richard misi
ds3231
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ds3231
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Justin Jordan
ds3231.h
- Committer:
- RCMISbed
- Date:
- 2018-10-17
- Revision:
- 17:c12eab714b4e
- Parent:
- 16:e1c0f63595d9
File content as of revision 17:c12eab714b4e:
/******************************************************************//**
* Copyright (C) 2015 Maxim Integrated Products, Inc., All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES
* OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* Except as contained in this notice, the name of Maxim Integrated
* Products, Inc. shall not be used except as stated in the Maxim Integrated
* Products, Inc. Branding Policy.
*
* The mere transfer of this software does not imply any licenses
* of trade secrets, proprietary technology, copyrights, patents,
* trademarks, maskwork rights, or any other form of intellectual
* property whatsoever. Maxim Integrated Products, Inc. retains all
* ownership rights.
**********************************************************************/
#ifndef DS3231_H
#define DS3231_H
#include "mbed.h"
/**
* ds3231_time_t - Struct for containing time data.
*
* Members:
*
* - uint32_t seconds - Use decimal value. Member fx's convert to BCD
*
* - uint32_t minutes - Use decimal value. Member fx's convert to BCD
*
* - uint32_t hours - Use decimal value. Member fx's convert to BCD
*
* - bool am_pm - TRUE for PM, same logic as datasheet
*
* - bool mode - TRUE for 12 hour, same logic as datasheet
*/
typedef struct
{
uint32_t seconds;
uint32_t minutes;
uint32_t hours;
bool am_pm;
bool mode;
}ds3231_time_t;
/**
* ds3231_calendar_t - Struct for containing calendar data.
*
* Members:
*
* - uint32_t day - Use decimal value. Member fx's convert to BCD
*
* - uint32_t date - Use decimal value. Member fx's convert to BCD
*
* - uint32_t month - Use decimal value. Member fx's convert to BCD
*
* - uint32_t year - Use decimal value. Member fx's convert to BCD
*/
typedef struct
{
uint32_t day;
uint32_t date;
uint32_t month;
uint32_t year;
}ds3231_calendar_t;
/**
* ds3231_alrm_t - Struct for containing alarm data.
*
* Members:
*
* - uint32_t seconds - Use decimal value. Member fx's convert to BCD
*
* - uint32_t minutes - Use decimal value. Member fx's convert to BCD
*
* - uint32_t hours - Use decimal value. Member fx's convert to BCD
*
* - uint32_t day - Use decimal value. Member fx's convert to BCD
*
* - uint32_t date - Use decimal value. Member fx's convert to BCD
*
* - bool am1 - Flag for setting alarm rate
*
* - bool am2 - Flag for setting alarm rate
*
* - bool am3 - Flag for setting alarm rate
*
* - bool am4 - Flag for setting alarm rate
*
* - bool am_pm - TRUE for PM, same logic as datasheet
*
* - bool mode - TRUE for 12 hour, same logic as datasheet
*
* - bool dy_dt - TRUE for Day, same logic as datasheet
*/
typedef struct
{
//Seconds and am1 not used for alarm2
uint32_t seconds;
uint32_t minutes;
uint32_t hours;
uint32_t day;
uint32_t date;
bool am1;
bool am2;
bool am3;
bool am4;
bool am_pm;
bool mode;
bool dy_dt;
}ds3231_alrm_t;
/**
* ds3231_cntl_stat_t - Struct for containing control and status
* register data.
*
* Members:
*
* - uint8_t control - Binary data for read/write of control register
*
* - uint8_t status - Binary data for read/write of status register
*/
typedef struct
{
uint8_t control;
uint8_t status;
}ds3231_cntl_stat_t;
/**
* @brief DS3231 Class
*/
class Ds3231
{
public:
/**
* ds3231_regs_t - enumerated DS3231 registers
*/
typedef enum
{
SECONDS,
MINUTES,
HOURS,
DAY,
DATE,
MONTH,
YEAR,
ALRM1_SECONDS,
ALRM1_MINUTES,
ALRM1_HOURS,
ALRM1_DAY_DATE,
ALRM2_MINUTES,
ALRM2_HOURS,
ALRM2_DAY_DATE,
CONTROL,
STATUS,
AGING_OFFSET, //don't touch this register
MSB_TEMP,
LSB_TEMP
}ds3231_regs_t;
/**********************************************************//**
* Constructor for Ds3231 Class
*
* On Entry:
* @param[in] sda - sda pin of I2C bus
* @param[in] scl - scl pin of I2C bus
*
* On Exit:
* @return none
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* @endcode
**************************************************************/
Ds3231(PinName sda, PinName scl);
/**********************************************************//**
* Constructor for Ds3231 Class
*
* On Entry:
* @param[in] i2c_bus - reference to existing bus
*
* On Exit:
*
* @return none
**************************************************************/
Ds3231(I2C & i2c_bus);
~Ds3231();
/**********************************************************//**
* Sets the time on DS3231
* Struct data is in integrer format, not BCD. Fx will convert
* to BCD for you.
*
* On Entry:
* @param[in] time - struct cotaining time data;
*
* On Exit:
* @return return value = 0 on success, non-0 on failure
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* //time = 12:00:00 AM 12hr mode
* ds3231_time_t time = {12, 0, 0, 0, 1}
* uint16_t rtn_val;
*
* rtn_val = rtc.set_time(time);
*
* @endcode
**************************************************************/
uint16_t set_time(ds3231_time_t time);
/**********************************************************//**
* Sets the calendar on DS3231
*
* On Entry:
* @param[in] calendar - struct cotaining calendar data
*
* On Exit:
* @return return value = 0 on success, non-0 on failure
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* //see datasheet for calendar format
* ds3231_calendar_t calendar = {1, 1, 1, 0};
* uint16_t rtn_val;
*
* rtn_val = rtc.set_calendar(calendar);
*
* @endcode
**************************************************************/
uint16_t set_calendar(ds3231_calendar_t calendar);
/**********************************************************//**
* Set either Alarm1 or Alarm2 of DS3231
*
* On Entry:
* @param[in] alarm - struct cotaining alarm data
*
* @param[in] one_r_two - TRUE for Alarm1 and FALSE for
* Alarm2
*
* On Exit:
* @return return value = 0 on success, non-0 on failure
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* //see ds3231.h for .members and datasheet for alarm format
* ds3231_alrm_t alarm;
* uint16_t rtn_val;
*
* rtn_val = rtc.set_alarm(alarm, FALSE);
*
* @endcode
**************************************************************/
uint16_t set_alarm(ds3231_alrm_t alarm, bool one_r_two);
/**********************************************************//**
* Set control and status registers of DS3231
*
* On Entry:
* @param[in] data - Struct containing control and status
* register data
*
* On Exit:
* @return return value = 0 on success, non-0 on failure
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* //do not use 0xAA, see datasheet for appropriate data
* ds3231_cntl_stat_t data = {0xAA, 0xAA};
*
* rtn_val = rtc.set_cntl_stat_reg(data);
*
* @endcode
**************************************************************/
uint16_t set_cntl_stat_reg(ds3231_cntl_stat_t data);
/**********************************************************//**
* Gets the time on DS3231
*
* On Entry:
* @param[in] time - pointer to struct for storing time data
*
* On Exit:
* @param[out] time - contains current integrer rtc time
* data
* @return return value = 0 on success, non-0 on failure
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* //time = 12:00:00 AM 12hr mode
* ds3231_time_t time = {12, 0, 0, 0, 1}
* uint16_t rtn_val;
*
* rtn_val = rtc.get_time(&time);
*
* @endcode
**************************************************************/
uint16_t get_time(ds3231_time_t* time);
/**********************************************************//**
* Gets the calendar on DS3231
*
* On Entry:
* @param[in] calendar - pointer to struct for storing
* calendar data
*
* On Exit:
* @param[out] calendar - contains current integer rtc
* calendar data
* @return return value = 0 on success, non-0 on failure
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* //see datasheet for calendar format
* ds3231_calendar_t calendar = {1, 1, 1, 0};
* uint16_t rtn_val;
*
* rtn_val = rtc.get_calendar(&calendar);
*
* @endcode
**************************************************************/
uint16_t get_calendar(ds3231_calendar_t* calendar);
/**********************************************************//**
* Get either Alarm1 or Alarm2 of DS3231
*
* On Entry:
* @param[in] alarm - pointer to struct for storing alarm
* data;
*
* @param[in] one_r_two - TRUE for Alarm1 and FALSE for
* Alarm2
*
* On Exit:
* @param[out] alarm - contains integer alarm data
* @return return value = 0 on success, non-0 on failure
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* //see ds3231.h for .members and datasheet for alarm format
* ds3231_alrm_t alarm;
* uint16_t rtn_val;
*
* rtn_val = rtc.get_alarm(&alarm, FALSE);
*
* @endcode
**************************************************************/
uint16_t get_alarm(ds3231_alrm_t* alarm, bool one_r_two);
/**********************************************************//**
* Get control and status registers of DS3231
*
* On Entry:
* @param[in] data - pointer to struct for storing control
* and status register data
*
* On Exit:
* @param[out] data - contains control and status registers
* data
* @return return value = 0 on success, non-0 on failure
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* //do not use 0xAA, see datasheet for appropriate data
* ds3231_cntl_stat_t data = {0xAA, 0xAA};
*
* rtn_val = rtc.get_cntl_stat_reg(&data);
*
* @endcode
**************************************************************/
uint16_t get_cntl_stat_reg(ds3231_cntl_stat_t* data);
/**********************************************************//**
* Get temperature data of DS3231
*
* On Entry:
*
* On Exit:
* @return return value = raw temperature data
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* uint16_t temp;
*
* temp = rtc.get_temperature();
*
* @endcode
**************************************************************/
uint16_t get_temperature(void);
/**********************************************************//**
* Get epoch time based on current RTC time and date.
* DS3231 must be configured and running before this fx is
* called
*
* On Entry:
*
* On Exit:
* @return return value = epoch time
*
* Example:
* @code
*
* //instantiate rtc object
* Ds3231 rtc(D14, D15);
*
* time_t epoch_time;
*
* epoch_time = rtc.get_epoch();
*
* @endcode
**************************************************************/
time_t get_epoch(void);
private:
I2C * _p_i2c;
bool _i2c_owner;
uint8_t _w_adrs, _r_adrs;
/**********************************************************//**
* Private mmber fx, converts unsigned char to BCD
*
* On Entry:
* @param[in] data - 0-255
*
* On Exit:
* @return bcd_result = BCD representation of data
*
**************************************************************/
uint16_t uchar_2_bcd(uint8_t data);
/**********************************************************//**
* Private mmber fx, converts BCD to a uint8_t
*
* On Entry:
* @param[in] bcd - 0-99
*
* On Exit:
* @return rtn_val = integer rep. of BCD
*
**************************************************************/
uint8_t bcd_2_uchar(uint8_t bcd);
};
#endif /* DS3231_H*/