The Alpha Geek – Geeking Out

Project #29 – DFRobot – EEPROM, RTC, SD – Mk010

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#DonLucElectronics #DonLuc #DFRobot #SHT40 #FireBeetle2ESP32E #EEPROM #RTC #SD #Adafruit #ESP32 #IoT #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant

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EEPROM, RTC, SD

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EEPROM, RTC, SD

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EEPROM, RTC, SD

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EEPROM

EEPROM is a type of non-volatile memory. It is used in computers, usually integrated in microcontrollers such as smart cards and remote keyless systems, or as a separate chip device, to store relatively small amounts of data by allowing individual bytes to be erased and reprogrammed.

RTC

A real-time clock (RTC) is an electronic device, most often in the form of an integrated circuit, that measures the passage of time. Although the term often refers to the devices in personal computers, servers and embedded systems, RTCs are present in almost any electronic device which needs to keep accurate time of day.

Micro SD Card Breakout Board

If you have a project with any audio, video, graphics, data logging, etc in it, you’ll find that having a removable storage option is essential. Most microcontrollers have extremely limited built-in storage. If you’re doing any sort of data logging, graphics or audio, you’ll need at least a megabyte of storage, and gigabytes. To get that kind of storage we’re going to use the same type that’s in every digital camera and mp3 player: flash cards. Often called microSD cards, they can pack gigabytes into a space smaller than a coin. They’re also available in every electronics shop so you can easily get more and best of all, many computers have microSD card readers built in so you can move data back.

DL2404Mk01

1 x DFRobot FireBeetle 2 ESP32-E
1 x Adafruit MicroSD card breakout board+
1 x MicroSD 16 GB
1 x Adafruit DS3231 Precision RTC FeatherWing – RTC
1 x Battery CR1220
1 x Fermion: SHT40 Temperature & Humidity Sensor
1 x Fermion: BLE Sensor Beacon
1 x CR2032 Coin Cell Battery
1 x 1 x Lithium Ion Battery – 1000mAh
1 x Green LED
1 x SparkFun Serial Basic Breakout – CH340G
1 x SparkFun Cerberus USB Cable
1 x USB 3.1 Cable A to C

DFRobot FireBeetle 2 ESP32-E

LED – 2
SCK – 22
MOSI – 23
MISO – 19
CS – 13
SCL – 21
SDA – 22
LED – 14
VIN – +3.3V
GND – GND

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DL2404Mk01p.ino

/****** Don Luc Electronics © ******
Software Version Information
Project #29 - DFRobot - RTC SD - Mk10
29-10
DL2404Mk01p.ino
1 x DFRobot FireBeetle 2 ESP32-E
1 x Adafruit MicroSD card breakout board+
1 x MicroSD 16 GB
1 x Adafruit DS3231 Precision RTC FeatherWing - RTC
1 x Battery CR1220
1 x Fermion: SHT40 Temperature & Humidity Sensor
1 x Fermion: BLE Sensor Beacon
1 x CR2032 Coin Cell Battery
1 x 1 x Lithium Ion Battery - 1000mAh
1 x Green LED
1 x SparkFun Serial Basic Breakout - CH340G
1 x SparkFun Cerberus USB Cable
1 x USB 3.1 Cable A to C
*/

// Include the Library Code
// EEPROM Library to Read and Write EEPROM
// with Unique ID for Unit
#include "EEPROM.h"
// Wire
#include <Wire.h>
// Arduino
#include <Arduino.h>
// BLE Device
#include <BLEDevice.h>
// BLE Utils
#include <BLEUtils.h>
// BLEScan
#include <BLEScan.h>
// BLE Advertised Device
#include <BLEAdvertisedDevice.h>
// BLE Eddystone URL
#include <BLEEddystoneURL.h>
// BLE Eddystone TLM
#include <BLEEddystoneTLM.h>
// BLE Beacon
#include <BLEBeacon.h>
// DS3231 RTC Date and Time
#include <RTClib.h>
// SD Card
#include "FS.h"
#include "SD.h"
#include "SPI.h"

// ENDIAN_CHANGE
#define ENDIAN_CHANGE_U16(x) ((((x)&0xFF00) >> 8) + (((x)&0xFF) << 8))

// DS3231 RTC Date and Time
RTC_DS3231 rtc;
String sDate;
String sTime;

// MicroSD Card
const int chipSelect = 13;
String zzzzzz = "";

// LED Green
int iLEDGreen = 2;

// Define LED
int iLED = 14;

// Fermion: SHT40 Temperature & Humidity Sensor
// Temperature
float TemperatureData;
float Temperature;
// Humidity
float HumidityData;
float Humidity;
// In seconds
int scanTime = 5;
// BLE Scan
BLEScan *pBLEScan;

// My Advertised Device Callbacks
class MyAdvertisedDeviceCallbacks : public BLEAdvertisedDeviceCallbacks
{

    // onResult
    void onResult(BLEAdvertisedDevice advertisedDevice)
    {
      // Advertised Device
      if (advertisedDevice.haveName())
      {
        // Name: Fermion: Sensor Beacon
        if(String(advertisedDevice.getName().c_str()) == "SHT40"){
          
          // strManufacturerData
          std::string strManufacturerData = advertisedDevice.getManufacturerData();
          uint8_t cManufacturerData[100];
          strManufacturerData.copy((char *)cManufacturerData, strManufacturerData.length(), 0);
          
          // strManufacturerData.length
          for (int i = 0; i < strManufacturerData.length(); i++)
          {

             // cManufacturerData[i]
             cManufacturerData[i];
             
          }

          // TemperatureData
          TemperatureData = int(cManufacturerData[2]<<8 | cManufacturerData[3]);
          // HumidityData
          HumidityData = int(cManufacturerData[5]<<8 | cManufacturerData[6]);
   
        }        
      }
    }
};

// EEPROM Unique ID Information
#define EEPROM_SIZE 64
String uid = "";

// Software Version Information
String sver = "29-10";

void loop() {

  // DS3231 RTC Date and Time
  isRTC();
  
  // ScanResults
  isBLEScanResults();

  // Fermion: SHT40 Temperature & Humidity Sensor
  isSHT40();

  // Delay 3 Second
  delay(3000);

  // MicroSD Card
  isSD();

  // iLED HIGH
  digitalWrite(iLED, HIGH );

  // Delay 1 Second
  delay(1000);

}

getBLEScan.ino

// getBLEScan
// Setup BLE Scan
void isSetupBLEScan(){

  // BLE Device
  BLEDevice::init("");
  // Create new scan
  pBLEScan = BLEDevice::getScan();
  // Set Advertised Device Callbacks
  pBLEScan->setAdvertisedDeviceCallbacks(new MyAdvertisedDeviceCallbacks());
  // Active scan uses more power, but get results faster
  pBLEScan->setActiveScan(true);
  // Set Interval
  pBLEScan->setInterval(100);
  // Less or equal setInterval value
  pBLEScan->setWindow(99);
  
}
// BLE Scan Results
void isBLEScanResults(){

  // Put your main code here, to run repeatedly:
  BLEScanResults foundDevices = pBLEScan->start(scanTime, false);
  // Delete results fromBLEScan buffer to release memory
  pBLEScan->clearResults();
  
}

getEEPROM.ino

// EEPROM
// isUID EEPROM Unique ID
void isUID()
{
  
  // Is Unit ID
  uid = "";
  for (int x = 0; x < 7; x++)
  {
    uid = uid + char(EEPROM.read(x));
  }
  
}

getRTC.ino

// DS3231 RTC Date and Time
// Setup DS3231 RTC
void isSetupRTC() {

  if (! rtc.begin()) {
    while (1);
  }

  if (rtc.lostPower()) {
    // Following line sets the RTC to the date & time this sketch was compiled
    rtc.adjust(DateTime(F(__DATE__), F(__TIME__)));
    // This line sets the RTC with an explicit date & time, for example to set
    // January 21, 2014 at 3am you would call:
    // rtc.adjust(DateTime(2014, 1, 21, 3, 0, 0));
  }
  
}
// DS3231 RTC Date and Time
void isRTC(){
 
    // Date and Time
    sDate = "";
    sTime = "";
    // Date Time
    DateTime now = rtc.now();

    // sData
    sDate += String(now.year(), DEC);
    sDate += "/";
    sDate += String(now.month(), DEC);
    sDate += "/";
    sDate += String(now.day(), DEC);

    // sTime
    sTime += String(now.hour(), DEC);
    sTime += ":";
    sTime += String(now.minute(), DEC);
    sTime += ":";
    sTime += String(now.second(), DEC);

}

getSD.ino

// MicroSD Card
// MicroSD Setup
void setupSD() {

    // MicroSD Card
    pinMode( chipSelect , OUTPUT );
    if(!SD.begin( chipSelect )){
        ;  
        return;
    }
    
    uint8_t cardType = SD.cardType();

    // CARD NONE
    if(cardType == CARD_NONE){
        ; 
        return;
    }

    // SD Card Type
    if(cardType == CARD_MMC){
        ; 
    } else if(cardType == CARD_SD){
        ; 
    } else if(cardType == CARD_SDHC){
        ; 
    } else {
        ; 
    } 

    // Size
    uint64_t cardSize = SD.cardSize() / (1024 * 1024);
 
}
// MicroSD Card
void isSD() {

  zzzzzz = "";

  // DFR|EEPROM Unique ID|Version|Date|Time|Temperature|Humidity|*\r
  zzzzzz = "DFR|" + uid + "|" + sver + "|" + sDate + "|" + sTime + "|" 
  + String(Temperature) + "C|" + String(Humidity) + "%|*\r";

  // msg + 1
  char msg[zzzzzz.length() + 1];

  zzzzzz.toCharArray(msg, zzzzzz.length() + 1);

  // Append File
  appendFile(SD, "/dfrdata.txt", msg );
  
}
// List Dir
void listDir(fs::FS &fs, const char * dirname, uint8_t levels){
    
    // List Dir
    dirname;
    
    File root = fs.open(dirname);
    
    if(!root){
        return;
    }
    
    if(!root.isDirectory()){
        return;
    }

    File file = root.openNextFile();
    
    while(file){
        if(file.isDirectory()){
            file.name();
            if(levels){
                listDir(fs, file.name(), levels -1);
            }
        } else {
            file.name();
            file.size();
        }
        file = root.openNextFile();
    }
    
}
// Write File
void writeFile(fs::FS &fs, const char * path, const char * message){
    
    // Write File
    path;
    
    File file = fs.open(path, FILE_WRITE);
    
    if(!file){
        return;
    }
    
    if(file.print(message)){
        ;  
    } else {
        ;  
    }
    
    file.close();
    
}
// Append File
void appendFile(fs::FS &fs, const char * path, const char * message){
    
    // Append File
    path;
    
    File file = fs.open(path, FILE_APPEND);
    
    if(!file){
        return;
    }
    
    if(file.print(message)){
        ;  
    } else {
        ;  
    }
    
    file.close();
    
}

getSHT40.ino

// Fermion: SHT40 Temperature & Humidity Sensor
// SHT40 Temperature & Humidity
void isSHT40(){

  // Fermion: SHT40 Temperature & Humidity Sensor
  // Temperature
  Temperature = (175 * TemperatureData/65535) - 45;
  // Humidity
  Humidity = (125 * HumidityData/65535) - 6;

}

setup.ino

// Setup
void setup()
{
  
  // Give display time to power on
  delay(100);

  // EEPROM Size
  EEPROM.begin(EEPROM_SIZE);
  
  // EEPROM Unique ID
  isUID();

  // Give display
  delay(100);

  // Set up I2C bus
  Wire.begin();

  // Give display
  delay(100);

  // Setup BLE Scan
  isSetupBLEScan();

  // Setup DS3231 RTC
  isSetupRTC();

  //MicroSD Card
  setupSD();

  // Initialize digital pin iLED as an output
  pinMode(iLED, OUTPUT);

  // Outputting high, the LED turns on
  digitalWrite(iLED, HIGH);

  // Initialize the LED Green
  pinMode(iLEDGreen, OUTPUT);

  // iLEDGreen HIGH
  digitalWrite(iLEDGreen, HIGH );
  
  // Delay 5 Second
  delay( 5000 );

}

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People can contact us: https://www.donluc.com/?page_id=1927

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