MEMS pressure sensor by STMicroelectronics. FIFO Hardware digital filter as default.
Fork of LPS25H by
LPS25H.cpp
- Committer:
- kenjiArai
- Date:
- 2017-08-22
- Revision:
- 1:9db35e42ddbc
- Parent:
- 0:8fc511bd51af
- Child:
- 2:92691fd6cb75
File content as of revision 1:9db35e42ddbc:
/* * mbed library program * LPS25H MEMS pressure sensor: 260-1260 hPa absolute digital output barometer * made by STMicroelectronics * http://www.st-japan.co.jp/web/catalog/sense_power/FM89/SC1316/PF255230 * * Copyright (c) 2015,'17 Kenji Arai / JH1PJL * http://www.page.sannet.ne.jp/kenjia/index.html * http://mbed.org/users/kenjiArai/ * Created: Feburary 21st, 2015 * Revised: August 21st, 2017 */ #include "LPS25H.h" LPS25H::LPS25H (PinName p_sda, PinName p_scl, uint8_t addr) : _i2c_p(new I2C(p_sda, p_scl)), _i2c(*_i2c_p) { LPS25H_addr = addr; LPS25H_mode = FIFO_HW_FILTER; init(); } LPS25H::LPS25H (PinName p_sda, PinName p_scl, uint8_t addr, uint8_t mode) : _i2c_p(new I2C(p_sda, p_scl)), _i2c(*_i2c_p) { LPS25H_addr = addr; LPS25H_mode = mode; init(); } LPS25H::LPS25H (I2C& p_i2c, uint8_t addr) : _i2c(p_i2c) { LPS25H_addr = addr; LPS25H_mode = FIFO_HW_FILTER; init(); } LPS25H::LPS25H (I2C& p_i2c, uint8_t addr, uint8_t mode) : _i2c(p_i2c) { LPS25H_addr = addr; LPS25H_mode = mode; init(); } /////////////// Initialize //////////////////////////////// void LPS25H::init(void) { _i2c.frequency(100000); // Check acc is available of not dt[0] = LPS25H_WHO_AM_I; _i2c.write(LPS25H_addr, dt, 1, true); _i2c.read(LPS25H_addr, dt, 1, false); if (dt[0] == I_AM_LPS25H) { LPS25H_id = I_AM_LPS25H; LPS25H_ready = 1; } else { LPS25H_id = 0; LPS25H_ready = 0; return; // acc chip is NOT on I2C line then terminate } if (LPS25H_mode == FIFO_HW_FILTER){ // Hardware digital filter // AN4450 April 2014 Rev1 P20/26, // Filter enabling and suggested configuration dt[0] = LPS25H_RES_CONF; dt[1] = 0x05; _i2c.write(LPS25H_addr, dt, 2, false); dt[0] = LPS25H_FIFO_CTRL; dt[1] = 0xdf; _i2c.write(LPS25H_addr, dt, 2, false); dt[0] = LPS25H_CTRL_REG2; dt[1] = 0x40; _i2c.write(LPS25H_addr, dt, 2, false); dt[0] = LPS25H_CTRL_REG1; dt[1] = 0x90; _i2c.write(LPS25H_addr, dt, 2, false); } else { dt[0] = LPS25H_CTRL_REG2; dt[1] = 0x0; _i2c.write(LPS25H_addr, dt, 2, false); dt[0] = LPS25H_CTRL_REG1; dt[1] = CR_STD_SET; _i2c.write(LPS25H_addr, dt, 2, false); } } /////////////// Start conv. and gwt all data ////////////// void LPS25H::get(void) { if (LPS25H_ready == 0) { press = 0; temp = 0; return; } dt[0] = LPS25H_PRESS_POUT_XL | 0x80; _i2c.write(LPS25H_addr, dt, 1, true); _i2c.read(LPS25H_addr, dt, 3, false); press = dt[2] << 16 | dt[1] << 8 | dt[0]; dt[0] = LPS25H_TEMP_OUT_L | 0x80; _i2c.write(LPS25H_addr, dt, 1, true); _i2c.read(LPS25H_addr, dt, 2, false); temp = dt[1] << 8 | dt[0]; } /////////////// Read data from sensor ///////////////////// float LPS25H::pressure() { return (float)press / 4096; } /////////////// Read data from sensor ///////////////////// float LPS25H::temperature() { return (float)temp / 480 + 42.5; } /////////////// ID //////////////////////////////////////// uint8_t LPS25H::read_id() { dt[0] = LPS25H_WHO_AM_I; _i2c.write(LPS25H_addr, dt, 1, true); _i2c.read(LPS25H_addr, dt, 1, false); return (uint8_t)dt[0]; } /////////////// I2C Freq. ///////////////////////////////// void LPS25H::frequency(int hz) { _i2c.frequency(hz); } /////////////// General purpose R/W /////////////////////// uint8_t LPS25H::read_reg(uint8_t addr) { if (LPS25H_ready == 1) { dt[0] = addr; _i2c.write(LPS25H_addr, dt, 1, true); _i2c.read(LPS25H_addr, dt, 1, false); } else { dt[0] = 0xff; } return (uint8_t)dt[0]; } void LPS25H::write_reg(uint8_t addr, uint8_t data) { if (LPS25H_ready == 1) { dt[0] = addr; dt[1] = data; _i2c.write(LPS25H_addr, dt, 2, false); } }