File content as of revision 104:b9ad9a133dc7:

/*
** ###################################################################
**     Compilers:           Keil ARM C/C++ Compiler
**                          Freescale C/C++ for Embedded ARM
**                          GNU C Compiler
**                          IAR ANSI C/C++ Compiler for ARM
**
**     Reference manual:    K64P144M120SF5RM, Rev.2, January 2014
**     Version:             rev. 2.5, 2014-02-10
**     Build:               b140604
**
**     Abstract:
**         Extension to the CMSIS register access layer header.
**
**     Copyright (c) 2014 Freescale Semiconductor, Inc.
**     All rights reserved.
**
**     Redistribution and use in source and binary forms, with or without modification,
**     are permitted provided that the following conditions are met:
**
**     o Redistributions of source code must retain the above copyright notice, this list
**       of conditions and the following disclaimer.
**
**     o Redistributions in binary form must reproduce the above copyright notice, this
**       list of conditions and the following disclaimer in the documentation and/or
**       other materials provided with the distribution.
**
**     o Neither the name of Freescale Semiconductor, Inc. nor the names of its
**       contributors may be used to endorse or promote products derived from this
**       software without specific prior written permission.
**
**     THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
**     ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
**     WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
**     DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
**     ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
**     (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
**     LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
**     ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
**     (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
**     SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**
**     http:                 www.freescale.com
**     mail:                 support@freescale.com
**
**     Revisions:
**     - rev. 1.0 (2013-08-12)
**         Initial version.
**     - rev. 2.0 (2013-10-29)
**         Register accessor macros added to the memory map.
**         Symbols for Processor Expert memory map compatibility added to the memory map.
**         Startup file for gcc has been updated according to CMSIS 3.2.
**         System initialization updated.
**         MCG - registers updated.
**         PORTA, PORTB, PORTC, PORTE - registers for digital filter removed.
**     - rev. 2.1 (2013-10-30)
**         Definition of BITBAND macros updated to support peripherals with 32-bit acces disabled.
**     - rev. 2.2 (2013-12-09)
**         DMA - EARS register removed.
**         AIPS0, AIPS1 - MPRA register updated.
**     - rev. 2.3 (2014-01-24)
**         Update according to reference manual rev. 2
**         ENET, MCG, MCM, SIM, USB - registers updated
**     - rev. 2.4 (2014-02-10)
**         The declaration of clock configurations has been moved to separate header file system_MK64F12.h
**         Update of SystemInit() and SystemCoreClockUpdate() functions.
**     - rev. 2.5 (2014-02-10)
**         The declaration of clock configurations has been moved to separate header file system_MK64F12.h
**         Update of SystemInit() and SystemCoreClockUpdate() functions.
**         Module access macro module_BASES replaced by module_BASE_PTRS.
**
** ###################################################################
*/

/*
 * WARNING! DO NOT EDIT THIS FILE DIRECTLY!
 *
 * This file was generated automatically and any changes may be lost.
 */
#ifndef __HW_ADC_REGISTERS_H__
#define __HW_ADC_REGISTERS_H__

#include "MK64F12.h"
#include "fsl_bitaccess.h"

/*
 * MK64F12 ADC
 *
 * Analog-to-Digital Converter
 *
 * Registers defined in this header file:
 * - HW_ADC_SC1n - ADC Status and Control Registers 1
 * - HW_ADC_CFG1 - ADC Configuration Register 1
 * - HW_ADC_CFG2 - ADC Configuration Register 2
 * - HW_ADC_Rn - ADC Data Result Register
 * - HW_ADC_CV1 - Compare Value Registers
 * - HW_ADC_CV2 - Compare Value Registers
 * - HW_ADC_SC2 - Status and Control Register 2
 * - HW_ADC_SC3 - Status and Control Register 3
 * - HW_ADC_OFS - ADC Offset Correction Register
 * - HW_ADC_PG - ADC Plus-Side Gain Register
 * - HW_ADC_MG - ADC Minus-Side Gain Register
 * - HW_ADC_CLPD - ADC Plus-Side General Calibration Value Register
 * - HW_ADC_CLPS - ADC Plus-Side General Calibration Value Register
 * - HW_ADC_CLP4 - ADC Plus-Side General Calibration Value Register
 * - HW_ADC_CLP3 - ADC Plus-Side General Calibration Value Register
 * - HW_ADC_CLP2 - ADC Plus-Side General Calibration Value Register
 * - HW_ADC_CLP1 - ADC Plus-Side General Calibration Value Register
 * - HW_ADC_CLP0 - ADC Plus-Side General Calibration Value Register
 * - HW_ADC_CLMD - ADC Minus-Side General Calibration Value Register
 * - HW_ADC_CLMS - ADC Minus-Side General Calibration Value Register
 * - HW_ADC_CLM4 - ADC Minus-Side General Calibration Value Register
 * - HW_ADC_CLM3 - ADC Minus-Side General Calibration Value Register
 * - HW_ADC_CLM2 - ADC Minus-Side General Calibration Value Register
 * - HW_ADC_CLM1 - ADC Minus-Side General Calibration Value Register
 * - HW_ADC_CLM0 - ADC Minus-Side General Calibration Value Register
 *
 * - hw_adc_t - Struct containing all module registers.
 */

#define HW_ADC_INSTANCE_COUNT (2U) /*!< Number of instances of the ADC module. */
#define HW_ADC0 (0U) /*!< Instance number for ADC0. */
#define HW_ADC1 (1U) /*!< Instance number for ADC1. */

/*******************************************************************************
 * HW_ADC_SC1n - ADC Status and Control Registers 1
 ******************************************************************************/

/*!
 * @brief HW_ADC_SC1n - ADC Status and Control Registers 1 (RW)
 *
 * Reset value: 0x0000001FU
 *
 * SC1A is used for both software and hardware trigger modes of operation. To
 * allow sequential conversions of the ADC to be triggered by internal peripherals,
 * the ADC can have more than one status and control register: one for each
 * conversion. The SC1B-SC1n registers indicate potentially multiple SC1 registers
 * for use only in hardware trigger mode. See the chip configuration information
 * about the number of SC1n registers specific to this device. The SC1n registers
 * have identical fields, and are used in a "ping-pong" approach to control ADC
 * operation. At any one point in time, only one of the SC1n registers is actively
 * controlling ADC conversions. Updating SC1A while SC1n is actively controlling
 * a conversion is allowed, and vice-versa for any of the SC1n registers specific
 * to this MCU. Writing SC1A while SC1A is actively controlling a conversion
 * aborts the current conversion. In Software Trigger mode, when SC2[ADTRG]=0,
 * writes to SC1A subsequently initiate a new conversion, if SC1[ADCH] contains a
 * value other than all 1s. Writing any of the SC1n registers while that specific
 * SC1n register is actively controlling a conversion aborts the current conversion.
 * None of the SC1B-SC1n registers are used for software trigger operation and
 * therefore writes to the SC1B-SC1n registers do not initiate a new conversion.
 */
typedef union _hw_adc_sc1n
{
    uint32_t U;
    struct _hw_adc_sc1n_bitfields
    {
        uint32_t ADCH : 5;             /*!< [4:0] Input channel select */
        uint32_t DIFF : 1;             /*!< [5] Differential Mode Enable */
        uint32_t AIEN : 1;             /*!< [6] Interrupt Enable */
        uint32_t COCO : 1;             /*!< [7] Conversion Complete Flag */
        uint32_t RESERVED0 : 24;       /*!< [31:8]  */
    } B;
} hw_adc_sc1n_t;

/*!
 * @name Constants and macros for entire ADC_SC1n register
 */
/*@{*/
#define HW_ADC_SC1n_COUNT (2U)

#define HW_ADC_SC1n_ADDR(x, n)   ((x) + 0x0U + (0x4U * (n)))

#define HW_ADC_SC1n(x, n)        (*(__IO hw_adc_sc1n_t *) HW_ADC_SC1n_ADDR(x, n))
#define HW_ADC_SC1n_RD(x, n)     (HW_ADC_SC1n(x, n).U)
#define HW_ADC_SC1n_WR(x, n, v)  (HW_ADC_SC1n(x, n).U = (v))
#define HW_ADC_SC1n_SET(x, n, v) (HW_ADC_SC1n_WR(x, n, HW_ADC_SC1n_RD(x, n) |  (v)))
#define HW_ADC_SC1n_CLR(x, n, v) (HW_ADC_SC1n_WR(x, n, HW_ADC_SC1n_RD(x, n) & ~(v)))
#define HW_ADC_SC1n_TOG(x, n, v) (HW_ADC_SC1n_WR(x, n, HW_ADC_SC1n_RD(x, n) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_SC1n bitfields
 */

/*!
 * @name Register ADC_SC1n, field ADCH[4:0] (RW)
 *
 * Selects one of the input channels. The input channel decode depends on the
 * value of DIFF. DAD0-DAD3 are associated with the input pin pairs DADPx and
 * DADMx. Some of the input channel options in the bitfield-setting descriptions might
 * not be available for your device. For the actual ADC channel assignments for
 * your device, see the Chip Configuration details. The successive approximation
 * converter subsystem is turned off when the channel select bits are all set,
 * that is, ADCH = 11111. This feature allows explicit disabling of the ADC and
 * isolation of the input channel from all sources. Terminating continuous
 * conversions this way prevents an additional single conversion from being performed. It
 * is not necessary to set ADCH to all 1s to place the ADC in a low-power state
 * when continuous conversions are not enabled because the module automatically
 * enters a low-power state when a conversion completes.
 *
 * Values:
 * - 00000 - When DIFF=0, DADP0 is selected as input; when DIFF=1, DAD0 is
 *     selected as input.
 * - 00001 - When DIFF=0, DADP1 is selected as input; when DIFF=1, DAD1 is
 *     selected as input.
 * - 00010 - When DIFF=0, DADP2 is selected as input; when DIFF=1, DAD2 is
 *     selected as input.
 * - 00011 - When DIFF=0, DADP3 is selected as input; when DIFF=1, DAD3 is
 *     selected as input.
 * - 00100 - When DIFF=0, AD4 is selected as input; when DIFF=1, it is reserved.
 * - 00101 - When DIFF=0, AD5 is selected as input; when DIFF=1, it is reserved.
 * - 00110 - When DIFF=0, AD6 is selected as input; when DIFF=1, it is reserved.
 * - 00111 - When DIFF=0, AD7 is selected as input; when DIFF=1, it is reserved.
 * - 01000 - When DIFF=0, AD8 is selected as input; when DIFF=1, it is reserved.
 * - 01001 - When DIFF=0, AD9 is selected as input; when DIFF=1, it is reserved.
 * - 01010 - When DIFF=0, AD10 is selected as input; when DIFF=1, it is reserved.
 * - 01011 - When DIFF=0, AD11 is selected as input; when DIFF=1, it is reserved.
 * - 01100 - When DIFF=0, AD12 is selected as input; when DIFF=1, it is reserved.
 * - 01101 - When DIFF=0, AD13 is selected as input; when DIFF=1, it is reserved.
 * - 01110 - When DIFF=0, AD14 is selected as input; when DIFF=1, it is reserved.
 * - 01111 - When DIFF=0, AD15 is selected as input; when DIFF=1, it is reserved.
 * - 10000 - When DIFF=0, AD16 is selected as input; when DIFF=1, it is reserved.
 * - 10001 - When DIFF=0, AD17 is selected as input; when DIFF=1, it is reserved.
 * - 10010 - When DIFF=0, AD18 is selected as input; when DIFF=1, it is reserved.
 * - 10011 - When DIFF=0, AD19 is selected as input; when DIFF=1, it is reserved.
 * - 10100 - When DIFF=0, AD20 is selected as input; when DIFF=1, it is reserved.
 * - 10101 - When DIFF=0, AD21 is selected as input; when DIFF=1, it is reserved.
 * - 10110 - When DIFF=0, AD22 is selected as input; when DIFF=1, it is reserved.
 * - 10111 - When DIFF=0, AD23 is selected as input; when DIFF=1, it is reserved.
 * - 11000 - Reserved.
 * - 11001 - Reserved.
 * - 11010 - When DIFF=0, Temp Sensor (single-ended) is selected as input; when
 *     DIFF=1, Temp Sensor (differential) is selected as input.
 * - 11011 - When DIFF=0, Bandgap (single-ended) is selected as input; when
 *     DIFF=1, Bandgap (differential) is selected as input.
 * - 11100 - Reserved.
 * - 11101 - When DIFF=0,VREFSH is selected as input; when DIFF=1, -VREFSH
 *     (differential) is selected as input. Voltage reference selected is determined
 *     by SC2[REFSEL].
 * - 11110 - When DIFF=0,VREFSL is selected as input; when DIFF=1, it is
 *     reserved. Voltage reference selected is determined by SC2[REFSEL].
 * - 11111 - Module is disabled.
 */
/*@{*/
#define BP_ADC_SC1n_ADCH     (0U)          /*!< Bit position for ADC_SC1n_ADCH. */
#define BM_ADC_SC1n_ADCH     (0x0000001FU) /*!< Bit mask for ADC_SC1n_ADCH. */
#define BS_ADC_SC1n_ADCH     (5U)          /*!< Bit field size in bits for ADC_SC1n_ADCH. */

/*! @brief Read current value of the ADC_SC1n_ADCH field. */
#define BR_ADC_SC1n_ADCH(x, n) (HW_ADC_SC1n(x, n).B.ADCH)

/*! @brief Format value for bitfield ADC_SC1n_ADCH. */
#define BF_ADC_SC1n_ADCH(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_SC1n_ADCH) & BM_ADC_SC1n_ADCH)

/*! @brief Set the ADCH field to a new value. */
#define BW_ADC_SC1n_ADCH(x, n, v) (HW_ADC_SC1n_WR(x, n, (HW_ADC_SC1n_RD(x, n) & ~BM_ADC_SC1n_ADCH) | BF_ADC_SC1n_ADCH(v)))
/*@}*/

/*!
 * @name Register ADC_SC1n, field DIFF[5] (RW)
 *
 * Configures the ADC to operate in differential mode. When enabled, this mode
 * automatically selects from the differential channels, and changes the
 * conversion algorithm and the number of cycles to complete a conversion.
 *
 * Values:
 * - 0 - Single-ended conversions and input channels are selected.
 * - 1 - Differential conversions and input channels are selected.
 */
/*@{*/
#define BP_ADC_SC1n_DIFF     (5U)          /*!< Bit position for ADC_SC1n_DIFF. */
#define BM_ADC_SC1n_DIFF     (0x00000020U) /*!< Bit mask for ADC_SC1n_DIFF. */
#define BS_ADC_SC1n_DIFF     (1U)          /*!< Bit field size in bits for ADC_SC1n_DIFF. */

/*! @brief Read current value of the ADC_SC1n_DIFF field. */
#define BR_ADC_SC1n_DIFF(x, n) (BITBAND_ACCESS32(HW_ADC_SC1n_ADDR(x, n), BP_ADC_SC1n_DIFF))

/*! @brief Format value for bitfield ADC_SC1n_DIFF. */
#define BF_ADC_SC1n_DIFF(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_SC1n_DIFF) & BM_ADC_SC1n_DIFF)

/*! @brief Set the DIFF field to a new value. */
#define BW_ADC_SC1n_DIFF(x, n, v) (BITBAND_ACCESS32(HW_ADC_SC1n_ADDR(x, n), BP_ADC_SC1n_DIFF) = (v))
/*@}*/

/*!
 * @name Register ADC_SC1n, field AIEN[6] (RW)
 *
 * Enables conversion complete interrupts. When COCO becomes set while the
 * respective AIEN is high, an interrupt is asserted.
 *
 * Values:
 * - 0 - Conversion complete interrupt is disabled.
 * - 1 - Conversion complete interrupt is enabled.
 */
/*@{*/
#define BP_ADC_SC1n_AIEN     (6U)          /*!< Bit position for ADC_SC1n_AIEN. */
#define BM_ADC_SC1n_AIEN     (0x00000040U) /*!< Bit mask for ADC_SC1n_AIEN. */
#define BS_ADC_SC1n_AIEN     (1U)          /*!< Bit field size in bits for ADC_SC1n_AIEN. */

/*! @brief Read current value of the ADC_SC1n_AIEN field. */
#define BR_ADC_SC1n_AIEN(x, n) (BITBAND_ACCESS32(HW_ADC_SC1n_ADDR(x, n), BP_ADC_SC1n_AIEN))

/*! @brief Format value for bitfield ADC_SC1n_AIEN. */
#define BF_ADC_SC1n_AIEN(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_SC1n_AIEN) & BM_ADC_SC1n_AIEN)

/*! @brief Set the AIEN field to a new value. */
#define BW_ADC_SC1n_AIEN(x, n, v) (BITBAND_ACCESS32(HW_ADC_SC1n_ADDR(x, n), BP_ADC_SC1n_AIEN) = (v))
/*@}*/

/*!
 * @name Register ADC_SC1n, field COCO[7] (RO)
 *
 * This is a read-only field that is set each time a conversion is completed
 * when the compare function is disabled, or SC2[ACFE]=0 and the hardware average
 * function is disabled, or SC3[AVGE]=0. When the compare function is enabled, or
 * SC2[ACFE]=1, COCO is set upon completion of a conversion only if the compare
 * result is true. When the hardware average function is enabled, or SC3[AVGE]=1,
 * COCO is set upon completion of the selected number of conversions (determined
 * by AVGS). COCO in SC1A is also set at the completion of a calibration sequence.
 * COCO is cleared when the respective SC1n register is written or when the
 * respective Rn register is read.
 *
 * Values:
 * - 0 - Conversion is not completed.
 * - 1 - Conversion is completed.
 */
/*@{*/
#define BP_ADC_SC1n_COCO     (7U)          /*!< Bit position for ADC_SC1n_COCO. */
#define BM_ADC_SC1n_COCO     (0x00000080U) /*!< Bit mask for ADC_SC1n_COCO. */
#define BS_ADC_SC1n_COCO     (1U)          /*!< Bit field size in bits for ADC_SC1n_COCO. */

/*! @brief Read current value of the ADC_SC1n_COCO field. */
#define BR_ADC_SC1n_COCO(x, n) (BITBAND_ACCESS32(HW_ADC_SC1n_ADDR(x, n), BP_ADC_SC1n_COCO))
/*@}*/

/*******************************************************************************
 * HW_ADC_CFG1 - ADC Configuration Register 1
 ******************************************************************************/

/*!
 * @brief HW_ADC_CFG1 - ADC Configuration Register 1 (RW)
 *
 * Reset value: 0x00000000U
 *
 * The configuration Register 1 (CFG1) selects the mode of operation, clock
 * source, clock divide, and configuration for low power or long sample time.
 */
typedef union _hw_adc_cfg1
{
    uint32_t U;
    struct _hw_adc_cfg1_bitfields
    {
        uint32_t ADICLK : 2;           /*!< [1:0] Input Clock Select */
        uint32_t MODE : 2;             /*!< [3:2] Conversion mode selection */
        uint32_t ADLSMP : 1;           /*!< [4] Sample Time Configuration */
        uint32_t ADIV : 2;             /*!< [6:5] Clock Divide Select */
        uint32_t ADLPC : 1;            /*!< [7] Low-Power Configuration */
        uint32_t RESERVED0 : 24;       /*!< [31:8]  */
    } B;
} hw_adc_cfg1_t;

/*!
 * @name Constants and macros for entire ADC_CFG1 register
 */
/*@{*/
#define HW_ADC_CFG1_ADDR(x)      ((x) + 0x8U)

#define HW_ADC_CFG1(x)           (*(__IO hw_adc_cfg1_t *) HW_ADC_CFG1_ADDR(x))
#define HW_ADC_CFG1_RD(x)        (HW_ADC_CFG1(x).U)
#define HW_ADC_CFG1_WR(x, v)     (HW_ADC_CFG1(x).U = (v))
#define HW_ADC_CFG1_SET(x, v)    (HW_ADC_CFG1_WR(x, HW_ADC_CFG1_RD(x) |  (v)))
#define HW_ADC_CFG1_CLR(x, v)    (HW_ADC_CFG1_WR(x, HW_ADC_CFG1_RD(x) & ~(v)))
#define HW_ADC_CFG1_TOG(x, v)    (HW_ADC_CFG1_WR(x, HW_ADC_CFG1_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CFG1 bitfields
 */

/*!
 * @name Register ADC_CFG1, field ADICLK[1:0] (RW)
 *
 * Selects the input clock source to generate the internal clock, ADCK. Note
 * that when the ADACK clock source is selected, it is not required to be active
 * prior to conversion start. When it is selected and it is not active prior to a
 * conversion start, when CFG2[ADACKEN]=0, the asynchronous clock is activated at
 * the start of a conversion and deactivated when conversions are terminated. In
 * this case, there is an associated clock startup delay each time the clock
 * source is re-activated.
 *
 * Values:
 * - 00 - Bus clock
 * - 01 - Alternate clock 2 (ALTCLK2)
 * - 10 - Alternate clock (ALTCLK)
 * - 11 - Asynchronous clock (ADACK)
 */
/*@{*/
#define BP_ADC_CFG1_ADICLK   (0U)          /*!< Bit position for ADC_CFG1_ADICLK. */
#define BM_ADC_CFG1_ADICLK   (0x00000003U) /*!< Bit mask for ADC_CFG1_ADICLK. */
#define BS_ADC_CFG1_ADICLK   (2U)          /*!< Bit field size in bits for ADC_CFG1_ADICLK. */

/*! @brief Read current value of the ADC_CFG1_ADICLK field. */
#define BR_ADC_CFG1_ADICLK(x) (HW_ADC_CFG1(x).B.ADICLK)

/*! @brief Format value for bitfield ADC_CFG1_ADICLK. */
#define BF_ADC_CFG1_ADICLK(v) ((uint32_t)((uint32_t)(v) << BP_ADC_CFG1_ADICLK) & BM_ADC_CFG1_ADICLK)

/*! @brief Set the ADICLK field to a new value. */
#define BW_ADC_CFG1_ADICLK(x, v) (HW_ADC_CFG1_WR(x, (HW_ADC_CFG1_RD(x) & ~BM_ADC_CFG1_ADICLK) | BF_ADC_CFG1_ADICLK(v)))
/*@}*/

/*!
 * @name Register ADC_CFG1, field MODE[3:2] (RW)
 *
 * Selects the ADC resolution mode.
 *
 * Values:
 * - 00 - When DIFF=0:It is single-ended 8-bit conversion; when DIFF=1, it is
 *     differential 9-bit conversion with 2's complement output.
 * - 01 - When DIFF=0:It is single-ended 12-bit conversion ; when DIFF=1, it is
 *     differential 13-bit conversion with 2's complement output.
 * - 10 - When DIFF=0:It is single-ended 10-bit conversion. ; when DIFF=1, it is
 *     differential 11-bit conversion with 2's complement output
 * - 11 - When DIFF=0:It is single-ended 16-bit conversion..; when DIFF=1, it is
 *     differential 16-bit conversion with 2's complement output
 */
/*@{*/
#define BP_ADC_CFG1_MODE     (2U)          /*!< Bit position for ADC_CFG1_MODE. */
#define BM_ADC_CFG1_MODE     (0x0000000CU) /*!< Bit mask for ADC_CFG1_MODE. */
#define BS_ADC_CFG1_MODE     (2U)          /*!< Bit field size in bits for ADC_CFG1_MODE. */

/*! @brief Read current value of the ADC_CFG1_MODE field. */
#define BR_ADC_CFG1_MODE(x)  (HW_ADC_CFG1(x).B.MODE)

/*! @brief Format value for bitfield ADC_CFG1_MODE. */
#define BF_ADC_CFG1_MODE(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CFG1_MODE) & BM_ADC_CFG1_MODE)

/*! @brief Set the MODE field to a new value. */
#define BW_ADC_CFG1_MODE(x, v) (HW_ADC_CFG1_WR(x, (HW_ADC_CFG1_RD(x) & ~BM_ADC_CFG1_MODE) | BF_ADC_CFG1_MODE(v)))
/*@}*/

/*!
 * @name Register ADC_CFG1, field ADLSMP[4] (RW)
 *
 * Selects between different sample times based on the conversion mode selected.
 * This field adjusts the sample period to allow higher impedance inputs to be
 * accurately sampled or to maximize conversion speed for lower impedance inputs.
 * Longer sample times can also be used to lower overall power consumption if
 * continuous conversions are enabled and high conversion rates are not required.
 * When ADLSMP=1, the long sample time select bits, (ADLSTS[1:0]), can select the
 * extent of the long sample time.
 *
 * Values:
 * - 0 - Short sample time.
 * - 1 - Long sample time.
 */
/*@{*/
#define BP_ADC_CFG1_ADLSMP   (4U)          /*!< Bit position for ADC_CFG1_ADLSMP. */
#define BM_ADC_CFG1_ADLSMP   (0x00000010U) /*!< Bit mask for ADC_CFG1_ADLSMP. */
#define BS_ADC_CFG1_ADLSMP   (1U)          /*!< Bit field size in bits for ADC_CFG1_ADLSMP. */

/*! @brief Read current value of the ADC_CFG1_ADLSMP field. */
#define BR_ADC_CFG1_ADLSMP(x) (BITBAND_ACCESS32(HW_ADC_CFG1_ADDR(x), BP_ADC_CFG1_ADLSMP))

/*! @brief Format value for bitfield ADC_CFG1_ADLSMP. */
#define BF_ADC_CFG1_ADLSMP(v) ((uint32_t)((uint32_t)(v) << BP_ADC_CFG1_ADLSMP) & BM_ADC_CFG1_ADLSMP)

/*! @brief Set the ADLSMP field to a new value. */
#define BW_ADC_CFG1_ADLSMP(x, v) (BITBAND_ACCESS32(HW_ADC_CFG1_ADDR(x), BP_ADC_CFG1_ADLSMP) = (v))
/*@}*/

/*!
 * @name Register ADC_CFG1, field ADIV[6:5] (RW)
 *
 * Selects the divide ratio used by the ADC to generate the internal clock ADCK.
 *
 * Values:
 * - 00 - The divide ratio is 1 and the clock rate is input clock.
 * - 01 - The divide ratio is 2 and the clock rate is (input clock)/2.
 * - 10 - The divide ratio is 4 and the clock rate is (input clock)/4.
 * - 11 - The divide ratio is 8 and the clock rate is (input clock)/8.
 */
/*@{*/
#define BP_ADC_CFG1_ADIV     (5U)          /*!< Bit position for ADC_CFG1_ADIV. */
#define BM_ADC_CFG1_ADIV     (0x00000060U) /*!< Bit mask for ADC_CFG1_ADIV. */
#define BS_ADC_CFG1_ADIV     (2U)          /*!< Bit field size in bits for ADC_CFG1_ADIV. */

/*! @brief Read current value of the ADC_CFG1_ADIV field. */
#define BR_ADC_CFG1_ADIV(x)  (HW_ADC_CFG1(x).B.ADIV)

/*! @brief Format value for bitfield ADC_CFG1_ADIV. */
#define BF_ADC_CFG1_ADIV(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CFG1_ADIV) & BM_ADC_CFG1_ADIV)

/*! @brief Set the ADIV field to a new value. */
#define BW_ADC_CFG1_ADIV(x, v) (HW_ADC_CFG1_WR(x, (HW_ADC_CFG1_RD(x) & ~BM_ADC_CFG1_ADIV) | BF_ADC_CFG1_ADIV(v)))
/*@}*/

/*!
 * @name Register ADC_CFG1, field ADLPC[7] (RW)
 *
 * Controls the power configuration of the successive approximation converter.
 * This optimizes power consumption when higher sample rates are not required.
 *
 * Values:
 * - 0 - Normal power configuration.
 * - 1 - Low-power configuration. The power is reduced at the expense of maximum
 *     clock speed.
 */
/*@{*/
#define BP_ADC_CFG1_ADLPC    (7U)          /*!< Bit position for ADC_CFG1_ADLPC. */
#define BM_ADC_CFG1_ADLPC    (0x00000080U) /*!< Bit mask for ADC_CFG1_ADLPC. */
#define BS_ADC_CFG1_ADLPC    (1U)          /*!< Bit field size in bits for ADC_CFG1_ADLPC. */

/*! @brief Read current value of the ADC_CFG1_ADLPC field. */
#define BR_ADC_CFG1_ADLPC(x) (BITBAND_ACCESS32(HW_ADC_CFG1_ADDR(x), BP_ADC_CFG1_ADLPC))

/*! @brief Format value for bitfield ADC_CFG1_ADLPC. */
#define BF_ADC_CFG1_ADLPC(v) ((uint32_t)((uint32_t)(v) << BP_ADC_CFG1_ADLPC) & BM_ADC_CFG1_ADLPC)

/*! @brief Set the ADLPC field to a new value. */
#define BW_ADC_CFG1_ADLPC(x, v) (BITBAND_ACCESS32(HW_ADC_CFG1_ADDR(x), BP_ADC_CFG1_ADLPC) = (v))
/*@}*/

/*******************************************************************************
 * HW_ADC_CFG2 - ADC Configuration Register 2
 ******************************************************************************/

/*!
 * @brief HW_ADC_CFG2 - ADC Configuration Register 2 (RW)
 *
 * Reset value: 0x00000000U
 *
 * Configuration Register 2 (CFG2) selects the special high-speed configuration
 * for very high speed conversions and selects the long sample time duration
 * during long sample mode.
 */
typedef union _hw_adc_cfg2
{
    uint32_t U;
    struct _hw_adc_cfg2_bitfields
    {
        uint32_t ADLSTS : 2;           /*!< [1:0] Long Sample Time Select */
        uint32_t ADHSC : 1;            /*!< [2] High-Speed Configuration */
        uint32_t ADACKEN : 1;          /*!< [3] Asynchronous Clock Output Enable */
        uint32_t MUXSEL : 1;           /*!< [4] ADC Mux Select */
        uint32_t RESERVED0 : 27;       /*!< [31:5]  */
    } B;
} hw_adc_cfg2_t;

/*!
 * @name Constants and macros for entire ADC_CFG2 register
 */
/*@{*/
#define HW_ADC_CFG2_ADDR(x)      ((x) + 0xCU)

#define HW_ADC_CFG2(x)           (*(__IO hw_adc_cfg2_t *) HW_ADC_CFG2_ADDR(x))
#define HW_ADC_CFG2_RD(x)        (HW_ADC_CFG2(x).U)
#define HW_ADC_CFG2_WR(x, v)     (HW_ADC_CFG2(x).U = (v))
#define HW_ADC_CFG2_SET(x, v)    (HW_ADC_CFG2_WR(x, HW_ADC_CFG2_RD(x) |  (v)))
#define HW_ADC_CFG2_CLR(x, v)    (HW_ADC_CFG2_WR(x, HW_ADC_CFG2_RD(x) & ~(v)))
#define HW_ADC_CFG2_TOG(x, v)    (HW_ADC_CFG2_WR(x, HW_ADC_CFG2_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CFG2 bitfields
 */

/*!
 * @name Register ADC_CFG2, field ADLSTS[1:0] (RW)
 *
 * Selects between the extended sample times when long sample time is selected,
 * that is, when CFG1[ADLSMP]=1. This allows higher impedance inputs to be
 * accurately sampled or to maximize conversion speed for lower impedance inputs.
 * Longer sample times can also be used to lower overall power consumption when
 * continuous conversions are enabled if high conversion rates are not required.
 *
 * Values:
 * - 00 - Default longest sample time; 20 extra ADCK cycles; 24 ADCK cycles
 *     total.
 * - 01 - 12 extra ADCK cycles; 16 ADCK cycles total sample time.
 * - 10 - 6 extra ADCK cycles; 10 ADCK cycles total sample time.
 * - 11 - 2 extra ADCK cycles; 6 ADCK cycles total sample time.
 */
/*@{*/
#define BP_ADC_CFG2_ADLSTS   (0U)          /*!< Bit position for ADC_CFG2_ADLSTS. */
#define BM_ADC_CFG2_ADLSTS   (0x00000003U) /*!< Bit mask for ADC_CFG2_ADLSTS. */
#define BS_ADC_CFG2_ADLSTS   (2U)          /*!< Bit field size in bits for ADC_CFG2_ADLSTS. */

/*! @brief Read current value of the ADC_CFG2_ADLSTS field. */
#define BR_ADC_CFG2_ADLSTS(x) (HW_ADC_CFG2(x).B.ADLSTS)

/*! @brief Format value for bitfield ADC_CFG2_ADLSTS. */
#define BF_ADC_CFG2_ADLSTS(v) ((uint32_t)((uint32_t)(v) << BP_ADC_CFG2_ADLSTS) & BM_ADC_CFG2_ADLSTS)

/*! @brief Set the ADLSTS field to a new value. */
#define BW_ADC_CFG2_ADLSTS(x, v) (HW_ADC_CFG2_WR(x, (HW_ADC_CFG2_RD(x) & ~BM_ADC_CFG2_ADLSTS) | BF_ADC_CFG2_ADLSTS(v)))
/*@}*/

/*!
 * @name Register ADC_CFG2, field ADHSC[2] (RW)
 *
 * Configures the ADC for very high-speed operation. The conversion sequence is
 * altered with 2 ADCK cycles added to the conversion time to allow higher speed
 * conversion clocks.
 *
 * Values:
 * - 0 - Normal conversion sequence selected.
 * - 1 - High-speed conversion sequence selected with 2 additional ADCK cycles
 *     to total conversion time.
 */
/*@{*/
#define BP_ADC_CFG2_ADHSC    (2U)          /*!< Bit position for ADC_CFG2_ADHSC. */
#define BM_ADC_CFG2_ADHSC    (0x00000004U) /*!< Bit mask for ADC_CFG2_ADHSC. */
#define BS_ADC_CFG2_ADHSC    (1U)          /*!< Bit field size in bits for ADC_CFG2_ADHSC. */

/*! @brief Read current value of the ADC_CFG2_ADHSC field. */
#define BR_ADC_CFG2_ADHSC(x) (BITBAND_ACCESS32(HW_ADC_CFG2_ADDR(x), BP_ADC_CFG2_ADHSC))

/*! @brief Format value for bitfield ADC_CFG2_ADHSC. */
#define BF_ADC_CFG2_ADHSC(v) ((uint32_t)((uint32_t)(v) << BP_ADC_CFG2_ADHSC) & BM_ADC_CFG2_ADHSC)

/*! @brief Set the ADHSC field to a new value. */
#define BW_ADC_CFG2_ADHSC(x, v) (BITBAND_ACCESS32(HW_ADC_CFG2_ADDR(x), BP_ADC_CFG2_ADHSC) = (v))
/*@}*/

/*!
 * @name Register ADC_CFG2, field ADACKEN[3] (RW)
 *
 * Enables the asynchronous clock source and the clock source output regardless
 * of the conversion and status of CFG1[ADICLK]. Based on MCU configuration, the
 * asynchronous clock may be used by other modules. See chip configuration
 * information. Setting this field allows the clock to be used even while the ADC is
 * idle or operating from a different clock source. Also, latency of initiating a
 * single or first-continuous conversion with the asynchronous clock selected is
 * reduced because the ADACK clock is already operational.
 *
 * Values:
 * - 0 - Asynchronous clock output disabled; Asynchronous clock is enabled only
 *     if selected by ADICLK and a conversion is active.
 * - 1 - Asynchronous clock and clock output is enabled regardless of the state
 *     of the ADC.
 */
/*@{*/
#define BP_ADC_CFG2_ADACKEN  (3U)          /*!< Bit position for ADC_CFG2_ADACKEN. */
#define BM_ADC_CFG2_ADACKEN  (0x00000008U) /*!< Bit mask for ADC_CFG2_ADACKEN. */
#define BS_ADC_CFG2_ADACKEN  (1U)          /*!< Bit field size in bits for ADC_CFG2_ADACKEN. */

/*! @brief Read current value of the ADC_CFG2_ADACKEN field. */
#define BR_ADC_CFG2_ADACKEN(x) (BITBAND_ACCESS32(HW_ADC_CFG2_ADDR(x), BP_ADC_CFG2_ADACKEN))

/*! @brief Format value for bitfield ADC_CFG2_ADACKEN. */
#define BF_ADC_CFG2_ADACKEN(v) ((uint32_t)((uint32_t)(v) << BP_ADC_CFG2_ADACKEN) & BM_ADC_CFG2_ADACKEN)

/*! @brief Set the ADACKEN field to a new value. */
#define BW_ADC_CFG2_ADACKEN(x, v) (BITBAND_ACCESS32(HW_ADC_CFG2_ADDR(x), BP_ADC_CFG2_ADACKEN) = (v))
/*@}*/

/*!
 * @name Register ADC_CFG2, field MUXSEL[4] (RW)
 *
 * Changes the ADC mux setting to select between alternate sets of ADC channels.
 *
 * Values:
 * - 0 - ADxxa channels are selected.
 * - 1 - ADxxb channels are selected.
 */
/*@{*/
#define BP_ADC_CFG2_MUXSEL   (4U)          /*!< Bit position for ADC_CFG2_MUXSEL. */
#define BM_ADC_CFG2_MUXSEL   (0x00000010U) /*!< Bit mask for ADC_CFG2_MUXSEL. */
#define BS_ADC_CFG2_MUXSEL   (1U)          /*!< Bit field size in bits for ADC_CFG2_MUXSEL. */

/*! @brief Read current value of the ADC_CFG2_MUXSEL field. */
#define BR_ADC_CFG2_MUXSEL(x) (BITBAND_ACCESS32(HW_ADC_CFG2_ADDR(x), BP_ADC_CFG2_MUXSEL))

/*! @brief Format value for bitfield ADC_CFG2_MUXSEL. */
#define BF_ADC_CFG2_MUXSEL(v) ((uint32_t)((uint32_t)(v) << BP_ADC_CFG2_MUXSEL) & BM_ADC_CFG2_MUXSEL)

/*! @brief Set the MUXSEL field to a new value. */
#define BW_ADC_CFG2_MUXSEL(x, v) (BITBAND_ACCESS32(HW_ADC_CFG2_ADDR(x), BP_ADC_CFG2_MUXSEL) = (v))
/*@}*/

/*******************************************************************************
 * HW_ADC_Rn - ADC Data Result Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_Rn - ADC Data Result Register (RO)
 *
 * Reset value: 0x00000000U
 *
 * The data result registers (Rn) contain the result of an ADC conversion of the
 * channel selected by the corresponding status and channel control register
 * (SC1A:SC1n). For every status and channel control register, there is a
 * corresponding data result register. Unused bits in R n are cleared in unsigned
 * right-aligned modes and carry the sign bit (MSB) in sign-extended 2's complement modes.
 * For example, when configured for 10-bit single-ended mode, D[15:10] are
 * cleared. When configured for 11-bit differential mode, D[15:10] carry the sign bit,
 * that is, bit 10 extended through bit 15. The following table describes the
 * behavior of the data result registers in the different modes of operation. Data
 * result register description Conversion mode D15 D14 D13 D12 D11 D10 D9 D8 D7
 * D6 D5 D4 D3 D2 D1 D0 Format 16-bit differential S D D D D D D D D D D D D D D D
 * Signed 2's complement 16-bit single-ended D D D D D D D D D D D D D D D D
 * Unsigned right justified 13-bit differential S S S S D D D D D D D D D D D D
 * Sign-extended 2's complement 12-bit single-ended 0 0 0 0 D D D D D D D D D D D D
 * Unsigned right-justified 11-bit differential S S S S S S D D D D D D D D D D
 * Sign-extended 2's complement 10-bit single-ended 0 0 0 0 0 0 D D D D D D D D D D
 * Unsigned right-justified 9-bit differential S S S S S S S S D D D D D D D D
 * Sign-extended 2's complement 8-bit single-ended 0 0 0 0 0 0 0 0 D D D D D D D D
 * Unsigned right-justified S: Sign bit or sign bit extension; D: Data, which is
 * 2's complement data if indicated
 */
typedef union _hw_adc_rn
{
    uint32_t U;
    struct _hw_adc_rn_bitfields
    {
        uint32_t D : 16;               /*!< [15:0] Data result */
        uint32_t RESERVED0 : 16;       /*!< [31:16]  */
    } B;
} hw_adc_rn_t;

/*!
 * @name Constants and macros for entire ADC_Rn register
 */
/*@{*/
#define HW_ADC_Rn_COUNT (2U)

#define HW_ADC_Rn_ADDR(x, n)     ((x) + 0x10U + (0x4U * (n)))

#define HW_ADC_Rn(x, n)          (*(__I hw_adc_rn_t *) HW_ADC_Rn_ADDR(x, n))
#define HW_ADC_Rn_RD(x, n)       (HW_ADC_Rn(x, n).U)
/*@}*/

/*
 * Constants & macros for individual ADC_Rn bitfields
 */

/*!
 * @name Register ADC_Rn, field D[15:0] (RO)
 */
/*@{*/
#define BP_ADC_Rn_D          (0U)          /*!< Bit position for ADC_Rn_D. */
#define BM_ADC_Rn_D          (0x0000FFFFU) /*!< Bit mask for ADC_Rn_D. */
#define BS_ADC_Rn_D          (16U)         /*!< Bit field size in bits for ADC_Rn_D. */

/*! @brief Read current value of the ADC_Rn_D field. */
#define BR_ADC_Rn_D(x, n)    (HW_ADC_Rn(x, n).B.D)
/*@}*/

/*******************************************************************************
 * HW_ADC_CV1 - Compare Value Registers
 ******************************************************************************/

/*!
 * @brief HW_ADC_CV1 - Compare Value Registers (RW)
 *
 * Reset value: 0x00000000U
 *
 * The Compare Value Registers (CV1 and CV2) contain a compare value used to
 * compare the conversion result when the compare function is enabled, that is,
 * SC2[ACFE]=1. This register is formatted in the same way as the Rn registers in
 * different modes of operation for both bit position definition and value format
 * using unsigned or sign-extended 2's complement. Therefore, the compare function
 * uses only the CVn fields that are related to the ADC mode of operation. The
 * compare value 2 register (CV2) is used only when the compare range function is
 * enabled, that is, SC2[ACREN]=1.
 */
typedef union _hw_adc_cv1
{
    uint32_t U;
    struct _hw_adc_cv1_bitfields
    {
        uint32_t CV : 16;              /*!< [15:0] Compare Value. */
        uint32_t RESERVED0 : 16;       /*!< [31:16]  */
    } B;
} hw_adc_cv1_t;

/*!
 * @name Constants and macros for entire ADC_CV1 register
 */
/*@{*/
#define HW_ADC_CV1_ADDR(x)       ((x) + 0x18U)

#define HW_ADC_CV1(x)            (*(__IO hw_adc_cv1_t *) HW_ADC_CV1_ADDR(x))
#define HW_ADC_CV1_RD(x)         (HW_ADC_CV1(x).U)
#define HW_ADC_CV1_WR(x, v)      (HW_ADC_CV1(x).U = (v))
#define HW_ADC_CV1_SET(x, v)     (HW_ADC_CV1_WR(x, HW_ADC_CV1_RD(x) |  (v)))
#define HW_ADC_CV1_CLR(x, v)     (HW_ADC_CV1_WR(x, HW_ADC_CV1_RD(x) & ~(v)))
#define HW_ADC_CV1_TOG(x, v)     (HW_ADC_CV1_WR(x, HW_ADC_CV1_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CV1 bitfields
 */

/*!
 * @name Register ADC_CV1, field CV[15:0] (RW)
 */
/*@{*/
#define BP_ADC_CV1_CV        (0U)          /*!< Bit position for ADC_CV1_CV. */
#define BM_ADC_CV1_CV        (0x0000FFFFU) /*!< Bit mask for ADC_CV1_CV. */
#define BS_ADC_CV1_CV        (16U)         /*!< Bit field size in bits for ADC_CV1_CV. */

/*! @brief Read current value of the ADC_CV1_CV field. */
#define BR_ADC_CV1_CV(x)     (HW_ADC_CV1(x).B.CV)

/*! @brief Format value for bitfield ADC_CV1_CV. */
#define BF_ADC_CV1_CV(v)     ((uint32_t)((uint32_t)(v) << BP_ADC_CV1_CV) & BM_ADC_CV1_CV)

/*! @brief Set the CV field to a new value. */
#define BW_ADC_CV1_CV(x, v)  (HW_ADC_CV1_WR(x, (HW_ADC_CV1_RD(x) & ~BM_ADC_CV1_CV) | BF_ADC_CV1_CV(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CV2 - Compare Value Registers
 ******************************************************************************/

/*!
 * @brief HW_ADC_CV2 - Compare Value Registers (RW)
 *
 * Reset value: 0x00000000U
 *
 * The Compare Value Registers (CV1 and CV2) contain a compare value used to
 * compare the conversion result when the compare function is enabled, that is,
 * SC2[ACFE]=1. This register is formatted in the same way as the Rn registers in
 * different modes of operation for both bit position definition and value format
 * using unsigned or sign-extended 2's complement. Therefore, the compare function
 * uses only the CVn fields that are related to the ADC mode of operation. The
 * compare value 2 register (CV2) is used only when the compare range function is
 * enabled, that is, SC2[ACREN]=1.
 */
typedef union _hw_adc_cv2
{
    uint32_t U;
    struct _hw_adc_cv2_bitfields
    {
        uint32_t CV : 16;              /*!< [15:0] Compare Value. */
        uint32_t RESERVED0 : 16;       /*!< [31:16]  */
    } B;
} hw_adc_cv2_t;

/*!
 * @name Constants and macros for entire ADC_CV2 register
 */
/*@{*/
#define HW_ADC_CV2_ADDR(x)       ((x) + 0x1CU)

#define HW_ADC_CV2(x)            (*(__IO hw_adc_cv2_t *) HW_ADC_CV2_ADDR(x))
#define HW_ADC_CV2_RD(x)         (HW_ADC_CV2(x).U)
#define HW_ADC_CV2_WR(x, v)      (HW_ADC_CV2(x).U = (v))
#define HW_ADC_CV2_SET(x, v)     (HW_ADC_CV2_WR(x, HW_ADC_CV2_RD(x) |  (v)))
#define HW_ADC_CV2_CLR(x, v)     (HW_ADC_CV2_WR(x, HW_ADC_CV2_RD(x) & ~(v)))
#define HW_ADC_CV2_TOG(x, v)     (HW_ADC_CV2_WR(x, HW_ADC_CV2_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CV2 bitfields
 */

/*!
 * @name Register ADC_CV2, field CV[15:0] (RW)
 */
/*@{*/
#define BP_ADC_CV2_CV        (0U)          /*!< Bit position for ADC_CV2_CV. */
#define BM_ADC_CV2_CV        (0x0000FFFFU) /*!< Bit mask for ADC_CV2_CV. */
#define BS_ADC_CV2_CV        (16U)         /*!< Bit field size in bits for ADC_CV2_CV. */

/*! @brief Read current value of the ADC_CV2_CV field. */
#define BR_ADC_CV2_CV(x)     (HW_ADC_CV2(x).B.CV)

/*! @brief Format value for bitfield ADC_CV2_CV. */
#define BF_ADC_CV2_CV(v)     ((uint32_t)((uint32_t)(v) << BP_ADC_CV2_CV) & BM_ADC_CV2_CV)

/*! @brief Set the CV field to a new value. */
#define BW_ADC_CV2_CV(x, v)  (HW_ADC_CV2_WR(x, (HW_ADC_CV2_RD(x) & ~BM_ADC_CV2_CV) | BF_ADC_CV2_CV(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_SC2 - Status and Control Register 2
 ******************************************************************************/

/*!
 * @brief HW_ADC_SC2 - Status and Control Register 2 (RW)
 *
 * Reset value: 0x00000000U
 *
 * The status and control register 2 (SC2) contains the conversion active,
 * hardware/software trigger select, compare function, and voltage reference select of
 * the ADC module.
 */
typedef union _hw_adc_sc2
{
    uint32_t U;
    struct _hw_adc_sc2_bitfields
    {
        uint32_t REFSEL : 2;           /*!< [1:0] Voltage Reference Selection */
        uint32_t DMAEN : 1;            /*!< [2] DMA Enable */
        uint32_t ACREN : 1;            /*!< [3] Compare Function Range Enable */
        uint32_t ACFGT : 1;            /*!< [4] Compare Function Greater Than Enable */
        uint32_t ACFE : 1;             /*!< [5] Compare Function Enable */
        uint32_t ADTRG : 1;            /*!< [6] Conversion Trigger Select */
        uint32_t ADACT : 1;            /*!< [7] Conversion Active */
        uint32_t RESERVED0 : 24;       /*!< [31:8]  */
    } B;
} hw_adc_sc2_t;

/*!
 * @name Constants and macros for entire ADC_SC2 register
 */
/*@{*/
#define HW_ADC_SC2_ADDR(x)       ((x) + 0x20U)

#define HW_ADC_SC2(x)            (*(__IO hw_adc_sc2_t *) HW_ADC_SC2_ADDR(x))
#define HW_ADC_SC2_RD(x)         (HW_ADC_SC2(x).U)
#define HW_ADC_SC2_WR(x, v)      (HW_ADC_SC2(x).U = (v))
#define HW_ADC_SC2_SET(x, v)     (HW_ADC_SC2_WR(x, HW_ADC_SC2_RD(x) |  (v)))
#define HW_ADC_SC2_CLR(x, v)     (HW_ADC_SC2_WR(x, HW_ADC_SC2_RD(x) & ~(v)))
#define HW_ADC_SC2_TOG(x, v)     (HW_ADC_SC2_WR(x, HW_ADC_SC2_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_SC2 bitfields
 */

/*!
 * @name Register ADC_SC2, field REFSEL[1:0] (RW)
 *
 * Selects the voltage reference source used for conversions.
 *
 * Values:
 * - 00 - Default voltage reference pin pair, that is, external pins VREFH and
 *     VREFL
 * - 01 - Alternate reference pair, that is, VALTH and VALTL . This pair may be
 *     additional external pins or internal sources depending on the MCU
 *     configuration. See the chip configuration information for details specific to this
 *     MCU
 * - 10 - Reserved
 * - 11 - Reserved
 */
/*@{*/
#define BP_ADC_SC2_REFSEL    (0U)          /*!< Bit position for ADC_SC2_REFSEL. */
#define BM_ADC_SC2_REFSEL    (0x00000003U) /*!< Bit mask for ADC_SC2_REFSEL. */
#define BS_ADC_SC2_REFSEL    (2U)          /*!< Bit field size in bits for ADC_SC2_REFSEL. */

/*! @brief Read current value of the ADC_SC2_REFSEL field. */
#define BR_ADC_SC2_REFSEL(x) (HW_ADC_SC2(x).B.REFSEL)

/*! @brief Format value for bitfield ADC_SC2_REFSEL. */
#define BF_ADC_SC2_REFSEL(v) ((uint32_t)((uint32_t)(v) << BP_ADC_SC2_REFSEL) & BM_ADC_SC2_REFSEL)

/*! @brief Set the REFSEL field to a new value. */
#define BW_ADC_SC2_REFSEL(x, v) (HW_ADC_SC2_WR(x, (HW_ADC_SC2_RD(x) & ~BM_ADC_SC2_REFSEL) | BF_ADC_SC2_REFSEL(v)))
/*@}*/

/*!
 * @name Register ADC_SC2, field DMAEN[2] (RW)
 *
 * Values:
 * - 0 - DMA is disabled.
 * - 1 - DMA is enabled and will assert the ADC DMA request during an ADC
 *     conversion complete event noted when any of the SC1n[COCO] flags is asserted.
 */
/*@{*/
#define BP_ADC_SC2_DMAEN     (2U)          /*!< Bit position for ADC_SC2_DMAEN. */
#define BM_ADC_SC2_DMAEN     (0x00000004U) /*!< Bit mask for ADC_SC2_DMAEN. */
#define BS_ADC_SC2_DMAEN     (1U)          /*!< Bit field size in bits for ADC_SC2_DMAEN. */

/*! @brief Read current value of the ADC_SC2_DMAEN field. */
#define BR_ADC_SC2_DMAEN(x)  (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_DMAEN))

/*! @brief Format value for bitfield ADC_SC2_DMAEN. */
#define BF_ADC_SC2_DMAEN(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_SC2_DMAEN) & BM_ADC_SC2_DMAEN)

/*! @brief Set the DMAEN field to a new value. */
#define BW_ADC_SC2_DMAEN(x, v) (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_DMAEN) = (v))
/*@}*/

/*!
 * @name Register ADC_SC2, field ACREN[3] (RW)
 *
 * Configures the compare function to check if the conversion result of the
 * input being monitored is either between or outside the range formed by CV1 and CV2
 * determined by the value of ACFGT. ACFE must be set for ACFGT to have any
 * effect.
 *
 * Values:
 * - 0 - Range function disabled. Only CV1 is compared.
 * - 1 - Range function enabled. Both CV1 and CV2 are compared.
 */
/*@{*/
#define BP_ADC_SC2_ACREN     (3U)          /*!< Bit position for ADC_SC2_ACREN. */
#define BM_ADC_SC2_ACREN     (0x00000008U) /*!< Bit mask for ADC_SC2_ACREN. */
#define BS_ADC_SC2_ACREN     (1U)          /*!< Bit field size in bits for ADC_SC2_ACREN. */

/*! @brief Read current value of the ADC_SC2_ACREN field. */
#define BR_ADC_SC2_ACREN(x)  (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_ACREN))

/*! @brief Format value for bitfield ADC_SC2_ACREN. */
#define BF_ADC_SC2_ACREN(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_SC2_ACREN) & BM_ADC_SC2_ACREN)

/*! @brief Set the ACREN field to a new value. */
#define BW_ADC_SC2_ACREN(x, v) (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_ACREN) = (v))
/*@}*/

/*!
 * @name Register ADC_SC2, field ACFGT[4] (RW)
 *
 * Configures the compare function to check the conversion result relative to
 * the CV1 and CV2 based upon the value of ACREN. ACFE must be set for ACFGT to
 * have any effect.
 *
 * Values:
 * - 0 - Configures less than threshold, outside range not inclusive and inside
 *     range not inclusive; functionality based on the values placed in CV1 and
 *     CV2.
 * - 1 - Configures greater than or equal to threshold, outside and inside
 *     ranges inclusive; functionality based on the values placed in CV1 and CV2.
 */
/*@{*/
#define BP_ADC_SC2_ACFGT     (4U)          /*!< Bit position for ADC_SC2_ACFGT. */
#define BM_ADC_SC2_ACFGT     (0x00000010U) /*!< Bit mask for ADC_SC2_ACFGT. */
#define BS_ADC_SC2_ACFGT     (1U)          /*!< Bit field size in bits for ADC_SC2_ACFGT. */

/*! @brief Read current value of the ADC_SC2_ACFGT field. */
#define BR_ADC_SC2_ACFGT(x)  (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_ACFGT))

/*! @brief Format value for bitfield ADC_SC2_ACFGT. */
#define BF_ADC_SC2_ACFGT(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_SC2_ACFGT) & BM_ADC_SC2_ACFGT)

/*! @brief Set the ACFGT field to a new value. */
#define BW_ADC_SC2_ACFGT(x, v) (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_ACFGT) = (v))
/*@}*/

/*!
 * @name Register ADC_SC2, field ACFE[5] (RW)
 *
 * Enables the compare function.
 *
 * Values:
 * - 0 - Compare function disabled.
 * - 1 - Compare function enabled.
 */
/*@{*/
#define BP_ADC_SC2_ACFE      (5U)          /*!< Bit position for ADC_SC2_ACFE. */
#define BM_ADC_SC2_ACFE      (0x00000020U) /*!< Bit mask for ADC_SC2_ACFE. */
#define BS_ADC_SC2_ACFE      (1U)          /*!< Bit field size in bits for ADC_SC2_ACFE. */

/*! @brief Read current value of the ADC_SC2_ACFE field. */
#define BR_ADC_SC2_ACFE(x)   (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_ACFE))

/*! @brief Format value for bitfield ADC_SC2_ACFE. */
#define BF_ADC_SC2_ACFE(v)   ((uint32_t)((uint32_t)(v) << BP_ADC_SC2_ACFE) & BM_ADC_SC2_ACFE)

/*! @brief Set the ACFE field to a new value. */
#define BW_ADC_SC2_ACFE(x, v) (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_ACFE) = (v))
/*@}*/

/*!
 * @name Register ADC_SC2, field ADTRG[6] (RW)
 *
 * Selects the type of trigger used for initiating a conversion. Two types of
 * trigger are selectable: Software trigger: When software trigger is selected, a
 * conversion is initiated following a write to SC1A. Hardware trigger: When
 * hardware trigger is selected, a conversion is initiated following the assertion of
 * the ADHWT input after a pulse of the ADHWTSn input.
 *
 * Values:
 * - 0 - Software trigger selected.
 * - 1 - Hardware trigger selected.
 */
/*@{*/
#define BP_ADC_SC2_ADTRG     (6U)          /*!< Bit position for ADC_SC2_ADTRG. */
#define BM_ADC_SC2_ADTRG     (0x00000040U) /*!< Bit mask for ADC_SC2_ADTRG. */
#define BS_ADC_SC2_ADTRG     (1U)          /*!< Bit field size in bits for ADC_SC2_ADTRG. */

/*! @brief Read current value of the ADC_SC2_ADTRG field. */
#define BR_ADC_SC2_ADTRG(x)  (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_ADTRG))

/*! @brief Format value for bitfield ADC_SC2_ADTRG. */
#define BF_ADC_SC2_ADTRG(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_SC2_ADTRG) & BM_ADC_SC2_ADTRG)

/*! @brief Set the ADTRG field to a new value. */
#define BW_ADC_SC2_ADTRG(x, v) (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_ADTRG) = (v))
/*@}*/

/*!
 * @name Register ADC_SC2, field ADACT[7] (RO)
 *
 * Indicates that a conversion or hardware averaging is in progress. ADACT is
 * set when a conversion is initiated and cleared when a conversion is completed or
 * aborted.
 *
 * Values:
 * - 0 - Conversion not in progress.
 * - 1 - Conversion in progress.
 */
/*@{*/
#define BP_ADC_SC2_ADACT     (7U)          /*!< Bit position for ADC_SC2_ADACT. */
#define BM_ADC_SC2_ADACT     (0x00000080U) /*!< Bit mask for ADC_SC2_ADACT. */
#define BS_ADC_SC2_ADACT     (1U)          /*!< Bit field size in bits for ADC_SC2_ADACT. */

/*! @brief Read current value of the ADC_SC2_ADACT field. */
#define BR_ADC_SC2_ADACT(x)  (BITBAND_ACCESS32(HW_ADC_SC2_ADDR(x), BP_ADC_SC2_ADACT))
/*@}*/

/*******************************************************************************
 * HW_ADC_SC3 - Status and Control Register 3
 ******************************************************************************/

/*!
 * @brief HW_ADC_SC3 - Status and Control Register 3 (RW)
 *
 * Reset value: 0x00000000U
 *
 * The Status and Control Register 3 (SC3) controls the calibration, continuous
 * convert, and hardware averaging functions of the ADC module.
 */
typedef union _hw_adc_sc3
{
    uint32_t U;
    struct _hw_adc_sc3_bitfields
    {
        uint32_t AVGS : 2;             /*!< [1:0] Hardware Average Select */
        uint32_t AVGE : 1;             /*!< [2] Hardware Average Enable */
        uint32_t ADCO : 1;             /*!< [3] Continuous Conversion Enable */
        uint32_t RESERVED0 : 2;        /*!< [5:4]  */
        uint32_t CALF : 1;             /*!< [6] Calibration Failed Flag */
        uint32_t CAL : 1;              /*!< [7] Calibration */
        uint32_t RESERVED1 : 24;       /*!< [31:8]  */
    } B;
} hw_adc_sc3_t;

/*!
 * @name Constants and macros for entire ADC_SC3 register
 */
/*@{*/
#define HW_ADC_SC3_ADDR(x)       ((x) + 0x24U)

#define HW_ADC_SC3(x)            (*(__IO hw_adc_sc3_t *) HW_ADC_SC3_ADDR(x))
#define HW_ADC_SC3_RD(x)         (HW_ADC_SC3(x).U)
#define HW_ADC_SC3_WR(x, v)      (HW_ADC_SC3(x).U = (v))
#define HW_ADC_SC3_SET(x, v)     (HW_ADC_SC3_WR(x, HW_ADC_SC3_RD(x) |  (v)))
#define HW_ADC_SC3_CLR(x, v)     (HW_ADC_SC3_WR(x, HW_ADC_SC3_RD(x) & ~(v)))
#define HW_ADC_SC3_TOG(x, v)     (HW_ADC_SC3_WR(x, HW_ADC_SC3_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_SC3 bitfields
 */

/*!
 * @name Register ADC_SC3, field AVGS[1:0] (RW)
 *
 * Determines how many ADC conversions will be averaged to create the ADC
 * average result.
 *
 * Values:
 * - 00 - 4 samples averaged.
 * - 01 - 8 samples averaged.
 * - 10 - 16 samples averaged.
 * - 11 - 32 samples averaged.
 */
/*@{*/
#define BP_ADC_SC3_AVGS      (0U)          /*!< Bit position for ADC_SC3_AVGS. */
#define BM_ADC_SC3_AVGS      (0x00000003U) /*!< Bit mask for ADC_SC3_AVGS. */
#define BS_ADC_SC3_AVGS      (2U)          /*!< Bit field size in bits for ADC_SC3_AVGS. */

/*! @brief Read current value of the ADC_SC3_AVGS field. */
#define BR_ADC_SC3_AVGS(x)   (HW_ADC_SC3(x).B.AVGS)

/*! @brief Format value for bitfield ADC_SC3_AVGS. */
#define BF_ADC_SC3_AVGS(v)   ((uint32_t)((uint32_t)(v) << BP_ADC_SC3_AVGS) & BM_ADC_SC3_AVGS)

/*! @brief Set the AVGS field to a new value. */
#define BW_ADC_SC3_AVGS(x, v) (HW_ADC_SC3_WR(x, (HW_ADC_SC3_RD(x) & ~BM_ADC_SC3_AVGS) | BF_ADC_SC3_AVGS(v)))
/*@}*/

/*!
 * @name Register ADC_SC3, field AVGE[2] (RW)
 *
 * Enables the hardware average function of the ADC.
 *
 * Values:
 * - 0 - Hardware average function disabled.
 * - 1 - Hardware average function enabled.
 */
/*@{*/
#define BP_ADC_SC3_AVGE      (2U)          /*!< Bit position for ADC_SC3_AVGE. */
#define BM_ADC_SC3_AVGE      (0x00000004U) /*!< Bit mask for ADC_SC3_AVGE. */
#define BS_ADC_SC3_AVGE      (1U)          /*!< Bit field size in bits for ADC_SC3_AVGE. */

/*! @brief Read current value of the ADC_SC3_AVGE field. */
#define BR_ADC_SC3_AVGE(x)   (BITBAND_ACCESS32(HW_ADC_SC3_ADDR(x), BP_ADC_SC3_AVGE))

/*! @brief Format value for bitfield ADC_SC3_AVGE. */
#define BF_ADC_SC3_AVGE(v)   ((uint32_t)((uint32_t)(v) << BP_ADC_SC3_AVGE) & BM_ADC_SC3_AVGE)

/*! @brief Set the AVGE field to a new value. */
#define BW_ADC_SC3_AVGE(x, v) (BITBAND_ACCESS32(HW_ADC_SC3_ADDR(x), BP_ADC_SC3_AVGE) = (v))
/*@}*/

/*!
 * @name Register ADC_SC3, field ADCO[3] (RW)
 *
 * Enables continuous conversions.
 *
 * Values:
 * - 0 - One conversion or one set of conversions if the hardware average
 *     function is enabled, that is, AVGE=1, after initiating a conversion.
 * - 1 - Continuous conversions or sets of conversions if the hardware average
 *     function is enabled, that is, AVGE=1, after initiating a conversion.
 */
/*@{*/
#define BP_ADC_SC3_ADCO      (3U)          /*!< Bit position for ADC_SC3_ADCO. */
#define BM_ADC_SC3_ADCO      (0x00000008U) /*!< Bit mask for ADC_SC3_ADCO. */
#define BS_ADC_SC3_ADCO      (1U)          /*!< Bit field size in bits for ADC_SC3_ADCO. */

/*! @brief Read current value of the ADC_SC3_ADCO field. */
#define BR_ADC_SC3_ADCO(x)   (BITBAND_ACCESS32(HW_ADC_SC3_ADDR(x), BP_ADC_SC3_ADCO))

/*! @brief Format value for bitfield ADC_SC3_ADCO. */
#define BF_ADC_SC3_ADCO(v)   ((uint32_t)((uint32_t)(v) << BP_ADC_SC3_ADCO) & BM_ADC_SC3_ADCO)

/*! @brief Set the ADCO field to a new value. */
#define BW_ADC_SC3_ADCO(x, v) (BITBAND_ACCESS32(HW_ADC_SC3_ADDR(x), BP_ADC_SC3_ADCO) = (v))
/*@}*/

/*!
 * @name Register ADC_SC3, field CALF[6] (RO)
 *
 * Displays the result of the calibration sequence. The calibration sequence
 * will fail if SC2[ADTRG] = 1, any ADC register is written, or any stop mode is
 * entered before the calibration sequence completes. Writing 1 to CALF clears it.
 *
 * Values:
 * - 0 - Calibration completed normally.
 * - 1 - Calibration failed. ADC accuracy specifications are not guaranteed.
 */
/*@{*/
#define BP_ADC_SC3_CALF      (6U)          /*!< Bit position for ADC_SC3_CALF. */
#define BM_ADC_SC3_CALF      (0x00000040U) /*!< Bit mask for ADC_SC3_CALF. */
#define BS_ADC_SC3_CALF      (1U)          /*!< Bit field size in bits for ADC_SC3_CALF. */

/*! @brief Read current value of the ADC_SC3_CALF field. */
#define BR_ADC_SC3_CALF(x)   (BITBAND_ACCESS32(HW_ADC_SC3_ADDR(x), BP_ADC_SC3_CALF))
/*@}*/

/*!
 * @name Register ADC_SC3, field CAL[7] (RW)
 *
 * Begins the calibration sequence when set. This field stays set while the
 * calibration is in progress and is cleared when the calibration sequence is
 * completed. CALF must be checked to determine the result of the calibration sequence.
 * Once started, the calibration routine cannot be interrupted by writes to the
 * ADC registers or the results will be invalid and CALF will set. Setting CAL
 * will abort any current conversion.
 */
/*@{*/
#define BP_ADC_SC3_CAL       (7U)          /*!< Bit position for ADC_SC3_CAL. */
#define BM_ADC_SC3_CAL       (0x00000080U) /*!< Bit mask for ADC_SC3_CAL. */
#define BS_ADC_SC3_CAL       (1U)          /*!< Bit field size in bits for ADC_SC3_CAL. */

/*! @brief Read current value of the ADC_SC3_CAL field. */
#define BR_ADC_SC3_CAL(x)    (BITBAND_ACCESS32(HW_ADC_SC3_ADDR(x), BP_ADC_SC3_CAL))

/*! @brief Format value for bitfield ADC_SC3_CAL. */
#define BF_ADC_SC3_CAL(v)    ((uint32_t)((uint32_t)(v) << BP_ADC_SC3_CAL) & BM_ADC_SC3_CAL)

/*! @brief Set the CAL field to a new value. */
#define BW_ADC_SC3_CAL(x, v) (BITBAND_ACCESS32(HW_ADC_SC3_ADDR(x), BP_ADC_SC3_CAL) = (v))
/*@}*/

/*******************************************************************************
 * HW_ADC_OFS - ADC Offset Correction Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_OFS - ADC Offset Correction Register (RW)
 *
 * Reset value: 0x00000004U
 *
 * The ADC Offset Correction Register (OFS) contains the user-selected or
 * calibration-generated offset error correction value. This register is a 2's
 * complement, left-justified, 16-bit value . The value in OFS is subtracted from the
 * conversion and the result is transferred into the result registers, Rn. If the
 * result is greater than the maximum or less than the minimum result value, it is
 * forced to the appropriate limit for the current mode of operation.
 */
typedef union _hw_adc_ofs
{
    uint32_t U;
    struct _hw_adc_ofs_bitfields
    {
        uint32_t OFS : 16;             /*!< [15:0] Offset Error Correction Value */
        uint32_t RESERVED0 : 16;       /*!< [31:16]  */
    } B;
} hw_adc_ofs_t;

/*!
 * @name Constants and macros for entire ADC_OFS register
 */
/*@{*/
#define HW_ADC_OFS_ADDR(x)       ((x) + 0x28U)

#define HW_ADC_OFS(x)            (*(__IO hw_adc_ofs_t *) HW_ADC_OFS_ADDR(x))
#define HW_ADC_OFS_RD(x)         (HW_ADC_OFS(x).U)
#define HW_ADC_OFS_WR(x, v)      (HW_ADC_OFS(x).U = (v))
#define HW_ADC_OFS_SET(x, v)     (HW_ADC_OFS_WR(x, HW_ADC_OFS_RD(x) |  (v)))
#define HW_ADC_OFS_CLR(x, v)     (HW_ADC_OFS_WR(x, HW_ADC_OFS_RD(x) & ~(v)))
#define HW_ADC_OFS_TOG(x, v)     (HW_ADC_OFS_WR(x, HW_ADC_OFS_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_OFS bitfields
 */

/*!
 * @name Register ADC_OFS, field OFS[15:0] (RW)
 */
/*@{*/
#define BP_ADC_OFS_OFS       (0U)          /*!< Bit position for ADC_OFS_OFS. */
#define BM_ADC_OFS_OFS       (0x0000FFFFU) /*!< Bit mask for ADC_OFS_OFS. */
#define BS_ADC_OFS_OFS       (16U)         /*!< Bit field size in bits for ADC_OFS_OFS. */

/*! @brief Read current value of the ADC_OFS_OFS field. */
#define BR_ADC_OFS_OFS(x)    (HW_ADC_OFS(x).B.OFS)

/*! @brief Format value for bitfield ADC_OFS_OFS. */
#define BF_ADC_OFS_OFS(v)    ((uint32_t)((uint32_t)(v) << BP_ADC_OFS_OFS) & BM_ADC_OFS_OFS)

/*! @brief Set the OFS field to a new value. */
#define BW_ADC_OFS_OFS(x, v) (HW_ADC_OFS_WR(x, (HW_ADC_OFS_RD(x) & ~BM_ADC_OFS_OFS) | BF_ADC_OFS_OFS(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_PG - ADC Plus-Side Gain Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_PG - ADC Plus-Side Gain Register (RW)
 *
 * Reset value: 0x00008200U
 *
 * The Plus-Side Gain Register (PG) contains the gain error correction for the
 * plus-side input in differential mode or the overall conversion in single-ended
 * mode. PG, a 16-bit real number in binary format, is the gain adjustment
 * factor, with the radix point fixed between ADPG15 and ADPG14. This register must be
 * written by the user with the value described in the calibration procedure.
 * Otherwise, the gain error specifications may not be met.
 */
typedef union _hw_adc_pg
{
    uint32_t U;
    struct _hw_adc_pg_bitfields
    {
        uint32_t PG : 16;              /*!< [15:0] Plus-Side Gain */
        uint32_t RESERVED0 : 16;       /*!< [31:16]  */
    } B;
} hw_adc_pg_t;

/*!
 * @name Constants and macros for entire ADC_PG register
 */
/*@{*/
#define HW_ADC_PG_ADDR(x)        ((x) + 0x2CU)

#define HW_ADC_PG(x)             (*(__IO hw_adc_pg_t *) HW_ADC_PG_ADDR(x))
#define HW_ADC_PG_RD(x)          (HW_ADC_PG(x).U)
#define HW_ADC_PG_WR(x, v)       (HW_ADC_PG(x).U = (v))
#define HW_ADC_PG_SET(x, v)      (HW_ADC_PG_WR(x, HW_ADC_PG_RD(x) |  (v)))
#define HW_ADC_PG_CLR(x, v)      (HW_ADC_PG_WR(x, HW_ADC_PG_RD(x) & ~(v)))
#define HW_ADC_PG_TOG(x, v)      (HW_ADC_PG_WR(x, HW_ADC_PG_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_PG bitfields
 */

/*!
 * @name Register ADC_PG, field PG[15:0] (RW)
 */
/*@{*/
#define BP_ADC_PG_PG         (0U)          /*!< Bit position for ADC_PG_PG. */
#define BM_ADC_PG_PG         (0x0000FFFFU) /*!< Bit mask for ADC_PG_PG. */
#define BS_ADC_PG_PG         (16U)         /*!< Bit field size in bits for ADC_PG_PG. */

/*! @brief Read current value of the ADC_PG_PG field. */
#define BR_ADC_PG_PG(x)      (HW_ADC_PG(x).B.PG)

/*! @brief Format value for bitfield ADC_PG_PG. */
#define BF_ADC_PG_PG(v)      ((uint32_t)((uint32_t)(v) << BP_ADC_PG_PG) & BM_ADC_PG_PG)

/*! @brief Set the PG field to a new value. */
#define BW_ADC_PG_PG(x, v)   (HW_ADC_PG_WR(x, (HW_ADC_PG_RD(x) & ~BM_ADC_PG_PG) | BF_ADC_PG_PG(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_MG - ADC Minus-Side Gain Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_MG - ADC Minus-Side Gain Register (RW)
 *
 * Reset value: 0x00008200U
 *
 * The Minus-Side Gain Register (MG) contains the gain error correction for the
 * minus-side input in differential mode. This register is ignored in
 * single-ended mode. MG, a 16-bit real number in binary format, is the gain adjustment
 * factor, with the radix point fixed between ADMG15 and ADMG14. This register must
 * be written by the user with the value described in the calibration procedure.
 * Otherwise, the gain error specifications may not be met.
 */
typedef union _hw_adc_mg
{
    uint32_t U;
    struct _hw_adc_mg_bitfields
    {
        uint32_t MG : 16;              /*!< [15:0] Minus-Side Gain */
        uint32_t RESERVED0 : 16;       /*!< [31:16]  */
    } B;
} hw_adc_mg_t;

/*!
 * @name Constants and macros for entire ADC_MG register
 */
/*@{*/
#define HW_ADC_MG_ADDR(x)        ((x) + 0x30U)

#define HW_ADC_MG(x)             (*(__IO hw_adc_mg_t *) HW_ADC_MG_ADDR(x))
#define HW_ADC_MG_RD(x)          (HW_ADC_MG(x).U)
#define HW_ADC_MG_WR(x, v)       (HW_ADC_MG(x).U = (v))
#define HW_ADC_MG_SET(x, v)      (HW_ADC_MG_WR(x, HW_ADC_MG_RD(x) |  (v)))
#define HW_ADC_MG_CLR(x, v)      (HW_ADC_MG_WR(x, HW_ADC_MG_RD(x) & ~(v)))
#define HW_ADC_MG_TOG(x, v)      (HW_ADC_MG_WR(x, HW_ADC_MG_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_MG bitfields
 */

/*!
 * @name Register ADC_MG, field MG[15:0] (RW)
 */
/*@{*/
#define BP_ADC_MG_MG         (0U)          /*!< Bit position for ADC_MG_MG. */
#define BM_ADC_MG_MG         (0x0000FFFFU) /*!< Bit mask for ADC_MG_MG. */
#define BS_ADC_MG_MG         (16U)         /*!< Bit field size in bits for ADC_MG_MG. */

/*! @brief Read current value of the ADC_MG_MG field. */
#define BR_ADC_MG_MG(x)      (HW_ADC_MG(x).B.MG)

/*! @brief Format value for bitfield ADC_MG_MG. */
#define BF_ADC_MG_MG(v)      ((uint32_t)((uint32_t)(v) << BP_ADC_MG_MG) & BM_ADC_MG_MG)

/*! @brief Set the MG field to a new value. */
#define BW_ADC_MG_MG(x, v)   (HW_ADC_MG_WR(x, (HW_ADC_MG_RD(x) & ~BM_ADC_MG_MG) | BF_ADC_MG_MG(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLPD - ADC Plus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLPD - ADC Plus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x0000000AU
 *
 * The Plus-Side General Calibration Value Registers (CLPx) contain calibration
 * information that is generated by the calibration function. These registers
 * contain seven calibration values of varying widths: CLP0[5:0], CLP1[6:0],
 * CLP2[7:0], CLP3[8:0], CLP4[9:0], CLPS[5:0], and CLPD[5:0]. CLPx are automatically set
 * when the self-calibration sequence is done, that is, CAL is cleared. If these
 * registers are written by the user after calibration, the linearity error
 * specifications may not be met.
 */
typedef union _hw_adc_clpd
{
    uint32_t U;
    struct _hw_adc_clpd_bitfields
    {
        uint32_t CLPD : 6;             /*!< [5:0]  */
        uint32_t RESERVED0 : 26;       /*!< [31:6]  */
    } B;
} hw_adc_clpd_t;

/*!
 * @name Constants and macros for entire ADC_CLPD register
 */
/*@{*/
#define HW_ADC_CLPD_ADDR(x)      ((x) + 0x34U)

#define HW_ADC_CLPD(x)           (*(__IO hw_adc_clpd_t *) HW_ADC_CLPD_ADDR(x))
#define HW_ADC_CLPD_RD(x)        (HW_ADC_CLPD(x).U)
#define HW_ADC_CLPD_WR(x, v)     (HW_ADC_CLPD(x).U = (v))
#define HW_ADC_CLPD_SET(x, v)    (HW_ADC_CLPD_WR(x, HW_ADC_CLPD_RD(x) |  (v)))
#define HW_ADC_CLPD_CLR(x, v)    (HW_ADC_CLPD_WR(x, HW_ADC_CLPD_RD(x) & ~(v)))
#define HW_ADC_CLPD_TOG(x, v)    (HW_ADC_CLPD_WR(x, HW_ADC_CLPD_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLPD bitfields
 */

/*!
 * @name Register ADC_CLPD, field CLPD[5:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLPD_CLPD     (0U)          /*!< Bit position for ADC_CLPD_CLPD. */
#define BM_ADC_CLPD_CLPD     (0x0000003FU) /*!< Bit mask for ADC_CLPD_CLPD. */
#define BS_ADC_CLPD_CLPD     (6U)          /*!< Bit field size in bits for ADC_CLPD_CLPD. */

/*! @brief Read current value of the ADC_CLPD_CLPD field. */
#define BR_ADC_CLPD_CLPD(x)  (HW_ADC_CLPD(x).B.CLPD)

/*! @brief Format value for bitfield ADC_CLPD_CLPD. */
#define BF_ADC_CLPD_CLPD(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLPD_CLPD) & BM_ADC_CLPD_CLPD)

/*! @brief Set the CLPD field to a new value. */
#define BW_ADC_CLPD_CLPD(x, v) (HW_ADC_CLPD_WR(x, (HW_ADC_CLPD_RD(x) & ~BM_ADC_CLPD_CLPD) | BF_ADC_CLPD_CLPD(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLPS - ADC Plus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLPS - ADC Plus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000020U
 *
 * For more information, see CLPD register description.
 */
typedef union _hw_adc_clps
{
    uint32_t U;
    struct _hw_adc_clps_bitfields
    {
        uint32_t CLPS : 6;             /*!< [5:0]  */
        uint32_t RESERVED0 : 26;       /*!< [31:6]  */
    } B;
} hw_adc_clps_t;

/*!
 * @name Constants and macros for entire ADC_CLPS register
 */
/*@{*/
#define HW_ADC_CLPS_ADDR(x)      ((x) + 0x38U)

#define HW_ADC_CLPS(x)           (*(__IO hw_adc_clps_t *) HW_ADC_CLPS_ADDR(x))
#define HW_ADC_CLPS_RD(x)        (HW_ADC_CLPS(x).U)
#define HW_ADC_CLPS_WR(x, v)     (HW_ADC_CLPS(x).U = (v))
#define HW_ADC_CLPS_SET(x, v)    (HW_ADC_CLPS_WR(x, HW_ADC_CLPS_RD(x) |  (v)))
#define HW_ADC_CLPS_CLR(x, v)    (HW_ADC_CLPS_WR(x, HW_ADC_CLPS_RD(x) & ~(v)))
#define HW_ADC_CLPS_TOG(x, v)    (HW_ADC_CLPS_WR(x, HW_ADC_CLPS_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLPS bitfields
 */

/*!
 * @name Register ADC_CLPS, field CLPS[5:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLPS_CLPS     (0U)          /*!< Bit position for ADC_CLPS_CLPS. */
#define BM_ADC_CLPS_CLPS     (0x0000003FU) /*!< Bit mask for ADC_CLPS_CLPS. */
#define BS_ADC_CLPS_CLPS     (6U)          /*!< Bit field size in bits for ADC_CLPS_CLPS. */

/*! @brief Read current value of the ADC_CLPS_CLPS field. */
#define BR_ADC_CLPS_CLPS(x)  (HW_ADC_CLPS(x).B.CLPS)

/*! @brief Format value for bitfield ADC_CLPS_CLPS. */
#define BF_ADC_CLPS_CLPS(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLPS_CLPS) & BM_ADC_CLPS_CLPS)

/*! @brief Set the CLPS field to a new value. */
#define BW_ADC_CLPS_CLPS(x, v) (HW_ADC_CLPS_WR(x, (HW_ADC_CLPS_RD(x) & ~BM_ADC_CLPS_CLPS) | BF_ADC_CLPS_CLPS(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLP4 - ADC Plus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLP4 - ADC Plus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000200U
 *
 * For more information, see CLPD register description.
 */
typedef union _hw_adc_clp4
{
    uint32_t U;
    struct _hw_adc_clp4_bitfields
    {
        uint32_t CLP4 : 10;            /*!< [9:0]  */
        uint32_t RESERVED0 : 22;       /*!< [31:10]  */
    } B;
} hw_adc_clp4_t;

/*!
 * @name Constants and macros for entire ADC_CLP4 register
 */
/*@{*/
#define HW_ADC_CLP4_ADDR(x)      ((x) + 0x3CU)

#define HW_ADC_CLP4(x)           (*(__IO hw_adc_clp4_t *) HW_ADC_CLP4_ADDR(x))
#define HW_ADC_CLP4_RD(x)        (HW_ADC_CLP4(x).U)
#define HW_ADC_CLP4_WR(x, v)     (HW_ADC_CLP4(x).U = (v))
#define HW_ADC_CLP4_SET(x, v)    (HW_ADC_CLP4_WR(x, HW_ADC_CLP4_RD(x) |  (v)))
#define HW_ADC_CLP4_CLR(x, v)    (HW_ADC_CLP4_WR(x, HW_ADC_CLP4_RD(x) & ~(v)))
#define HW_ADC_CLP4_TOG(x, v)    (HW_ADC_CLP4_WR(x, HW_ADC_CLP4_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLP4 bitfields
 */

/*!
 * @name Register ADC_CLP4, field CLP4[9:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLP4_CLP4     (0U)          /*!< Bit position for ADC_CLP4_CLP4. */
#define BM_ADC_CLP4_CLP4     (0x000003FFU) /*!< Bit mask for ADC_CLP4_CLP4. */
#define BS_ADC_CLP4_CLP4     (10U)         /*!< Bit field size in bits for ADC_CLP4_CLP4. */

/*! @brief Read current value of the ADC_CLP4_CLP4 field. */
#define BR_ADC_CLP4_CLP4(x)  (HW_ADC_CLP4(x).B.CLP4)

/*! @brief Format value for bitfield ADC_CLP4_CLP4. */
#define BF_ADC_CLP4_CLP4(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLP4_CLP4) & BM_ADC_CLP4_CLP4)

/*! @brief Set the CLP4 field to a new value. */
#define BW_ADC_CLP4_CLP4(x, v) (HW_ADC_CLP4_WR(x, (HW_ADC_CLP4_RD(x) & ~BM_ADC_CLP4_CLP4) | BF_ADC_CLP4_CLP4(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLP3 - ADC Plus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLP3 - ADC Plus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000100U
 *
 * For more information, see CLPD register description.
 */
typedef union _hw_adc_clp3
{
    uint32_t U;
    struct _hw_adc_clp3_bitfields
    {
        uint32_t CLP3 : 9;             /*!< [8:0]  */
        uint32_t RESERVED0 : 23;       /*!< [31:9]  */
    } B;
} hw_adc_clp3_t;

/*!
 * @name Constants and macros for entire ADC_CLP3 register
 */
/*@{*/
#define HW_ADC_CLP3_ADDR(x)      ((x) + 0x40U)

#define HW_ADC_CLP3(x)           (*(__IO hw_adc_clp3_t *) HW_ADC_CLP3_ADDR(x))
#define HW_ADC_CLP3_RD(x)        (HW_ADC_CLP3(x).U)
#define HW_ADC_CLP3_WR(x, v)     (HW_ADC_CLP3(x).U = (v))
#define HW_ADC_CLP3_SET(x, v)    (HW_ADC_CLP3_WR(x, HW_ADC_CLP3_RD(x) |  (v)))
#define HW_ADC_CLP3_CLR(x, v)    (HW_ADC_CLP3_WR(x, HW_ADC_CLP3_RD(x) & ~(v)))
#define HW_ADC_CLP3_TOG(x, v)    (HW_ADC_CLP3_WR(x, HW_ADC_CLP3_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLP3 bitfields
 */

/*!
 * @name Register ADC_CLP3, field CLP3[8:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLP3_CLP3     (0U)          /*!< Bit position for ADC_CLP3_CLP3. */
#define BM_ADC_CLP3_CLP3     (0x000001FFU) /*!< Bit mask for ADC_CLP3_CLP3. */
#define BS_ADC_CLP3_CLP3     (9U)          /*!< Bit field size in bits for ADC_CLP3_CLP3. */

/*! @brief Read current value of the ADC_CLP3_CLP3 field. */
#define BR_ADC_CLP3_CLP3(x)  (HW_ADC_CLP3(x).B.CLP3)

/*! @brief Format value for bitfield ADC_CLP3_CLP3. */
#define BF_ADC_CLP3_CLP3(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLP3_CLP3) & BM_ADC_CLP3_CLP3)

/*! @brief Set the CLP3 field to a new value. */
#define BW_ADC_CLP3_CLP3(x, v) (HW_ADC_CLP3_WR(x, (HW_ADC_CLP3_RD(x) & ~BM_ADC_CLP3_CLP3) | BF_ADC_CLP3_CLP3(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLP2 - ADC Plus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLP2 - ADC Plus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000080U
 *
 * For more information, see CLPD register description.
 */
typedef union _hw_adc_clp2
{
    uint32_t U;
    struct _hw_adc_clp2_bitfields
    {
        uint32_t CLP2 : 8;             /*!< [7:0]  */
        uint32_t RESERVED0 : 24;       /*!< [31:8]  */
    } B;
} hw_adc_clp2_t;

/*!
 * @name Constants and macros for entire ADC_CLP2 register
 */
/*@{*/
#define HW_ADC_CLP2_ADDR(x)      ((x) + 0x44U)

#define HW_ADC_CLP2(x)           (*(__IO hw_adc_clp2_t *) HW_ADC_CLP2_ADDR(x))
#define HW_ADC_CLP2_RD(x)        (HW_ADC_CLP2(x).U)
#define HW_ADC_CLP2_WR(x, v)     (HW_ADC_CLP2(x).U = (v))
#define HW_ADC_CLP2_SET(x, v)    (HW_ADC_CLP2_WR(x, HW_ADC_CLP2_RD(x) |  (v)))
#define HW_ADC_CLP2_CLR(x, v)    (HW_ADC_CLP2_WR(x, HW_ADC_CLP2_RD(x) & ~(v)))
#define HW_ADC_CLP2_TOG(x, v)    (HW_ADC_CLP2_WR(x, HW_ADC_CLP2_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLP2 bitfields
 */

/*!
 * @name Register ADC_CLP2, field CLP2[7:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLP2_CLP2     (0U)          /*!< Bit position for ADC_CLP2_CLP2. */
#define BM_ADC_CLP2_CLP2     (0x000000FFU) /*!< Bit mask for ADC_CLP2_CLP2. */
#define BS_ADC_CLP2_CLP2     (8U)          /*!< Bit field size in bits for ADC_CLP2_CLP2. */

/*! @brief Read current value of the ADC_CLP2_CLP2 field. */
#define BR_ADC_CLP2_CLP2(x)  (HW_ADC_CLP2(x).B.CLP2)

/*! @brief Format value for bitfield ADC_CLP2_CLP2. */
#define BF_ADC_CLP2_CLP2(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLP2_CLP2) & BM_ADC_CLP2_CLP2)

/*! @brief Set the CLP2 field to a new value. */
#define BW_ADC_CLP2_CLP2(x, v) (HW_ADC_CLP2_WR(x, (HW_ADC_CLP2_RD(x) & ~BM_ADC_CLP2_CLP2) | BF_ADC_CLP2_CLP2(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLP1 - ADC Plus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLP1 - ADC Plus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000040U
 *
 * For more information, see CLPD register description.
 */
typedef union _hw_adc_clp1
{
    uint32_t U;
    struct _hw_adc_clp1_bitfields
    {
        uint32_t CLP1 : 7;             /*!< [6:0]  */
        uint32_t RESERVED0 : 25;       /*!< [31:7]  */
    } B;
} hw_adc_clp1_t;

/*!
 * @name Constants and macros for entire ADC_CLP1 register
 */
/*@{*/
#define HW_ADC_CLP1_ADDR(x)      ((x) + 0x48U)

#define HW_ADC_CLP1(x)           (*(__IO hw_adc_clp1_t *) HW_ADC_CLP1_ADDR(x))
#define HW_ADC_CLP1_RD(x)        (HW_ADC_CLP1(x).U)
#define HW_ADC_CLP1_WR(x, v)     (HW_ADC_CLP1(x).U = (v))
#define HW_ADC_CLP1_SET(x, v)    (HW_ADC_CLP1_WR(x, HW_ADC_CLP1_RD(x) |  (v)))
#define HW_ADC_CLP1_CLR(x, v)    (HW_ADC_CLP1_WR(x, HW_ADC_CLP1_RD(x) & ~(v)))
#define HW_ADC_CLP1_TOG(x, v)    (HW_ADC_CLP1_WR(x, HW_ADC_CLP1_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLP1 bitfields
 */

/*!
 * @name Register ADC_CLP1, field CLP1[6:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLP1_CLP1     (0U)          /*!< Bit position for ADC_CLP1_CLP1. */
#define BM_ADC_CLP1_CLP1     (0x0000007FU) /*!< Bit mask for ADC_CLP1_CLP1. */
#define BS_ADC_CLP1_CLP1     (7U)          /*!< Bit field size in bits for ADC_CLP1_CLP1. */

/*! @brief Read current value of the ADC_CLP1_CLP1 field. */
#define BR_ADC_CLP1_CLP1(x)  (HW_ADC_CLP1(x).B.CLP1)

/*! @brief Format value for bitfield ADC_CLP1_CLP1. */
#define BF_ADC_CLP1_CLP1(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLP1_CLP1) & BM_ADC_CLP1_CLP1)

/*! @brief Set the CLP1 field to a new value. */
#define BW_ADC_CLP1_CLP1(x, v) (HW_ADC_CLP1_WR(x, (HW_ADC_CLP1_RD(x) & ~BM_ADC_CLP1_CLP1) | BF_ADC_CLP1_CLP1(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLP0 - ADC Plus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLP0 - ADC Plus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000020U
 *
 * For more information, see CLPD register description.
 */
typedef union _hw_adc_clp0
{
    uint32_t U;
    struct _hw_adc_clp0_bitfields
    {
        uint32_t CLP0 : 6;             /*!< [5:0]  */
        uint32_t RESERVED0 : 26;       /*!< [31:6]  */
    } B;
} hw_adc_clp0_t;

/*!
 * @name Constants and macros for entire ADC_CLP0 register
 */
/*@{*/
#define HW_ADC_CLP0_ADDR(x)      ((x) + 0x4CU)

#define HW_ADC_CLP0(x)           (*(__IO hw_adc_clp0_t *) HW_ADC_CLP0_ADDR(x))
#define HW_ADC_CLP0_RD(x)        (HW_ADC_CLP0(x).U)
#define HW_ADC_CLP0_WR(x, v)     (HW_ADC_CLP0(x).U = (v))
#define HW_ADC_CLP0_SET(x, v)    (HW_ADC_CLP0_WR(x, HW_ADC_CLP0_RD(x) |  (v)))
#define HW_ADC_CLP0_CLR(x, v)    (HW_ADC_CLP0_WR(x, HW_ADC_CLP0_RD(x) & ~(v)))
#define HW_ADC_CLP0_TOG(x, v)    (HW_ADC_CLP0_WR(x, HW_ADC_CLP0_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLP0 bitfields
 */

/*!
 * @name Register ADC_CLP0, field CLP0[5:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLP0_CLP0     (0U)          /*!< Bit position for ADC_CLP0_CLP0. */
#define BM_ADC_CLP0_CLP0     (0x0000003FU) /*!< Bit mask for ADC_CLP0_CLP0. */
#define BS_ADC_CLP0_CLP0     (6U)          /*!< Bit field size in bits for ADC_CLP0_CLP0. */

/*! @brief Read current value of the ADC_CLP0_CLP0 field. */
#define BR_ADC_CLP0_CLP0(x)  (HW_ADC_CLP0(x).B.CLP0)

/*! @brief Format value for bitfield ADC_CLP0_CLP0. */
#define BF_ADC_CLP0_CLP0(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLP0_CLP0) & BM_ADC_CLP0_CLP0)

/*! @brief Set the CLP0 field to a new value. */
#define BW_ADC_CLP0_CLP0(x, v) (HW_ADC_CLP0_WR(x, (HW_ADC_CLP0_RD(x) & ~BM_ADC_CLP0_CLP0) | BF_ADC_CLP0_CLP0(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLMD - ADC Minus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLMD - ADC Minus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x0000000AU
 *
 * The Minus-Side General Calibration Value (CLMx) registers contain calibration
 * information that is generated by the calibration function. These registers
 * contain seven calibration values of varying widths: CLM0[5:0], CLM1[6:0],
 * CLM2[7:0], CLM3[8:0], CLM4[9:0], CLMS[5:0], and CLMD[5:0]. CLMx are automatically
 * set when the self-calibration sequence is done, that is, CAL is cleared. If
 * these registers are written by the user after calibration, the linearity error
 * specifications may not be met.
 */
typedef union _hw_adc_clmd
{
    uint32_t U;
    struct _hw_adc_clmd_bitfields
    {
        uint32_t CLMD : 6;             /*!< [5:0]  */
        uint32_t RESERVED0 : 26;       /*!< [31:6]  */
    } B;
} hw_adc_clmd_t;

/*!
 * @name Constants and macros for entire ADC_CLMD register
 */
/*@{*/
#define HW_ADC_CLMD_ADDR(x)      ((x) + 0x54U)

#define HW_ADC_CLMD(x)           (*(__IO hw_adc_clmd_t *) HW_ADC_CLMD_ADDR(x))
#define HW_ADC_CLMD_RD(x)        (HW_ADC_CLMD(x).U)
#define HW_ADC_CLMD_WR(x, v)     (HW_ADC_CLMD(x).U = (v))
#define HW_ADC_CLMD_SET(x, v)    (HW_ADC_CLMD_WR(x, HW_ADC_CLMD_RD(x) |  (v)))
#define HW_ADC_CLMD_CLR(x, v)    (HW_ADC_CLMD_WR(x, HW_ADC_CLMD_RD(x) & ~(v)))
#define HW_ADC_CLMD_TOG(x, v)    (HW_ADC_CLMD_WR(x, HW_ADC_CLMD_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLMD bitfields
 */

/*!
 * @name Register ADC_CLMD, field CLMD[5:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLMD_CLMD     (0U)          /*!< Bit position for ADC_CLMD_CLMD. */
#define BM_ADC_CLMD_CLMD     (0x0000003FU) /*!< Bit mask for ADC_CLMD_CLMD. */
#define BS_ADC_CLMD_CLMD     (6U)          /*!< Bit field size in bits for ADC_CLMD_CLMD. */

/*! @brief Read current value of the ADC_CLMD_CLMD field. */
#define BR_ADC_CLMD_CLMD(x)  (HW_ADC_CLMD(x).B.CLMD)

/*! @brief Format value for bitfield ADC_CLMD_CLMD. */
#define BF_ADC_CLMD_CLMD(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLMD_CLMD) & BM_ADC_CLMD_CLMD)

/*! @brief Set the CLMD field to a new value. */
#define BW_ADC_CLMD_CLMD(x, v) (HW_ADC_CLMD_WR(x, (HW_ADC_CLMD_RD(x) & ~BM_ADC_CLMD_CLMD) | BF_ADC_CLMD_CLMD(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLMS - ADC Minus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLMS - ADC Minus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000020U
 *
 * For more information, see CLMD register description.
 */
typedef union _hw_adc_clms
{
    uint32_t U;
    struct _hw_adc_clms_bitfields
    {
        uint32_t CLMS : 6;             /*!< [5:0]  */
        uint32_t RESERVED0 : 26;       /*!< [31:6]  */
    } B;
} hw_adc_clms_t;

/*!
 * @name Constants and macros for entire ADC_CLMS register
 */
/*@{*/
#define HW_ADC_CLMS_ADDR(x)      ((x) + 0x58U)

#define HW_ADC_CLMS(x)           (*(__IO hw_adc_clms_t *) HW_ADC_CLMS_ADDR(x))
#define HW_ADC_CLMS_RD(x)        (HW_ADC_CLMS(x).U)
#define HW_ADC_CLMS_WR(x, v)     (HW_ADC_CLMS(x).U = (v))
#define HW_ADC_CLMS_SET(x, v)    (HW_ADC_CLMS_WR(x, HW_ADC_CLMS_RD(x) |  (v)))
#define HW_ADC_CLMS_CLR(x, v)    (HW_ADC_CLMS_WR(x, HW_ADC_CLMS_RD(x) & ~(v)))
#define HW_ADC_CLMS_TOG(x, v)    (HW_ADC_CLMS_WR(x, HW_ADC_CLMS_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLMS bitfields
 */

/*!
 * @name Register ADC_CLMS, field CLMS[5:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLMS_CLMS     (0U)          /*!< Bit position for ADC_CLMS_CLMS. */
#define BM_ADC_CLMS_CLMS     (0x0000003FU) /*!< Bit mask for ADC_CLMS_CLMS. */
#define BS_ADC_CLMS_CLMS     (6U)          /*!< Bit field size in bits for ADC_CLMS_CLMS. */

/*! @brief Read current value of the ADC_CLMS_CLMS field. */
#define BR_ADC_CLMS_CLMS(x)  (HW_ADC_CLMS(x).B.CLMS)

/*! @brief Format value for bitfield ADC_CLMS_CLMS. */
#define BF_ADC_CLMS_CLMS(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLMS_CLMS) & BM_ADC_CLMS_CLMS)

/*! @brief Set the CLMS field to a new value. */
#define BW_ADC_CLMS_CLMS(x, v) (HW_ADC_CLMS_WR(x, (HW_ADC_CLMS_RD(x) & ~BM_ADC_CLMS_CLMS) | BF_ADC_CLMS_CLMS(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLM4 - ADC Minus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLM4 - ADC Minus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000200U
 *
 * For more information, see CLMD register description.
 */
typedef union _hw_adc_clm4
{
    uint32_t U;
    struct _hw_adc_clm4_bitfields
    {
        uint32_t CLM4 : 10;            /*!< [9:0]  */
        uint32_t RESERVED0 : 22;       /*!< [31:10]  */
    } B;
} hw_adc_clm4_t;

/*!
 * @name Constants and macros for entire ADC_CLM4 register
 */
/*@{*/
#define HW_ADC_CLM4_ADDR(x)      ((x) + 0x5CU)

#define HW_ADC_CLM4(x)           (*(__IO hw_adc_clm4_t *) HW_ADC_CLM4_ADDR(x))
#define HW_ADC_CLM4_RD(x)        (HW_ADC_CLM4(x).U)
#define HW_ADC_CLM4_WR(x, v)     (HW_ADC_CLM4(x).U = (v))
#define HW_ADC_CLM4_SET(x, v)    (HW_ADC_CLM4_WR(x, HW_ADC_CLM4_RD(x) |  (v)))
#define HW_ADC_CLM4_CLR(x, v)    (HW_ADC_CLM4_WR(x, HW_ADC_CLM4_RD(x) & ~(v)))
#define HW_ADC_CLM4_TOG(x, v)    (HW_ADC_CLM4_WR(x, HW_ADC_CLM4_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLM4 bitfields
 */

/*!
 * @name Register ADC_CLM4, field CLM4[9:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLM4_CLM4     (0U)          /*!< Bit position for ADC_CLM4_CLM4. */
#define BM_ADC_CLM4_CLM4     (0x000003FFU) /*!< Bit mask for ADC_CLM4_CLM4. */
#define BS_ADC_CLM4_CLM4     (10U)         /*!< Bit field size in bits for ADC_CLM4_CLM4. */

/*! @brief Read current value of the ADC_CLM4_CLM4 field. */
#define BR_ADC_CLM4_CLM4(x)  (HW_ADC_CLM4(x).B.CLM4)

/*! @brief Format value for bitfield ADC_CLM4_CLM4. */
#define BF_ADC_CLM4_CLM4(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLM4_CLM4) & BM_ADC_CLM4_CLM4)

/*! @brief Set the CLM4 field to a new value. */
#define BW_ADC_CLM4_CLM4(x, v) (HW_ADC_CLM4_WR(x, (HW_ADC_CLM4_RD(x) & ~BM_ADC_CLM4_CLM4) | BF_ADC_CLM4_CLM4(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLM3 - ADC Minus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLM3 - ADC Minus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000100U
 *
 * For more information, see CLMD register description.
 */
typedef union _hw_adc_clm3
{
    uint32_t U;
    struct _hw_adc_clm3_bitfields
    {
        uint32_t CLM3 : 9;             /*!< [8:0]  */
        uint32_t RESERVED0 : 23;       /*!< [31:9]  */
    } B;
} hw_adc_clm3_t;

/*!
 * @name Constants and macros for entire ADC_CLM3 register
 */
/*@{*/
#define HW_ADC_CLM3_ADDR(x)      ((x) + 0x60U)

#define HW_ADC_CLM3(x)           (*(__IO hw_adc_clm3_t *) HW_ADC_CLM3_ADDR(x))
#define HW_ADC_CLM3_RD(x)        (HW_ADC_CLM3(x).U)
#define HW_ADC_CLM3_WR(x, v)     (HW_ADC_CLM3(x).U = (v))
#define HW_ADC_CLM3_SET(x, v)    (HW_ADC_CLM3_WR(x, HW_ADC_CLM3_RD(x) |  (v)))
#define HW_ADC_CLM3_CLR(x, v)    (HW_ADC_CLM3_WR(x, HW_ADC_CLM3_RD(x) & ~(v)))
#define HW_ADC_CLM3_TOG(x, v)    (HW_ADC_CLM3_WR(x, HW_ADC_CLM3_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLM3 bitfields
 */

/*!
 * @name Register ADC_CLM3, field CLM3[8:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLM3_CLM3     (0U)          /*!< Bit position for ADC_CLM3_CLM3. */
#define BM_ADC_CLM3_CLM3     (0x000001FFU) /*!< Bit mask for ADC_CLM3_CLM3. */
#define BS_ADC_CLM3_CLM3     (9U)          /*!< Bit field size in bits for ADC_CLM3_CLM3. */

/*! @brief Read current value of the ADC_CLM3_CLM3 field. */
#define BR_ADC_CLM3_CLM3(x)  (HW_ADC_CLM3(x).B.CLM3)

/*! @brief Format value for bitfield ADC_CLM3_CLM3. */
#define BF_ADC_CLM3_CLM3(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLM3_CLM3) & BM_ADC_CLM3_CLM3)

/*! @brief Set the CLM3 field to a new value. */
#define BW_ADC_CLM3_CLM3(x, v) (HW_ADC_CLM3_WR(x, (HW_ADC_CLM3_RD(x) & ~BM_ADC_CLM3_CLM3) | BF_ADC_CLM3_CLM3(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLM2 - ADC Minus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLM2 - ADC Minus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000080U
 *
 * For more information, see CLMD register description.
 */
typedef union _hw_adc_clm2
{
    uint32_t U;
    struct _hw_adc_clm2_bitfields
    {
        uint32_t CLM2 : 8;             /*!< [7:0]  */
        uint32_t RESERVED0 : 24;       /*!< [31:8]  */
    } B;
} hw_adc_clm2_t;

/*!
 * @name Constants and macros for entire ADC_CLM2 register
 */
/*@{*/
#define HW_ADC_CLM2_ADDR(x)      ((x) + 0x64U)

#define HW_ADC_CLM2(x)           (*(__IO hw_adc_clm2_t *) HW_ADC_CLM2_ADDR(x))
#define HW_ADC_CLM2_RD(x)        (HW_ADC_CLM2(x).U)
#define HW_ADC_CLM2_WR(x, v)     (HW_ADC_CLM2(x).U = (v))
#define HW_ADC_CLM2_SET(x, v)    (HW_ADC_CLM2_WR(x, HW_ADC_CLM2_RD(x) |  (v)))
#define HW_ADC_CLM2_CLR(x, v)    (HW_ADC_CLM2_WR(x, HW_ADC_CLM2_RD(x) & ~(v)))
#define HW_ADC_CLM2_TOG(x, v)    (HW_ADC_CLM2_WR(x, HW_ADC_CLM2_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLM2 bitfields
 */

/*!
 * @name Register ADC_CLM2, field CLM2[7:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLM2_CLM2     (0U)          /*!< Bit position for ADC_CLM2_CLM2. */
#define BM_ADC_CLM2_CLM2     (0x000000FFU) /*!< Bit mask for ADC_CLM2_CLM2. */
#define BS_ADC_CLM2_CLM2     (8U)          /*!< Bit field size in bits for ADC_CLM2_CLM2. */

/*! @brief Read current value of the ADC_CLM2_CLM2 field. */
#define BR_ADC_CLM2_CLM2(x)  (HW_ADC_CLM2(x).B.CLM2)

/*! @brief Format value for bitfield ADC_CLM2_CLM2. */
#define BF_ADC_CLM2_CLM2(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLM2_CLM2) & BM_ADC_CLM2_CLM2)

/*! @brief Set the CLM2 field to a new value. */
#define BW_ADC_CLM2_CLM2(x, v) (HW_ADC_CLM2_WR(x, (HW_ADC_CLM2_RD(x) & ~BM_ADC_CLM2_CLM2) | BF_ADC_CLM2_CLM2(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLM1 - ADC Minus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLM1 - ADC Minus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000040U
 *
 * For more information, see CLMD register description.
 */
typedef union _hw_adc_clm1
{
    uint32_t U;
    struct _hw_adc_clm1_bitfields
    {
        uint32_t CLM1 : 7;             /*!< [6:0]  */
        uint32_t RESERVED0 : 25;       /*!< [31:7]  */
    } B;
} hw_adc_clm1_t;

/*!
 * @name Constants and macros for entire ADC_CLM1 register
 */
/*@{*/
#define HW_ADC_CLM1_ADDR(x)      ((x) + 0x68U)

#define HW_ADC_CLM1(x)           (*(__IO hw_adc_clm1_t *) HW_ADC_CLM1_ADDR(x))
#define HW_ADC_CLM1_RD(x)        (HW_ADC_CLM1(x).U)
#define HW_ADC_CLM1_WR(x, v)     (HW_ADC_CLM1(x).U = (v))
#define HW_ADC_CLM1_SET(x, v)    (HW_ADC_CLM1_WR(x, HW_ADC_CLM1_RD(x) |  (v)))
#define HW_ADC_CLM1_CLR(x, v)    (HW_ADC_CLM1_WR(x, HW_ADC_CLM1_RD(x) & ~(v)))
#define HW_ADC_CLM1_TOG(x, v)    (HW_ADC_CLM1_WR(x, HW_ADC_CLM1_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLM1 bitfields
 */

/*!
 * @name Register ADC_CLM1, field CLM1[6:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLM1_CLM1     (0U)          /*!< Bit position for ADC_CLM1_CLM1. */
#define BM_ADC_CLM1_CLM1     (0x0000007FU) /*!< Bit mask for ADC_CLM1_CLM1. */
#define BS_ADC_CLM1_CLM1     (7U)          /*!< Bit field size in bits for ADC_CLM1_CLM1. */

/*! @brief Read current value of the ADC_CLM1_CLM1 field. */
#define BR_ADC_CLM1_CLM1(x)  (HW_ADC_CLM1(x).B.CLM1)

/*! @brief Format value for bitfield ADC_CLM1_CLM1. */
#define BF_ADC_CLM1_CLM1(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLM1_CLM1) & BM_ADC_CLM1_CLM1)

/*! @brief Set the CLM1 field to a new value. */
#define BW_ADC_CLM1_CLM1(x, v) (HW_ADC_CLM1_WR(x, (HW_ADC_CLM1_RD(x) & ~BM_ADC_CLM1_CLM1) | BF_ADC_CLM1_CLM1(v)))
/*@}*/

/*******************************************************************************
 * HW_ADC_CLM0 - ADC Minus-Side General Calibration Value Register
 ******************************************************************************/

/*!
 * @brief HW_ADC_CLM0 - ADC Minus-Side General Calibration Value Register (RW)
 *
 * Reset value: 0x00000020U
 *
 * For more information, see CLMD register description.
 */
typedef union _hw_adc_clm0
{
    uint32_t U;
    struct _hw_adc_clm0_bitfields
    {
        uint32_t CLM0 : 6;             /*!< [5:0]  */
        uint32_t RESERVED0 : 26;       /*!< [31:6]  */
    } B;
} hw_adc_clm0_t;

/*!
 * @name Constants and macros for entire ADC_CLM0 register
 */
/*@{*/
#define HW_ADC_CLM0_ADDR(x)      ((x) + 0x6CU)

#define HW_ADC_CLM0(x)           (*(__IO hw_adc_clm0_t *) HW_ADC_CLM0_ADDR(x))
#define HW_ADC_CLM0_RD(x)        (HW_ADC_CLM0(x).U)
#define HW_ADC_CLM0_WR(x, v)     (HW_ADC_CLM0(x).U = (v))
#define HW_ADC_CLM0_SET(x, v)    (HW_ADC_CLM0_WR(x, HW_ADC_CLM0_RD(x) |  (v)))
#define HW_ADC_CLM0_CLR(x, v)    (HW_ADC_CLM0_WR(x, HW_ADC_CLM0_RD(x) & ~(v)))
#define HW_ADC_CLM0_TOG(x, v)    (HW_ADC_CLM0_WR(x, HW_ADC_CLM0_RD(x) ^  (v)))
/*@}*/

/*
 * Constants & macros for individual ADC_CLM0 bitfields
 */

/*!
 * @name Register ADC_CLM0, field CLM0[5:0] (RW)
 *
 * Calibration Value
 */
/*@{*/
#define BP_ADC_CLM0_CLM0     (0U)          /*!< Bit position for ADC_CLM0_CLM0. */
#define BM_ADC_CLM0_CLM0     (0x0000003FU) /*!< Bit mask for ADC_CLM0_CLM0. */
#define BS_ADC_CLM0_CLM0     (6U)          /*!< Bit field size in bits for ADC_CLM0_CLM0. */

/*! @brief Read current value of the ADC_CLM0_CLM0 field. */
#define BR_ADC_CLM0_CLM0(x)  (HW_ADC_CLM0(x).B.CLM0)

/*! @brief Format value for bitfield ADC_CLM0_CLM0. */
#define BF_ADC_CLM0_CLM0(v)  ((uint32_t)((uint32_t)(v) << BP_ADC_CLM0_CLM0) & BM_ADC_CLM0_CLM0)

/*! @brief Set the CLM0 field to a new value. */
#define BW_ADC_CLM0_CLM0(x, v) (HW_ADC_CLM0_WR(x, (HW_ADC_CLM0_RD(x) & ~BM_ADC_CLM0_CLM0) | BF_ADC_CLM0_CLM0(v)))
/*@}*/

/*******************************************************************************
 * hw_adc_t - module struct
 ******************************************************************************/
/*!
 * @brief All ADC module registers.
 */
#pragma pack(1)
typedef struct _hw_adc
{
    __IO hw_adc_sc1n_t SC1n[2];            /*!< [0x0] ADC Status and Control Registers 1 */
    __IO hw_adc_cfg1_t CFG1;               /*!< [0x8] ADC Configuration Register 1 */
    __IO hw_adc_cfg2_t CFG2;               /*!< [0xC] ADC Configuration Register 2 */
    __I hw_adc_rn_t Rn[2];                 /*!< [0x10] ADC Data Result Register */
    __IO hw_adc_cv1_t CV1;                 /*!< [0x18] Compare Value Registers */
    __IO hw_adc_cv2_t CV2;                 /*!< [0x1C] Compare Value Registers */
    __IO hw_adc_sc2_t SC2;                 /*!< [0x20] Status and Control Register 2 */
    __IO hw_adc_sc3_t SC3;                 /*!< [0x24] Status and Control Register 3 */
    __IO hw_adc_ofs_t OFS;                 /*!< [0x28] ADC Offset Correction Register */
    __IO hw_adc_pg_t PG;                   /*!< [0x2C] ADC Plus-Side Gain Register */
    __IO hw_adc_mg_t MG;                   /*!< [0x30] ADC Minus-Side Gain Register */
    __IO hw_adc_clpd_t CLPD;               /*!< [0x34] ADC Plus-Side General Calibration Value Register */
    __IO hw_adc_clps_t CLPS;               /*!< [0x38] ADC Plus-Side General Calibration Value Register */
    __IO hw_adc_clp4_t CLP4;               /*!< [0x3C] ADC Plus-Side General Calibration Value Register */
    __IO hw_adc_clp3_t CLP3;               /*!< [0x40] ADC Plus-Side General Calibration Value Register */
    __IO hw_adc_clp2_t CLP2;               /*!< [0x44] ADC Plus-Side General Calibration Value Register */
    __IO hw_adc_clp1_t CLP1;               /*!< [0x48] ADC Plus-Side General Calibration Value Register */
    __IO hw_adc_clp0_t CLP0;               /*!< [0x4C] ADC Plus-Side General Calibration Value Register */
    uint8_t _reserved0[4];
    __IO hw_adc_clmd_t CLMD;               /*!< [0x54] ADC Minus-Side General Calibration Value Register */
    __IO hw_adc_clms_t CLMS;               /*!< [0x58] ADC Minus-Side General Calibration Value Register */
    __IO hw_adc_clm4_t CLM4;               /*!< [0x5C] ADC Minus-Side General Calibration Value Register */
    __IO hw_adc_clm3_t CLM3;               /*!< [0x60] ADC Minus-Side General Calibration Value Register */
    __IO hw_adc_clm2_t CLM2;               /*!< [0x64] ADC Minus-Side General Calibration Value Register */
    __IO hw_adc_clm1_t CLM1;               /*!< [0x68] ADC Minus-Side General Calibration Value Register */
    __IO hw_adc_clm0_t CLM0;               /*!< [0x6C] ADC Minus-Side General Calibration Value Register */
} hw_adc_t;
#pragma pack()

/*! @brief Macro to access all ADC registers. */
/*! @param x ADC module instance base address. */
/*! @return Reference (not a pointer) to the registers struct. To get a pointer to the struct,
 *     use the '&' operator, like <code>&HW_ADC(ADC0_BASE)</code>. */
#define HW_ADC(x)      (*(hw_adc_t *)(x))

#endif /* __HW_ADC_REGISTERS_H__ */
/* EOF */