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README.md
Rust DS3231, DS3232 and DS3234 Extremely Accurate Real-Time Clock Driver 
This is a platform agnostic Rust driver for the DS3231, DS3232 and DS3234
extremely accurate real-time clocks, based on the embedded-hal traits.
This driver allows you to:
- Read and set date and time in 12-hour and 24-hour format. See:
get_datetime. - Read and set date and time individual elements. For example, see:
get_year. - Enable and disable the real-time clock. See:
enable. - Read the busy status. See
is_busy. - Read whether the oscillator is or has been stopped. See
has_been_stopped. - Clear the has-been-stopped flag. See
clear_has_been_stopped_flag. - Set and read the aging offset. See
set_aging_offset. - Select the function of the INT/SQW output pin. See
use_int_sqw_output_as_interrupt. - Wave generation:
- Enable and disable the square-wave generation. See
enable_square_wave. - Select the square-wave frequency. See
set_square_wave_frequency. - Enable and disable the 32kHz output. See
enable_32khz_output. - Enable and disable the 32kHz output when battery powered. See
enable_32khz_output_on_battery.
- Enable and disable the square-wave generation. See
- Alarms:
- Set alarms 1 and 2 with several matching policies. See
set_alarm1_date. - Read whether alarms 1 or 2 have matched. See
has_alarm1_matched. - Clear flag indicating that alarms 1 or 2 have matched. See
clear_alarm1_matched_flag. - Enable and disable alarms 1 and 2 interrupt generation. See
enable_alarm1_interrupts.
- Set alarms 1 and 2 with several matching policies. See
- Temperature conversion:
- Read the temperature. See
get_temperature. - Force a temperature conversion and time compensation. See
convert_temperature. - Set the temperature conversion rate. See
set_temperature_conversion_rate. - Enable and disable the temperature conversions when battery-powered. See
enable_temperature_conversions_on_battery.
- Read the temperature. See
The devices
This driver is compatible with the DS3231 and DS3232 I2C devices and the DS3234 SPI device.
DS3231
The DS3231 is a low-cost, extremely accurate I2C real-time clock (RTC) with an integrated temperature-compensated crystal oscillator (TCXO) and crystal.
The device incorporates a battery input, and maintains accurate timekeeping when main power to the device is interrupted. The integration of the crystal resonator enhances the long-term accuracy of the device as well as reduces the piece-part count in a manufacturing line. The DS3231 is available in commercial and industrial temperature ranges, and is offered in a 16-pin, 300-mil SO package.
The RTC maintains seconds, minutes, hours, day, date, month, and year information. The date at the end of the month is automatically adjusted for months with fewer than 31 days, including corrections for leap year. The clock operates in either the 24-hour or 12-hour format with an AM/PM indicator. Two programmable time-of-day alarms and a programmable square-wave output are provided. Address and data are transferred serially through an I2C bidirectional bus.
A precision temperature-compensated voltage reference and comparator circuit monitors the status of VCC to detect power failures, to provide a reset output, and to automatically switch to the backup supply when necessary. Additionally, the RST pin is monitored as a pushbutton input for generating a μP reset.
DS3232
The DS3232 is a low-cost temperature-compensated crystal oscillator (TCXO) with a very accurate, temperature-compensated, integrated real-time clock (RTC) and 236 bytes of battery-backed SRAM.
Additionally, the DS3232 incorporates a battery input and maintains accurate timekeeping when main power to the device is interrupted. The integration of the crystal resonator enhances the long-term accuracy of the device as well as reduces the piece-part count in a manufacturing line. The DS3232 is available in commercial and industrial temperature ranges, and is offered in an industry-standard 20-pin, 300-mil SO package.
The RTC maintains seconds, minutes, hours, day, date, month, and year information. The date at the end of the month is automatically adjusted for months with fewer than 31 days, including corrections for leap year. The clock operates in either the 24-hour or 12-hour format with an AM/PM indicator. Two programmable time-of-day alarms and a programmable square-wave output are provided. Address and data are transferred serially through an I2C bidirectional bus.
A precision temperature-compensated voltage reference and comparator circuit monitors the status of VCC to detect power failures, to provide a reset output, and to automatically switch to the backup supply when necessary. Additionally, the RST pin is monitored as a pushbutton input for generating a μP reset.
DS3234
The DS3234 is a low-cost, extremely accurate SPI bus real-time clock (RTC) with an integrated temperature-compensated crystal oscillator (TCXO) and crystal.
The DS3234 incorporates a precision, temperature-compensated voltage reference and comparator circuit to monitor VCC. When VCC drops below the power-fail voltage (VPF), the device asserts the RST output and also disables read and write access to the part when VCC drops below both VPF and VBAT. The RST pin is monitored as a pushbutton input for generating a μP reset. The device switches to the backup supply input and maintains accurate timekeeping when main power to the device is interrupted. The integration of the crystal resonator enhances the long-term accuracy of the device as well as reduces the piece-part count in a manufacturing line. The DS3234 is available in commercial and industrial temperature ranges, and is offered in an industry-standard 300-mil, 20-pin SO package.
The DS3234 also integrates 256 bytes of battery-backed SRAM. In the event of main power loss, the contents of the memory are maintained by the power source connected to the V BAT pin. The RTC maintains seconds, minutes, hours, day, date, month, and year information. The date at the end of the month is automatically adjusted for months with fewer than 31 days, including corrections for leap year. The clock operates in either the 24-hour or 12-hour format with AM/PM indicator. Two programmable time-of-day alarms and a programmable square-wave output are provided. Address and data are transferred serially by an SPI bidirectional bus.
Datasheets:
Usage
To use this driver, import this crate and an embedded_hal implementation,
then instantiate the appropriate device.
In the following example an instance of the device DS3231 will be created.
Other devices can be created with similar methods like:
Ds323x::new_ds3234(...).
extern crate linux_embedded_hal as hal;
extern crate ds323x;
use ds323x::{ Ds323x, DateTime, Hours };
fn main() {
let dev = hal::I2cdev::new("/dev/i2c-1").unwrap();
let mut rtc = Ds323x::new_ds3231(dev);
let datetime = DateTime {
year: 2018,
month: 08,
day: 20,
weekday: 4,
hour: Hours::H24(19),
minute: 59,
second: 58
};
rtc.set_datetime(&datetime).unwrap();
// do something else...
let seconds = rtc.get_seconds().unwrap();
println!("Seconds: {}", seconds);
}
License
Licensed under either of
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT) at your option.
Contributing
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.