/** * The MIT License (MIT) * * Copyright (c) 2016 sheinz (https://github.com/sheinz) * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #ifndef __BMP280_H__ #define __BMP280_H__ #include #include #ifdef __cplusplus extern "C" { #endif /** * Uncomment to enable debug output. */ // #define BMP280_DEBUG /** * BMP280 or BME280 address is 0x77 if SDO pin is high, and is 0x76 if * SDO pin is low. */ #define BMP280_I2C_ADDRESS_0 0x76 #define BMP280_I2C_ADDRESS_1 0x77 #define BMP280_CHIP_ID 0x58 /* BMP280 has chip-id 0x58 */ #define BME280_CHIP_ID 0x60 /* BME280 has chip-id 0x60 */ /** * Mode of BMP280 module operation. * Forced - Measurement is initiated by user. * Normal - Continues measurement. */ typedef enum { BMP280_MODE_SLEEP = 0, BMP280_MODE_FORCED = 1, BMP280_MODE_NORMAL = 3 } BMP280_Mode; typedef enum { BMP280_FILTER_OFF = 0, BMP280_FILTER_2 = 1, BMP280_FILTER_4 = 2, BMP280_FILTER_8 = 3, BMP280_FILTER_16 = 4 } BMP280_Filter; /** * Pressure oversampling settings */ typedef enum { BMP280_SKIPPED = 0, /* no measurement */ BMP280_ULTRA_LOW_POWER = 1, /* oversampling x1 */ BMP280_LOW_POWER = 2, /* oversampling x2 */ BMP280_STANDARD = 3, /* oversampling x4 */ BMP280_HIGH_RES = 4, /* oversampling x8 */ BMP280_ULTRA_HIGH_RES = 5 /* oversampling x16 */ } BMP280_Oversampling; /** * Stand by time between measurements in normal mode */ typedef enum { BMP280_STANDBY_05 = 0, /* stand by time 0.5ms */ BMP280_STANDBY_62 = 1, /* stand by time 62.5ms */ BMP280_STANDBY_125 = 2, /* stand by time 125ms */ BMP280_STANDBY_250 = 3, /* stand by time 250ms */ BMP280_STANDBY_500 = 4, /* stand by time 500ms */ BMP280_STANDBY_1000 = 5, /* stand by time 1s */ BMP280_STANDBY_2000 = 6, /* stand by time 2s BMP280, 10ms BME280 */ BMP280_STANDBY_4000 = 7, /* stand by time 4s BMP280, 20ms BME280 */ } BMP280_StandbyTime; /** * Configuration parameters for BMP280 module. * Use function bmp280_init_default_params to use default configuration. */ typedef struct { BMP280_Mode mode; BMP280_Filter filter; BMP280_Oversampling oversampling_pressure; BMP280_Oversampling oversampling_temperature; BMP280_Oversampling oversampling_humidity; BMP280_StandbyTime standby; } bmp280_params_t; typedef struct { uint16_t dig_T1; int16_t dig_T2; int16_t dig_T3; uint16_t dig_P1; int16_t dig_P2; int16_t dig_P3; int16_t dig_P4; int16_t dig_P5; int16_t dig_P6; int16_t dig_P7; int16_t dig_P8; int16_t dig_P9; /* Humidity compensation for BME280 */ uint8_t dig_H1; int16_t dig_H2; uint8_t dig_H3; int16_t dig_H4; int16_t dig_H5; int8_t dig_H6; uint8_t i2c_addr; /* I2C address. */ uint8_t id; /* Chip ID */ } bmp280_t; /** * Initialize default parameters. * Default configuration: * mode: NORAML * filter: OFF * oversampling: x4 * standby time: 250ms */ void bmp280_init_default_params(bmp280_params_t *params); /** * Initialize BMP280 module, probes for the device, soft resets the device, * reads the calibration constants, and configures the device using the supplied * parameters. Returns true on success otherwise false. * * The I2C address is assumed to have been initialized in the dev, and * may be either BMP280_I2C_ADDRESS_0 or BMP280_I2C_ADDRESS_1. If the I2C * address is unknown then try initializing each in turn. * * This may be called again to soft reset the device and initialize it again. */ bool bmp280_init(bmp280_t *dev, bmp280_params_t *params); /** * Start measurement in forced mode. * The module remains in forced mode after this call. * Do not call this method in normal mode. */ bool bmp280_force_measurement(bmp280_t *dev); /** * Check if BMP280 is busy with measuring temperature/pressure. * Return true if BMP280 is busy. */ bool bmp280_is_measuring(bmp280_t *dev); /** * Read compensated temperature and pressure data: * * Temperature in degrees Celsius times 100. * * Pressure in Pascals in fixed point 24 bit integer 8 bit fraction format. * * Humidity is optional and only read for the BME280, in percent relative * humidity as a fixed point 22 bit interger and 10 bit fraction format. */ bool bmp280_read_fixed(bmp280_t *dev, int32_t *temperature, uint32_t *pressure, uint32_t *humidity); /** * Read compensated temperature and pressure data: * Temperature in degrees Celsius. * Pressure in Pascals. * Humidity is optional and only read for the BME280, in percent relative * humidity. */ bool bmp280_read_float(bmp280_t *dev, float *temperature, float *pressure, float *humidity); #ifdef __cplusplus } #endif #endif // __BMP280_H__