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Topic: chronodot (Read 6256 times) previous topic - next topic

Jack Christensen

Most libraries that support the DS1307 RTC will work just fine with the DS3231 that's on the Chronodot. I like the Time.h and DS1307RTC.h libraries at http://www.arduino.cc/playground/Code/Time

MCP79411/12 RTC ... "One Million Ohms" ATtiny kit ... available at http://www.tindie.com/stores/JChristensen/

CrossRoads

I just wrote a sketch to send the I2C commands over, no library needed.
Designing & building electrical circuits for over 25 years.  Screw Shield for Mega/Due/Uno,  Bobuino with ATMega1284P, & other '328P & '1284P creations & offerings at  my website.

Jack Christensen


I just wrote a sketch to send the I2C commands over, no library needed.

No less than I would expect, programming right down to the bare metal!   ;)
MCP79411/12 RTC ... "One Million Ohms" ATtiny kit ... available at http://www.tindie.com/stores/JChristensen/

CrossRoads

Was pretty straightforward:
Code: [Select]

/*
Test of RTC DS1307 via I2C.
Counts
Seconds,
Minutes,
Hours,
Date of the Month,
Month,
Day of the week, and
Year with Leap-Year

56 bytes battery backed RAM
Square Wave Output
*/

/*
Modified to Run thru IDE Serial port
*/
#include <Wire.h>

//variables
byte seconds_address = 0x00;
byte seconds; // bit 7 = Clock Halt, Enabled = 0, Halt = 1
// bits 6-5-3 = tens of seconds 0-6,  bits 3-2-1-0 = units of seconds, 0-9

byte minutes_address = 0x01;
byte minutes;  // bits 6-5-4 = tens of minutes, bits 3-2-1-0 = units of minutes

byte hours_address = 0x02;
byte hours;  // 7=0. 6 = 1 for 12 hr, 0 for 24 hr.
// bit 5: 12 hr mode = AM(0)/PM(1). 24 hr mode = upper tens of hrs
// bit 4 =  lower tens of hrs, bits 3-2-1-0 = units of hours (0-9)

byte day_week_address = 0x03;
byte day_week = 0; // range 01-07

byte date_month_address = 0x04;
byte date_month = 0; // range 01-31

byte month_address = 0x05;
byte month = 0; // range 01-12

byte year_address = 0x06;
int year = 0; // upper byte 0-9, lower byte 0-9

byte square_address = 0x07;
byte sqwe = 0;  // square wave enable
// Out-0-0-Sqwe-0-0-RS1-RS0
// Out, Sqwe = 0/0 - Square wave output = 0
// Out, Sqwe = 1/0 - Square wave output = 1
// Out, Sqwe = 0/1 or 1/1 - Square wave output per RS1/RS0
// RS1/RS0 = 00 = 1 Hz
// RS1/RSo = 01 = 4 KHz
// RS1/RS0 = 10 = 8 KHz
// RS1/RS0 = 11 = 32 KHz

byte RTC_ram_address = 0x08; //range = 08-63, 0x08-0x3F

int RTC_address = 0x68; // 1101 000

byte incomingCommand = 0;
byte RTC_write_command = 0;
byte RTC_read_command = 0;
byte RTC_ram_command = 0;

// use F0xx, F1xx,F2xx, F3xx, F4xx, F5xx, F6xx, F7xx
// to send one register write commands
// use E0xx to read registers back - not coded yet
// use C0xx to read RAM back - not coded yet

byte incomingRegister = 0;
byte RTC_register = 0;
byte incomingData1 = 0;
byte incomingData2 = 0;
byte new_data = 0;
byte outgoingData = 0;
int delay_time = 100;

unsigned long currentMillis = 0;
unsigned long previousMillis = 0;
unsigned long duration = 5000;

void setup() {
  Wire.begin(); // no address, we are master
  Serial.begin (57600); 
  Serial.flush();
  currentMillis = millis(); 
}

void loop() {

  if (Serial.available() >3){
    incomingCommand = Serial.read();
    incomingRegister = Serial.read();
    incomingData1 = Serial.read();
    incomingData1 = incomingData1 - 0x30; // convert ASCII to HEX
    incomingData2 = Serial.read();
    incomingData2 = incomingData2 - 0x30;  // convert ASCII to HEX
    new_data = (incomingData1 << 4) + incomingData2;  // put the Upper/Lower nibbles together
    Serial.print ("command ");
    Serial.println (incomingCommand);
    Serial.print ("register ");
    Serial.println(incomingRegister);
    Serial.print ("data1 ");
    Serial.println (incomingData1, HEX);
    Serial.print ("data2 ");
    Serial.println (incomingData2, HEX);
    Serial.print ("combined data ");   
    Serial.println (new_data, HEX);
   
  }
  // *******************************************
//  RTC_write_command = incomingCommand & 0xF0;  // mask off high byte
//  if (RTC_write_command == 0xF0){  // check for Write command
if ((incomingCommand == 'F') | (incomingCommand == 'f')){
  incomingCommand = 0;  // reset for next pass
//    RTC_register = incomingCommand & 0x0F;  // mask off low btye
//    incomingCommand = 0;
//    new_data = incomingData;
    Serial.println (" Sending a command ");
//    switch (RTC_register){
switch (incomingRegister){
  case '0': // write seconds
        Serial.println ("Seconds ");
      Wire.beginTransmission(RTC_address); // select device
      Wire.send(seconds_address);          // queue the register
      Wire.send(new_data);                  // queue data
      Wire.endTransmission();            // send it
      delay (delay_time);
      break;
    case '1': // write minutes
    Serial.println ("Minutes ");
      Wire.beginTransmission(RTC_address); // select device
      Wire.send(minutes_address);          // queue the register
      Wire.send(new_data);                  // queue data
      Wire.endTransmission();            // send it
      delay (delay_time);
      break;
    case '2': // write hours
        Serial.println ("Hours ");
      Wire.beginTransmission(RTC_address); // select device
      Wire.send(hours_address);          // queue the register
      Wire.send(new_data);                  // queue data
      Wire.endTransmission();            // send it
     delay (delay_time);
      break;
    case '3': // write day
        Serial.println ("Day ");
      Wire.beginTransmission(RTC_address); // select device
      Wire.send(day_week_address);          // queue the register
      Wire.send(new_data);                  // queue data
      Wire.endTransmission();            // send it
     delay (delay_time);
      break;
    case '4': // write date of month
        Serial.println ("Day of Month ");
      Wire.beginTransmission(RTC_address); // select device
      Wire.send(date_month_address);          // queue the register
      Wire.send(new_data);                  // queue data
      Wire.endTransmission();            // send it
     delay (delay_time);
      break;
    case '5': // write month
        Serial.println ("Month ");
      Wire.beginTransmission(RTC_address); // select device
      Wire.send(month_address);          // queue the register
      Wire.send(new_data);                  // queue data
      Wire.endTransmission();            // send it
     delay (delay_time);
      break;
    case '6': // write year
        Serial.println ("Year ");
      Wire.beginTransmission(RTC_address); // select device
      Wire.send(year_address);          // queue the register
      Wire.send(new_data);                  // queue data
      Wire.endTransmission();            // send it
     delay (delay_time);
      break;
    case '7': // write square wave
        Serial.println ("Square Wave ");
    Serial.println (RTC_register, HEX);
      Wire.beginTransmission(RTC_address); // select device
      Wire.send(square_address);          // queue the register
      Wire.send(new_data);                  // queue data
      Wire.endTransmission();            // send it
     delay (delay_time);
      break;
    case '8': // write RAM
        Serial.print ("RAM ");
    Serial.println (RTC_register, HEX);
      Wire.beginTransmission(RTC_address); // select device
      Wire.send(RTC_ram_address);          // queue the register
      Wire.send(new_data);                  // queue data
      Wire.endTransmission();            // send it
     delay (delay_time);
      break;
      // all others,do nothing
      Serial.println ("Invalid command ");
    }  // end Switch
  } // end if command == 'F'
  // ************************************

  currentMillis = millis();
  if ( (currentMillis - previousMillis) >= duration){
    previousMillis = currentMillis; 
    // Reset the register pointer 
    Wire.beginTransmission(RTC_address); 
    Wire.send(0x00); 
    Wire.endTransmission();   

    Wire.requestFrom(RTC_address,8 ); 
    seconds = Wire.receive(); 
    minutes = Wire.receive(); 
    hours = Wire.receive(); 
    day_week = Wire.receive(); 
    date_month = Wire.receive(); 
    month = Wire.receive(); 
    year = Wire.receive(); 
    sqwe = Wire.receive();

    // Seconds
    // bit 7 = Clock Halt, Enabled = 0, Halt = 1
    // bits 6-5-3 = tens of seconds 0-6,  bits 3-2-1-0 = units of seconds, 0-9

    // Hours
    // 7=0. 6 = 1 for 12 hr, 0 for 24 hr.
    // bit 5: 12 hr mode = AM(0)/PM(1). 24 hr mode = upper tens of hrs
    // bit 4 =  lower tens of hrs, bits 3-2-1-0 = units of hours (0-9)

    Serial.print ("Hrs " );
    Serial.print (hours, HEX);
    Serial.print (" Mins ");
    Serial.print (minutes, HEX);
    Serial.print (" Secs ");
    Serial.print (seconds, HEX);
    Serial.print (" Day ");
    Serial.print (day_week, HEX);
    Serial.print (" Date ");
    Serial.print (date_month, HEX);
    Serial.print (" Month ");
    Serial.print (month, HEX);
    Serial.print (" Year 20");
    Serial.print (year, HEX);
    Serial.print (" Square Wave ");
    Serial.println (sqwe, HEX);

  }
}

Designing & building electrical circuits for over 25 years.  Screw Shield for Mega/Due/Uno,  Bobuino with ATMega1284P, & other '328P & '1284P creations & offerings at  my website.

CrossRoads

Library? We don't need no stinkin' library!
Designing & building electrical circuits for over 25 years.  Screw Shield for Mega/Due/Uno,  Bobuino with ATMega1284P, & other '328P & '1284P creations & offerings at  my website.

Ron C

#20
Sep 09, 2011, 02:52 pm Last Edit: Sep 11, 2011, 04:01 am by Ron C Reason: 1
Here is some code I use that allows you to set time and date in 12 or 24 hr mode.
It uses a Sparkfun serial LCD

Hope it helps.

ahhreeyell

CrossRoads, here's the attachment I forgot to send you. Sorry!

CrossRoads

So it reads time out okay, you just can't set the current date/time?
Designing & building electrical circuits for over 25 years.  Screw Shield for Mega/Due/Uno,  Bobuino with ATMega1284P, & other '328P & '1284P creations & offerings at  my website.

ahhreeyell

Never mind, I used Ron C's sketch to set the time and it works fine. Thank you both for your help though! I'll probably be asking you more questions about this sometime in the near future. I really appreciate your efforts! :)

Ron C


Never mind, I used Ron C's sketch to set the time and it works fine. Thank you both for your help though! I'll probably be asking you more questions about this sometime in the near future. I really appreciate your efforts! :)


Glad you got it working for you!

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