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This software, with or without modification, must only be used with a * Nordic Semiconductor ASA integrated circuit. * * 5. Any software provided in binary form under this license must not be reverse * engineered, decompiled, modified and/or disassembled. * * THIS SOFTWARE IS PROVIDED BY NORDIC SEMICONDUCTOR ASA "AS IS" AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY, NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL NORDIC SEMICONDUCTOR ASA OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ /** @file * @defgroup nrf_lpcomp_example main.c * @{ * @ingroup nrf_lpcomp_example * @brief LPCOMP example application main file. * * This is an example low power comparator application. * The example requires that LPCOMP A,B inputs are connected with QENC A,B outputs and * LPCOMP LED output is connected with LPCOMP LED input. * * Example uses software quadrature encoder simulator QENC. * Quadrature encoder simulator uses one channel of GPIOTE module. * The state of the encoder changes on the inactive edge of the sampling clock generated by LED output. * * In a infinite loop QENC produces variable number of positive and negative pulses * synchronously with bursts of clock impulses generated by LPCOMP at LED output. * The pulses are counted by LPCOMP operating in a REPORT mode. * Pulses counted by LPCOMP are compared with pulses generated by QENC. * The tests stops if there is a difference between number of pulses counted and generated. * */ #include #include #include #include "nrf.h" #include "nrf_delay.h" #include "nrf_drv_lpcomp.h" #include "nrf_error.h" #include "app_error.h" #include "boards.h" #include "nrf_log.h" #include "nrf_log_ctrl.h" #include "nrf_log_default_backends.h" #define WAVE_ON_PIN_NUMBER 2 static volatile uint32_t voltage_falls_detected = 0; static volatile uint32_t voltage_falls_total = 0; /** * @brief LPCOMP event handler is called when LPCOMP detects voltage drop. * * This function is called from interrupt context so it is very important * to return quickly. Don't put busy loops or any other CPU intensive actions here. * It is also not allowed to call soft device functions from it (if LPCOMP IRQ * priority is set to APP_IRQ_PRIORITY_HIGH). */ static void lpcomp_event_handler(nrf_lpcomp_event_t event) { if (event == NRF_LPCOMP_EVENT_DOWN) { bsp_board_led_invert(BSP_BOARD_LED_0); // just change state of first LED voltage_falls_detected++; voltage_falls_total++; } } /** * @brief Print out detection statistics. */ static void print_statistics(void) { while (voltage_falls_detected) { voltage_falls_detected--; NRF_LOG_INFO("#%d fall detected", (int)voltage_falls_total); } } /** * @brief Initialize LPCOMP driver. */ static void lpcomp_init(void) { uint32_t err_code; nrf_drv_lpcomp_config_t config = NRF_DRV_LPCOMP_DEFAULT_CONFIG; config.input = NRF_LPCOMP_INPUT_2; // initialize LPCOMP driver, from this point LPCOMP will be active and provided // event handler will be executed when defined action is detected err_code = nrf_drv_lpcomp_init(&config, lpcomp_event_handler); APP_ERROR_CHECK(err_code); nrf_drv_lpcomp_enable(); } int main(void) { bsp_board_init(BSP_INIT_LEDS); nrf_gpio_cfg_output(WAVE_ON_PIN_NUMBER); // on this pin 2Hz wave will be generated #ifdef BSP_BUTTON_0 // configure pull-up on first button nrf_gpio_cfg_input(BSP_BUTTON_0, NRF_GPIO_PIN_PULLUP); #endif uint32_t err_code = NRF_LOG_INIT(NULL); APP_ERROR_CHECK(err_code); NRF_LOG_DEFAULT_BACKENDS_INIT(); lpcomp_init(); NRF_LOG_INFO("LPCOMP driver usage example started."); while (true) { print_statistics(); bsp_board_led_on(BSP_BOARD_LED_1); NRF_GPIO->OUTCLR = (1 << WAVE_ON_PIN_NUMBER); nrf_delay_ms(100); // generate 100 ms pulse on selected pin print_statistics(); bsp_board_led_off(BSP_BOARD_LED_1); NRF_GPIO->OUTSET = (1 << WAVE_ON_PIN_NUMBER); nrf_delay_ms(400); NRF_LOG_FLUSH(); } } /** @} */