Fritzing
Project #11: ESP32 Feather – Rocker Switches – Mk06
ESP32 Feather – Rocker Switches
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Rocker Switch – Round
These panel-mounting rocker switches simple SPST on-off. They mount into a 20.2mm diameter hole and are rated up to 16A @ 12v.
DonLuc1909Mk03
1 x Adafruit HUZZAH32 ESP32 Feather
1 x Adafruit SHARP Memory Display
1 x Adafruit Adalogger FeatherWing – RTC + SD
1 x CR1220 12mm Lithium Battery
1 x 8Gb Micro SD Card
1 x RHT03 Humidity and Temperature Sensor
1 x LED Green
1 x Rocker Switches
1 x 100 Ohm
1 x 10K Ohm
14 x Jumper Wires 3″ M/M
6 x Jumper Wires 6″ M/M
1 x Full-Size Breadboard
1 x SparkFun Cerberus USB Cable
Adafruit HUZZAH32 ESP32 Feather
LG1 – Digital 21
RO1 – Digital 16
RHT – Digital 17
SCK – Digital 13
MOS – Digital 12
SSD – Digital 27
SDA – Digital 23
SCL – Digital 22
SD1 – Digital 33
SC2 – Digital 5
MO2 – Digital 18
MI2 – Digital 19
GND – GND
VIN – +3.3V
DL1909Mk03.ino
// ***** Don Luc Electronics *****
// Software Version Information
// Project #11: HUZZAH32 ESP32 Feather - Rocker Switches - Mk06
// 09-03
// DL1909Mk03p.ino 11-06
// Adafruit HUZZAH32 ESP32 Feather Board
// SHARP Display
// LED Green
// Adalogger FeatherWing - RTC + SD
// EEPROM
// RHT03 Humidity and Temperature Sensor
// Rocker Switches
// include Library Code
// SHARP Memory Display
#include <Adafruit_SharpMem.h>
#include <Adafruit_GFX.h>
// Date and Time
#include "RTClib.h"
// EEPROM library to read EEPROM with unique ID for unit
#include "EEPROM.h"
// RHT Humidity and Temperature Sensor
#include <SparkFun_RHT03.h>
// SD Card
#include "FS.h"
#include "SD.h"
#include "SPI.h"
// SHARP Memory Display
// any pins can be used
#define SHARP_SCK 13
#define SHARP_MOSI 12
#define SHARP_SS 27
// Set the size of the display here, e.g. 144x168!
Adafruit_SharpMem display(SHARP_SCK, SHARP_MOSI, SHARP_SS, 144, 168);
// The currently-available SHARP Memory Display (144x168 pixels)
// requires > 4K of microcontroller RAM; it WILL NOT WORK on Arduino Uno
// or other <4K "classic" devices!
#define BLACK 0
#define WHITE 1
int minorHalfSize; // 1/2 of lesser of display width or height
// LED Green
int iLEDGreen = 21; // LED Green
// PCF8523 Precision RTC
RTC_PCF8523 rtc;
String dateRTC = "";
String timeRTC = "";
// The current address in the EEPROM (i.e. which byte
// we're going to read to next)
#define EEPROM_SIZE 64
String sver = "9-3.p";
// Unit ID information
String uid = "";
// RHT Humidity and Temperature Sensor
const int RHT03_DATA_PIN = 17; // RHT03 data pin Digital 17
RHT03 rht; // This creates a RTH03 object, which we'll use to interact with the sensor
float latestHumidity;
float latestTempC;
float latestTempF;
// SD Card
const int chipSelect = 33; // SD Card
String zzzzzz = "";
// Rocker Switches
int iRow1 = 16; // Rocker Switches
int iRow1State = 0; // Variable for reading the pushbutton status
void loop() {
// Date and Time
isRTC();
// RHT03 Humidity and Temperature Sensor
isRHT03();
// SHARP Memory Display On
isDisplayOn();
// Rocker Switched
// Read the state of the iRow1 value
iRow1State = digitalRead(iRow1);
// check if the pushbutton is pressed. If it is, the buttonState is HIGH:
if (iRow1State == HIGH) {
// iLEDGreen
digitalWrite(iLEDGreen, HIGH );
// SD Card
isSD();
} else {
// iLEDGreen
digitalWrite(iLEDGreen, LOW );
}
// Delay
delay( 1000 );
}
getDisplay.ino
// SHARP Memory Display On
void isDisplayOn() {
// Clear Display
display.clearDisplay();
// text display date, time, LED on
display.setRotation(4);
display.setTextSize(2);
display.setTextColor(BLACK);
display.setCursor(0,10);
display.println( dateRTC );
display.setCursor(0,30);
display.println( timeRTC );
display.setTextSize(2);
display.setCursor(0,55);
display.print("Hum: ");
display.print( latestHumidity );
display.println("%");
display.setCursor(0,75);
display.print("Cel: ");
display.print( latestTempC );
display.println("*C");
display.setCursor(0,95);
display.print("Fah: ");
display.print( latestTempF );
display.println("*F");
display.refresh();
}
// SHARP Memory Display - UID
void isDisplayUID() {
// text display EEPROM
display.setRotation(4);
display.setTextSize(2);
display.setTextColor(BLACK);
display.setCursor(0,20);
display.print( "UID: " );
display.println( uid );
// display.setTextSize();
display.setTextColor(BLACK);
display.setCursor(0,45);
display.print( "VER: ");
display.println( sver );
display.refresh();
delay( 100 );
}
getEEPROM.ino
// EEPROM
void GetUID()
{
// Get unit ID
uid = "";
for (int x = 0; x < 5; x++)
{
uid = uid + char(EEPROM.read(x));
}
}
getRHT.ino
// RHT03 Humidity and Temperature Sensor
void isRHT03(){
// Call rht.update() to get new humidity and temperature values from the sensor.
int updateRet = rht.update();
// The humidity(), tempC(), and tempF() functions can be called -- after
// a successful update() -- to get the last humidity and temperature value
latestHumidity = rht.humidity();
latestTempC = rht.tempC();
latestTempF = rht.tempF();
}
getRTCpcf8523.ino
// PCF8523 Precision RTC
void setupRTC() {
// pcf8523 Precision RTC
if (! rtc.begin()) {
while (1);
}
if (! rtc.initialized()) {
// 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(2018, 9, 29, 12, 17, 0));
}
}
// Date and Time RTC
void isRTC () {
// Date and Time
DateTime now = rtc.now();
// Date
dateRTC = now.year(), DEC;
dateRTC = dateRTC + "/";
dateRTC = dateRTC + now.month(), DEC;
dateRTC = dateRTC + "/";
dateRTC = dateRTC + now.day(), DEC;
// Time
timeRTC = now.hour(), DEC;
timeRTC = timeRTC + ":";
timeRTC = timeRTC + now.minute(), DEC;
timeRTC = timeRTC + ":";
timeRTC = timeRTC + now.second(), DEC;
}
getSD.ino
// SD Card
void setupSD() {
// SD Card
pinMode( chipSelect , OUTPUT );
if(!SD.begin( chipSelect )){
;
return;
}
uint8_t cardType = SD.cardType();
if(cardType == CARD_NONE){
;
return;
}
//Serial.print("SD Card Type: ");
if(cardType == CARD_MMC){
;
} else if(cardType == CARD_SD){
;
} else if(cardType == CARD_SDHC){
;
} else {
;
}
uint64_t cardSize = SD.cardSize() / (1024 * 1024);
}
// SD Card
void isSD() {
zzzzzz = "";
zzzzzz = uid + "|" + sver + "|" + dateRTC + "|" + timeRTC + "|" + latestHumidity + "|" + latestTempC + "|" + latestTempF + "|\r";
char msg[zzzzzz.length() + 1];
zzzzzz.toCharArray(msg, zzzzzz.length() + 1);
appendFile(SD, "/espdata.txt", msg );
}
// List Dir
void listDir(fs::FS &fs, const char * dirname, uint8_t levels){
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){
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){
//Serial.printf("Appending to file: %s\n", path);
path;
File file = fs.open(path, FILE_APPEND);
if(!file){
return;
}
if(file.print(message)){
;
} else {
;
}
file.close();
}
setup.ino
// Setup
void setup() {
// EEPROM with unique ID
EEPROM.begin(EEPROM_SIZE);
// Get Unit ID
GetUID();
// SHARP Display start & clear the display
display.begin();
display.clearDisplay();
isDisplayUID();
delay( 5000 );
// Initialize the LED Green
pinMode(iLEDGreen, OUTPUT);
// PCF8523 Precision RTC
setupRTC();
// Date and Time RTC
isRTC();
// RHT03 Humidity and Temperature Sensor
// Call rht.begin() to initialize the sensor and our data pin
rht.begin(RHT03_DATA_PIN);
// SD Card
setupSD();
// Rocker Switches
pinMode(iRow1, INPUT);
}
Follow Us
Web: https://www.donluc.com/
Web: http://neosteamlabs.com/
Web: http://www.jlpconsultants.com/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Facebook: https://www.facebook.com/neosteam.labs.9/
Instagram: https://www.instagram.com/neosteamlabs/
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Twitter: https://twitter.com/labs_steam
Etsy: https://www.etsy.com/shop/NeoSteamLabs
Don Luc
Project #11: ESP32 Feather – RTC + SD – Mk05
ESP32 Feather – RTC + SD – Mk05
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——
——
——
——
Adafruit Adalogger FeatherWing – RTC + SD
A Feather board without ambition is a Feather board without FeatherWings! This is the Adalogger FeatherWing: it adds both a battery-backed Real Time Clock and micro SD card storage to any Feather main board.
DonLuc1909Mk02
1 x Adafruit HUZZAH32 ESP32 Feather
1 x Adafruit SHARP Memory Display
1 x Adafruit Adalogger FeatherWing – RTC + SD
1 x CR1220 12mm Lithium Battery
1 x 8Gb Micro SD Card
1 x RHT03 Humidity and Temperature Sensor
1 x LED Green
1 x 100 Ohm
14 x Jumper Wires 3″ M/M
6 x Jumper Wires 6″ M/M
1 x Full-Size Breadboard
1 x SparkFun Cerberus USB Cable
Adafruit HUZZAH32 ESP32 Feather
LG1 – Digital 21
RHT – Digital 17
SCK – Digital 13
MOS – Digital 12
SSD – Digital 27
SDA – Digital 23
SCL – Digital 22
SD1 – Digital 33
SC2 – Digital 5
MO2 – Digital 18
MI2 – Digital 19
GND – GND
VIN – +3.3V
DL1909Mk02.ino
// ***** Don Luc Electronics *****
// Software Version Information
// Project #11: HUZZAH32 ESP32 Feather - Mk05
// 09-02
// DL1909Mk02p.ino 11-05
// Adafruit HUZZAH32 ESP32 Feather Board
// SHARP Display
// LED Green
// Adalogger FeatherWing - RTC + SD
// EEPROM
// RHT03 Humidity and Temperature Sensor
// include Library Code
// SHARP Memory Display
#include <Adafruit_SharpMem.h>
#include <Adafruit_GFX.h>
// Date and Time
#include "RTClib.h"
// EEPROM library to read EEPROM with unique ID for unit
#include "EEPROM.h"
// RHT Humidity and Temperature Sensor
#include <SparkFun_RHT03.h>
// SD Card
#include "FS.h"
#include "SD.h"
#include "SPI.h"
// SHARP Memory Display
// any pins can be used
#define SHARP_SCK 13
#define SHARP_MOSI 12
#define SHARP_SS 27
// Set the size of the display here, e.g. 144x168!
Adafruit_SharpMem display(SHARP_SCK, SHARP_MOSI, SHARP_SS, 144, 168);
// The currently-available SHARP Memory Display (144x168 pixels)
// requires > 4K of microcontroller RAM; it WILL NOT WORK on Arduino Uno
// or other <4K "classic" devices!
#define BLACK 0
#define WHITE 1
int minorHalfSize; // 1/2 of lesser of display width or height
// LED Green
int iLEDGreen = 21; // LED Green
// PCF8523 Precision RTC
RTC_PCF8523 rtc;
String dateRTC = "";
String timeRTC = "";
// The current address in the EEPROM (i.e. which byte
// we're going to read to next)
#define EEPROM_SIZE 64
String sver = "9-2.p";
// Unit ID information
String uid = "";
// RHT Humidity and Temperature Sensor
const int RHT03_DATA_PIN = 17; // RHT03 data pin Digital 17
RHT03 rht; // This creates a RTH03 object, which we'll use to interact with the sensor
float latestHumidity;
float latestTempC;
float latestTempF;
// SD Card
const int chipSelect = 33; // SD Card
String zzzzzz = "";
void loop() {
// iLEDGreen
digitalWrite(iLEDGreen, HIGH );
// Date and Time
isRTC();
// RHT03 Humidity and Temperature Sensor
isRHT03();
// SHARP Memory Display On
isDisplayOn();
// SD Card
isSD();
// iLEDGreen
digitalWrite(iLEDGreen, LOW );
// Delay 1
delay( 10000 );
}
getDisplay.ino
// SHARP Memory Display On
void isDisplayOn() {
// Clear Display
display.clearDisplay();
// text display date, time, LED on
display.setRotation(4);
display.setTextSize(2);
display.setTextColor(BLACK);
display.setCursor(0,10);
display.println( dateRTC );
display.setCursor(0,30);
display.println( timeRTC );
display.setTextSize(2);
display.setCursor(0,55);
display.print("Hum: ");
display.print( latestHumidity );
display.println("%");
display.setCursor(0,75);
display.print("Cel: ");
display.print( latestTempC );
display.println("*C");
display.setCursor(0,95);
display.print("Fah: ");
display.print( latestTempF );
display.println("*F");
display.refresh();
}
// SHARP Memory Display - UID
void isDisplayUID() {
// text display EEPROM
display.setRotation(4);
display.setTextSize(2);
display.setTextColor(BLACK);
display.setCursor(0,20);
display.print( "UID: " );
display.println( uid );
// display.setTextSize();
display.setTextColor(BLACK);
display.setCursor(0,45);
display.print( "VER: ");
display.println( sver );
display.refresh();
delay( 100 );
}
getEEPROM.ino
// EEPROM
void GetUID()
{
// Get unit ID
uid = "";
for (int x = 0; x < 5; x++)
{
uid = uid + char(EEPROM.read(x));
}
}
getRHT.ino
// RHT03 Humidity and Temperature Sensor
void isRHT03(){
// Call rht.update() to get new humidity and temperature values from the sensor.
int updateRet = rht.update();
// The humidity(), tempC(), and tempF() functions can be called -- after
// a successful update() -- to get the last humidity and temperature value
latestHumidity = rht.humidity();
latestTempC = rht.tempC();
latestTempF = rht.tempF();
}
getRTCpcf8523.ino
// PCF8523 Precision RTC
void setupRTC() {
// pcf8523 Precision RTC
if (! rtc.begin()) {
while (1);
}
if (! rtc.initialized()) {
// 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(2018, 9, 29, 12, 17, 0));
}
}
// Date and Time RTC
void isRTC () {
// Date and Time
DateTime now = rtc.now();
// Date
dateRTC = now.year(), DEC;
dateRTC = dateRTC + "/";
dateRTC = dateRTC + now.month(), DEC;
dateRTC = dateRTC + "/";
dateRTC = dateRTC + now.day(), DEC;
// Time
timeRTC = now.hour(), DEC;
timeRTC = timeRTC + ":";
timeRTC = timeRTC + now.minute(), DEC;
timeRTC = timeRTC + ":";
timeRTC = timeRTC + now.second(), DEC;
}
getSD.ino
// SD Card
void setupSD() {
// SD Card
pinMode( chipSelect , OUTPUT );
if(!SD.begin( chipSelect )){
;
return;
}
uint8_t cardType = SD.cardType();
if(cardType == CARD_NONE){
;
return;
}
//Serial.print("SD Card Type: ");
if(cardType == CARD_MMC){
;
} else if(cardType == CARD_SD){
;
} else if(cardType == CARD_SDHC){
;
} else {
;
}
uint64_t cardSize = SD.cardSize() / (1024 * 1024);
}
// SD Card
void isSD() {
zzzzzz = "";
zzzzzz = uid + "|" + sver + "|" + dateRTC + "|" + timeRTC + "|" + latestHumidity + "|" + latestTempC + "|" + latestTempF + "|\r";
char msg[zzzzzz.length() + 1];
zzzzzz.toCharArray(msg, zzzzzz.length() + 1);
appendFile(SD, "/espdata.txt", msg );
}
// List Dir
void listDir(fs::FS &fs, const char * dirname, uint8_t levels){
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){
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){
//Serial.printf("Appending to file: %s\n", path);
path;
File file = fs.open(path, FILE_APPEND);
if(!file){
return;
}
if(file.print(message)){
;
} else {
;
}
file.close();
}
setup.ino
// Setup
void setup() {
// EEPROM with unique ID
EEPROM.begin(EEPROM_SIZE);
// Get Unit ID
GetUID();
// SHARP Display start & clear the display
display.begin();
display.clearDisplay();
isDisplayUID();
delay( 5000 );
// Initialize the LED Green
pinMode(iLEDGreen, OUTPUT);
// PCF8523 Precision RTC
setupRTC();
// Date and Time RTC
isRTC();
// RHT03 Humidity and Temperature Sensor
// Call rht.begin() to initialize the sensor and our data pin
rht.begin(RHT03_DATA_PIN);
// SD Card
setupSD();
}
Follow Us
Web: https://www.donluc.com/
Web: http://neosteamlabs.com/
Web: http://www.jlpconsultants.com/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Facebook: https://www.facebook.com/neosteam.labs.9/
Instagram: https://www.instagram.com/neosteamlabs/
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Twitter: https://twitter.com/labs_steam
Etsy: https://www.etsy.com/shop/NeoSteamLabs
Don Luc
Project #11: ESP32 Feather – RHT03 – Mk04
Humidity and Temperature Sensor
——
——
——
——
——
——
RHT03 – Humidity and Temperature Sensor
The RHT03 is a low cost humidity and temperature sensor with a single wire digital interface. The sensor is calibrated and doesn’t require extra components so you can get right to measuring relative humidity and temperature.
DonLuc1909Mk01
1 x Adafruit HUZZAH32 ESP32 Feather
1 x Adafruit SHARP Memory Display
1 x Adafruit DS3231 Precision RTC FeatherWing
1 x CR1220 12mm Lithium Battery
1 x RHT03 Humidity and Temperature Sensor
1 x LED Green
1 x 100 Ohm
14 x Jumper Wires 3″ M/M
2 x Jumper Wires 6″ M/M
1 x Full-Size Breadboard
1 x SparkFun Cerberus USB Cable
Adafruit HUZZAH32 ESP32 Feather
LG1 – Digital 21
RHT – Digital 17
SCK – Digital 13
MOS – Digital 12
SSD – Digital 27
SDA – Digital 23
SCL – Digital 22
GND – GND
VIN – +3.3V
DL1909Mk01.ino
// ***** Don Luc Electronics *****
// Software Version Information
// Project #11: HUZZAH32 ESP32 Feather - Mk04
// 09-01
// DonLuc1909Mk01p.ino 11-04
// Adafruit HUZZAH32 ESP32 Feather Board
// SHARP Display
// LED Green
// DS3231 Precision RTC
// EEPROM
// RHT03 Humidity and Temperature Sensor
// include Library Code
#include <Adafruit_SharpMem.h>
#include <Adafruit_GFX.h>
#include <RTClib.h>
#include <Wire.h>
#include "EEPROM.h"
#include <SparkFun_RHT03.h>
// SHARP Memory Display
// any pins can be used
#define SHARP_SCK 13
#define SHARP_MOSI 12
#define SHARP_SS 27
// Set the size of the display here, e.g. 144x168!
Adafruit_SharpMem display(SHARP_SCK, SHARP_MOSI, SHARP_SS, 144, 168);
// The currently-available SHARP Memory Display (144x168 pixels)
// requires > 4K of microcontroller RAM; it WILL NOT WORK on Arduino Uno
// or other <4K "classic" devices!
#define BLACK 0
#define WHITE 1
int minorHalfSize; // 1/2 of lesser of display width or height
// LED Green
int iLEDGreen = 21; // LED Green
// DS3231 Precision RTC
RTC_DS3231 RTC;
String sDate;
String sTime;
// The current address in the EEPROM (i.e. which byte
// we're going to read to next)
#define EEPROM_SIZE 64
String sver = "9-1.p";
// Unit ID information
String uid = "";
// RHT Humidity and Temperature Sensor
const int RHT03_DATA_PIN = 17; // RHT03 data pin Digital 17
RHT03 rht; // This creates a RTH03 object, which we'll use to interact with the sensor
float latestHumidity;
float latestTempC;
float latestTempF;
void loop() {
// iLEDGreen
digitalWrite(iLEDGreen, HIGH );
// DS3231 Precision RTC
timeRTC();
// RHT03 Humidity and Temperature Sensor
isRHT03();
// SHARP Memory Display On
isDisplayOn();
// iLEDGreen
digitalWrite(iLEDGreen, LOW );
// Delay 1
delay( 1000 );
}
getDisplay.ino
// SHARP Memory Display On
void isDisplayOn() {
// Clear Display
display.clearDisplay();
// text display date, time, LED on
display.setRotation(4);
display.setTextSize(2);
display.setTextColor(BLACK);
display.setCursor(0,10);
display.println( sDate );
display.setCursor(0,30);
display.println( sTime );
display.setTextSize(2);
display.setCursor(0,55);
display.print("Hum: ");
display.print( latestHumidity );
display.println("%");
display.setCursor(0,75);
display.print("Cel: ");
display.print( latestTempC );
display.println("*C");
display.setCursor(0,95);
display.print("Fah: ");
display.print( latestTempF );
display.println("*F");
display.refresh();
}
// SHARP Memory Display - UID
void isDisplayUID() {
// text display EEPROM
display.setRotation(4);
display.setTextSize(3);
display.setTextColor(BLACK);
display.setCursor(0,20);
display.println( sver );
// display.setTextSize();
display.setTextColor(BLACK);
display.setCursor(0,65);
display.println( uid );
display.refresh();
delay( 100 );
}
getEEPROM.ino
// EEPROM
void GetUID()
{
// Get unit ID
uid = "";
for (int x = 0; x < 5; x++)
{
uid = uid + char(EEPROM.read(x));
}
}
getRHT.ino
// RHT03 Humidity and Temperature Sensor
void isRHT03(){
// Call rht.update() to get new humidity and temperature values from the sensor.
int updateRet = rht.update();
// The humidity(), tempC(), and tempF() functions can be called -- after
// a successful update() -- to get the last humidity and temperature value
latestHumidity = rht.humidity();
latestTempC = rht.tempC();
latestTempF = rht.tempF();
}
getRTCDS3231.ino
// DS3231 Precision RTC
void setupRTC() {
// DS3231 Precision RTC
RTC.begin();
if (! RTC.begin()) {
while (1);
}
DateTime now = RTC.now();
if (RTC.lostPower()) {
// Following line sets the RTC to the date & time this sketch was compiled
RTC.adjust(DateTime(F(__DATE__), F(__TIME__)));
}
}
// timeRTC
void timeRTC() {
// DS3231 Precision RTC
sDate = "";
sTime = "";
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);
}
setup.ino
// Setup
void setup() {
// EEPROM with unique ID
EEPROM.begin(EEPROM_SIZE);
// Get Unit ID
GetUID();
// SHARP Display start & clear the display
display.begin();
display.clearDisplay();
isDisplayUID();
delay( 5000 );
// Initialize the LED Green
pinMode(iLEDGreen, OUTPUT);
// DS3231 Precision RTC
setupRTC();
// DS3231 Precision RTC
timeRTC();
// RHT03 Humidity and Temperature Sensor
// Call rht.begin() to initialize the sensor and our data pin
rht.begin(RHT03_DATA_PIN);
}
Follow Us
Web: https://www.donluc.com/
Web: http://neosteamlabs.com/
Web: http://www.jlpconsultants.com/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Facebook: https://www.facebook.com/neosteam.labs.9/
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Etsy: https://www.etsy.com/shop/NeoSteamLabs
Don Luc
Project #11: ESP32 Feather – DS3231 Precision RTC – Mk03
Adafruit HUZZAH32 ESP32 Feather
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Adafruit DS3231 Precision RTC FeatherWing
A Feather board without ambition is a Feather board without FeatherWings! This is the DS3231 Precision RTC FeatherWing: it adds an extremely accurate I2C-integrated Real Time Clock (RTC) with a Temperature Compensated Crystal Oscillator to any Feather main board. This RTC is the most precise you can get in a small, low power package. Most RTCs use an external 32kHz timing crystal that is used to keep time with low current draw.
With a CR1220 12mm lithium battery plugged into the top of the FeatherWing, you can get years of precision timekeeping, even when main power is lost. Great for datalogging and clocks, or anything where you need to really know the time.
DonLuc1908Mk03
1 x Adafruit HUZZAH32 ESP32 Feather
1 x Adafruit SHARP Memory Display
1 x Adafruit DS3231 Precision RTC FeatherWing
1 x CR1220 12mm Lithium Battery
1 x LED Green
1 x Push Button
1 x 100 Ohm
1 x 10K Ohm
14 x Jumper Wires 3″ M/M
2 x Jumper Wires 6″ M/M
1 x Full-Size Breadboard
1 x SparkFun Cerberus USB Cable
Adafruit HUZZAH32 ESP32 Feather
LG1 – Digital 21
PB1 – Digital 17
SCK – Digital 13
MOS – Digital 12
SSD – Digital 27
SDA – Digital 23
SCL – Digital 22
GND – GND
VIN – +3.3V
DL1908Mk03p.ino
// ***** Don Luc Electronics *****
// Software Version Information
// Project #11: HUZZAH32 ESP32 Feather - DS3231 Precision RTC - Mk03
// 08-03
// DonLuc1908Mk03p.ino 08-03
// Adafruit HUZZAH32 ESP32 Feather Board
// SHARP Display
// LED Green
// Push Button
// DS3231 Precision RTC
// include Library Code
#include <Adafruit_SharpMem.h>
#include <Adafruit_GFX.h>
#include <RTClib.h>
#include <Wire.h>
// SHARP Memory Display
// any pins can be used
#define SHARP_SCK 13
#define SHARP_MOSI 12
#define SHARP_SS 27
// Set the size of the display here, e.g. 144x168!
Adafruit_SharpMem display(SHARP_SCK, SHARP_MOSI, SHARP_SS, 144, 168);
// The currently-available SHARP Memory Display (144x168 pixels)
// requires > 4K of microcontroller RAM; it WILL NOT WORK on Arduino Uno
// or other <4K "classic" devices!
#define BLACK 0
#define WHITE 1
int minorHalfSize; // 1/2 of lesser of display width or height
// LED Green
int iLEDGreen = 21; // LED Green
int stateLEDGreen = LOW; // stateLEDGreen
// Button
int iBut1 = 17; // Button 1
int ButState1; // Variable for reading the button status
int previous = LOW; // previous
long lTime = 0; // lTime
long debounce = 500; // debounce
// DS3231 Precision RTC
RTC_DS3231 RTC;
String sDate;
String sTime;
void loop() {
// Read the state of the button value
ButState1 = digitalRead(iBut1);
// Check if the button is pressed
if (ButState1 == HIGH && previous == LOW && millis() - lTime > debounce)
{
if(stateLEDGreen == HIGH)
{
// stateLEDGreen = LOW
stateLEDGreen = LOW;
// DS3231 Precision RTC
timeRTC();
// SHARP Memory Display Off
isDisplayOff();
} else
{
// stateLEDGreen = HIGH
stateLEDGreen = HIGH;
// DS3231 Precision RTC
timeRTC();
// SHARP Memory Display On
isDisplayOn();
}
lTime = millis();
}
// iLEDGreen
digitalWrite(iLEDGreen, stateLEDGreen);
previous == ButState1;
}
getDisplay.ino
// SHARP Memory Display On
void isDisplayOn() {
// Clear Display
display.clearDisplay();
// text display date, time, LED on
display.setRotation(4);
display.setTextSize(2);
display.setTextColor(BLACK);
display.setCursor(10,10);
display.println( sDate );
display.setCursor(10,30);
display.println( sTime );
display.setTextSize(3);
display.setCursor(10,55);
display.println("LED On");
display.refresh();
}
// SHARP Memory Display Off
void isDisplayOff() {
// Clear Display
display.clearDisplay();
// text display date, time, LED off
display.setRotation(4);
display.setTextSize(2);
display.setTextColor(BLACK);
display.setCursor(10,10);
display.println( sDate );
display.setCursor(10,30);
display.println( sTime );
display.setTextSize(3);
display.setCursor(10,55);
display.println("LED Off");
display.refresh();
}
getRTCDS3231.ino
// DS3231 Precision RTC
void setupRTC() {
// DS3231 Precision RTC
RTC.begin();
if (! RTC.begin()) {
while (1);
}
DateTime now = RTC.now();
if (RTC.lostPower()) {
// Following line sets the RTC to the date & time this sketch was compiled
RTC.adjust(DateTime(F(__DATE__), F(__TIME__)));
}
}
// timeRTC
void timeRTC() {
// DS3231 Precision RTC
sDate = "";
sTime = "";
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);
}
setup.ino
// Setup
void setup() {
// SHARP Display start & clear the display
display.begin();
display.clearDisplay();
// Button 1
// Initialize the button as an input
pinMode(iBut1, INPUT);
// Initialize the LED Green
pinMode(iLEDGreen, OUTPUT);
// DS3231 Precision RTC
setupRTC();
// stateLEDGreen = LOW
stateLEDGreen = LOW;
// DS3231 Precision RTC
timeRTC();
// SHARP Memory Display Off
isDisplayOff();
}
Follow Us
Web: https://www.donluc.com/
Web: http://neosteamlabs.com/
Web: http://www.jlpconsultants.com/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Facebook: https://www.facebook.com/neosteam.labs.9/
Instagram: https://www.instagram.com/neosteamlabs/
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Twitter: https://twitter.com/labs_steam
Etsy: https://www.etsy.com/shop/NeoSteamLabs
Don Luc
Project #11: ESP32 Feather – Push Button – Mk02
ESP32 Feather – Push Button – Mk02
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Momentary Pushbutton Switch
This is a standard 12mm square momentary button. What we really like is the large button head and good tactile feel (it ‘clicks’ really well). This button is great for user input on a PCB or a good, big reset button on a breadboard. Breadboard friendly!
DonLuc1908Mk02
1 x Adafruit HUZZAH32 ESP32 Feather
1 x Adafruit SHARP Memory Display
1 x LED Green
1 x Push Button
1 x 100 Ohm
1 x 10K Ohm
12 x Jumper Wires 3″ M/M
1 x Full-Size Breadboard
1 x SparkFun Cerberus USB Cable
Adafruit HUZZAH32 ESP32 Feather
LG1 – Digital 21
PB1 – Digital 17
SCK – Digital 13
MOS – Digital 12
SSD – Digital 27
GND – GND
VIN – +3.3V
Follow Us
Web: http://neosteamlabs.com/
Web: https://www.donluc.com/
Web: http://www.jlpconsultants.com/
YouTube: https://www.youtube.com/channel/UC5eRjrGn1CqkkGfZy0jxEdA
Facebook: https://www.facebook.com/neosteam.labs.9/
Instagram: https://www.instagram.com/neosteamlabs/
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Twitter: https://twitter.com/labs_steam
Etsy: https://www.etsy.com/shop/NeoSteamLabs
DL1908Mk02p.ino
// ***** Don Luc Electronics *****
// Software Version Information
// Project #11: HUZZAH32 ESP32 Feather - Push Button - Mk02
// 08-02
// DonLuc1908Mk02p.ino 08-02
// Adafruit HUZZAH32 ESP32 Feather Board
// SHARP Display
// LED Green
// Push Button
// include Library Code
#include <Adafruit_SharpMem.h>
#include <Adafruit_GFX.h>
// SHARP Memory Display
// any pins can be used
#define SHARP_SCK 13
#define SHARP_MOSI 12
#define SHARP_SS 27
// Set the size of the display here, e.g. 144x168!
Adafruit_SharpMem display(SHARP_SCK, SHARP_MOSI, SHARP_SS, 144, 168);
// The currently-available SHARP Memory Display (144x168 pixels)
// requires > 4K of microcontroller RAM; it WILL NOT WORK on Arduino Uno
// or other <4K "classic" devices!
#define BLACK 0
#define WHITE 1
int minorHalfSize; // 1/2 of lesser of display width or height
// LED Green
int iLEDGreen = 21; // LED Green
int stateLEDGreen = LOW; // stateLEDGreen
// Button
int iBut1 = 17; // Button 1
int ButState1; // Variable for reading the button status
int previous = LOW; // previous
long lTime = 0; // lTime
long debounce = 500; // debounce
void loop() {
// Read the state of the button value
ButState1 = digitalRead(iBut1);
// Check if the button is pressed
if (ButState1 == HIGH && previous == LOW && millis() - lTime > debounce)
{
if(stateLEDGreen == HIGH)
{
// stateLEDGreen = LOW
stateLEDGreen = LOW;
// SHARP Memory Display Off
isDisplayOff();
} else
{
// stateLEDGreen = HIGH
stateLEDGreen = HIGH;
// SHARP Memory Display On
isDisplayOn();
}
lTime = millis();
}
// iLEDGreen
digitalWrite(iLEDGreen, stateLEDGreen);
previous == ButState1;
}
getDisplay.ino
// SHARP Memory Display On
void isDisplayOn() {
// Clear Display
display.clearDisplay();
// text display tests
display.setRotation(4);
//display.clearDisplay();
display.setTextSize(5);
display.setTextColor(BLACK);
display.setCursor(10,25);
display.println("LED");
display.setCursor(10,75);
display.println("On");
display.refresh();
}
// SHARP Memory Display Off
void isDisplayOff() {
// Clear Display
display.clearDisplay();
// text display tests
display.setRotation(4);
//display.clearDisplay();
display.setTextSize(5);
display.setTextColor(BLACK);
display.setCursor(10,25);
display.println("LED");
display.setCursor(10,75);
display.println("Off");
display.refresh();
}
setup.ino
// Setup
void setup() {
// SHARP Display start & clear the display
display.begin();
display.clearDisplay();
// Button 1
// Initialize the button as an input
pinMode(iBut1, INPUT);
// Initialize the LED Green
pinMode(iLEDGreen, OUTPUT);
}
Don Luc