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esp-open-rtos/examples/lis3mdl/lis3mdl_example.c
Gunar Schorcht 812794f7d9 LIS3MDL 3-axes magnetometer driver added (#547)
2018-01-20 17:00:35 +05:00

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/**
* Simple example with one sensor connected to I2C or SPI. It demonstrates the
* different approaches to fetch the data. Either one of the interrupt signals
* is used or new data are fetched periodically.
*
* Harware configuration:
*
* I2C
*
* +-----------------+ +----------+
* | ESP8266 / ESP32 | | LIS3MDL |
* | | | |
* | GPIO 14 (SCL) ----> SCL |
* | GPIO 13 (SDA) <---> SDA |
* | GPIO 5 <---- INT |
* | GPIO 4 <---- DRDY |
* +-----------------+ +----------+
*
* SPI
*
* +-----------------+ +----------+ +-----------------+ +----------+
* | ESP8266 | | LIS3MDL | | ESP32 | | LIS3MDL |
* | | | | | | | |
* | GPIO 14 (SCK) ----> SCK | | GPIO 16 (SCK) ----> SCK |
* | GPIO 13 (MOSI)----> SDI | | GPIO 17 (MOSI)----> SDI |
* | GPIO 12 (MISO)<---- SDO | | GPIO 18 (MISO)<---- SDO |
* | GPIO 2 (CS) ----> CS | | GPIO 19 (CS) ----> CS |
* | GPIO 5 <---- INT | | GPIO 5 <---- INT |
* | GPIO 4 <---- DRDY | | GPIO 4 <---- DRDY |
* +-----------------+ +---------+ +-----------------+ +----------+
*/
/* -- use following constants to define the example mode ----------- */
// #define SPI_USED // if defined SPI is used, otherwise I2C
// #define INT_DATA // data ready interrupt used
// #define INT_THRESH // threshold interrupt used
#if defined(INT_DATA) || defined(INT_THRESH)
#define INT_USED
#endif
/* -- includes ----------------------------------------------------- */
#include "lis3mdl.h"
/** -- platform dependent definitions ------------------------------ */
#ifdef ESP_PLATFORM // ESP32 (ESP-IDF)
// user task stack depth for ESP32
#define TASK_STACK_DEPTH 2048
// SPI interface definitions for ESP32
#define SPI_BUS HSPI_HOST
#define SPI_SCK_GPIO 16
#define SPI_MOSI_GPIO 17
#define SPI_MISO_GPIO 18
#define SPI_CS_GPIO 19
#else // ESP8266 (esp-open-rtos)
// user task stack depth for ESP8266
#define TASK_STACK_DEPTH 256
// SPI interface definitions for ESP8266
#define SPI_BUS 1
#define SPI_SCK_GPIO 14
#define SPI_MOSI_GPIO 13
#define SPI_MISO_GPIO 12
#define SPI_CS_GPIO 2 // GPIO 15, the default CS of SPI bus 1, can't be used
#endif // ESP_PLATFORM
// I2C interface defintions for ESP32 and ESP8266
#define I2C_BUS 0
#define I2C_SCL_PIN 14
#define I2C_SDA_PIN 13
#define I2C_FREQ I2C_FREQ_100K
// interrupt GPIOs defintions for ESP8266 and ESP32
#define PIN_INT 5
#define PIN_DRDY 4
/* -- user tasks --------------------------------------------------- */
static lis3mdl_sensor_t* sensor;
/**
* Common function used to get sensor data.
*/
void read_data ()
{
lis3mdl_float_data_t data;
if (lis3mdl_new_data (sensor) &&
lis3mdl_get_float_data (sensor, &data))
// max. full scale is +-16 g and best resolution is 1 mg, i.e. 5 digits
printf("%.3f LIS3MDL (xyz)[Gs] mx=%+7.3f my=%+7.3f mz=%+7.3f\n",
(double)sdk_system_get_time()*1e-3,
data.mx, data.my, data.mz);
}
#ifdef INT_USED
/**
* In this case, any of the possible interrupts on interrupt signal *INT1* is
* used to fetch the data.
*
* When interrupts are used, the user has to define interrupt handlers that
* either fetches the data directly or triggers a task which is waiting to
* fetch the data. In this example, the interrupt handler sends an event to
* a waiting task to trigger the data gathering.
*/
static QueueHandle_t gpio_evt_queue = NULL;
// User task that fetches the sensor values.
void user_task_interrupt (void *pvParameters)
{
uint8_t gpio_num;
while (1)
if (xQueueReceive(gpio_evt_queue, &gpio_num, portMAX_DELAY))
{
if (gpio_num == PIN_DRDY)
{
read_data ();
}
else if (gpio_num == PIN_INT)
{
lis3mdl_int_source_t int_src;
// get the source of the interrupt and reset INT signals
lis3mdl_get_int_source (sensor, &int_src);
// in case of DRDY interrupt or activity interrupt read one data sample
if (int_src.active)
read_data ();
}
}
}
// Interrupt handler which resumes user_task_interrupt on interrupt
void IRAM int_signal_handler (uint8_t gpio)
{
// send an event with GPIO to the interrupt user task
xQueueSendFromISR(gpio_evt_queue, &gpio, NULL);
}
#else // !INT_USED
/*
* In this example, user task fetches the sensor values every seconds.
*/
void user_task_periodic(void *pvParameters)
{
vTaskDelay (100/portTICK_PERIOD_MS);
while (1)
{
// read sensor data
read_data ();
// passive waiting until 1 second is over
vTaskDelay(100/portTICK_PERIOD_MS);
}
}
#endif // INT_USED
/* -- main program ------------------------------------------------- */
void user_init(void)
{
// Set UART Parameter.
uart_set_baud(0, 115200);
// Give the UART some time to settle
vTaskDelay(1);
/** -- MANDATORY PART -- */
#ifdef SPI_USED
// init the sensor connnected to SPI
spi_bus_init (SPI_BUS, SPI_SCK_GPIO, SPI_MISO_GPIO, SPI_MOSI_GPIO);
// init the sensor connected to SPI_BUS with SPI_CS_GPIO as chip select.
sensor = lis3mdl_init_sensor (SPI_BUS, 0, SPI_CS_GPIO);
#else
// init all I2C bus interfaces at which LIS3MDL sensors are connected
i2c_init (I2C_BUS, I2C_SCL_PIN, I2C_SDA_PIN, I2C_FREQ);
// init the sensor with slave address LIS3MDL_I2C_ADDRESS_2 connected to I2C_BUS.
sensor = lis3mdl_init_sensor (I2C_BUS, LIS3MDL_I2C_ADDRESS_2, 0);
#endif
if (sensor)
{
#ifdef INT_USED
/** --- INTERRUPT CONFIGURATION PART ---- */
// Interrupt configuration has to be done before the sensor is set
// into measurement mode to avoid losing interrupts
// create an event queue to send interrupt events from interrupt
// handler to the interrupt task
gpio_evt_queue = xQueueCreate(10, sizeof(uint8_t));
// configure interupt pins for *INT* and *DRDY* signals and set the interrupt handler
gpio_enable(PIN_INT , GPIO_INPUT);
gpio_enable(PIN_DRDY, GPIO_INPUT);
gpio_set_interrupt(PIN_INT , GPIO_INTTYPE_EDGE_POS, int_signal_handler);
gpio_set_interrupt(PIN_DRDY, GPIO_INTTYPE_EDGE_POS, int_signal_handler);
#endif // !defined(INT_USED)
// -- SENSOR CONFIGURATION PART ---
// Interrupt configuration has to be done before the sensor is set
// into measurement mode
#ifdef INT_THRESH
// enable threshold interrupts on INT1
lis3mdl_int_config_t int_config;
int_config.threshold = 1000;
int_config.x_enabled = true;
int_config.y_enabled = true;
int_config.z_enabled = true;
int_config.latch = true;
int_config.signal_level= lis3mdl_high_active;
lis3mdl_set_int_config (sensor, &int_config);
#endif // INT_THRESH
// LAST STEP: Finally set scale and mode to start measurements
lis3mdl_set_scale(sensor, lis3mdl_scale_4_Gs);
lis3mdl_set_mode (sensor, lis3mdl_lpm_10);
/** -- TASK CREATION PART --- */
// must be done last to avoid concurrency situations with the sensor
// configuration part
#ifdef INT_USED
// create a task that is triggered only in case of interrupts to fetch the data
xTaskCreate(user_task_interrupt, "user_task_interrupt", TASK_STACK_DEPTH, NULL, 2, NULL);
#else // INT_USED
// create a user task that fetches data from sensor periodically
xTaskCreate(user_task_periodic, "user_task_periodic", TASK_STACK_DEPTH, NULL, 2, NULL);
#endif
}
else
printf("Could not initialize LIS3MDL sensor\n");
}
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