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BLE_TYQ_CH584M
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改了sleep.c,看起来OK了?

This commit is contained in:
stark1898y 2025-06-03 14:19:57 +08:00
parent 678f23f95e
commit 013bbfb3d3
2 changed files with 129 additions and 24 deletions
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2
BSP/src/bsp_key.c
View File

@ -127,7 +127,7 @@ void BSP_KEY_EnterLowpower(void)
// PWR_PeriphWakeUpCfg(ENABLE, RB_SLP_GPIO_WAKE, Long_Delay);
PWR_PeriphWakeUpCfg(ENABLE, RB_GPIO_WAKE_MODE | RB_SLP_GPIO_WAKE, Long_Delay);
PWR_PeriphWakeUpCfg(ENABLE, RB_SLP_GPIO_WAKE | RB_SLP_BAT_WAKE, Long_Delay);
// PWR_PeriphWakeUpCfg(ENABLE, RB_SLP_GPIO_WAKE | RB_SLP_BAT_WAKE, Long_Delay);
BSP_RequestSleep();
#endif

147
HAL/SLEEP.c
View File

@ -30,6 +30,8 @@
static volatile bool block_sleep_flag = false;
static volatile bool block_boost_flag = false;
static uint32_t block_sleep = 0;
__HIGH_CODE
void BSP_RequestSleep(void)
{
@ -60,6 +62,82 @@ void BSP_NoNeedBoost(void)
BOOST_OFF_DEINIT;
}
__HIGH_CODE
void LowPower_Idle_ext(void)
{
FLASH_ROM_SW_RESET();
// R8_FLASH_CTRL = 0x04; //flash关闭
// PFIC->SCTLR &= ~(1 << 2); // sleep
__WFE();
__nop();
__nop();
}
__HIGH_CODE
void LowPower_Sleep_ext(uint16_t rm)
{
uint8_t x32Mpw;
uint16_t power_plan;
uint16_t clk_sys_cfg;
uint16_t hfck_pwr_ctrl;
clk_sys_cfg = R16_CLK_SYS_CFG;
hfck_pwr_ctrl = R8_HFCK_PWR_CTRL;
x32Mpw = R8_XT32M_TUNE;
x32Mpw = (x32Mpw & 0xfc) | 0x03; // 150%额定电流
sys_safe_access_enable();
R8_BAT_DET_CTRL = 0; // 关闭电压监控
R8_XT32M_TUNE = x32Mpw;
R16_POWER_PLAN &= ~RB_XT_PRE_EN;
sys_safe_access_disable();
PFIC->SCTLR |= (1 << 2); // deep sleep
power_plan = R16_POWER_PLAN & (RB_PWR_DCDC_EN | RB_PWR_DCDC_PRE);
power_plan |= RB_PWR_PLAN_EN | RB_PWR_CORE | rm | (2 << 11);
sys_safe_access_enable();
if (rm & RB_XT_PRE_EN)
{
R8_SLP_POWER_CTRL |= 0x41;
}
else
{
R8_SLP_POWER_CTRL |= 0x40;
}
R16_POWER_PLAN = power_plan;
R8_HFCK_PWR_CTRL |= RB_CLK_RC16M_PON; // 睡眠需要打开内部HSI之后睡
sys_safe_access_disable();
if ((R16_CLK_SYS_CFG & RB_CLK_SYS_MOD) == 0x40)
{
sys_safe_access_enable();
R16_CLK_SYS_CFG = (R16_CLK_SYS_CFG & (~RB_CLK_PLL_DIV)) | 24;
sys_safe_access_disable();
}
// sys_safe_access_enable();
// R8_PLL_CONFIG |= (1 << 5);
// sys_safe_access_disable();
__WFE();
__nop();
__nop();
PFIC->SCTLR &= ~(1 << 2);
sys_safe_access_enable();
R16_CLK_SYS_CFG = clk_sys_cfg;
R8_HFCK_PWR_CTRL = hfck_pwr_ctrl;
sys_safe_access_disable();
sys_safe_access_enable();
R16_POWER_PLAN &= ~(RB_XT_PRE_EN | RB_PWR_PLAN_EN);
sys_safe_access_disable();
// sys_safe_access_enable();
// R8_PLL_CONFIG &= ~(1 << 5);
// sys_safe_access_disable();
DelayUs(40);
}
pfnLowPowerGapProcessCB_t LowPowerGapProcess;
@ -75,6 +153,7 @@ pfnLowPowerGapProcessCB_t LowPowerGapProcess;
__HIGH_CODE
uint32_t CH58x_LowPower(uint32_t time)
{
#if 0
// BSP_UART1_TxLowPower();
if (block_boost_flag == false)
{
@ -93,6 +172,7 @@ uint32_t CH58x_LowPower(uint32_t time)
// logDebug("block_sleep");
return 0;
}
#endif
// LDect_Deinit();
#if (defined(HAL_SLEEP)) && (HAL_SLEEP == TRUE)
volatile uint32_t i;
@ -109,7 +189,8 @@ uint32_t CH58x_LowPower(uint32_t time)
time_tign = time - WAKE_UP_RTC_MAX_TIME;
}
SYS_DisableAllIrq(&irq_status);
// SYS_DisableAllIrq(&irq_status);
PFIC_DisableAllIRQ();
time_curr = RTC_GetCycle32k();
// 检测睡眠时间
if (time_tign < time_curr)
@ -125,12 +206,14 @@ uint32_t CH58x_LowPower(uint32_t time)
if ((time_sleep < SLEEP_RTC_MIN_TIME) ||
(time_sleep > SLEEP_RTC_MAX_TIME))
{
SYS_RecoverIrq(irq_status);
// SYS_RecoverIrq(irq_status);
PFIC_EnableAllIRQ();
return 2;
}
RTC_SetTignTime(time_tign);
SYS_RecoverIrq(irq_status);
// SYS_RecoverIrq(irq_status);
PFIC_EnableAllIRQ();
#if (DEBUG == Debug_UART0) // 使用其他串口输出打印信息需要修改这行代码
while ((R8_UART0_LSR & RB_LSR_TX_ALL_EMP) == 0)
{
@ -143,27 +226,49 @@ uint32_t CH58x_LowPower(uint32_t time)
}
#endif
BSP_KEY_EnterLowpower();
// BSP_KEY_EnterLowpower();
// LOW POWER-sleep模式
if (!RTCTigFlag)
if (block_sleep)
{ // 这里是动态控制进入idle 睡眠,还是sleep 睡眠, 其中这里最高位置,定义为完全屏蔽睡眠,
if (block_sleep & 0x0000ffff)
{
LowPower_Sleep(RB_PWR_RAM32K | RB_PWR_RAM96K | RB_PWR_EXTEND);
R8_RTC_FLAG_CTRL = (RB_RTC_TMR_CLR | RB_RTC_TRIG_CLR);
RTC_SetTignTime(time);
sys_safe_access_enable();
R8_HFCK_PWR_CTRL |= RB_CLK_XT32M_KEEP;
sys_safe_access_disable();
if(!RTCTigFlag)
LowPower_Idle_ext();
if (R8_RTC_FLAG_CTRL & RB_RTC_TRIG_FLAG)
{
LowPower_Halt();
R8_RTC_FLAG_CTRL = RB_RTC_TRIG_CLR;
}
R8_RTC_FLAG_CTRL = (RB_RTC_TMR_CLR | RB_RTC_TRIG_CLR);
HSECFG_Current(HSE_RCur_100); // 降为额定电流(低功耗函数中提升了HSE偏置电流)
return 0;
}
#endif
return 3;
}
else
{
LowPower_Sleep_ext(RB_PWR_RAM96K | RB_PWR_EXTEND | RB_XT_PRE_EN);
HSECFG_Current(HSE_RCur_100); // 降为额定电流(低功耗函数中提升了HSE偏置电流)
}
if (R8_RTC_FLAG_CTRL & RB_RTC_TRIG_FLAG)
{
R8_RTC_FLAG_CTRL = RB_RTC_TRIG_CLR;
}
// if (!RTCTigFlag)
// {
// LowPower_Sleep(RB_PWR_RAM32K | RB_PWR_RAM96K | RB_PWR_EXTEND);
// R8_RTC_FLAG_CTRL = (RB_RTC_TMR_CLR | RB_RTC_TRIG_CLR);
// RTC_SetTignTime(time);
// sys_safe_access_enable();
// R8_HFCK_PWR_CTRL |= RB_CLK_XT32M_KEEP;
// sys_safe_access_disable();
// if (!RTCTigFlag)
// {
// LowPower_Halt();
// }
// R8_RTC_FLAG_CTRL = (RB_RTC_TMR_CLR | RB_RTC_TRIG_CLR);
// HSECFG_Current(HSE_RCur_100); // 降为额定电流(低功耗函数中提升了HSE偏置电流)
// return 0;
// }
#endif
return 0;
}
/*******************************************************************************
@ -177,7 +282,7 @@ uint32_t CH58x_LowPower(uint32_t time)
*/
void LowPowerGapProcess_Register(pfnLowPowerGapProcessCB_t cb)
{
if((uint32_t)cb & 0x20000000)
if ((uint32_t)cb & 0x20000000)
{
LowPowerGapProcess = cb;
}
@ -194,13 +299,13 @@ void LowPowerGapProcess_Register(pfnLowPowerGapProcessCB_t cb)
*/
void HAL_SleepInit(void)
{
#if(defined(HAL_SLEEP)) && (HAL_SLEEP == TRUE)
#if (defined(HAL_SLEEP)) && (HAL_SLEEP == TRUE)
sys_safe_access_enable();
R8_SLP_WAKE_CTRL |= RB_SLP_RTC_WAKE; // RTC唤醒
sys_safe_access_disable();
sys_safe_access_enable();
R8_RTC_MODE_CTRL |= RB_RTC_TRIG_EN; // 触发模式
sys_safe_access_disable();
PFIC_EnableIRQ(RTC_IRQn);
// PFIC_EnableIRQ(RTC_IRQn);
#endif
}