睡眠模式
概述
ESP32-S2 具有 Light-sleep 和 Deep-sleep 两种睡眠节能模式。
在 Light-sleep 模式下,数字外设、CPU、以及大部分 RAM 都使用时钟门控,同时电源电压降低。退出该模式后,数字外设、CPU 和 RAM 恢复运行,内部状态保持不变。
在 Deep-sleep 模式下,CPU、大部分 RAM、以及所有由时钟 APB_CLK 驱动的数字外设都会被断电。芯片上继续处于供电状态的部分仅包括:
RTC 控制器
ULP 协处理器
RTC 高速内存
RTC 低速内存
Light-sleep 和 Deep-sleep 模式有多种唤醒源。这些唤醒源也可以组合在一起,此时任何一个唤醒源都可以触发唤醒。通过 API esp_sleep_enable_X_wakeup
可启用唤醒源,通过 API esp_sleep_disable_wakeup_source()
可禁用唤醒源,详见下一小节。在系统进入 Light-sleep 或 Deep-sleep 模式前,可以在任意时刻配置唤醒源。
此外,应用程序可以使用 API esp_sleep_pd_config()
强制 RTC 外设和 RTC 内存进入特定断电模式。
配置唤醒源后,应用程序就可以使用 API esp_light_sleep_start()
或 esp_deep_sleep_start()
进入睡眠模式。此时,系统将按照被请求的唤醒源配置硬件,同时 RTC 控制器会给 CPU 和数字外设断电。
睡眠模式下的 Wi-Fi 功能
在 Light-sleep 和 Deep-sleep 模式下,无线外设会被断电。因此,在进入这两种睡眠模式前,应用程序必须调用恰当的函数 (esp_wifi_stop()
) 来禁用 Wi-Fi。在 Light-sleep 或 Deep-sleep 模式下,即使不调用此函数也无法连接 Wi-Fi。
如需保持 Wi-Fi 连接,请启用 Wi-Fi Modem-sleep 模式和自动 Light-sleep 模式(请参阅 电源管理 API)。在这两种模式下,Wi-Fi 驱动程序发出请求时,系统将自动从睡眠中被唤醒,从而保持与 AP 的连接。
唤醒源
定时器
RTC 控制器中内嵌定时器,可用于在预定义的时间到达后唤醒芯片。时间精度为微秒,但其实际分辨率依赖于为 RTC SLOW_CLK 所选择的时钟源。
关于 RTC 时钟选项的更多细节,请参考 ESP32-S2 技术参考手册 > ULP 协处理器 [PDF]。
在这种唤醒模式下,无需为睡眠模式中的 RTC 外设或内存供电。
调用 esp_sleep_enable_timer_wakeup()
函数可启用使用定时器唤醒睡眠模式。
触摸传感器
RTC IO 模块中包含这样一个逻辑——当发生触摸传感器中断时,触发唤醒。要启用此唤醒源,用户需要在芯片进入睡眠模式前配置触摸传感器中断功能。
可调用 esp_sleep_enable_touchpad_wakeup()
函数来启用该唤醒源。
外部唤醒 (ext0)
RTC IO 模块中包含这样一个逻辑——当某个 RTC GPIO 被设置为预定义的逻辑值时,触发唤醒。RTC IO 是 RTC 外设电源域的一部分,因此如果该唤醒源被请求,RTC 外设将在 Deep-sleep 模式期间保持供电。
在此模式下,RTC IO 模块被使能,因此也可以使用内部上拉或下拉电阻。配置时,应用程序需要在调用函数 esp_deep_sleep_start()
前先调用函数 rtc_gpio_pullup_en()
和 rtc_gpio_pulldown_en()
。
可调用 esp_sleep_enable_ext0_wakeup()
函数来启用此唤醒源。
警告
从睡眠模式中唤醒后,用于唤醒的 IO pad 将被配置为 RTC IO。因此,在将该 pad 用作数字 GPIO 之前,请调用 rtc_gpio_deinit()
函数对其进行重新配置。
外部唤醒 (ext1)
RTC 控制器中包含使用多个 RTC GPIO 触发唤醒的逻辑。您可以从以下两个逻辑函数中选择其一,用于触发唤醒:
当任意一个所选管脚为高电平时唤醒(ESP_EXT1_WAKEUP_ANY_HIGH)
当任意一个所选管脚为低电平时唤醒(ESP_EXT1_WAKEUP_ANY_LOW)
此唤醒源由 RTC 控制器实现。这种模式下的 RTC 外设和 RTC 内存可以被断电。然而,如果RTC外设被断电,如果我们不使用 HOLD 功能,内部上拉和下拉电阻将被禁用。想要使用内部上拉和下拉电阻,需要 RTC 外设电源域在睡眠期间保持开启,并在进入睡眠前使用函数 rtc_gpio_
配置上拉或下拉电阻。
esp_sleep_pd_config(ESP_PD_DOMAIN_RTC_PERIPH, ESP_PD_OPTION_ON); gpio_pullup_dis(gpio_num); gpio_pulldown_en(gpio_num);
如果我们关闭 RTC_PERIPH
域,我们将使用 HOLD 功能在睡眠期间维持引脚上的上拉和下拉电阻。所选管脚的 HOLD 功能会在系统真正进入睡眠前被开启,这有助于进一步减小睡眠时的功耗。
rtc_gpio_pullup_dis(gpio_num); rtc_gpio_pulldown_en(gpio_num);
如果某些芯片缺少 RTC_PERIPH
域,我们只能使用 HOLD 功能来在睡眠期间维持引脚上的上拉和下拉电阻。
gpio_pullup_dis(gpio_num); gpio_pulldown_en(gpio_num);
警告
使用 EXT1 唤醒源时,用于唤醒的 IO pad 将被配置为 RTC IO。因此,在将该 pad 用作数字 GPIO 之前,请调用
rtc_gpio_deinit()
函数对其进行重新配置。RTC 外设在默认情况下配置为断电,此时,唤醒 IO 在进入睡眠状态前将被设置为保持状态。因此,从 Light-sleep 状态唤醒芯片后,请调用 rtc_gpio_hold_dis 来禁用保持功能,以便对管脚进行重新配置。对于 Deep-sleep 唤醒,此问题已经在应用启动阶段解决。
可调用 esp_sleep_enable_ext1_wakeup()
函数来启用此唤醒源。
ULP 协处理器唤醒
当芯片处于睡眠模式时,ULP 协处理器仍然运行,可用于轮询传感器、监视 ADC 或触摸传感器的值,并在检测到特殊事件时唤醒芯片。ULP 协处理器是 RTC 外设电源域的一部分,运行存储在 RTC 低速内存中的程序。如果这一唤醒源被请求,RTC 低速内存将会在睡眠期间保持供电状态。RTC 外设会在 ULP 协处理器开始运行程序前自动上电;一旦程序停止运行,RTC 外设会再次自动断电。
可调用 esp_sleep_enable_ulp_wakeup()
函数来启用此唤醒源。
GPIO 唤醒(仅适用于 Light-sleep 模式)
除了上述 EXT0 和 EXT1 唤醒源之外,还有一种从外部唤醒 Light-sleep 模式的方法——使用函数 gpio_wakeup_enable()
。启用该唤醒源后,可将每个管脚单独配置为在高电平或低电平时唤醒。EXT0 和 EXT1 唤醒源只能用于 RTC IO,但此唤醒源既可以用于 RTC IO,可也用于数字 IO。
可调用 esp_sleep_enable_gpio_wakeup()
函数来启用此唤醒源。
警告
在进入 Light-sleep 模式前,请查看您将要驱动的 GPIO 管脚的电源域。如果有管脚属于 VDD_SPI 电源域,必须将此电源域配置为在睡眠期间保持供电。
例如,在 ESP32-WROOM-32 开发板上,GPIO16 和 GPIO17 连接到 VDD_SPI 电源域。如果这两个管脚被配置为在睡眠期间保持高电平,则您需将对应电源域配置为保持供电。您可以使用函数 esp_sleep_pd_config()
:
esp_sleep_pd_config(ESP_PD_DOMAIN_VDDSDIO, ESP_PD_OPTION_ON);
UART 唤醒(仅适用于 Light-sleep 模式)
当 ESP32-S2 从外部设备接收 UART 输入时,通常需要在输入数据可用时唤醒芯片。UART 外设支持在 RX 管脚上观测到一定数量的上升沿时,将芯片从 Light-sleep 模式中唤醒。调用 uart_set_wakeup_threshold()
函数可设置被观测上升沿的数量。请注意,触发唤醒的字符(及该字符前的所有字符)在唤醒后不会被 UART 接收,因此在发送数据之前,外部设备通常需要首先向 ESP32-S2 额外发送一个字符以触发唤醒。
可调用 esp_sleep_enable_uart_wakeup()
函数来启用此唤醒源。
RTC 外设和内存断电
默认情况下,调用函数 esp_deep_sleep_start()
和 esp_light_sleep_start()
后,所有唤醒源不需要的 RTC 电源域都会被断电。可调用函数 esp_sleep_pd_config()
来修改这一设置。
如果程序中的某些值被放入 RTC 低速内存中(例如使用 RTC_DATA_ATTR
属性),RTC 低速内存将默认保持供电。如果有需要,也可以使用函数 esp_sleep_pd_config()
对其进行修改。
Flash 断电
默认情况下,调用函数 esp_light_sleep_start()
后, flash 不会 断电,因为在 sleep 过程中断电 flash 存在风险。具体而言,flash 断电需要时间,但是在此期间,系统有可能被唤醒,导致 flash 重新被上电。此时,断电尚未完成又重新上电的硬件行为有可能导致 flash 无法正常工作。
理论上讲,在 flash 完全断电后可以仅唤醒系统,然而现实情况是 flash 断电所需的时间很难预测。如果用户为 flash 供电电路添加了滤波电容,断电所需时间可能会更长。此外,即使可以预知 flash 彻底断电所需的时间,有时也不能通过设置足够长的睡眠时间来确保 flash 断电的安全(比如,突发的异步唤醒源会使得实际的睡眠时间不可控)。
警告
如果在 flash 的供电电路上添加了滤波电容,那么应当尽一切可能避免 flash 断电。
因为这些不可控的因素,ESP-IDF 很难保证 flash断电的绝对安全。因此 ESP-IDF 不推荐用户断电 flash。对于一些功耗敏感型应用,可以通过设置 Kconfig 配置项 CONFIG_ESP_SLEEP_FLASH_LEAKAGE_WORKAROUND 来减少 light sleep 期间 flash 的功耗。这种方式在几乎所有场景下都要比断电 flash 更好,兼顾了安全性和功耗。
值得一提的是,PSRAM 也有一个类似的 Kconfig 配置项 CONFIG_ESP_SLEEP_PSRAM_LEAKAGE_WORKAROUND。
考虑到有些用户能够充分评估断电 flash 的风险,并希望通过断电 flash 来获得更低的功耗,因此 ESP-IDF 提供了两种断电 flash 的机制:
设置 Kconfig 配置项 CONFIG_ESP_SLEEP_POWER_DOWN_FLASH 将使 ESP-IDF 以一个严格的条件来断电 flash。严格的条件具体指的是,RTC timer 是唯一的唤醒源 且 睡眠时间比 flash 彻底断电所需时间更长。
调用函数
esp_sleep_pd_config(ESP_PD_DOMAIN_VDDSDIO, ESP_PD_OPTION_OFF)
将使 ESP-IDF 以一个宽松的条件来断电 flash。宽松的条件具体指的是 RTC timer 唤醒源未被使能 或 睡眠时间比 flash 彻底断电所需时间更长。
备注
Light sleep 时,ESP-IDF 没有提供保证 flash 一定会被断电的机制。
不管用户的配置如何,函数
esp_deep_sleep_start()
都会强制断电 flash。
进入 Light-sleep 模式
函数 esp_light_sleep_start()
可用于在配置唤醒源后进入 Light-sleep 模式,也可用于在未配置唤醒源的情况下进入 Light-sleep 模式。在后一种情况中,芯片将一直处于睡眠模式,直到从外部被复位。
进入 Deep-sleep 模式
函数 esp_deep_sleep_start()
可用于在配置唤醒源后进入 Deep-sleep 模式,也可用于在未配置唤醒源的情况下进入 Deep-sleep 模式 模式。在后一种情况中,芯片将一直处于睡眠模式,直到从外部被复位。
配置 IO
一些 ESP32-S2 IO 在默认情况下启用内部上拉或下拉电阻。如果这些管脚在 Deep-sleep 模式下中受外部电路驱动,电流流经这些上下拉电阻时,可能会增加电流消耗。
想要隔离这些管脚以避免额外的电流消耗,请调用 rtc_gpio_isolate()
函数。
例如,在 ESP32-WROVER 模组上,GPIO12 在外部上拉,但其在 ESP32 芯片中也有内部下拉。这意味着在 Deep-sleep 模式中,电流会流经这些外部和内部电阻,使电流消耗超出可能的最小值。
在函数 esp_deep_sleep_start()
前增加以下代码即可避免额外电流消耗:
rtc_gpio_isolate(GPIO_NUM_12);
UART 输出处理
在进入睡眠模式之前,调用函数 esp_deep_sleep_start()
会冲刷掉 UART FIFO 缓存。
当使用函数 esp_light_sleep_start()
进入 Light-sleep 模式时,UART FIFO 将不会被冲刷。与之相反,UART 输出将被暂停,FIFO 中的剩余字符将在 Light-sleep 唤醒后被发送。
检查睡眠唤醒原因
esp_sleep_get_wakeup_cause()
函数可用于检测是何种唤醒源在睡眠期间被触发。
对于触摸传感器唤醒源,可以调用函数 esp_sleep_get_touchpad_wakeup_status()
来确认触发唤醒的触摸管脚。
对于 ext1 唤醒源,可以调用函数 esp_sleep_get_ext1_wakeup_status()
来确认触发唤醒的触摸管脚。
禁用睡眠模式唤醒源
调用 API esp_sleep_disable_wakeup_source()
可以禁用给定唤醒源的触发器,从而禁用该唤醒源。此外,如果将参数设置为 ESP_SLEEP_WAKEUP_ALL
,该函数可用于禁用所有触发器。
应用程序示例
protocols/sntp:如何实现 Deep-sleep 模式的基本功能,周期性唤醒 ESP 模块,以从 NTP 服务器获取时间。
wifi/power_save:如何实现 Wi-Fi Modem-sleep 模式。
system/deep_sleep:如何使用 Deep-sleep 唤醒触发器和 ULP 协处理器编程。
API 参考
Header File
Functions
-
esp_err_t esp_sleep_disable_wakeup_source(esp_sleep_source_t source)
Disable wakeup source.
This function is used to deactivate wake up trigger for source defined as parameter of the function.
See docs/sleep-modes.rst for details.
备注
This function does not modify wake up configuration in RTC. It will be performed in esp_deep_sleep_start/esp_light_sleep_start function.
- 参数
source – - number of source to disable of type esp_sleep_source_t
- 返回
ESP_OK on success
ESP_ERR_INVALID_STATE if trigger was not active
-
esp_err_t esp_sleep_enable_ulp_wakeup(void)
Enable wakeup by ULP coprocessor.
备注
On ESP32, ULP wakeup source cannot be used when RTC_PERIPH power domain is forced, to be powered on (ESP_PD_OPTION_ON) or when ext0 wakeup source is used.
- 返回
ESP_OK on success
ESP_ERR_NOT_SUPPORTED if additional current by touch (CONFIG_RTC_EXT_CRYST_ADDIT_CURRENT) is enabled.
ESP_ERR_INVALID_STATE if ULP co-processor is not enabled or if wakeup triggers conflict
-
esp_err_t esp_sleep_enable_timer_wakeup(uint64_t time_in_us)
Enable wakeup by timer.
- 参数
time_in_us – time before wakeup, in microseconds
- 返回
ESP_OK on success
ESP_ERR_INVALID_ARG if value is out of range (TBD)
-
esp_err_t esp_sleep_enable_touchpad_wakeup(void)
Enable wakeup by touch sensor.
备注
On ESP32, touch wakeup source can not be used when RTC_PERIPH power domain is forced to be powered on (ESP_PD_OPTION_ON) or when ext0 wakeup source is used.
备注
The FSM mode of the touch button should be configured as the timer trigger mode.
- 返回
ESP_OK on success
ESP_ERR_NOT_SUPPORTED if additional current by touch (CONFIG_RTC_EXT_CRYST_ADDIT_CURRENT) is enabled.
ESP_ERR_INVALID_STATE if wakeup triggers conflict
-
touch_pad_t esp_sleep_get_touchpad_wakeup_status(void)
Get the touch pad which caused wakeup.
If wakeup was caused by another source, this function will return TOUCH_PAD_MAX;
- 返回
touch pad which caused wakeup
-
bool esp_sleep_is_valid_wakeup_gpio(gpio_num_t gpio_num)
Returns true if a GPIO number is valid for use as wakeup source.
备注
For SoCs with RTC IO capability, this can be any valid RTC IO input pin.
- 参数
gpio_num – Number of the GPIO to test for wakeup source capability
- 返回
True if this GPIO number will be accepted as a sleep wakeup source.
-
esp_err_t esp_sleep_enable_ext0_wakeup(gpio_num_t gpio_num, int level)
Enable wakeup using a pin.
This function uses external wakeup feature of RTC_IO peripheral. It will work only if RTC peripherals are kept on during sleep.
This feature can monitor any pin which is an RTC IO. Once the pin transitions into the state given by level argument, the chip will be woken up.
备注
This function does not modify pin configuration. The pin is configured in esp_deep_sleep_start/esp_light_sleep_start, immediately before entering sleep mode.
备注
ESP32: ext0 wakeup source can not be used together with touch or ULP wakeup sources.
- 参数
gpio_num – GPIO number used as wakeup source. Only GPIOs with the RTC functionality can be used. For different SoCs, the related GPIOs are:
ESP32: 0, 2, 4, 12-15, 25-27, 32-39;
ESP32-S2: 0-21;
ESP32-S3: 0-21.
level – input level which will trigger wakeup (0=low, 1=high)
- 返回
ESP_OK on success
ESP_ERR_INVALID_ARG if the selected GPIO is not an RTC GPIO, or the mode is invalid
ESP_ERR_INVALID_STATE if wakeup triggers conflict
-
esp_err_t esp_sleep_enable_ext1_wakeup(uint64_t mask, esp_sleep_ext1_wakeup_mode_t mode)
Enable wakeup using multiple pins.
This function uses external wakeup feature of RTC controller. It will work even if RTC peripherals are shut down during sleep.
This feature can monitor any number of pins which are in RTC IOs. Once any of the selected pins goes into the state given by mode argument, the chip will be woken up.
备注
This function does not modify pin configuration. The pins are configured in esp_deep_sleep_start/esp_light_sleep_start, immediately before entering sleep mode.
备注
Internal pullups and pulldowns don’t work when RTC peripherals are shut down. In this case, external resistors need to be added. Alternatively, RTC peripherals (and pullups/pulldowns) may be kept enabled using esp_sleep_pd_config function. If we turn off the
RTC_PERIPH
domain or certain chips lack theRTC_PERIPH
domain, we will use the HOLD feature to maintain the pull-up and pull-down on the pins during sleep. HOLD feature will be acted on the pin internally before the system entering sleep, and this can further reduce power consumption.- 参数
mask – bit mask of GPIO numbers which will cause wakeup. Only GPIOs which have RTC functionality can be used in this bit map. For different SoCs, the related GPIOs are:
ESP32: 0, 2, 4, 12-15, 25-27, 32-39
ESP32-S2: 0-21
ESP32-S3: 0-21
ESP32-C6: 0-7
ESP32-H2: 7-14
mode – select logic function used to determine wakeup condition: When target chip is ESP32:
ESP_EXT1_WAKEUP_ALL_LOW: wake up when all selected GPIOs are low
ESP_EXT1_WAKEUP_ANY_HIGH: wake up when any of the selected GPIOs is high When target chip is ESP32-S2, ESP32-S3, ESP32-C6 or ESP32-H2:
ESP_EXT1_WAKEUP_ANY_LOW: wake up when any of the selected GPIOs is low
ESP_EXT1_WAKEUP_ANY_HIGH: wake up when any of the selected GPIOs is high
- 返回
ESP_OK on success
ESP_ERR_INVALID_ARG if any of the selected GPIOs is not an RTC GPIO, or mode is invalid
-
esp_err_t esp_sleep_enable_gpio_wakeup(void)
Enable wakeup from light sleep using GPIOs.
Each GPIO supports wakeup function, which can be triggered on either low level or high level. Unlike EXT0 and EXT1 wakeup sources, this method can be used both for all IOs: RTC IOs and digital IOs. It can only be used to wakeup from light sleep though.
To enable wakeup, first call gpio_wakeup_enable, specifying gpio number and wakeup level, for each GPIO which is used for wakeup. Then call this function to enable wakeup feature.
备注
On ESP32, GPIO wakeup source can not be used together with touch or ULP wakeup sources.
- 返回
ESP_OK on success
ESP_ERR_INVALID_STATE if wakeup triggers conflict
-
esp_err_t esp_sleep_enable_uart_wakeup(int uart_num)
Enable wakeup from light sleep using UART.
Use uart_set_wakeup_threshold function to configure UART wakeup threshold.
Wakeup from light sleep takes some time, so not every character sent to the UART can be received by the application.
备注
ESP32 does not support wakeup from UART2.
- 参数
uart_num – UART port to wake up from
- 返回
ESP_OK on success
ESP_ERR_INVALID_ARG if wakeup from given UART is not supported
-
esp_err_t esp_sleep_enable_bt_wakeup(void)
Enable wakeup by bluetooth.
- 返回
ESP_OK on success
ESP_ERR_NOT_SUPPORTED if wakeup from bluetooth is not supported
-
esp_err_t esp_sleep_disable_bt_wakeup(void)
Disable wakeup by bluetooth.
- 返回
ESP_OK on success
ESP_ERR_NOT_SUPPORTED if wakeup from bluetooth is not supported
-
esp_err_t esp_sleep_enable_wifi_beacon_wakeup(void)
Enable beacon wakeup by WiFi MAC, it will wake up the system into modem state.
- 返回
ESP_OK on success
-
esp_err_t esp_sleep_disable_wifi_beacon_wakeup(void)
Disable beacon wakeup by WiFi MAC.
- 返回
ESP_OK on success
-
uint64_t esp_sleep_get_ext1_wakeup_status(void)
Get the bit mask of GPIOs which caused wakeup (ext1)
If wakeup was caused by another source, this function will return 0.
- 返回
bit mask, if GPIOn caused wakeup, BIT(n) will be set
-
esp_err_t esp_sleep_pd_config(esp_sleep_pd_domain_t domain, esp_sleep_pd_option_t option)
Set power down mode for an RTC power domain in sleep mode.
If not set set using this API, all power domains default to ESP_PD_OPTION_AUTO.
- 参数
domain – power domain to configure
option – power down option (ESP_PD_OPTION_OFF, ESP_PD_OPTION_ON, or ESP_PD_OPTION_AUTO)
- 返回
ESP_OK on success
ESP_ERR_INVALID_ARG if either of the arguments is out of range
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esp_err_t esp_deep_sleep_try_to_start(void)
Enter deep sleep with the configured wakeup options.
The reason for the rejection can be such as a short sleep time.
备注
In general, the function does not return, but if the sleep is rejected, then it returns from it.
- 返回
No return - If the sleep is not rejected.
ESP_ERR_SLEEP_REJECT sleep request is rejected(wakeup source set before the sleep request)
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void esp_deep_sleep_start(void)
Enter deep sleep with the configured wakeup options.
备注
The function does not do a return (no rejection). Even if wakeup source set before the sleep request it goes to deep sleep anyway.
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esp_err_t esp_light_sleep_start(void)
Enter light sleep with the configured wakeup options.
- 返回
ESP_OK on success (returned after wakeup)
ESP_ERR_SLEEP_REJECT sleep request is rejected(wakeup source set before the sleep request)
ESP_ERR_SLEEP_TOO_SHORT_SLEEP_DURATION after deducting the sleep flow overhead, the final sleep duration is too short to cover the minimum sleep duration of the chip, when rtc timer wakeup source enabled
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esp_err_t esp_deep_sleep_try(uint64_t time_in_us)
Enter deep-sleep mode.
The device will automatically wake up after the deep-sleep time Upon waking up, the device calls deep sleep wake stub, and then proceeds to load application.
Call to this function is equivalent to a call to esp_deep_sleep_enable_timer_wakeup followed by a call to esp_deep_sleep_start.
- 参数
time_in_us – deep-sleep time, unit: microsecond
- 返回
No return - If the sleep is not rejected.
ESP_ERR_SLEEP_REJECT sleep request is rejected(wakeup source set before the sleep request)
-
void esp_deep_sleep(uint64_t time_in_us)
Enter deep-sleep mode.
The device will automatically wake up after the deep-sleep time Upon waking up, the device calls deep sleep wake stub, and then proceeds to load application.
Call to this function is equivalent to a call to esp_deep_sleep_enable_timer_wakeup followed by a call to esp_deep_sleep_start.
备注
The function does not do a return (no rejection).. Even if wakeup source set before the sleep request it goes to deep sleep anyway.
- 参数
time_in_us – deep-sleep time, unit: microsecond
-
esp_err_t esp_deep_sleep_register_hook(esp_deep_sleep_cb_t new_dslp_cb)
Register a callback to be called from the deep sleep prepare.
警告
deepsleep callbacks should without parameters, and MUST NOT, UNDER ANY CIRCUMSTANCES, CALL A FUNCTION THAT MIGHT BLOCK.
- 参数
new_dslp_cb – Callback to be called
- 返回
ESP_OK: Callback registered to the deepsleep misc_modules_sleep_prepare
ESP_ERR_NO_MEM: No more hook space for register the callback
-
void esp_deep_sleep_deregister_hook(esp_deep_sleep_cb_t old_dslp_cb)
Unregister an deepsleep callback.
- 参数
old_dslp_cb – Callback to be unregistered
-
esp_sleep_wakeup_cause_t esp_sleep_get_wakeup_cause(void)
Get the wakeup source which caused wakeup from sleep.
- 返回
cause of wake up from last sleep (deep sleep or light sleep)
-
void esp_wake_deep_sleep(void)
Default stub to run on wake from deep sleep.
Allows for executing code immediately on wake from sleep, before the software bootloader or ESP-IDF app has started up.
This function is weak-linked, so you can implement your own version to run code immediately when the chip wakes from sleep.
See docs/deep-sleep-stub.rst for details.
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void esp_set_deep_sleep_wake_stub(esp_deep_sleep_wake_stub_fn_t new_stub)
Install a new stub at runtime to run on wake from deep sleep.
If implementing esp_wake_deep_sleep() then it is not necessary to call this function.
However, it is possible to call this function to substitute a different deep sleep stub. Any function used as a deep sleep stub must be marked RTC_IRAM_ATTR, and must obey the same rules given for esp_wake_deep_sleep().
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void esp_set_deep_sleep_wake_stub_default_entry(void)
Set wake stub entry to default
esp_wake_stub_entry
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esp_deep_sleep_wake_stub_fn_t esp_get_deep_sleep_wake_stub(void)
Get current wake from deep sleep stub.
- 返回
Return current wake from deep sleep stub, or NULL if no stub is installed.
-
void esp_default_wake_deep_sleep(void)
The default esp-idf-provided esp_wake_deep_sleep() stub.
See docs/deep-sleep-stub.rst for details.
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void esp_deep_sleep_disable_rom_logging(void)
Disable logging from the ROM code after deep sleep.
Using LSB of RTC_STORE4.
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void esp_sleep_config_gpio_isolate(void)
Configure to isolate all GPIO pins in sleep state.
-
void esp_sleep_enable_gpio_switch(bool enable)
Enable or disable GPIO pins status switching between slept status and waked status.
- 参数
enable – decide whether to switch status or not
Macros
-
ESP_PD_DOMAIN_RTC8M
Type Definitions
-
typedef void (*esp_deep_sleep_cb_t)(void)
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typedef esp_sleep_source_t esp_sleep_wakeup_cause_t
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typedef void (*esp_deep_sleep_wake_stub_fn_t)(void)
Function type for stub to run on wake from sleep.
Enumerations
-
enum esp_sleep_ext1_wakeup_mode_t
Logic function used for EXT1 wakeup mode.
Values:
-
enumerator ESP_EXT1_WAKEUP_ANY_LOW
Wake the chip when any of the selected GPIOs go low.
-
enumerator ESP_EXT1_WAKEUP_ANY_HIGH
Wake the chip when any of the selected GPIOs go high.
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enumerator ESP_EXT1_WAKEUP_ALL_LOW
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enumerator ESP_EXT1_WAKEUP_ANY_LOW
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enum esp_sleep_pd_domain_t
Power domains which can be powered down in sleep mode.
Values:
-
enumerator ESP_PD_DOMAIN_RTC_PERIPH
RTC IO, sensors and ULP co-processor.
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enumerator ESP_PD_DOMAIN_RTC_SLOW_MEM
RTC slow memory.
-
enumerator ESP_PD_DOMAIN_RTC_FAST_MEM
RTC fast memory.
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enumerator ESP_PD_DOMAIN_XTAL
XTAL oscillator.
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enumerator ESP_PD_DOMAIN_RC_FAST
Internal Fast oscillator.
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enumerator ESP_PD_DOMAIN_VDDSDIO
VDD_SDIO.
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enumerator ESP_PD_DOMAIN_MAX
Number of domains.
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enumerator ESP_PD_DOMAIN_RTC_PERIPH
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enum esp_sleep_pd_option_t
Power down options.
Values:
-
enumerator ESP_PD_OPTION_OFF
Power down the power domain in sleep mode.
-
enumerator ESP_PD_OPTION_ON
Keep power domain enabled during sleep mode.
-
enumerator ESP_PD_OPTION_AUTO
Keep power domain enabled in sleep mode, if it is needed by one of the wakeup options. Otherwise power it down.
-
enumerator ESP_PD_OPTION_OFF
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enum esp_sleep_source_t
Sleep wakeup cause.
Values:
-
enumerator ESP_SLEEP_WAKEUP_UNDEFINED
In case of deep sleep, reset was not caused by exit from deep sleep.
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enumerator ESP_SLEEP_WAKEUP_ALL
Not a wakeup cause, used to disable all wakeup sources with esp_sleep_disable_wakeup_source.
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enumerator ESP_SLEEP_WAKEUP_EXT0
Wakeup caused by external signal using RTC_IO.
-
enumerator ESP_SLEEP_WAKEUP_EXT1
Wakeup caused by external signal using RTC_CNTL.
-
enumerator ESP_SLEEP_WAKEUP_TIMER
Wakeup caused by timer.
-
enumerator ESP_SLEEP_WAKEUP_TOUCHPAD
Wakeup caused by touchpad.
-
enumerator ESP_SLEEP_WAKEUP_ULP
Wakeup caused by ULP program.
-
enumerator ESP_SLEEP_WAKEUP_GPIO
Wakeup caused by GPIO (light sleep only on ESP32, S2 and S3)
-
enumerator ESP_SLEEP_WAKEUP_UART
Wakeup caused by UART (light sleep only)
-
enumerator ESP_SLEEP_WAKEUP_WIFI
Wakeup caused by WIFI (light sleep only)
-
enumerator ESP_SLEEP_WAKEUP_COCPU
Wakeup caused by COCPU int.
-
enumerator ESP_SLEEP_WAKEUP_COCPU_TRAP_TRIG
Wakeup caused by COCPU crash.
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enumerator ESP_SLEEP_WAKEUP_BT
Wakeup caused by BT (light sleep only)
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enumerator ESP_SLEEP_WAKEUP_UNDEFINED