I am using nrf52832 sdk14.2.0 to develop now, I want to realize the following function on the basis of PWM_driver example, output the following waveform on P0.22: 1ms high level, 100ms low level, 2ms high level, need to realize how? If you use 1ms as the base, then you need to write more than 100 data in pwm0_seq_values. Is there any good way?
Hi Jim,
Here is an example on how to implement this with the PWM driver. Instead of "writing more than 100 data in pwm0_seq_values" you can use the end_delay functionality. You can copy-paste this into the PWM driver example in the SDK to test it. When you press button 1 on the DK, the PWM waveform is started.
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/** @file
* @defgroup pwm_example_main main.c
* @{
* @ingroup pwm_example
*
* @brief PWM Example Application main file.
*
* This file contains the source code for a sample application using PWM.
*/
#include <stdio.h>
#include <string.h>
#include "nrf_drv_pwm.h"
#include "app_util_platform.h"
#include "app_error.h"
#include "boards.h"
#include "bsp.h"
#include "app_timer.h"
#include "nrf_drv_clock.h"
#include "nrf_log.h"
#include "nrf_log_ctrl.h"
#include "nrf_log_default_backends.h"
static nrf_drv_pwm_t m_pwm0 = NRF_DRV_PWM_INSTANCE(0);
#define PWM_PIN 22
static void pwm_init(void)
{
nrf_drv_pwm_config_t config =
{
// These are the common configuration options we use for all PWM
// instances.
.irq_priority = APP_IRQ_PRIORITY_LOWEST,
.count_mode = NRF_PWM_MODE_UP,
.step_mode = NRF_PWM_STEP_AUTO,
};
config.base_clock = NRF_PWM_CLK_1MHz;
config.top_value = 1000;
config.load_mode = NRF_PWM_LOAD_COMMON;
config.output_pins[0] = PWM_PIN;
config.output_pins[1] = NRF_DRV_PWM_PIN_NOT_USED;
config.output_pins[2] = NRF_DRV_PWM_PIN_NOT_USED;
config.output_pins[3] = NRF_DRV_PWM_PIN_NOT_USED;
APP_ERROR_CHECK(nrf_drv_pwm_init(&m_pwm0, &config, NULL));
}
static void start_pwm_demo()
{
// Sequence 0: 1ms high level, 100ms low level
static nrf_pwm_values_common_t seq0_values[] =
{
0x8000, 0,0x8000
};
nrf_pwm_sequence_t const pwm0_seq0 =
{
.values.p_common = seq0_values,
.length = NRF_PWM_VALUES_LENGTH(seq0_values),
.repeats = 0,
.end_delay = 100
};
// Sequence 1 : 2ms high, then low.
static nrf_pwm_values_common_t seq1_values[2] = {0,0};
nrf_pwm_sequence_t const pwm0_seq1 =
{
.values.p_common = seq1_values,
.length = NRF_PWM_VALUES_LENGTH(seq1_values),
.repeats = 0,
.end_delay = 0
};
(void)nrf_drv_pwm_complex_playback(&m_pwm0, &pwm0_seq0, &pwm0_seq1, 1,
NRF_DRV_PWM_FLAG_STOP);
}
static void bsp_evt_handler(bsp_event_t evt)
{
switch (evt)
{
// Button 1 on DK - start pwm demo
case BSP_EVENT_KEY_0:
start_pwm_demo();
break;
default:
return;
}
}
void app_error_fault_handler(uint32_t id, uint32_t pc, uint32_t info)
{
bsp_board_leds_on();
app_error_save_and_stop(id, pc, info);
}
static void init_bsp()
{
APP_ERROR_CHECK(nrf_drv_clock_init());
nrf_drv_clock_lfclk_request(NULL);
APP_ERROR_CHECK(app_timer_init());
APP_ERROR_CHECK(bsp_init(BSP_INIT_BUTTONS, bsp_evt_handler));
APP_ERROR_CHECK(bsp_buttons_enable());
}
int main(void)
{
APP_ERROR_CHECK(NRF_LOG_INIT(NULL));
NRF_LOG_DEFAULT_BACKENDS_INIT();
NRF_LOG_INFO("PWM example started.");
init_bsp();
bool accurate_HFCLK = true;
if(accurate_HFCLK)
{
// Start accurate HFCLK (XOSC)
NRF_CLOCK->TASKS_HFCLKSTART = 1;
while (NRF_CLOCK->EVENTS_HFCLKSTARTED == 0) ;
NRF_CLOCK->EVENTS_HFCLKSTARTED = 0;
}
pwm_init();
for (;;)
{
// Wait for an event.
__WFE();
// Clear the event register.
__SEV();
__WFE();
NRF_LOG_FLUSH();
}
}
/** @} */