/* Copyright 2015 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ /* BMM150 magnetometer definition */ #ifndef __CROS_EC_MAG_BMM150_H #define __CROS_EC_MAG_BMM150_H #include "accelgyro.h" #include "mag_cal.h" #define BMM150_ADDR0_FLAGS 0x10 #define BMM150_ADDR1_FLAGS 0x11 #define BMM150_ADDR2_FLAGS 0x12 #define BMM150_ADDR3_FLAGS 0x13 #define BMM150_CHIP_ID 0x40 #define BMM150_CHIP_ID_MAJOR 0x32 #define BMM150_BASE_DATA 0x42 #define BMM150_INT_STATUS 0x4a #define BMM150_PWR_CTRL 0x4b #define BMM150_SRST (BIT(7) | BIT(1)) #define BMM150_PWR_ON BIT(0) #define BMM150_OP_CTRL 0x4c #define BMM150_OP_MODE_OFFSET 1 #define BMM150_OP_MODE_MASK 3 #define BMM150_OP_MODE_NORMAL 0x00 #define BMM150_OP_MODE_FORCED 0x01 #define BMM150_OP_MODE_SLEEP 0x03 #define BMM150_INT_CTRL 0x4d #define BMM150_REPXY 0x51 #define BMM150_LOW_POWER_nXY 3 #define BMM150_REGULAR_nXY 9 #define BMM150_ENHANCED_nXY 15 #define BMM150_HIGH_ACCURACY_nXY 47 #define BMM150_SPECIAL_nXY 75 #define BMM150_REPZ 0x52 #define BMM150_LOW_POWER_nZ 3 #define BMM150_REGULAR_nZ 15 #define BMM150_ENHANCED_nZ 27 #define BMM150_HIGH_ACCURACY_nZ 83 #define BMM150_SPECIAL_nZ 27 #define BMM150_REP(_preset, _axis) CONCAT4(BMM150_, _preset, _n, _axis) /* Hidden registers for RHALL calculation */ #define BMM150_REGA_DIG_X1 0x5d #define BMM150_REGA_DIG_Y1 0x5e #define BMM150_REGA_DIG_Z4_LSB 0x62 #define BMM150_REGA_DIG_Z4_MSB 0x63 #define BMM150_REGA_DIG_X2 0x64 #define BMM150_REGA_DIG_Y2 0x65 #define BMM150_REGA_DIG_Z2_LSB 0x68 #define BMM150_REGA_DIG_Z2_MSB 0x69 #define BMM150_REGA_DIG_Z1_LSB 0x6a #define BMM150_REGA_DIG_Z1_MSB 0x6b #define BMM150_REGA_DIG_XYZ1_LSB 0x6c #define BMM150_REGA_DIG_XYZ1_MSB 0x6d #define BMM150_REGA_DIG_Z3_LSB 0x6e #define BMM150_REGA_DIG_Z3_MSB 0x6f #define BMM150_REGA_DIG_XY2 0x70 #define BMM150_REGA_DIG_XY1 0x71 /* Overflow */ #define BMM150_FLIP_OVERFLOW_ADCVAL (-4096) #define BMM150_HALL_OVERFLOW_ADCVAL (-16384) #define BMM150_OVERFLOW_OUTPUT (0x8000) /* Min and Max sampling frequency in mHz */ #define BMM150_MAG_MIN_FREQ 781 /* * From Section 4.2.4, max frequency depends on the preset. * * Fmax ~= 1 / (145us * nXY + 500us * nZ + 980us) * * To be safe, declare only 75% of the value. */ #define __BMM150_MAG_MAX_FREQ(_preset) (750000000 / \ (145 * BMM150_REP(_preset, XY) + 500 * BMM150_REP(_preset, Z) + 980)) #if (__BMM150_MAG_MAX_FREQ(SPECIAL) > CONFIG_EC_MAX_SENSOR_FREQ_MILLIHZ) #error "EC too slow for magnetometer" #endif struct bmm150_comp_registers { /* Local copy of the compensation registers. */ int8_t dig1[2]; int8_t dig2[2]; uint16_t dig_z1; int16_t dig_z2; int16_t dig_z3; int16_t dig_z4; uint8_t dig_xy1; int8_t dig_xy2; uint16_t dig_xyz1; }; struct bmm150_private_data { /* lsm6dsm_data union requires cal be first element */ struct mag_cal_t cal; struct bmm150_comp_registers comp; }; #ifdef CONFIG_MAG_BMI_BMM150 #include "accelgyro_bmi_common.h" #define BMM150_COMP_REG(_s) \ (&BMI_GET_DATA(_s)->compass.comp) #define BMM150_CAL(_s) \ (&BMI_GET_DATA(_s)->compass.cal) /* * Behind a BMI, the BMM150 is in forced mode. Be sure to choose a frequency * compatible with BMI. */ #define BMM150_MAG_MAX_FREQ(_preset) \ BMI_REG_TO_ODR(BMI_ODR_TO_REG(__BMM150_MAG_MAX_FREQ(_preset))) #else #define BMM150_COMP_REG(_s) NULL #define BMM150_CAL(_s) NULL #define BMM150_MAG_MAX_FREQ(_preset) __BMM150_MAG_MAX_FREQ(_preset) #endif /* Specific initialization of BMM150 when behing BMI160 */ int bmm150_init(struct motion_sensor_t *s); /* Command to normalize and apply temperature compensation */ void bmm150_normalize(const struct motion_sensor_t *s, intv3_t v, uint8_t *data); int bmm150_set_offset(const struct motion_sensor_t *s, const intv3_t offset); int bmm150_get_offset(const struct motion_sensor_t *s, intv3_t offset); #endif /* __CROS_EC_MAG_BMM150_H */