amc2022:grouph:here
Table of Contents
Build and Set-Up Deep Sleep ESP 32
figure 4.1 Deep-Sleep set up for ESP32/
Schematics
figure 4.2 Graph depicting Deep-Sleep schematics set up for ESP32/
Code & Description
*//There are 2 ways to wake up a system, those are called Interrupts. *//hardware Interrupts are based on external events where signals are sent to the GPIO. *//Software Interrupts occur when we program the device, like through a wake up alarm or timer. #define uS_TO_S_FACTOR 1000000 *//Equation to convert milliseconds to Minutes #define TIME_TO_SLEEP 10 *//Determined amount of minutes at sleep RTC_DATA_ATTR int bootCount = 0; *//Data has to be stored in the Real time Clock (RTC) fast memory because the CPU memory is wiped on every boot. *// The amount of data has to be minimal due to size limitations : 8bit fast memory and 8bit Slow memory. *//Power outages and resetting the board will erase the RTC memory, therefore its use should be limited to non essential information. *//Therefore we decided to just Keeping data of times awaken in internal RTC, this will help us see if any issues occur. **************Wake Up Print ************************************************************** void print_wakeup_reason(){ *//Set up to list reasons for system wake-up esp_sleep_wakeup_cause_t wakeup_reason; wakeup_reason = esp_sleep_get_wakeup_cause(); *//System wakes up due to 3 reasons switch(wakeup_reason) { case ESP_SLEEP_WAKEUP_EXT0 : Serial.println("PUSHED BUTTON caused the system to WAKEUP"); break; case ESP_SLEEP_WAKEUP_TIMER : Serial.println("TIMER caused the system to WAKEUP"); break; default : Serial.printf("DeepSleep didn't wake up ESP32: %d\n",wakeup_reason); break; *//Initial Boot will yield this reason } } *//We made the system wake up due to the internal timer and a pushed button, *// the reason for the push button is that in the case we can take a measurement at our will without having to wait for the timers. *//An external clock could be added to the device, however Grafana already designates time and date of transferred data. void setup(){ Serial.begin(115200); delay(1000); pinMode(32,OUTPUT); *//Illuminates a LED when the system is awake. For visual confirmation. pinMode(33,INPUT_PULLUP); *//ESP32 has pull-up resistors built on the pins, when we activate it *//it avoids the use of external resistors *//INPUT_PULLUP keeps the signal HIGH by default *//floating currents which can produce erroneous readings are avoided by pull up/down resistors for(int i=0;i<5;i++) { digitalWrite(32,HIGH); *// These are the parameters for the LED flashing delay(1000); digitalWrite(32,LOW); delay(1000); } ++bootCount; Serial.println("Reboot count number: " + String(bootCount)); *//We want to know how many times the system has booted *//easy way to know if there are issues internal or battery *//issues print_wakeup_reason(); esp_sleep_enable_ext0_wakeup(GPIO_NUM_33,0); *//During Sleep only Pins connected to the RTC are operational *//A General Purpose Input/output pin are used to perform digital readings and output functions. *//By default those pins have no predefined purpose. *//The pin used has to be named after their GPIO esp_sleep_enable_timer_wakeup(TIME_TO_SLEEP * uS_TO_S_FACTOR); *//conversion factor to minutes Serial.println("ESP32 is going into DeepSleep for " + String(TIME_TO_SLEEP) + *//Script detailing the process " Seconds"); Serial.println("Going to sleep now......"); delay(1000); Serial.flush(); *//To avoid mistakes in data transmission by *//clearing buffer esp_deep_sleep_start(); }
*** There is no loop section in our coding because the micro controller will go into deep sleep before reaching that part of the code, which means everything has to be written in the void set up section of the sketch.
Results
amc2022/grouph/here.txt · Last modified: 2022/09/10 21:52 by gustavo001