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i2crtc.cpp
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i2crtc.cpp
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/*
* I2CRTC.cpp - library for I2C RTC
Copyright (c) Michael Margolis 2009
This library is intended to be uses with Arduino Time.h library functions
The library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
30 Dec 2009 - Initial release
5 Sep 2011 updated for Arduino 1.0
23 Dec 2013 -- modified by Ray Wang (Rayshobby LLC) to add support for MCP7940
*/
#ifdef ESP8266
#include "i2crtc.h"
#include <Wire.h>
static uint8_t _addrs[] = {DS1307_ADDR, MCP7940_ADDR, PCF8563_ADDR};
uint8_t I2CRTC::addr = 0;
I2CRTC::I2CRTC()
{
Wire.begin();
}
bool I2CRTC::detect()
{
addr = 0;
for(uint8_t i = 0;i < sizeof(_addrs);i ++) {
Wire.beginTransmission(_addrs[i]);
Wire.write((uint8_t)0x00);
if(Wire.endTransmission()==0) { // if chip detected successfully
addr = _addrs[i];
return true;
}
}
return false;
}
// PUBLIC FUNCTIONS
time_t I2CRTC::get() // Aquire data from buffer and convert to time_t
{
tmElements_t tm;
read(tm);
return(makeTime(tm));
}
void I2CRTC::set(time_t t)
{
tmElements_t tm;
breakTime(t, tm);
//tm.Second |= 0x80; // stop the clock ray: removed this step
//write(tm);
//tm.Second &= 0x7f; // start the clock ray: moved to write function
write(tm);
}
// Aquire data from the RTC chip in BCD format
void I2CRTC::read( tmElements_t &tm)
{
if(!addr) return;
Wire.beginTransmission(addr);
if(addr == PCF8563_ADDR) {
Wire.write((uint8_t)0x02);
Wire.endTransmission();
Wire.requestFrom(addr, (uint8_t)7);
tm.Second = bcd2dec(Wire.read() & 0x7f);
tm.Minute = bcd2dec(Wire.read() & 0x7f);
tm.Hour = bcd2dec(Wire.read() & 0x3f); // mask assumes 24hr clock
tm.Day = bcd2dec(Wire.read() & 0x3f);
tm.Wday = bcd2dec(Wire.read() & 0x07);
tm.Month = bcd2dec(Wire.read() & 0x1f); // fix bug for MCP7940
tm.Year = (bcd2dec(Wire.read()));
} else {
Wire.write((uint8_t)0x00);
Wire.endTransmission();
Wire.requestFrom(addr, (uint8_t)7);
tm.Second = bcd2dec(Wire.read() & 0x7f);
tm.Minute = bcd2dec(Wire.read() & 0x7f);
tm.Hour = bcd2dec(Wire.read() & 0x3f); // mask assumes 24hr clock
tm.Wday = bcd2dec(Wire.read() & 0x07);
tm.Day = bcd2dec(Wire.read() & 0x3f);
tm.Month = bcd2dec(Wire.read() & 0x1f); // fix bug for MCP7940
tm.Year = y2kYearToTm((bcd2dec(Wire.read())));
}
}
void I2CRTC::write(tmElements_t &tm)
{
if(!addr) return;
switch(addr) {
case DS1307_ADDR:
Wire.beginTransmission(addr);
Wire.write((uint8_t)0x00); // reset register pointer
Wire.write(dec2bcd(tm.Second) & 0x7f); // ray: start clock by setting CH bit low
Wire.write(dec2bcd(tm.Minute));
Wire.write(dec2bcd(tm.Hour)); // sets 24 hour format
Wire.write(dec2bcd(tm.Wday));
Wire.write(dec2bcd(tm.Day));
Wire.write(dec2bcd(tm.Month));
Wire.write(dec2bcd(tmYearToY2k(tm.Year)));
Wire.endTransmission();
break;
case MCP7940_ADDR:
Wire.beginTransmission(addr);
Wire.write((uint8_t)0x00); // reset register pointer
Wire.write(dec2bcd(tm.Second) | 0x80); // ray: start clock by setting ST bit high
Wire.write(dec2bcd(tm.Minute));
Wire.write(dec2bcd(tm.Hour)); // sets 24 hour format
Wire.write(dec2bcd(tm.Wday) | 0x08); // ray: turn on battery backup by setting VBATEN bit high
Wire.write(dec2bcd(tm.Day));
Wire.write(dec2bcd(tm.Month));
Wire.write(dec2bcd(tmYearToY2k(tm.Year)));
Wire.endTransmission();
break;
case PCF8563_ADDR:
Wire.beginTransmission(addr);
Wire.write((uint8_t)0x02); // reset register pointer
Wire.write(dec2bcd(tm.Second) & 0x7f);
Wire.write(dec2bcd(tm.Minute));
Wire.write(dec2bcd(tm.Hour)); // sets 24 hour format
Wire.write(dec2bcd(tm.Day));
Wire.write(dec2bcd(tm.Wday));
Wire.write(dec2bcd(tm.Month));
Wire.write(dec2bcd(tm.Year));
Wire.endTransmission();
break;
}
}
// Convert Decimal to Binary Coded Decimal (BCD)
uint8_t I2CRTC::dec2bcd(uint8_t num)
{
return ((num/10 * 16) + (num % 10));
}
// Convert Binary Coded Decimal (BCD) to Decimal
uint8_t I2CRTC::bcd2dec(uint8_t num)
{
return ((num/16 * 10) + (num % 16));
}
I2CRTC RTC = I2CRTC(); // create an instance for the user
#endif