#include "System_Monitor.h"
#include "Components.h"
#define u16Base_Vol 0u
#define u16ENTER_LOW_N_RANGE 7000U
#define u16EXIT_LOW_N_RANGE 8000U
#define u16ENTER_LOW_Y_RANGE 9000U
#define u16EXIT_LOW_Y_RANGE 10000U
#define u16EXIT_HIGH_Y_RANGE 15000U
#define u16ENTER_HIGH_Y_RANGE 16000U
#define u16EXIT_HIGH_N_RANGE 18000U
#define u16ENTER_HIGH_N_RANGE 19000U
#define u16Top_Vol 0xffffu
void Delay_ms(uint32_t u32Ms);
// #pragma alignvar(8)
static const monitorlib_uint16_t SysFun_Range[24u] = {
u16Base_Vol,
u16ENTER_LOW_N_RANGE,
u16EXIT_LOW_N_RANGE,
u16ENTER_LOW_Y_RANGE,
u16EXIT_LOW_Y_RANGE,
u16EXIT_HIGH_Y_RANGE,
u16ENTER_HIGH_Y_RANGE,
u16EXIT_HIGH_N_RANGE,
u16ENTER_HIGH_N_RANGE,
u16Top_Vol,
500, /* 进入异常电压时间 1S */
50u, /* KL15消抖时间 100ms*/
u16Base_Vol,
u16ENTER_LOW_N_RANGE,
u16EXIT_LOW_N_RANGE,
u16ENTER_LOW_Y_RANGE,
u16EXIT_LOW_Y_RANGE,
u16EXIT_HIGH_Y_RANGE,
u16ENTER_HIGH_Y_RANGE,
u16EXIT_HIGH_N_RANGE,
u16ENTER_HIGH_N_RANGE,
u16Top_Vol,
2u,
2u,
};
monitorlib_uint16_t Sys_Read_KL30_Voltage_F(void)
{
monitorlib_uint16_t u16Voltage;
u16Voltage = ADC_Conv_Single_Channel(ADC_CH_KL30_VOLTAGE);
return u16Voltage;
}
monitorlib_uint16_t Sys_Read_KL15_Voltage_F(void)
{
monitorlib_uint16_t u16Voltage;
u16Voltage = ADC_Conv_Single_Channel(ADC_CH_KL15_VOLTAGE);
return u16Voltage;
}
monitorlib_uint16_t Sys_Read_KL30_Voltage(void)
{
monitorlib_uint16_t u16Voltage;
u16Voltage = ADC_Read_Signal(ADC_CH_KL30_VOLTAGE);
return u16Voltage;
}
monitorlib_uint16_t Sys_Read_KL15_Voltage(void)
{
monitorlib_uint16_t u16Voltage;
u16Voltage = ADC_Read_Signal(ADC_CH_KL15_VOLTAGE);
return u16Voltage;
}
monitorlib_uint8_t Sys_Read_KL30_Valid(void)
{
monitorlib_uint8_t u8Valid;
u8Valid = ADC_Read_Signal_Valid(ADC_CH_KL30_VOLTAGE);
return u8Valid;
}
monitorlib_uint8_t Sys_Read_KL15_Valid(void)
{
monitorlib_uint8_t u8Valid;
u8Valid = ADC_Read_Signal_Valid(ADC_CH_KL15_VOLTAGE);
return u8Valid;
}
monitorlib_uint8_t System_LINE_KL15(void)
{
monitorlib_uint8_t u8KL15 = 0;
// if (RTE_GPIO_Get_Level(WAKEUP_KL15_In) == 1u )
// {
// u8KL15 = 1u;
// }
// else
// {
// u8KL15 = 0;
// }
return u8KL15;
}
void Common_BlockDelay(monitorlib_uint32_t u32Ms)
{
Gen_TimeDelay(u32Ms * 1000u, 50u);
}
void Sys_LogicProcess(void)
{
}
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;
System_Monitor_KL30Init();
Sys_Set_Pata(SysFun_Range, &m_st);
}
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;
System_Monitor_WakeupInit();
Sys_Set_Pata(SysFun_Range, &m_st);
}
void Delay_ms(uint32_t u32Ms)
{
uint32_t i = 0;
uint32_t u32Counter = 0;
for (u32Counter = 0; u32Counter < u32Ms; u32Counter++)
{
for (i = 0; i < 44; i++)
{
__NOP();
__NOP();
__NOP();
}
RTE_WDT_Clear();
}
}