GY-63_MS5611/libraries/DS3232
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README.md 0.3.0 DS3232 2024-02-05 18:05:54 +01:00

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License: MIT GitHub release PlatformIO Registry

DS3232

Arduino library for I2C DS3232 real time clock and compatibles.

Description

This DS3232 library provides a minimalistic interface to read and write the date and time to and from the I2C DS3232 RTC device and compatibles.

What is different from other RTC libraries is that it directly provides fields like seconds, minutes etc. and not use time structs from libraries like time.h or timelib.h. This has its pros and cons of course. Goal is to improve the ease of use for those who just need the date and time elements and not use the alarms etc.

Furthermore the library only supports the 24 hour per day model to minimize footprint. Subtracting 12 hours is not too difficult if one wants an "AM/PM" layout.

The current version does not support any special feature other than two generic readRegister() and writeRegister() functions. These two functions allows users access to all registers and to do anything possible. However for people who need a full function DS3232 library check the excellent library at https://github.com/JChristensen/DS3232RTC

Note: This DS3232 library is a refactored version of an old experimental DS3232 library from 2011 which was never published.

Tests

All examples are tested with Arduino UNO with 100KHz I2C.

Compatibles

The DS3231 RTC is compatible for the date and time keeping part. The only difference found is that the DS3231 does not have the 236 bytes of battery backupped SRAM the DS3232 has.

Hardware

Always check datasheet for connections.

Pull ups are needed on SDA, SCL and other pins (datasheet).

I2C

Performance

I2C bus speeds officially supports up to 400 KHz.

Timing of UNO with DS3232 of read() in microseconds.

board speed time notes
UNO 50000 2011
UNO 100000 1072
UNO 200000 608
UNO 300000 442
UNO 400000 374 max official supported
UNO 500000 328 indicative
UNO 600000 296 indicative
UNO 700000 280 indicative
UNO 800000 272 indicative

Note that the performance can be increased a lot by keeping track of the lastRead(). See example DS3232_demo_read_minute.ino An indication averaged around 44us per update on UNO.

Address

Fixed address 0x68, both for DS3232 and DS3231, see datasheet

I2C multiplexing

Imagine you want multiple clocks e.g. for different time zones. Or just to average them to be more precise, or as backup of each other so even swapping batteries can be doen without loss of availability.

Sometimes you need to control more devices than possible with the default address range the device provides. This is possible with an I2C multiplexer e.g. TCA9548 which creates up to eight channels (think of it as I2C subnets) which can use the complete address range of the device.

Drawback of using a multiplexer is that it takes more administration in your code e.g. which device is on which channel. This will slow down the access, which must be taken into account when deciding which devices are on which channel. Also note that switching between channels will slow down other devices too if they are behind the multiplexer.

Interface

#include "DS3232.h"

Constructor

  • DS3231(TwoWire *wire = &Wire) Constructor and I2C bus.
  • DS3232(TwoWire *wire = &Wire) Constructor and I2C bus.
  • int begin() initializes internals. Returns error status.
  • bool isConnected() checks if address (default 0x68) can be seen on the I2C bus.
  • uint8_t getAddress() returns address (0x68) set in constructor.
  • uint16_t getType() returns 3232 or 3231, depending on constructor.

Base RTC

  • int read() read the current time from the RTC.
  • int write() set the current time in the RTC. Writes all fields.
  • uint32_t lastRead() lastTime in milliseconds when RTC is read.

Getters

Getters return the last read value, to update call read() first.

  • uint8_t seconds()
  • uint8_t minutes()
  • uint8_t hours()
  • uint8_t weekDay()
  • uint8_t day()
  • uint8_t month()
  • uint8_t year()

Setters

Setters set a value, to update the RTC call write() after.

  • void setSeconds(uint8_t value)
  • void setMinutes(uint8_t value)
  • void setHours(uint8_t value)
  • void setDay(uint8_t value)
  • void setMonth(uint8_t value)
  • void setYear(uint8_t value)

Note: weekDay cannot be set.

Note: you can also adjust just one field and keep the others.

Low level: Read/WriteRegister

Allows to access all functionality the library did not implement (yet). Check datasheet for details per register. Use with care.

  • int readRegister(uint8_t reg)
  • int writeRegister(uint8_t reg, uint8_t value)

Debug

In case of an I2C error one can get the last return value of wire.EndTransmission() to get an indication of the problem.

  • int lastRv() values depend on platform used.

Future

Must

  • improve documentation.

Should

  • test platforms
  • test performance / footprint
  • can the trick from the example be included in the library?
    • extra footprint?

Could

  • add readDate() + readTime()
    • less IO
    • as date is not read so often?
  • int getTemperature();
  • SRAM 236 bytes
    • int SRAMwrite8(uint8_t index, uint8_t value);
    • int SRAMwrite16(uint8_t index, uint16_t value);
    • int SRAMwrite32(uint8_t index, uint32_t value);
    • int SRAMread8(uint8_t index, uint8_t value);
    • int SRAMread16(uint8_t index, uint16_t value);
    • int SRAMread32(uint8_t index, uint32_t value);
    • float and char array support?
  • AM/PM support could be done in software.
    • simpler than decoding RTC?

Wont

Other extended functionality (or in derived class)

Support

If you appreciate my libraries, you can support the development and maintenance. Improve the quality of the libraries by providing issues and Pull Requests, or donate through PayPal or GitHub sponsors.

Thank you,