Skip to content

BME680 sensor driver / API including example guide

Notifications You must be signed in to change notification settings

CaveMike/BME680_driver

Repository files navigation

CONTENTS OF THIS FILE

* Introduction
* Version
* Integration details
* Driver files information
* Supported sensor interface
* Simple Integration Example

INTRODUCTION

- This package contains the Bosch Sensortec MEMS BME680 sensor driver (sensor API)
- The sensor driver package includes below files
	* bme680.c
	* bme680.h
	* bme680_calculations.c
	* bme680_calculations.h
	* bme680_internal.h
	* sensor_api_common_types.h
	* BME680_SensorAPI_Optimization_Example_Guide_External.pdf		

VERSION

- Version of bme680 sensor driver is:
	* bme680.c                              - 2.0.0
	* bme680.h                              - 2.0.1
	* bme680_calculations.c                 - 2.0.0
	* bme680_calculations.h                 - 2.0.0
	* bme680_internal.h                     - 2.0.0
	* sensor_api_common_types.h             - 2.0.0
	* BME680_SensorAPI_Example_Guide.pdf    - 2.0.0

INTEGRATION DETAILS

- Integrate files bme680.c, bme680.h, bme680_calculations.c, bme680_calculations.h, bme680_internal.h,
	and sensor_api_common_types.h into your project.
	
- User has to refer bme680.h to refer the API calls for the integration.
	
- The BME680_SensorAPI_Example_Guide.pdf contains examples for API use cases.

DRIVER FILES INFORMATION

bme680.h
---------
	* This header file has the constant definitions, user data types and supported sensor driver calls declarations which is required by the user.

bme680.c
---------
	* This file contains the implementation for the sensor driver APIs.

bme680_calculations.h
----------------------
	* This header file has the internal function declaration for the sensor calculation.

bme680_calculations.c
----------------------
	* This file contains the implementation of the sensor calculations for sensor driver APIs.
	
bme680_internal.h
------------------
	* This header file has the register address definition, internal constant definitions.

sensor_api_common_types.h
--------------------------
	* This header file has the data type definition for different compiler platform.

SUPPORTED SENSOR INTERFACE

- This BME680 sensor driver supports SPI and I2C interfaces

Simple Integration Example

- A simple example for BME680 is given below. 
- Example meant for Single BME680 sensor in Force Mode with Temperature 
	Pressure, Humidity and Gas Enabled
- For further examples and details refer BME680_SensorAPI_Example_Guide.pdf 
- Please refer bme680.h to refer the API calls for the integration.

/* include bme680 main header */
#include "bme680.h"
/*!
* BME680_MAX_NO_OF_SENSOR = 2; defined in bme680.h file
* In order to interface only one sensor over SPI, user must change the value of
* BME680_MAX_NO_OF_SENSOR = 1
* Test setup: It has been assumed that “BME680 sensor_0” interfaced over SPI with
* Native chip select line
*/
/* BME680 sensor structure instance */
struct bme680_t bme680_sensor_no[BME680_MAX_NO_OF_SENSOR];
/* BME680 sensor’s compensated data structure instance */
struct bme680_comp_field_data compensate_data_sensor[BME680_MAX_NO_OF_SENSOR][3];
/* BME680 sensor’s uncompensated data structure instance */
struct bme680_uncomp_field_data uncompensated_data_of_sensor[BME680_MAX_NO_OF_SENSOR][3];
/* BME680 sensor’s configuration structure instance */
struct bme680_sens_conf set_conf_sensor[BME680_MAX_NO_OF_SENSOR];
/* BME680 sensor’s heater configuration structure instance */
struct bme680_heater_conf set_heatr_conf_sensor[BME680_MAX_NO_OF_SENSOR];

void main(void)
{
	unsigned int i = BME680_INIT_VALUE;
	enum bme680_return_type com_rslt = BME680_COMM_RES_ERROR;
	
	/* Do BME680 sensor structure instance initialization*/
	/* Sensor_0 interface over SPI with native chip select line */
	/* USER defined SPI bus read function */
	bme680_sensor_no[0].bme680_bus_read = BME680_SPI_bus_read_user;
	/* USER defined SPI bus write function */
	bme680_sensor_no[0].bme680_bus_write = BME680_SPI_bus_write_user;
	/* USER defined SPI burst read function */
	bme680_sensor_no[0].bme680_burst_read = BME680_SPI_bus_read_user;
	/* USER defined delay function */
	bme680_sensor_no[0].delay_msec = BME680_delay_msec_user;
	/* Mention communication interface */
	bme680_sensor_no[0].interface = BME680_SPI_INTERFACE;
	
	/* get chip id and calibration parameter */
	com_rslt = bme680_init(&bme680_sensor_no[0]);
	
	/* Do Sensor initialization */
	for (i=0;i<BME680_MAX_NO_OF_SENSOR;i  ) {
		/* Check Device-ID before next steps of sensor operations */
		if (BME680_CHIP_ID == bme680_sensor_no[i].chip_id) {
		/* Select sensor configuration parameters */
			set_conf_sensor[i].heatr_ctrl = BME680_HEATR_CTRL_ENABLE;
			set_conf_sensor[i].run_gas = BME680_RUN_GAS_ENABLE;
			set_conf_sensor[i].nb_conv = 0x00;
			set_conf_sensor[i].osrs_hum = BME680_OSRS_1X;
			set_conf_sensor[i].osrs_pres = BME680_OSRS_1X;
			set_conf_sensor[i].osrs_temp = BME680_OSRS_1X;
			
			/* activate sensor configuration */
			com_rslt  = bme680_set_sensor_config(&set_conf_sensor[i],
			&bme680_sensor_no[i]);
			
			/* Select Heater configuration parameters */
			set_heatr_conf_sensor[i].heater_temp[0] = 300;
			set_heatr_conf_sensor[i].heatr_idacv[0] = 1;
			set_heatr_conf_sensor[i].heatr_dur[0] = 137;
			set_heatr_conf_sensor[i].profile_cnt = 1;
			
			/* activate heater configuration */
			com_rslt  = bme680_set_gas_heater_config(&set_heatr_conf_sensor[i],
			&bme680_sensor_no[i]);
			
			/* Set power mode as forced mode */
			com_rslt  = bme680_set_power_mode(BME680_FORCED_MODE,&bme680_sensor_no[i]);
			
				if (BME680_COMM_RES_OK == com_rslt) {
					/*Get the uncompensated T P G H data*/
					bme680_get_uncomp_data(uncompensated_data_of_sensor[i], 1, BME680_ALL,
					&bme680_sensor_no[i]);
					
					/*Get the compensated T P G H data*/
					bme680_compensate_data(uncompensated_data_of_sensor[i],
					compensate_data_sensor[i], 1,
					BME680_ALL, &bme680_sensor_no[i]);
					
					/* put sensor into sleep mode explicitly */
					bme680_set_power_mode(BME680_SLEEP_MODE, &bme680_sensor_no[i]);
					
					/* call user define delay function(duration millisecond) */
					User_define_delay(100);
				}
			}
		}
}

About

BME680 sensor driver / API including example guide

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages