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ESP32 RTC External Wakeup
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== Overview == [[文件:Quantum-7-1024.jpg | 800px]] <br><br> == Quick Start == In Linux: === Install ESP-IDF === <source lang=bash> $ sudo apt-get install git wget make libncurses-dev flex bison gperf python python-serial $ wget https://dl.espressif.com/dl/xtensa-esp32-elf-linux32-1.22.0-59.tar.gz $ mkdir -p toolchain $ tar zxf xtensa-esp32-elf-linux32-1.22.0-59.tar.gz -C toolchain $ export PATH=$PATH:`pwd`/toolchain/xtensa-esp32-elf/bin $ $ git clone --recursive git://github.com/icamgo/esp-idf.git $ export IDF_PATH=`pwd`/esp-idf </source> <br><br> === Compile & Upload === <source lang=bash> $ cd esp-idf/examples/20_ext_wakeup $ make menuconfig $ make flash </source> <br><br> == API == <source lang=c> #define DEEP_SLEEP_PD_NORMAL BIT(0) /* Base deep sleep mode */ #define DEEP_SLEEP_PD_RTC_PERIPH BIT(1) /* Power down RTC peripherals */ #define DEEP_SLEEP_PD_RTC_SLOW_MEM BIT(2) /* Power down RTC SLOW memory */ #define DEEP_SLEEP_PD_RTC_FAST_MEM BIT(3) /* Power down RTC FAST memory */ /* * @brief Prepare for entering sleep mode * @param deep_slp DEEP_SLEEP_PD_ flags combined with OR (DEEP_SLEEP_PD_NORMAL must be included) * @param cpu_lp_mode for deep sleep, should be 0 */ void rtc_slp_prep_lite(uint32_t deep_slp, uint32_t cpu_lp_mode); #define RTC_EXT_EVENT0_TRIG BIT(0) #define RTC_EXT_EVENT1_TRIG BIT(1) #define RTC_GPIO_TRIG BIT(2) /* Only available in light sleep */ #define RTC_TIMER_EXPIRE BIT(3) #define RTC_SDIO_TRIG BIT(4) #define RTC_MAC_TRIG BIT(5) #define RTC_UART0_TRIG BIT(6) #define RTC_UART1_TRIG BIT(7) #define RTC_TOUCH_TRIG BIT(8) #define RTC_SAR_TRIG BIT(9) #define RTC_BT_TRIG BIT(10) /* * @brief Enter sleep mode for given number of cycles * @param cycles_h higher 32 bit part of number of slow clock cycles * @param cycles_l lower 32 bit part of number of slow clock cycles * @param wakeup_opt wake up reason to enable (RTC_xxx_TRIG flags combined with OR) * @param reject_opt reserved, should be 0 * @return TBD */ uint32_t rtc_sleep(uint32_t cycles_h, uint32_t cycles_l, uint32_t wakeup_opt, uint32_t reject_opt); typedef enum { RTC_GPIO0_SEL = BIT(0), RTC_GPIO1_SEL = BIT(1), RTC_GPIO2_SEL = BIT(2), RTC_GPIO3_SEL = BIT(3), RTC_GPIO4_SEL = BIT(4), RTC_GPIO5_SEL = BIT(5), RTC_GPIO6_SEL = BIT(6), RTC_GPIO7_SEL = BIT(7), RTC_GPIO8_SEL = BIT(8), RTC_GPIO9_SEL = BIT(9), RTC_GPIO10_SEL = BIT(10), RTC_GPIO11_SEL = BIT(11), RTC_GPIO12_SEL = BIT(12), RTC_GPIO13_SEL = BIT(13), RTC_GPIO14_SEL = BIT(14), RTC_GPIO15_SEL = BIT(15), RTC_GPIO16_SEL = BIT(16), RTC_GPIO17_SEL = BIT(17) } rtc_gpio_sel_t; void rtc_pads_muxsel(rtc_gpio_sel_t rtc_io_sel, uint8_t set); void rtc_pads_funsel(rtc_gpio_sel_t rtc_io_sel, uint8_t set); void rtc_pads_slpsel(rtc_gpio_sel_t rtc_io_sel, uint8_t set); void rtc_pads_hold(rtc_gpio_sel_t rtc_io_sel, uint8_t set); void rtc_pads_pu(rtc_gpio_sel_t rtc_io_sel, uint8_t set); void rtc_pads_pd(rtc_gpio_sel_t rtc_io_sel, uint8_t set); void rtc_pads_slpie(rtc_gpio_sel_t rtc_io_sel, uint8_t set); void rtc_pads_slpoe(rtc_gpio_sel_t rtc_io_sel, uint8_t set); void rtc_pads_funie(rtc_gpio_sel_t rtc_io_sel, uint8_t set); /* * Using the EXT_WAKEUP0 slot. So you need to enable the RTC_EXT_EVENT0_TRIG * in rtc_sleep() * * rtc_io_num is the number of rtc_pad. e.g. The number of RTC_GPIO5 is 5 * wakeup_level = 0: external wakeup at low level * wakeup_level = 1: external wakeup at high level */ void rtc_pad_ext_wakeup(rtc_gpio_sel_t rtc_io_sel, uint8_t rtc_io_num, uint8_t wakeup_level); </source> <br><br> == Code == <source lang=c> void deep_sleep_ext_wakeup(uint8_t rtc_gpio_num) { if (esp_get_deep_sleep_wake_stub() == NULL) { esp_set_deep_sleep_wake_stub(esp_wake_deep_sleep); } rtc_pad_ext_wakeup(1 << rtc_gpio_num, rtc_gpio_num, 1); /* fixed bug of rtc_pad_slpie() for RTC_GPIO4 */ //REG_SET_BIT(RTC_IO_ADC_PAD_REG, RTC_IO_ADC1_SLP_IE); /* fixed bug of rtc_pad_slpie() for RTC_GPIO5 */ REG_SET_BIT(RTC_IO_ADC_PAD_REG, RTC_IO_ADC2_SLP_IE); rtc_slp_prep_lite(DEEP_SLEEP_PD_NORMAL, 0); rtc_sleep(0, 0, RTC_EXT_EVENT0_TRIG, 0); while (1) { ; } } #define BLINK_GPIO 27 void study_task(void *pvParameters) { gpio_pad_select_gpio(BLINK_GPIO); gpio_set_direction(BLINK_GPIO, GPIO_MODE_OUTPUT); while (1) { gpio_set_level(BLINK_GPIO, 0); vTaskDelay(1000 / portTICK_RATE_MS); gpio_set_level(BLINK_GPIO, 1); vTaskDelay(1000 / portTICK_RATE_MS); gpio_set_level(BLINK_GPIO, 0); vTaskDelay(1000 / portTICK_RATE_MS); gpio_set_level(BLINK_GPIO, 1); vTaskDelay(1000 / portTICK_RATE_MS); /* pull up the RTC_GPIO5 (GPIO35) to wakeup */ deep_sleep_ext_wakeup(5); } } void app_main() { printf("Welcome to Noduino Quantum\r\n"); printf("Try to investigate the ULP/RTC of ESP32 ... \r\n"); xTaskCreatePinnedToCore(&study_task, "study_task", 1024, NULL, 5, NULL, 0); } </source> <br><br> == Reference == ;;For more information please refer to: * [[Noduino]] * [[Noduino Quantum]] <br><br> <br><br> <br><br> <br><br> <br><br> <br><br> <br><br> <br><br> <br><br> <br><br>
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