SysGet_KL30_Valid( );
}
else
{
VoltageKL30Valid = 0u;
}
if ( pfunction.SysGet_KL15_Valid != ( void * )0 )
{
VoltageKL15Valid = pfunction.SysGet_KL15_Valid( );
}
else
{
VoltageKL15Valid = 0u;
}
if ( (VoltageKL30Valid == 1U) && (VoltageKL15Valid == 1U) )
{
if ( pfunction.SysGet_KL15_value != (( void * )0) )
{
Voltage_KL15 = pfunction.SysGet_KL15_value( );
}
else
{
Voltage_KL15 = 0u;
}
if ((VoltageKL30Valid == 1U) && (VoltageKL15Valid == 1U))
if ( pfunction.SysGet_KL15_value != (( void * )0) )
{
Voltage_KL15 = Sys_Read_KL15_Voltage();
Voltage_KL30 = Sys_Read_KL30_Voltage();
if (Voltage_KL30 > Voltage_KL15)
Voltage_KL30 = pfunction.SysGet_KL30_value( );
}
else
{
Voltage_KL30 = 0u;
}
if ( Voltage_KL30 > Voltage_KL15 )
{
Voltage = Voltage_KL30;
}
......@@ -389,11 +478,11 @@ static void System_NM_Process(void)
{
Voltage = Voltage_KL15;
}
if (SysNM_KL30Monitor.SumCnt < 50u)
if ( SysNM_KL30Monitor.SumCnt < 50u )
{
SysNM_KL30Monitor.ActVoltage += Voltage;
SysNM_KL30Monitor.SumCnt += 1u;
Voltage = (uint16_t)(SysNM_KL30Monitor.ActVoltage / SysNM_KL30Monitor.SumCnt);
Voltage = ( monitorlib_uint16_t )(SysNM_KL30Monitor.ActVoltage / SysNM_KL30Monitor.SumCnt);
}
else
{
......@@ -401,54 +490,66 @@ static void System_NM_Process(void)
SysNM_KL30Monitor.ActVoltage = 0u;
SysNM_KL30Monitor.ActVoltage += Voltage;
SysNM_KL30Monitor.SumCnt += 1u;
Voltage = (uint16_t)(SysNM_KL30Monitor.ActVoltage / SysNM_KL30Monitor.SumCnt);
Voltage = ( monitorlib_uint16_t )(SysNM_KL30Monitor.ActVoltage / SysNM_KL30Monitor.SumCnt);
}
m8 = System_Calc_NMRange(Voltage);
if (SysNM_KL30Monitor.ActSts == m8)
if ( SysNM_KL30Monitor.ActSts == m8 )
{
SysNM_KL30Monitor.DebounceTimer++;
switch ( SysNM_KL30Monitor.FinalSts )
{
case 0:
case 1:
case 9:
t_NM_KL30_timer = t_NM_KL30_Debounce_Cancel;
break;
/*计时累计时间1000*2ms*/
if (SysNM_KL30Monitor.DebounceTimer >= t_NM_KL30_Debounce)
default:
t_NM_KL30_timer = t_NM_KL30_Debounce;
break;
}
if ( SysNM_KL30Monitor.DebounceTimer < t_NM_KL30_timer ) /*40202-8*/
{
SysNM_KL30Monitor.DebounceTimer++;
}
else
{
SysNM_KL30Monitor.DebounceTimer = 0U;
DebpounceTimer = 0u;
if (SysNM_KL30Monitor.FinalSts == 9u) /* 高压 */
if ( SysNM_KL30Monitor.FinalSts == 9u ) /* 高压 */
{
if ((m8 == 9u) || (m8 == 8u))
if ( (m8 == 9u) || (m8 == 8u) )
{
SysNM_KL30Monitor.FinalSts = 9u;
SysNM_KL30Monitor.FinalSts = 9u; /** 维持不变 **/
}
else
{
SysNM_KL30Monitor.FinalSts = m8;
SysNM_KL30Monitor.FinalSts = m8; /**退出*/
}
}
if (SysNM_KL30Monitor.FinalSts == 1u) /* 低压 */
if ( SysNM_KL30Monitor.FinalSts == 1u ) /* 低压 */
{
if ((m8 == 1u) || (m8 == 2u))
if ( (m8 == 1u) || (m8 == 2u) )
{
SysNM_KL30Monitor.FinalSts = 1u;
SysNM_KL30Monitor.FinalSts = 1u; /** 维持不变 */
}
else
{
SysNM_KL30Monitor.FinalSts = m8;
SysNM_KL30Monitor.FinalSts = m8; /**退出*/
}
}
/*非高低压*/
if ((SysNM_KL30Monitor.FinalSts != 1u) && (SysNM_KL30Monitor.FinalSts != 9u))
/* 非高低压 */
if ( (SysNM_KL30Monitor.FinalSts != 1u) && (SysNM_KL30Monitor.FinalSts != 9u) )
{
SysNM_KL30Monitor.FinalSts = m8;
SysNM_KL30Monitor.FinalSts = m8; /** 进入*/
}
}
}
else
{
/*计时时间清除*/
/* 计时时间清除 */
SysNM_KL30Monitor.DebounceTimer = 0U;
DebpounceTimer++;
if (DebpounceTimer >= 5u)
if ( DebpounceTimer >= 5u )
{
DebpounceTimer = 0u;
SysNM_KL30Monitor.ActSts = m8;
......@@ -459,37 +560,80 @@ static void System_NM_Process(void)
static void System_Fun_Process(void)
{
uint8_t m8;
uint8_t VoltageKL30Valid;
uint8_t VoltageKL15Valid;
uint16_t Voltage;
uint16_t Voltage_KL15;
uint16_t Voltage_KL30;
static uint16_t DebpounceTimer;
monitorlib_uint8_t m8;
monitorlib_uint8_t VoltageKL30Valid;
monitorlib_uint8_t VoltageKL15Valid;
monitorlib_uint16_t Voltage;
monitorlib_uint16_t Voltage_KL15;
monitorlib_uint16_t Voltage_KL30;
static monitorlib_uint16_t DebpounceTimer;
if (SysFun_KL15Monitor.ActSts != SysFun_KL15Monitor.FinalSts)
if ( pfunction.SysGet_KL15Line != (( void * )0) )
{
if ( SysFun_KL15Monitor.ActSts == pfunction.SysGet_KL15Line( ) )
{
if ( SysFun_KL15Monitor.DebounceTimer < t_FUN_KL15_Debounce )
{
SysFun_KL15Monitor.DebounceTimer++;
if (SysFun_KL15Monitor.DebounceTimer >= t_FUN_KL15_Debounce)
}
else
{
SysFun_KL15Monitor.FinalSts = SysFun_KL15Monitor.ActSts;
}
}
else
{
SysFun_KL15Monitor.FinalSts = System_LINE_KL15();
SysFun_KL15Monitor.DebounceTimer = 0u;
SysFun_KL15Monitor.ActSts = pfunction.SysGet_KL15Line( );
}
}
else
{
SysFun_KL15Monitor.DebounceTimer = 0u;
SysFun_KL15Monitor.ActSts = System_LINE_KL15();
SysFun_KL15Monitor.FinalSts = 0u;
SysFun_KL15Monitor.ActSts = 0u;
}
if ( pfunction.SysGet_KL30_Valid != (( void * )0) )
{
VoltageKL30Valid = pfunction.SysGet_KL30_Valid( );
}
else
{
VoltageKL30Valid = 0u;
}
if ( pfunction.SysGet_KL15_Valid != (( void * )0) )
{
VoltageKL15Valid = pfunction.SysGet_KL15_Valid( );
}
else
{
VoltageKL15Valid = 0u;
}
VoltageKL30Valid = Sys_Read_KL30_Valid();
VoltageKL15Valid = Sys_Read_KL15_Valid();
if ((VoltageKL30Valid == 1U) && (VoltageKL15Valid == 1U))
if ( (VoltageKL30Valid == 1U) && (VoltageKL15Valid == 1U) )
{
if ( pfunction.SysGet_KL15_value != (( void * )0) )
{
Voltage_KL15 = Sys_Read_KL15_Voltage();
Voltage_KL30 = Sys_Read_KL30_Voltage();
if (Voltage_KL30 > Voltage_KL15)
Voltage_KL15 = pfunction.SysGet_KL15_value( );
}
else
{
Voltage_KL15 = 0u;
}
if ( pfunction.SysGet_KL30_value != (( void * )0) )
{
Voltage_KL30 = pfunction.SysGet_KL30_value( );
}
else
{
Voltage_KL30 = 0u;
}
if ( Voltage_KL30 > Voltage_KL15 )
{
Voltage = Voltage_KL30;
}
......@@ -497,11 +641,11 @@ static void System_Fun_Process(void)
{
Voltage = Voltage_KL15;
}
if (SysFun_KL30Monitor.SumCnt < 50u)
if ( SysFun_KL30Monitor.SumCnt < 50u )
{
SysFun_KL30Monitor.ActVoltage += Voltage;
SysFun_KL30Monitor.SumCnt += 1u;
Voltage = (uint16_t)(SysFun_KL30Monitor.ActVoltage / SysFun_KL30Monitor.SumCnt);
Voltage = ( monitorlib_uint16_t )(SysFun_KL30Monitor.ActVoltage / SysFun_KL30Monitor.SumCnt);
}
else
{
......@@ -509,23 +653,38 @@ static void System_Fun_Process(void)
SysFun_KL30Monitor.ActVoltage = 0u;
SysFun_KL30Monitor.ActVoltage += Voltage;
SysFun_KL30Monitor.SumCnt += 1u;
Voltage = (uint16_t)(SysFun_KL30Monitor.ActVoltage / SysFun_KL30Monitor.SumCnt);
Voltage = ( monitorlib_uint16_t )(SysFun_KL30Monitor.ActVoltage / SysFun_KL30Monitor.SumCnt);
}
m8 = System_Calc_FunRange(Voltage);
if (SysFun_KL30Monitor.ActSts == m8)
if ( SysFun_KL30Monitor.ActSts == m8 )
{
SysFun_KL30Monitor.DebounceTimer++;
DebpounceTimer = 0u;
/*计时累计时间1000*2ms*/
if (SysFun_KL30Monitor.DebounceTimer >= t_FUN_KL30_Debounce) /*40202-8*/
{
SysFun_KL30Monitor.DebounceTimer = 0U;
switch ( SysFun_KL30Monitor.FinalSts )
{
case 0:
case 1:
case 3:
case 7:
case 9:
t_FUN_KL30_timer = t_FUN_KL30_Debounce_Cancel;
break;
if (SysFun_KL30Monitor.FinalSts >= 7u) /* 高压 */
default:
t_FUN_KL30_timer = t_FUN_KL30_Debounce;
break;
}
/* 计时累计时间1000*2ms */
if ( SysFun_KL30Monitor.DebounceTimer < t_FUN_KL30_timer ) /*40202-8*/
{
if ((m8 == 9u) || (m8 == 8u) || (m8 == 7u))
SysFun_KL30Monitor.DebounceTimer++;
}
else
{
if ( SysFun_KL30Monitor.FinalSts > 7u ) /* 高压 */
{
if ( (m8 == 9u) || (m8 == 8u) || (m8 == 7u) )
{
SysFun_KL30Monitor.FinalSts = 9u;
SysFun_KL15Monitor.FinalSts = 0u;
......@@ -535,9 +694,9 @@ static void System_Fun_Process(void)
SysFun_KL30Monitor.FinalSts = m8;
}
}
if (SysFun_KL30Monitor.FinalSts == 1u) /* 低压 */
if ( SysFun_KL30Monitor.FinalSts == 1u ) /* 低压 */
{
if ((m8 == 1u) || (m8 == 2u))
if ( (m8 == 1u) || (m8 == 2u) )
{
SysFun_KL30Monitor.FinalSts = 1u;
SysFun_KL15Monitor.FinalSts = 0u;
......@@ -547,8 +706,8 @@ static void System_Fun_Process(void)
SysFun_KL30Monitor.FinalSts = m8;
}
}
/*非高低压*/
if ((SysFun_KL30Monitor.FinalSts != 1u) && (SysFun_KL30Monitor.FinalSts < 7u))
/* 非高低压 */
if ( (SysFun_KL30Monitor.FinalSts != 1u) && (SysFun_KL30Monitor.FinalSts <= 7u) )
{
SysFun_KL30Monitor.FinalSts = m8;
}
......@@ -556,10 +715,10 @@ static void System_Fun_Process(void)
}
else
{
/*计时时间清除*/
/* 计时时间清除 */
SysFun_KL30Monitor.DebounceTimer = 0U;
DebpounceTimer++;
if (DebpounceTimer >= 5u)
if ( DebpounceTimer >= 5u )
{
DebpounceTimer = 0u;
SysFun_KL30Monitor.ActSts = m8;
......@@ -574,20 +733,24 @@ static void System_Fun_Process(void)
}*/
}
uint8_t System_NM_KL30_Status_Get(void)
monitorlib_uint8_t System_NM_KL30_Status_Get(void)
{
return SysNM_KL30Monitor.FinalSts;
}
uint8_t System_NM_KL15_Status_Get(void)
monitorlib_uint8_t System_NM_KL15_Status_Get(void)
{
return SysNM_KL15Monitor.FinalSts;
}
uint8_t System_FUN_KL30_Status_Get(void)
monitorlib_uint8_t System_FUN_KL30_Status_Get(void)
{
return SysFun_KL30Monitor.FinalSts;
}
uint8_t System_FUN_KL15_Status_Get(void)
monitorlib_uint8_t System_FUN_KL15_Status_Get(void)
{
return SysFun_KL15Monitor.FinalSts;
}
monitorlib_uint16_t Get_Sysmonitor_Version(void)
{
return 0x0002u;
}
source/Application/APP/PowerManagement/System_Monitor.h
View file @ fa5f01c5
#ifndef SYSTEM_MONITOR_H
#define SYSTEM_MONITOR_H
#ifndef SYSTEM__MONITOR__H
#define SYSTEM__MONITOR__H
#include "System_Monitor.h"
#include "TYW_stdint.h"
/* #define Platform_16Bit
#define Platform_32Bit*/
#ifdef Platform_16Bit
#define monitorlib_uint8_t unsigned char
#define monitorlib_uint16_t unsigned int
#define monitorlib_uint32_t unsigned long
typedef struct
{
uint8_t SumCnt;
uint16_t DebounceTimer;
uint32_t ActVoltage;
uint8_t FinalSts;
uint8_t ActSts;
} MonitorStruct;
#else
#define monitorlib_uint8_t unsigned char
#define monitorlib_uint16_t unsigned short
#define monitorlib_uint32_t unsigned int
#define monitorlib_uint64_t unsigned long long
#endif
/*
0 ----1st-------6500 不可运行 1
......@@ -38,69 +40,58 @@ typedef struct
6.5-18.5 CAN 可运行区间
*/
typedef monitorlib_uint8_t (*Get_Voltage_Vaild)(void);
typedef monitorlib_uint16_t (*Get_Voltage_Value)(void);
typedef monitorlib_uint8_t (*Get_LineInStatus)(void);
typedef void (*COMMON_Delay)(monitorlib_uint32_t mMs);
typedef void (*pfunLogic)(void);
/*电源运行状态*/
#define SYS_OPR_STAT_RUN ((System_FUN_KL30_Status_Get() > 1u)&&(System_FUN_KL30_Status_Get() < 7u ))
#define SYS_OPR_STAT_HALT ((System_FUN_KL30_Status_Get() == 1u) || (System_FUN_KL30_Status_Get() >= 7u))
#define SYS_OPR_STAT_LIM_LVP (System_FUN_KL30_Status_Get() == 1U)
#define SYS_OPR_STAT_LIM_OVP (System_FUN_KL30_Status_Get() >= 7u)
/*仪表工作状态*/
#define SYS_OPR_STAT_IGN_ON (System_FUN_KL15_Status_Get() == 1U)
#define SYS_OPR_STAT_IGN_OFF (System_FUN_KL15_Status_Get() == 0U)
/*网络管理电源工作状态*/
#define SYS_OPR_STAT_IGN_ON_NM (System_NM_KL15_Status_Get() == 1U)
#define SYS_OPR_STAT_IGN_OFF_NM (System_NM_KL15_Status_Get() == 0U)
/*网络管理电源运行状态*/
#define SYS_OPR_STAT_RUN_NM ((System_NM_KL30_Status_Get() > 1u) && (System_NM_KL30_Status_Get() < 9u ))
#define SYS_OPR_STAT_HALT_NM ((System_NM_KL30_Status_Get() == 9u) || (System_NM_KL30_Status_Get() == 1u))
static uint8_t System_Calc_FunRange(uint16_t u16Vol);
static uint8_t System_Calc_NMRange(uint16_t u16Vol);
uint8_t Read_KL30_ConvertFinish(void);
static void System_Fun_Process(void);
static void System_NM_Process(void);
void Sys_LogicProcess(void);
void Sys_Status_Update_Service ( void );
uint16_t Sys_Read_KL30_Voltage(void);
uint16_t Sys_Read_KL15_Voltage(void);
uint8_t Sys_Read_KL30_Valid(void);
uint8_t Sys_Read_KL15_Valid(void);
uint16_t Sys_Force_Read_KL30_Voltage(void);
uint16_t Sys_Force_Read_KL15_Voltage(void);
uint8_t System_FUN_KL30_Status_Get(void);
uint8_t System_FUN_KL15_Status_Get(void);
uint8_t System_NM_KL15_Status_Get(void);
uint8_t System_NM_KL30_Status_Get(void);
uint8_t System_LINE_KL15(void);
void Sys_Set_DebounceTimer(uint16_t u16NMKL30, uint16_t u16NMKL15, uint16_t u16FUNKL30, uint16_t u16FUNKL15);
/*void Sys_Set_VolRange(uint16_t FUN_Vol[], uint16_t NM_Vol[]);*/
void Sys_Set_VolRange(const uint16_t FUN_Vol[], const uint16_t NM_Vol[]);
typedef struct
{
Get_Voltage_Vaild SysGet_KL30_Valid;
Get_Voltage_Vaild SysGet_KL15_Valid;
Get_Voltage_Value SysGet_KL30_value_Force;
Get_Voltage_Value SysGet_KL15_value_Force;
Get_Voltage_Value SysGet_KL30_value;
Get_Voltage_Value SysGet_KL15_value;
Get_LineInStatus SysGet_KL15Line;
COMMON_Delay COM_Delay;
pfunLogic SysMonitorLogic;
} MonitorExt_st;
/* SYS RUN Status */
#define SYS_OPR_STAT_RUN ((System_FUN_KL30_Status_Get( ) > 1u) && (System_FUN_KL30_Status_Get( ) < 7u))
#define SYS_OPR_STAT_HALT ((System_FUN_KL30_Status_Get( ) == 3u) || (System_FUN_KL30_Status_Get( ) > 7u))
#define SYS_OPR_STAT_LIM_LVP (System_FUN_KL30_Status_Get( ) == 1U)
#define SYS_OPR_STAT_LIM_OVP (System_FUN_KL30_Status_Get( ) > 7u)
/*fun status*/
#define SYS_OPR_STAT_IGN_ON (System_FUN_KL15_Status_Get( ) == 1U)
#define SYS_OPR_STAT_IGN_OFF (System_FUN_KL15_Status_Get( ) == 0U)
/*nm run status*/
#define SYS_OPR_STAT_IGN_ON_NM (System_NM_KL15_Status_Get( ) == 1U)
#define SYS_OPR_STAT_IGN_OFF_NM (System_NM_KL15_Status_Get( ) == 0U)
/*nm status*/
#define SYS_OPR_STAT_RUN_NM ((System_NM_KL30_Status_Get( ) > 1u) && (System_NM_KL30_Status_Get( ) < 9u))
#define SYS_OPR_STAT_HALT_NM ((System_NM_KL30_Status_Get( ) == 9u) || (System_NM_KL30_Status_Get( ) == 1u))
monitorlib_uint8_t Read_KL30_ConvertFinish(void);
monitorlib_uint16_t Get_Sysmonitor_Version(void);
void Sys_Status_Update_Service(void);
void Sys_Set_Pata(const monitorlib_uint16_t FUN_Vol [], MonitorExt_st *pfunc);
void System_Monitor_KL30Init(void);
void System_Monitor_WakeupInit(void);
void System_Fast_WakeUp(void);
void System_XHY_CheckWakeup(void);
void Sys_KL30_Init (void);
void Sys_WakeUp_Init (void);
void Sys_BlockDelay(uint32_t u32Ms);
void Sys_Rolling(void);
void Sys_RollingClear(void);
uint32_t Sys_Get_ms_Rolling_Counter(void);
monitorlib_uint8_t System_FUN_KL30_Status_Get(void);
monitorlib_uint8_t System_FUN_KL15_Status_Get(void);
monitorlib_uint8_t System_NM_KL15_Status_Get(void);
monitorlib_uint8_t System_NM_KL30_Status_Get(void);
monitorlib_uint8_t System_LINE_KL15(void);
void Sys_WakeUp_Init(void);
#endif
source/Application/APP/PowerManagement/System_Monitor_user.c
View file @ fa5f01c5
#include "System_Monitor.h"
#include "RTE_ADC.h"
#include "GenDelay.h"
#include "GPIO.h"
#include "dr7f701441.dvf.h"
#include "Watchdog.h"
#include "COM_CAN.h"
#define u16Base_Vol 0u
#define u16ENTER_LOW_N_RANGE 6500U
#define u16EXIT_LOW_N_RANGE 7000U
#define u16ENTER_LOW_Y_RANGE 9000U
#define u16EXIT_LOW_Y_RANGE 9500U
#define u16EXIT_HIGH_Y_RANGE 30000U
#define u16ENTER_HIGH_Y_RANGE 32000U
#define u16EXIT_HIGH_N_RANGE 31000U
#define u16ENTER_HIGH_N_RANGE 33000U
#include "ADC.h"
#include "System_Monitor.h"
#include "Analog_Signals.h"
#define u16Base_Vol 0u // 0
#define u16ENTER_LOW_N_RANGE 6500U // 1
#define u16EXIT_LOW_N_RANGE 7000U // 2
#define u16ENTER_LOW_Y_RANGE 19500U // 3
#define u16EXIT_LOW_Y_RANGE 20000U // 4
#define u16EXIT_HIGH_Y_RANGE 32000U // 5
#define u16ENTER_HIGH_Y_RANGE 32500U // 6
#define u16EXIT_HIGH_N_RANGE 33000U // 7
#define u16ENTER_HIGH_N_RANGE 33500U // 8
#define u16Top_Vol 0xffffu
uint32_t u32SysRollingCounter;
static const uint16_t SysFun_Range[10u] =
{
#pragma alignvar(8)
static const monitorlib_uint16_t SysFun_Range [ 26u ] = {
u16Base_Vol,
u16ENTER_LOW_N_RANGE,
......@@ -42,10 +32,8 @@ static const uint16_t SysFun_Range[10u] =
u16ENTER_HIGH_N_RANGE,
u16Top_Vol,
};
static const uint16_t SysNM_Range[10u] =
{
30000u, /**进入保护的时间*/
10u,
u16Base_Vol,
u16ENTER_LOW_N_RANGE,
......@@ -61,122 +49,106 @@ static const uint16_t SysNM_Range[10u] =
u16ENTER_HIGH_N_RANGE,
u16Top_Vol,
10000u,
10u,
10u, /**退出保护的时间*/
10u, /**退出保护的时间*/
};
uint16_t Sys_Force_Read_KL30_Voltage(void)
monitorlib_uint16_t Sys_Read_KL30_Voltage_F(void)
{
uint16_t u16Voltage;
u16Voltage = (uint16_t)RTE_ForceRead_KL30_Voltage();
monitorlib_uint16_t u16Voltage;
u16Voltage = ADC_Conv_Single_Channel(ADC_CH_KL30_VOLTAGE);
return u16Voltage;
}
uint16_t Sys_Force_Read_KL15_Voltage(void)
monitorlib_uint16_t Sys_Read_KL15_Voltage_F(void)
{
uint16_t u16Voltage;
u16Voltage = (uint16_t)RTE_ForceRead_KL15_Voltage();
monitorlib_uint16_t u16Voltage;
u16Voltage = ADC_Conv_Single_Channel(ADC_CH_KL30_VOLTAGE);
return u16Voltage;
}
uint16_t Sys_Read_KL30_Voltage(void)
monitorlib_uint16_t Sys_Read_KL30_Voltage(void)
{
uint16_t u16Voltage;
u16Voltage = (uint16_t)RTE_Read_KL30_Voltage();
monitorlib_uint16_t u16Voltage;
u16Voltage = ADC_Read_Signal(ADC_CH_KL30_VOLTAGE);
return u16Voltage;
}
uint16_t Sys_Read_KL15_Voltage(void)
monitorlib_uint16_t Sys_Read_KL15_Voltage(void)
{
uint16_t u16Voltage;
u16Voltage = (uint16_t)RTE_Read_KL15_Voltage();
monitorlib_uint16_t u16Voltage;
u16Voltage = ADC_Read_Signal(ADC_CH_KL30_VOLTAGE);
return u16Voltage;
}
uint8_t Sys_Read_KL30_Valid(void)
monitorlib_uint8_t Sys_Read_KL30_Valid(void)
{
uint8_t u8Valid;
u8Valid = RTE_Read_KL30_Valid();
monitorlib_uint8_t u8Valid;
u8Valid = ADC_Read_Signal_Valid(ADC_CH_KL30_VOLTAGE);
return u8Valid;
}
uint8_t Sys_Read_KL15_Valid(void)
monitorlib_uint8_t Sys_Read_KL15_Valid(void)
{
uint8_t u8Valid;
u8Valid = RTE_Read_KL15_Valid();
monitorlib_uint8_t u8Valid;
u8Valid = ADC_Read_Signal_Valid(ADC_CH_KL30_VOLTAGE);
return u8Valid;
}
uint8_t System_LINE_KL15(void)
{
uint8_t u8KL15;
u8KL15 = ADC_KL15_IN; //15��Ӳ��
return u8KL15;
}
void Sys_KL30_Init ( void)
{
Sys_Set_DebounceTimer(1000u, 2u, 1000u, 80u);
Sys_Set_VolRange(SysFun_Range, SysNM_Range);
System_Monitor_KL30Init();
System_Fast_WakeUp();
}
void Sys_WakeUp_Init ( void)
{
Sys_Set_DebounceTimer(1000u, 2u, 1000u, 80u);
Sys_Set_VolRange(SysFun_Range, SysNM_Range);
System_Monitor_WakeupInit();
System_Fast_WakeUp();
}
/*����������ִ�������*/
void Sys_LogicProcess(void)
monitorlib_uint8_t System_LINE_KL15(void)
{
COM_NM_ACT();
}
monitorlib_uint8_t u8KL15;
void Sys_Rolling(void)
{
if (u32SysRollingCounter != 65535ul)
if ( ADC_KL15_IN == 1u )
{
u32SysRollingCounter++;
u8KL15 = 1u;
}
else
{
u32SysRollingCounter = 0;
u8KL15 = 0u;
}
return u8KL15;
}
void Sys_RollingClear(void)
void Common_BlockDelay(monitorlib_uint32_t u32Ms)
{
u32SysRollingCounter = 0;
Gen_TimeDelay(u32Ms * 1000u, 50u);
}
uint32_t Sys_Get_ms_Rolling_Counter(void)
void Sys_LogicProcess(void)
{
return u32SysRollingCounter;
}
void Sys_BlockDelay(uint32_t u32Ms)
{
uint32_t RocBackup, Counter;
Sys_RollingClear();
RocBackup = Sys_Get_ms_Rolling_Counter();
do
{
WDT_Clear();
Counter = Sys_Get_ms_Rolling_Counter();
if ( Counter >= RocBackup )
{
Counter -= RocBackup;
}
else
{
Counter = 65535U - RocBackup + Counter + 1U;
}
}
while ( Counter < u32Ms );
void Sys_KL30_Init(void)
{
MonitorExt_st m_st;
m_st.COM_Delay = Common_BlockDelay;
m_st.SysGet_KL15Line = System_LINE_KL15;
m_st.SysGet_KL15_Valid = Sys_Read_KL15_Valid;
m_st.SysGet_KL30_Valid = Sys_Read_KL30_Valid;
m_st.SysGet_KL15_value = Sys_Read_KL15_Voltage;
m_st.SysGet_KL30_value = Sys_Read_KL30_Voltage;
m_st.SysGet_KL15_value_Force = Sys_Read_KL15_Voltage_F;
m_st.SysGet_KL30_value_Force = Sys_Read_KL30_Voltage_F;
m_st.SysMonitorLogic = Sys_LogicProcess;
Sys_Set_Pata(SysFun_Range, &m_st);
System_Monitor_KL30Init( );
}
void Sys_WakeUp_Init(void)
{
MonitorExt_st m_st;
m_st.COM_Delay = Common_BlockDelay;
m_st.SysGet_KL15Line = System_LINE_KL15;
m_st.SysGet_KL15_Valid = Sys_Read_KL15_Valid;
m_st.SysGet_KL30_Valid = Sys_Read_KL30_Valid;
m_st.SysGet_KL15_value = Sys_Read_KL15_Voltage;
m_st.SysGet_KL30_value = Sys_Read_KL30_Voltage;
m_st.SysGet_KL15_value_Force = Sys_Read_KL15_Voltage_F;
m_st.SysGet_KL30_value_Force = Sys_Read_KL30_Voltage_F;
m_st.SysMonitorLogic = Sys_LogicProcess;
Sys_Set_Pata(SysFun_Range, &m_st);
System_Monitor_WakeupInit( );
}
source/Application/RTE/Common_Interface.c
View file @ fa5f01c5
......@@ -673,31 +673,31 @@ uint16_t Common_ReadRollingCounter(void)
return SysRollingCounter;
}
void Common_BlockDelay(uint16_t m_MS)
{
uint16_t RocBackup;
uint16_t Counter;
uint16_t DIMCounter;
DIMCounter = m_MS * 20u;
Common_RollingCounterClear();
RocBackup = Common_ReadRollingCounter();
do
{
Counter = Common_ReadRollingCounter();
if (Counter >= RocBackup)
{
Counter -= RocBackup;
}
else
{
Counter = 65535u - RocBackup + Counter + 1u;
}
}
while (Counter < DIMCounter);
}
//void Common_BlockDelay(uint16_t m_MS)
//{
// uint16_t RocBackup;
// uint16_t Counter;
// uint16_t DIMCounter;
//
// DIMCounter = m_MS * 20u;
// Common_RollingCounterClear();
// RocBackup = Common_ReadRollingCounter();
// do
// {
// Counter = Common_ReadRollingCounter();
//
// if (Counter >= RocBackup)
// {
// Counter -= RocBackup;
// }
// else
// {
// Counter = 65535u - RocBackup + Counter + 1u;
// }
//
// }
// while (Counter < DIMCounter);
//}
uint32_t Common_GetIgnOnTime(void)
{
......
source/Application/RTE/Common_Interface.h
View file @ fa5f01c5
......@@ -30,7 +30,7 @@ uint32_t Common_GetIgnOffTime(void); /*ms*/
void Common_RollingCounterAdd(void);
void Common_RollingCounterClear(void);
void Common_BlockDelay(uint16_t m_MS);
//void Common_BlockDelay(uint16_t m_MS);
uint16_t Common_ReadRollingCounter(void);
void Set_Can18FF5510_FirstRecv_Event(void);
......
source/System/d1mx.ld
View file @ fa5f01c5
......@@ -116,7 +116,7 @@ SECTIONS
.tdata align(4) MAX_SIZE(0x0400) :>. /* initialized and zero-initialized data in TDA area */
.ramfunc align(4) :>. /* program code in RAM area */
.stack align(4) pad(0xC000) :>. /* definition of stack size */
.stack align(4) pad(0x4000) :>. /* definition of stack size */
/* Renesas FDL data sections */
......
source/System/init.c
View file @ fa5f01c5
......@@ -226,8 +226,8 @@ void Sys_Sleep_Init(void)
* \attention
* \retval None
******************************************************************************/
void Sys_Wakeup_Init(void)
{
}
//void Sys_Wakeup_Init(void)
//{
//
//}
source/System/init.h
View file @ fa5f01c5
......@@ -28,7 +28,7 @@ extern {
extern void Sys_Startup_Pre_Init(void);
extern void Sys_Startup_Init(void);
extern void Sys_Sleep_Init(void);
extern void Sys_Wakeup_Init(void);
//extern void Sys_Wakeup_Init(void);
#ifdef __cplusplus
}
......
source/System/tasks.c
View file @ fa5f01c5
......@@ -323,7 +323,7 @@ void Sys_Exact_50us_Tasks(void)
{
static uint32_t PerCounter = 0u;
GenDelay_Tick();
Sys_Rolling();
//Sys_Rolling();
COM_NM_Process();
COM_TX_Process();
DoCAN_Timer_Update(50);
......
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