.. | ||
main | ||
CMakeLists.txt | ||
pytest_esp_timer.py | ||
README.md | ||
sdkconfig.ci | ||
sdkconfig.ci.rtc | ||
sdkconfig.defaults |
Supported Targets | ESP32 | ESP32-C2 | ESP32-C3 | ESP32-C6 | ESP32-H2 | ESP32-P4 | ESP32-S2 | ESP32-S3 |
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ESP Timer Example (High Resolution Timer)
(For general overview of examples and their usage, see the README file in the upper level examples
directory.)
Note
After you click any link to ESP-IDF Programming Guide, go to the top of the sidebar, then make sure you have the appropriate Espressif chip (target) and ESP-IDF version selected in the dropdown menus.
This example shows how to use the ESP Timer feature to create timers and execute callback functions. On the linked page, you will find detailed information about the feature as well as the functions and procedures used in this example.
In addition, the Sleep Modes feature is used to briefly enter light sleep. This demonstrates that timekeeping continues correctly after light sleep.
The example starts by creating and starting a periodic and a one-shot timer. Their callback functions print the time elapsed since the example was booted. Then the oneshot_timer_callback()
function redefines the period of the periodic timer and restarts it.
After that, the chip enters light sleep for 0.5 seconds. Once the chip wakes up, the timers execute a couple of more callback functions, then the timers are stopped and deleted to free up memory.
Usage
The subsections below give only absolutely necessary information. For full steps to configure ESP-IDF and use it to build and run projects, see ESP-IDF Getting Started.
Hardware Required
- An Espressif development board based on a chip listed in supported targets
- A USB cable for power supply and serial communication
- Computer with ESP-IDF installed and configured
Set Chip Target
First of all, your target must be supported by both:
- By your ESP-IDF version: For the full list of supported targets, run:
idf.py --list-targets
- By this example: For the full list of supported targets, refer to the supported targets table at the top of this README.
After you make sure that your target is supported, go to your example project directory and set the chip target:
idf.py set-target <target>
For example, to set esp32 as the chip target, run:
idf.py set-target esp32
Configure the Project
This example does not need configuration. The required Kconfig options differing from the ESP-IDF defaults are pre-set for this particular example in sdkconfig.defaults.
For more information about those and other Kconfig options, see Project Configuration > ESP Timer (High Resolution Timer).
To conveniently check or modify Kconfig options for this example in a project configuration menu, run:
idf.py menuconfig
Build and Flash
Execute the following command to build the project, flash it to your development board, and run the monitor tool to view the serial output:
idf.py build flash monitor
This command can be reduced to idf.py flash monitor
.
If the above command fails, check the log on the serial monitor which usually provides information on the possible cause of the issue.
To exit the serial monitor, use Ctrl
+ ]
.
Example Output
If you see the following console output, your example should be running correctly:
...
I (294) example: Started timers, time since boot: 9662 us
periodic 500000 509644 1 0 0 0
one-shot 0 5009654 1 0 0 0
I (794) example: Periodic timer called, time since boot: 509694 us
I (1294) example: Periodic timer called, time since boot: 1009671 us
I (1794) example: Periodic timer called, time since boot: 1509671 us
I (2294) example: Periodic timer called, time since boot: 2009671 us
periodic 500000 2509644 1 4 0 542
one-shot 0 5009654 1 0 0 0
I (2794) example: Periodic timer called, time since boot: 2509671 us
I (3294) example: Periodic timer called, time since boot: 3009671 us
I (3794) example: Periodic timer called, time since boot: 3509671 us
I (4294) example: Periodic timer called, time since boot: 4009671 us
periodic 500000 4509644 1 8 0 1026
one-shot 0 5009654 1 0 0 0
I (4794) example: Periodic timer called, time since boot: 4509671 us
I (5294) example: Periodic timer called, time since boot: 5009669 us
I (5294) example: One-shot timer called, time since boot: 5009788 us
I (5294) example: Restarted periodic timer with 1s period, time since boot: 5012675 us
I (6294) example: Periodic timer called, time since boot: 6012692 us
periodic 1000000 7012666 2 11 0 1391
one-shot 0 0 1 1 0 11472
I (7294) example: Periodic timer called, time since boot: 7012692 us
I (8294) example: Periodic timer called, time since boot: 8012692 us
periodic 1000000 9012666 2 13 0 1639
one-shot 0 0 1 1 0 11472
I (9294) example: Periodic timer called, time since boot: 9012692 us
I (10294) example: Periodic timer called, time since boot: 10012692 us
I (10314) example: Entering light sleep for 0.5s, time since boot: 10024351 us
I (10314) example: Woke up from light sleep, time since boot: 10525143 us
...
Example Breakdown
The subsections below walk you through the important parts of the application example.
Creating Callback Functions
Timers are used to execute a callback function as a delayed action. So the callback functions periodic_timer_callback()
and oneshot_timer_callback()
are crucial parts of this application example.
Printing Timer Dumps
The function esp_timer_dump()
is used to print the timer dumps which can be useful for debugging purposes. For details, see ESP Timer API Reference > Debugging Timers.
To make the output of the dump function more detailed, this example's file sdkconfig.defaults
has the option CONFIG_ESP_TIMER_PROFILING
set (see Configure the Project).
Entering and Waking Up from Light Sleep
To demonstrate that timekeeping continues correctly after light sleep, the example briefly enters light sleep using esp_sleep_enable_timer_wakeup()
and esp_light_sleep_start()
.
During light sleep, the CPU is not running, so callbacks cannot be dispatched. On wakeup, the system attempts to execute all unhandled callbacks if any, then ESP Timer resumes its normal operation.
Troubleshooting
For any technical queries, please open an issue on GitHub.