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amiro-lld / include / MPR121 / v1 / alld_MPR121_v1.h @ 78cc79d4

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/*
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AMiRo-LLD is a compilation of low-level hardware drivers for the Autonomous Mini Robot (AMiRo) platform.
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Copyright (C) 2016..2019  Thomas Schöpping et al.
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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GNU Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with this program.  If not, see <http://www.gnu.org/licenses/>.
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*/
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/**
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 * @file    alld_MPR121_v1.h
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 * @brief   Touch Sensor macros and structures.
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 *
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 * @addtogroup lld_touch
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 * @{
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 */
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#ifndef AMIROLLD_MPR121_V1_H
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#define AMIROLLD_MPR121_V1_H
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#include <amiro-lld.h>
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#if (defined(AMIROLLD_CFG_MPR121) && (AMIROLLD_CFG_MPR121 == 1)) || defined(__DOXYGEN__)
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/******************************************************************************/
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/* CONSTANTS                                                                  */
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/******************************************************************************/
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/**
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 * @brief Maximum I2C frequency.
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 */
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#define MPR121_LLD_I2C_MAXFREQUENCY   400000
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/**
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 * @brief A falling edge indicates an interrupt.
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 */
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#define MPR121_LLD_INT_EDGE           APAL_GPIO_EDGE_FALLING
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/******************************************************************************/
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/* SETTINGS                                                                   */
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/******************************************************************************/
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/******************************************************************************/
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/* CHECKS                                                                     */
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/******************************************************************************/
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/******************************************************************************/
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/* DATA STRUCTURES AND TYPES                                                  */
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/******************************************************************************/
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/**
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 * @brief The MPR121 driver struct
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 */
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typedef struct {
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  apalI2CDriver_t* i2cd;        /**< @brief The I2C Driver */
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} MPR121Driver;
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enum {
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  MPR121_LLD_I2C_ADDR_FIXED   = 0x5Au,
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  MPR121_LLD_I2C_ADDR_VSS     = 0x00u,
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  MPR121_LLD_I2C_ADDR_VDD     = 0x01u,
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  MPR121_LLD_I2C_ADDR_SDA     = 0x04u,
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  MPR121_LLD_I2C_SOFTRESET    = 0x63,
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};
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/**
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 * @brief Registers of the mpr121.
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 */
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typedef enum {
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  MPR121_LLD_REGISTER_TOUCH_STATUS  = 0x00,
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  MPR121_LLD_REGISTER_OOR_STATUS    = 0x02,
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  MPR121_LLD_REGISTER_FILTERED_DATA = 0x04,
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  MPR121_LLD_REGISTER_BASELINE      = 0x1E,
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  MPR121_LLD_REGISTER_MHD_RISING    = 0x2B,
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  MPR121_LLD_REGISTER_NHD_RISING    = 0x2C,
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  MPR121_LLD_REGISTER_NCL_RISING    = 0x2D,
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  MPR121_LLD_REGISTER_FDL_RISING    = 0x2E,
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  MPR121_LLD_REGISTER_MHD_FALLING   = 0x2F,
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  MPR121_LLD_REGISTER_NHD_FALLING   = 0x30,
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  MPR121_LLD_REGISTER_NCL_FALLING   = 0x31,
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  MPR121_LLD_REGISTER_FDL_FALLING   = 0x32,
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  MPR121_LLD_REGISTER_NHD_TOUCHED   = 0x33,
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  MPR121_LLD_REGISTER_NCL_TOUCHED   = 0x34,
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  MPR121_LLD_REGISTER_FDL_TOUCHED   = 0x35,
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  MPR121_LLD_REGISTER_ELEPROX_MHD_RISING    = 0x36,
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  MPR121_LLD_REGISTER_ELEPROX_NHD_RISING    = 0x37,
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  MPR121_LLD_REGISTER_ELEPROX_NCL_RISING    = 0x38,
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  MPR121_LLD_REGISTER_ELEPROX_FDL_RISING    = 0x39,
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  MPR121_LLD_REGISTER_ELEPROX_MHD_FALLING   = 0x3A,
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  MPR121_LLD_REGISTER_ELEPROX_NHD_FALLING   = 0x3B,
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  MPR121_LLD_REGISTER_ELEPROX_NCL_FALLING   = 0x3C,
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  MPR121_LLD_REGISTER_ELEPROX_FDL_FALLING   = 0x3D,
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  MPR121_LLD_REGISTER_ELEPROX_NHD_TOUCHED   = 0x3E,
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  MPR121_LLD_REGISTER_ELEPROX_NCL_TOUCHED   = 0x3F,
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  MPR121_LLD_REGISTER_ELEPROX_FDL_TOUCHED   = 0x40,
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  MPR121_LLD_REGISTER_THRESHOLDS  = 0x41,
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  MPR121_LLD_REGISTER_DEBOUNCE    = 0x5B,
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  MPR121_LLD_REGISTER_CONFIG_1    = 0x5C,
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  MPR121_LLD_REGISTER_CONFIG_2    = 0x5D,
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  MPR121_LLD_REGISTER_CONFIG_ECR  = 0x5E,
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  MPR121_LLD_REGISTER_ELE_CURRENT = 0x5F,
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  MPR121_LLD_REGISTER_CHARGE_TIME = 0x6C,
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  MPR121_LLD_REGISTER_GPIO_CTRL_0         = 0x73,
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  MPR121_LLD_REGISTER_GPIO_CTRL_1         = 0x74,
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  MPR121_LLD_REGISTER_GPIO_DATA           = 0x75,
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  MPR121_LLD_REGISTER_GPIO_DIRECTION_CTRL = 0x76,
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  MPR121_LLD_REGISTER_GPIO_ENABLE         = 0x77,
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  MPR121_LLD_REGISTER_GPIO_DATA_SET       = 0x78,
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  MPR121_LLD_REGISTER_GPIO_DATA_CLEAR     = 0x79,
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  MPR121_LLD_REGISTER_GPIO_DATA_TOGGLE    = 0x7A,
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  MPR121_LLD_REGISTER_AUTOCFG_CTRL_0       = 0x7B,
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  MPR121_LLD_REGISTER_AUTOCFG_CTRL_1       = 0x7C,
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  MPR121_LLD_REGISTER_AUTOCFG_USL          = 0x7D,
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  MPR121_LLD_REGISTER_AUTOCFG_LSL          = 0x7E,
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  MPR121_LLD_REGISTER_AUTOCFG_TARGET_LEVEL = 0x7F,
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  MPR121_LLD_REGISTER_SOFT_RESET           = 0x80
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} mpr121_lld_register_t;
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/**
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 * @brief Configuration data type.
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 */
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typedef union {
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  uint8_t values[8];
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  struct {
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    uint8_t auto_config_1;
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    uint8_t auto_config_2;
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    uint8_t up_side_limit;
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    uint8_t low_side_limit;
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    uint8_t target_level;
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    uint8_t config_1;
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    uint8_t config_2;
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    uint8_t ele_config;
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  } registers;
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} mpr121_lld_config_t;
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/**
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 * €brief Configutation register 1 masks.
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 */
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typedef enum {
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  MPR121_LLD_FFI_6     = 0x00u,
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  MPR121_LLD_FFI_10    = 0x40u,
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  MPR121_LLD_FFI_18    = 0x80u,
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  MPR121_LLD_FFI_34    = 0xC0u,
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} mpr121_lld_config1_t;
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/**
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 * @brief Configuration register 2 masks.
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 */
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typedef enum {
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  MPR121_LLD_CDT_OFF   = 0x00u,
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  MPR121_LLD_CDT_0_5   = 0x20u,
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  MPR121_LLD_CDT_1     = 0x40u,
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  MPR121_LLD_CDT_2     = 0x60u,
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  MPR121_LLD_CDT_4     = 0x80u,
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  MPR121_LLD_CDT_8     = 0xA0u,
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  MPR121_LLD_CDT_16    = 0xC0u,
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  MPR121_LLD_CDT_32    = 0xE0u,
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  MPR121_LLD_SFI_4     = 0x00u,
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  MPR121_LLD_SFI_6     = 0x08u,
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  MPR121_LLD_SFI_10    = 0x10u,
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  MPR121_LLD_SFI_18    = 0x18u,
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  MPR121_LLD_ESI_1     = 0x00u,
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  MPR121_LLD_ESI_2     = 0x01u,
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  MPR121_LLD_ESI_4     = 0x02u,
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  MPR121_LLD_ESI_8     = 0x03u,
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  MPR121_LLD_ESI_16    = 0x04u,
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  MPR121_LLD_ESI_32    = 0x05u,
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  MPR121_LLD_ESI_64    = 0x06u,
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  MPR121_LLD_ESI_128   = 0x07u,
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} mpr121_lld_config2_t;
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/**
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 * @brief Ele configuration register masks.
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 */
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typedef enum {
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  MPR121_LLD_CL_ON_CURRENT  = 0x00u,
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  MPR121_LLD_CL_OFF         = 0x40u,
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  MPR121_LLD_CL_ON_HIGH5    = 0x80u,
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  MPR121_LLD_CL_ON_ALL      = 0xC0u,
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  MPR121_LLD_ELEPROX_0      = 0x00u,
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  MPR121_LLD_ELEPROX_2      = 0x10u,
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  MPR121_LLD_ELEPROX_4      = 0x20u,
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  MPR121_LLD_ELEPROX_12     = 0x30u,
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} mpr121_lld_ele_config_t;
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/**
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 * @brief Auto configuration register 0 masks.
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 */
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typedef enum {
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  MPR121_LLD_AC_ENABLE      = 0x01u,
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  MPR121_LLD_AC_RECONF_EN   = 0x02u,
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  MPR121_LLD_BVA_ON_CURRENT = 0x00u,
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  MPR121_LLD_BVA_OFF        = 0x04u,
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  MPR121_LLD_BVA_ON_HIGH5   = 0x08u,
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  MPR121_LLD_BVA_ON_ALL     = 0x0Cu,
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  MPR121_LLD_RETRY_OFF      = 0x00u,
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  MPR121_LLD_RETRY_2        = 0x10u,
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  MPR121_LLD_RETRY_4        = 0x20u,
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  MPR121_LLD_RETRY_8        = 0x30u,
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  /* skip FFI */
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} mpr121_lld_auto_config0_t;
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/**
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 * @brief Auto configuration register 1 masks.
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 */
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typedef enum {
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  MPR121_LLD_AC_FAIL_INT_EN         = 0x01u,
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  MPR121_LLD_AC_RECONF_FAIL_INT_EN  = 0x02u,
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  MPR121_LLD_AC_OUT_OF_RANGE_INT_EN = 0x04u,
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  MPR121_LLD_AC_SKIP_CHRG_TIME_SRCH = 0x80u,
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} mpr121_lld_auto_config1_t;
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/******************************************************************************/
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/* MACROS                                                                     */
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/******************************************************************************/
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/******************************************************************************/
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/* EXTERN DECLARATIONS                                                        */
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/******************************************************************************/
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#ifdef __cplusplus
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extern "C" {
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#endif
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  apalExitStatus_t mpr121_lld_read_register(const MPR121Driver* const mprd, const mpr121_lld_register_t regaddr, const uint8_t offset, const uint8_t size, uint8_t* const data, const apalTime_t timeout);
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  apalExitStatus_t mpr121_lld_write_register(const MPR121Driver* const mprd, const mpr121_lld_register_t regaddr, const uint8_t offset, const uint8_t size, const uint8_t* const data, const apalTime_t timeout);
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  apalExitStatus_t mpr121_lld_soft_reset(const MPR121Driver* const mprd, const apalTime_t timeout);
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  apalExitStatus_t mpr121_lld_read_filtered_data(const MPR121Driver* const mprd, const uint8_t index, const uint8_t num, uint16_t* const data, const apalTime_t timeout);
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  apalExitStatus_t mpr121_lld_read_baseline_data(const MPR121Driver* const mprd, const uint8_t index, const uint8_t num, uint8_t* const data, const apalTime_t timeout);
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  apalExitStatus_t mpr121_lld_read_electrode_data(const MPR121Driver* const mprd, const uint8_t index, const uint8_t num, uint8_t* const data, const apalTime_t timeout);
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  apalExitStatus_t mpr121_lld_write_config(const MPR121Driver* const mprd, const mpr121_lld_config_t cfg, const apalTime_t timeout);
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  apalExitStatus_t mpr121_lld_read_config(const MPR121Driver* const mprd, mpr121_lld_config_t* const cfg, const apalTime_t timeout);
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#ifdef __cplusplus
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}
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#endif
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/******************************************************************************/
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/* INLINE FUNCTIONS                                                           */
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/******************************************************************************/
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#endif /* defined(AMIROLLD_CFG_MPR121) && (AMIROLLD_CFG_MPR121 == 1) */
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#endif /* AMIROLLD_MPR121_V1_H */
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/** @} */