doc/hardware/peripherals/rtc.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _rtc_api:

 Real-Time Clock (RTC)
 #####################

 Overview
 ********

 .. list-table:: **Glossary**
     :widths: 30 80
     :header-rows: 1

     * - Word
       - Definition
     * - Real-time clock
       - Low power device tracking time using broken-down time
     * - Real-time counter
       - Low power counter which can be used to track time
     * - RTC
       - Acronym for real-time clock

 An RTC is a low power device which tracks time using broken-down time.
 It should not be confused with low-power counters which sometimes share
 the same name, acronym, or both.

 RTCs are usually optimized for low energy consumption and are usually
 kept running even when the system is in a low power state.

 RTCs usually contain one or more alarms which can be configured to
 trigger at a given time. These alarms are commonly used to wake up the
 system from a low power state.

 History of RTCs in Zephyr
 *************************

 RTCs have been supported before this API was created, using the
 :ref:`counter_api` API. The unix timestamp was used to convert
 between broken-down time and the unix timestamp within the RTC
 drivers, which internally used the broken-down time representation.

 The disadvantages of this approach were that hardware counters could
 not be set to a specific count, requiring all RTCs to use device
 specific APIs to set the time, converting from unix time to
 broken-down time, unnecessarily in some cases, and some common
 features missing, like input clock calibration and the update
 callback.

 Configuration Options
 *********************

 Related configuration options:

 * :kconfig:option:`CONFIG_RTC`
 * :kconfig:option:`CONFIG_RTC_ALARM`
 * :kconfig:option:`CONFIG_RTC_UPDATE`
 * :kconfig:option:`CONFIG_RTC_CALIBRATION`

 API Reference
 *************

 .. doxygengroup:: rtc_interface

 RTC device driver test suite
 ****************************

 The test suite validates the behavior of the RTC device driver. It
 is designed to be portable between boards. It uses the device tree
 alias ``rtc`` to designate the RTC device to test.

 This test suite tests the following:

 * Setting and getting the time.
 * RTC Time incrementing correctly.
 * Alarms if supported by hardware, with and without callback enabled
 * Calibration if supported by hardware.

 The calibration test tests a range of values which are printed to the
 console to be manually compared. The user must review the set and
 gotten values to ensure they are valid.

 By default, only the mandatory setting and getting of time is enabled
 for testing. To test the optional alarms, update event callback
 and clock calibration, these must be enabled by selecting
 :kconfig:option:`CONFIG_RTC_ALARM`, :kconfig:option:`CONFIG_RTC_UPDATE`
 and :kconfig:option:`CONFIG_RTC_CALIBRATION`.

 The following examples build the test suite for the ``native_posix``
 board. To build the test suite for a different board, replace the
 ``native_posix`` board with your board.

 To build the test application with the default configuration, testing
 only the mandatory features, the following command can be used for
 reference:

 .. zephyr-app-commands::
    :tool: west
    :host-os: unix
    :board: native_posix
    :zephyr-app: tests/drivers/rtc/rtc_api
    :goals: build

 To build the test with additional RTC features enabled, use menuconfig
 to enable the additional features by updating the configuration. The
 following command can be used for reference:

 .. zephyr-app-commands::
    :tool: west
    :host-os: unix
    :board: native_posix
    :zephyr-app: tests/drivers/rtc/rtc_api
    :goals: menuconfig

 Then build the test application using the following command:

 .. zephyr-app-commands::
    :tool: west
    :host-os: unix
    :board: native_posix
    :zephyr-app: tests/drivers/rtc/rtc_api
    :maybe-skip-config:
    :goals: build

 To run the test suite, flash and run the application on your board, the output will
 be printed to the console.

 .. note::

     The tests take up to 30 seconds each if they are testing real hardware.
	.. _rtc_api:

	Real-Time Clock (RTC)
	#####################

	Overview
	********

	.. list-table:: Glossary
	:widths: 30 80
	:header-rows: 1

	* - Word
	- Definition
	* - Real-time clock
	- Low power device tracking time using broken-down time
	* - Real-time counter
	- Low power counter which can be used to track time
	* - RTC
	- Acronym for real-time clock

	An RTC is a low power device which tracks time using broken-down time.
	It should not be confused with low-power counters which sometimes share
	the same name, acronym, or both.

	RTCs are usually optimized for low energy consumption and are usually
	kept running even when the system is in a low power state.

	RTCs usually contain one or more alarms which can be configured to
	trigger at a given time. These alarms are commonly used to wake up the
	system from a low power state.

	History of RTCs in Zephyr
	*************************

	RTCs have been supported before this API was created, using the
	:ref:`counter_api` API. The unix timestamp was used to convert
	between broken-down time and the unix timestamp within the RTC
	drivers, which internally used the broken-down time representation.

	The disadvantages of this approach were that hardware counters could
	not be set to a specific count, requiring all RTCs to use device
	specific APIs to set the time, converting from unix time to
	broken-down time, unnecessarily in some cases, and some common
	features missing, like input clock calibration and the update
	callback.

	Configuration Options
	*********************

	Related configuration options:

	* :kconfig:option:`CONFIG_RTC`
	* :kconfig:option:`CONFIG_RTC_ALARM`
	* :kconfig:option:`CONFIG_RTC_UPDATE`
	* :kconfig:option:`CONFIG_RTC_CALIBRATION`

	API Reference
	*************

	.. doxygengroup:: rtc_interface

	RTC device driver test suite
	****************************

	The test suite validates the behavior of the RTC device driver. It
	is designed to be portable between boards. It uses the device tree
	alias ``rtc`` to designate the RTC device to test.

	This test suite tests the following:

	* Setting and getting the time.
	* RTC Time incrementing correctly.
	* Alarms if supported by hardware, with and without callback enabled
	* Calibration if supported by hardware.

	The calibration test tests a range of values which are printed to the
	console to be manually compared. The user must review the set and
	gotten values to ensure they are valid.

	By default, only the mandatory setting and getting of time is enabled
	for testing. To test the optional alarms, update event callback
	and clock calibration, these must be enabled by selecting
	:kconfig:option:`CONFIG_RTC_ALARM`, :kconfig:option:`CONFIG_RTC_UPDATE`
	and :kconfig:option:`CONFIG_RTC_CALIBRATION`.

	The following examples build the test suite for the ``native_posix``
	board. To build the test suite for a different board, replace the
	``native_posix`` board with your board.

	To build the test application with the default configuration, testing
	only the mandatory features, the following command can be used for
	reference:

	.. zephyr-app-commands::
	:tool: west
	:host-os: unix
	:board: native_posix
	:zephyr-app: tests/drivers/rtc/rtc_api
	:goals: build

	To build the test with additional RTC features enabled, use menuconfig
	to enable the additional features by updating the configuration. The
	following command can be used for reference:

	.. zephyr-app-commands::
	:tool: west
	:host-os: unix
	:board: native_posix
	:zephyr-app: tests/drivers/rtc/rtc_api
	:goals: menuconfig

	Then build the test application using the following command:

	.. zephyr-app-commands::
	:tool: west
	:host-os: unix
	:board: native_posix
	:zephyr-app: tests/drivers/rtc/rtc_api
	:maybe-skip-config:
	:goals: build

	To run the test suite, flash and run the application on your board, the output will
	be printed to the console.

	.. note::

	The tests take up to 30 seconds each if they are testing real hardware.