dec4a868d0
Also increase sampling frequency in ulp_adc example and update READMEs. Fixes https://github.com/espressif/esp-idf/issues/1108 |
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ULP Pulse Counting Example
This example demonstrates how to program the ULP coprocessor to count pulses on an IO while the main CPUs are either running some other code or are in deep sleep. See the README.md file in the upper level 'examples' directory for more information about examples.
ULP program written in assembly can be found in ulp/pulse_cnt.S
. The build system assembles and links this program, converts it into binary format, and embeds it into the .rodata section of the ESP-IDF application.
At runtime, the main code running on the ESP32 (found in main.c) loads ULP program into the RTC_SLOW_MEM
memory region using ulp_load_binary
function. Main code configures the ULP program by setting up values of some variables and then starts it using ulp_run
. Once the ULP program is started, it runs periodically, with the period set by the main program. The main program enables ULP wakeup source and puts the chip into deep sleep mode.
When the ULP program finds an edge in the input signal, it performs debouncing and increments the variable maintaining the total edge count. Once the edge count reaches certain value (set by the main program), ULP triggers wake up from deep sleep. Note that the ULP program keeps running and monitoring the input signal even when the SoC is woken up.
Upon wakeup, the main program saves total edge count into NVS and returns to deep sleep.
In this example the input signal is connected to GPIO0. Note that this pin was chosen because most development boards have a button connected to it, so the pulses to be counted can be generated by pressing the button. For real world applications this is not a good choice of a pin, because GPIO0 also acts as a bootstrapping pin. To change the pin number, check the ESP32 Chip Pin List document and adjust gpio_num
and ulp_io_number
variables in main.c.
Example output
Note: GPIO15 is connected to GND to disable ROM bootloader output.
Not ULP wakeup, initializing ULP
Entering deep sleep
ULP wakeup, saving pulse count
Read pulse count from NVS: 384
Pulse count from ULP: 5
Wrote updated pulse count to NVS: 389
Entering deep sleep
ULP wakeup, saving pulse count
Read pulse count from NVS: 389
Pulse count from ULP: 5
Wrote updated pulse count to NVS: 394
Entering deep sleep
ULP wakeup, saving pulse count
Read pulse count from NVS: 394
Pulse count from ULP: 6
Wrote updated pulse count to NVS: 400
Entering deep sleep
ULP wakeup, saving pulse count
Read pulse count from NVS: 400
Pulse count from ULP: 5
Wrote updated pulse count to NVS: 405
Entering deep sleep
Note that in one case the pulse count captured by the ULP program is 6, even though the edge_count_to_wake_up
variable is set to 10 by the main program. This shows that the ULP program keeps track of pulses while the main CPUs are starting up, so when pulses are sent rapidly it is possible to register more pulses between wake up and entry into app_main.
With the default configuration (20ms ULP wakeup period), average current consumption in deep sleep mode is 16uA.