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TARGET_K64F/TARGET_Freescale/TARGET_KPSDK_MCUS/TARGET_MCU_K64F/device/device/MK64F12/MK64F12_sim.h
- Committer:
- Kojto
- Date:
- 2015-08-05
- Revision:
- 104:b9ad9a133dc7
- Parent:
- 90:cb3d968589d8
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_SIM_REGISTERS_H__
#define __HW_SIM_REGISTERS_H__
#include "MK64F12.h"
#include "fsl_bitaccess.h"
/*
* MK64F12 SIM
*
* System Integration Module
*
* Registers defined in this header file:
* - HW_SIM_SOPT1 - System Options Register 1
* - HW_SIM_SOPT1CFG - SOPT1 Configuration Register
* - HW_SIM_SOPT2 - System Options Register 2
* - HW_SIM_SOPT4 - System Options Register 4
* - HW_SIM_SOPT5 - System Options Register 5
* - HW_SIM_SOPT7 - System Options Register 7
* - HW_SIM_SDID - System Device Identification Register
* - HW_SIM_SCGC1 - System Clock Gating Control Register 1
* - HW_SIM_SCGC2 - System Clock Gating Control Register 2
* - HW_SIM_SCGC3 - System Clock Gating Control Register 3
* - HW_SIM_SCGC4 - System Clock Gating Control Register 4
* - HW_SIM_SCGC5 - System Clock Gating Control Register 5
* - HW_SIM_SCGC6 - System Clock Gating Control Register 6
* - HW_SIM_SCGC7 - System Clock Gating Control Register 7
* - HW_SIM_CLKDIV1 - System Clock Divider Register 1
* - HW_SIM_CLKDIV2 - System Clock Divider Register 2
* - HW_SIM_FCFG1 - Flash Configuration Register 1
* - HW_SIM_FCFG2 - Flash Configuration Register 2
* - HW_SIM_UIDH - Unique Identification Register High
* - HW_SIM_UIDMH - Unique Identification Register Mid-High
* - HW_SIM_UIDML - Unique Identification Register Mid Low
* - HW_SIM_UIDL - Unique Identification Register Low
*
* - hw_sim_t - Struct containing all module registers.
*/
#define HW_SIM_INSTANCE_COUNT (1U) /*!< Number of instances of the SIM module. */
/*******************************************************************************
* HW_SIM_SOPT1 - System Options Register 1
******************************************************************************/
/*!
* @brief HW_SIM_SOPT1 - System Options Register 1 (RW)
*
* Reset value: 0x80000000U
*
* The SOPT1 register is only reset on POR or LVD.
*/
typedef union _hw_sim_sopt1
{
uint32_t U;
struct _hw_sim_sopt1_bitfields
{
uint32_t RESERVED0 : 12; /*!< [11:0] */
uint32_t RAMSIZE : 4; /*!< [15:12] RAM size */
uint32_t RESERVED1 : 2; /*!< [17:16] */
uint32_t OSC32KSEL : 2; /*!< [19:18] 32K oscillator clock select */
uint32_t RESERVED2 : 9; /*!< [28:20] */
uint32_t USBVSTBY : 1; /*!< [29] USB voltage regulator in standby
* mode during VLPR and VLPW modes */
uint32_t USBSSTBY : 1; /*!< [30] USB voltage regulator in standby
* mode during Stop, VLPS, LLS and VLLS modes. */
uint32_t USBREGEN : 1; /*!< [31] USB voltage regulator enable */
} B;
} hw_sim_sopt1_t;
/*!
* @name Constants and macros for entire SIM_SOPT1 register
*/
/*@{*/
#define HW_SIM_SOPT1_ADDR(x) ((x) + 0x0U)
#define HW_SIM_SOPT1(x) (*(__IO hw_sim_sopt1_t *) HW_SIM_SOPT1_ADDR(x))
#define HW_SIM_SOPT1_RD(x) (HW_SIM_SOPT1(x).U)
#define HW_SIM_SOPT1_WR(x, v) (HW_SIM_SOPT1(x).U = (v))
#define HW_SIM_SOPT1_SET(x, v) (HW_SIM_SOPT1_WR(x, HW_SIM_SOPT1_RD(x) | (v)))
#define HW_SIM_SOPT1_CLR(x, v) (HW_SIM_SOPT1_WR(x, HW_SIM_SOPT1_RD(x) & ~(v)))
#define HW_SIM_SOPT1_TOG(x, v) (HW_SIM_SOPT1_WR(x, HW_SIM_SOPT1_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SOPT1 bitfields
*/
/*!
* @name Register SIM_SOPT1, field RAMSIZE[15:12] (RO)
*
* This field specifies the amount of system RAM available on the device.
*
* Values:
* - 0001 - 8 KB
* - 0011 - 16 KB
* - 0100 - 24 KB
* - 0101 - 32 KB
* - 0110 - 48 KB
* - 0111 - 64 KB
* - 1000 - 96 KB
* - 1001 - 128 KB
* - 1011 - 256 KB
*/
/*@{*/
#define BP_SIM_SOPT1_RAMSIZE (12U) /*!< Bit position for SIM_SOPT1_RAMSIZE. */
#define BM_SIM_SOPT1_RAMSIZE (0x0000F000U) /*!< Bit mask for SIM_SOPT1_RAMSIZE. */
#define BS_SIM_SOPT1_RAMSIZE (4U) /*!< Bit field size in bits for SIM_SOPT1_RAMSIZE. */
/*! @brief Read current value of the SIM_SOPT1_RAMSIZE field. */
#define BR_SIM_SOPT1_RAMSIZE(x) (HW_SIM_SOPT1(x).B.RAMSIZE)
/*@}*/
/*!
* @name Register SIM_SOPT1, field OSC32KSEL[19:18] (RW)
*
* Selects the 32 kHz clock source (ERCLK32K) for LPTMR. This field is reset
* only on POR/LVD.
*
* Values:
* - 00 - System oscillator (OSC32KCLK)
* - 01 - Reserved
* - 10 - RTC 32.768kHz oscillator
* - 11 - LPO 1 kHz
*/
/*@{*/
#define BP_SIM_SOPT1_OSC32KSEL (18U) /*!< Bit position for SIM_SOPT1_OSC32KSEL. */
#define BM_SIM_SOPT1_OSC32KSEL (0x000C0000U) /*!< Bit mask for SIM_SOPT1_OSC32KSEL. */
#define BS_SIM_SOPT1_OSC32KSEL (2U) /*!< Bit field size in bits for SIM_SOPT1_OSC32KSEL. */
/*! @brief Read current value of the SIM_SOPT1_OSC32KSEL field. */
#define BR_SIM_SOPT1_OSC32KSEL(x) (HW_SIM_SOPT1(x).B.OSC32KSEL)
/*! @brief Format value for bitfield SIM_SOPT1_OSC32KSEL. */
#define BF_SIM_SOPT1_OSC32KSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT1_OSC32KSEL) & BM_SIM_SOPT1_OSC32KSEL)
/*! @brief Set the OSC32KSEL field to a new value. */
#define BW_SIM_SOPT1_OSC32KSEL(x, v) (HW_SIM_SOPT1_WR(x, (HW_SIM_SOPT1_RD(x) & ~BM_SIM_SOPT1_OSC32KSEL) | BF_SIM_SOPT1_OSC32KSEL(v)))
/*@}*/
/*!
* @name Register SIM_SOPT1, field USBVSTBY[29] (RW)
*
* Controls whether the USB voltage regulator is placed in standby mode during
* VLPR and VLPW modes.
*
* Values:
* - 0 - USB voltage regulator not in standby during VLPR and VLPW modes.
* - 1 - USB voltage regulator in standby during VLPR and VLPW modes.
*/
/*@{*/
#define BP_SIM_SOPT1_USBVSTBY (29U) /*!< Bit position for SIM_SOPT1_USBVSTBY. */
#define BM_SIM_SOPT1_USBVSTBY (0x20000000U) /*!< Bit mask for SIM_SOPT1_USBVSTBY. */
#define BS_SIM_SOPT1_USBVSTBY (1U) /*!< Bit field size in bits for SIM_SOPT1_USBVSTBY. */
/*! @brief Read current value of the SIM_SOPT1_USBVSTBY field. */
#define BR_SIM_SOPT1_USBVSTBY(x) (BITBAND_ACCESS32(HW_SIM_SOPT1_ADDR(x), BP_SIM_SOPT1_USBVSTBY))
/*! @brief Format value for bitfield SIM_SOPT1_USBVSTBY. */
#define BF_SIM_SOPT1_USBVSTBY(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT1_USBVSTBY) & BM_SIM_SOPT1_USBVSTBY)
/*! @brief Set the USBVSTBY field to a new value. */
#define BW_SIM_SOPT1_USBVSTBY(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT1_ADDR(x), BP_SIM_SOPT1_USBVSTBY) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT1, field USBSSTBY[30] (RW)
*
* Controls whether the USB voltage regulator is placed in standby mode during
* Stop, VLPS, LLS and VLLS modes.
*
* Values:
* - 0 - USB voltage regulator not in standby during Stop, VLPS, LLS and VLLS
* modes.
* - 1 - USB voltage regulator in standby during Stop, VLPS, LLS and VLLS modes.
*/
/*@{*/
#define BP_SIM_SOPT1_USBSSTBY (30U) /*!< Bit position for SIM_SOPT1_USBSSTBY. */
#define BM_SIM_SOPT1_USBSSTBY (0x40000000U) /*!< Bit mask for SIM_SOPT1_USBSSTBY. */
#define BS_SIM_SOPT1_USBSSTBY (1U) /*!< Bit field size in bits for SIM_SOPT1_USBSSTBY. */
/*! @brief Read current value of the SIM_SOPT1_USBSSTBY field. */
#define BR_SIM_SOPT1_USBSSTBY(x) (BITBAND_ACCESS32(HW_SIM_SOPT1_ADDR(x), BP_SIM_SOPT1_USBSSTBY))
/*! @brief Format value for bitfield SIM_SOPT1_USBSSTBY. */
#define BF_SIM_SOPT1_USBSSTBY(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT1_USBSSTBY) & BM_SIM_SOPT1_USBSSTBY)
/*! @brief Set the USBSSTBY field to a new value. */
#define BW_SIM_SOPT1_USBSSTBY(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT1_ADDR(x), BP_SIM_SOPT1_USBSSTBY) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT1, field USBREGEN[31] (RW)
*
* Controls whether the USB voltage regulator is enabled.
*
* Values:
* - 0 - USB voltage regulator is disabled.
* - 1 - USB voltage regulator is enabled.
*/
/*@{*/
#define BP_SIM_SOPT1_USBREGEN (31U) /*!< Bit position for SIM_SOPT1_USBREGEN. */
#define BM_SIM_SOPT1_USBREGEN (0x80000000U) /*!< Bit mask for SIM_SOPT1_USBREGEN. */
#define BS_SIM_SOPT1_USBREGEN (1U) /*!< Bit field size in bits for SIM_SOPT1_USBREGEN. */
/*! @brief Read current value of the SIM_SOPT1_USBREGEN field. */
#define BR_SIM_SOPT1_USBREGEN(x) (BITBAND_ACCESS32(HW_SIM_SOPT1_ADDR(x), BP_SIM_SOPT1_USBREGEN))
/*! @brief Format value for bitfield SIM_SOPT1_USBREGEN. */
#define BF_SIM_SOPT1_USBREGEN(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT1_USBREGEN) & BM_SIM_SOPT1_USBREGEN)
/*! @brief Set the USBREGEN field to a new value. */
#define BW_SIM_SOPT1_USBREGEN(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT1_ADDR(x), BP_SIM_SOPT1_USBREGEN) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_SOPT1CFG - SOPT1 Configuration Register
******************************************************************************/
/*!
* @brief HW_SIM_SOPT1CFG - SOPT1 Configuration Register (RW)
*
* Reset value: 0x00000000U
*
* The SOPT1CFG register is reset on System Reset not VLLS.
*/
typedef union _hw_sim_sopt1cfg
{
uint32_t U;
struct _hw_sim_sopt1cfg_bitfields
{
uint32_t RESERVED0 : 24; /*!< [23:0] */
uint32_t URWE : 1; /*!< [24] USB voltage regulator enable write
* enable */
uint32_t UVSWE : 1; /*!< [25] USB voltage regulator VLP standby write
* enable */
uint32_t USSWE : 1; /*!< [26] USB voltage regulator stop standby
* write enable */
uint32_t RESERVED1 : 5; /*!< [31:27] */
} B;
} hw_sim_sopt1cfg_t;
/*!
* @name Constants and macros for entire SIM_SOPT1CFG register
*/
/*@{*/
#define HW_SIM_SOPT1CFG_ADDR(x) ((x) + 0x4U)
#define HW_SIM_SOPT1CFG(x) (*(__IO hw_sim_sopt1cfg_t *) HW_SIM_SOPT1CFG_ADDR(x))
#define HW_SIM_SOPT1CFG_RD(x) (HW_SIM_SOPT1CFG(x).U)
#define HW_SIM_SOPT1CFG_WR(x, v) (HW_SIM_SOPT1CFG(x).U = (v))
#define HW_SIM_SOPT1CFG_SET(x, v) (HW_SIM_SOPT1CFG_WR(x, HW_SIM_SOPT1CFG_RD(x) | (v)))
#define HW_SIM_SOPT1CFG_CLR(x, v) (HW_SIM_SOPT1CFG_WR(x, HW_SIM_SOPT1CFG_RD(x) & ~(v)))
#define HW_SIM_SOPT1CFG_TOG(x, v) (HW_SIM_SOPT1CFG_WR(x, HW_SIM_SOPT1CFG_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SOPT1CFG bitfields
*/
/*!
* @name Register SIM_SOPT1CFG, field URWE[24] (RW)
*
* Writing one to the URWE bit allows the SOPT1 USBREGEN bit to be written. This
* register bit clears after a write to USBREGEN.
*
* Values:
* - 0 - SOPT1 USBREGEN cannot be written.
* - 1 - SOPT1 USBREGEN can be written.
*/
/*@{*/
#define BP_SIM_SOPT1CFG_URWE (24U) /*!< Bit position for SIM_SOPT1CFG_URWE. */
#define BM_SIM_SOPT1CFG_URWE (0x01000000U) /*!< Bit mask for SIM_SOPT1CFG_URWE. */
#define BS_SIM_SOPT1CFG_URWE (1U) /*!< Bit field size in bits for SIM_SOPT1CFG_URWE. */
/*! @brief Read current value of the SIM_SOPT1CFG_URWE field. */
#define BR_SIM_SOPT1CFG_URWE(x) (BITBAND_ACCESS32(HW_SIM_SOPT1CFG_ADDR(x), BP_SIM_SOPT1CFG_URWE))
/*! @brief Format value for bitfield SIM_SOPT1CFG_URWE. */
#define BF_SIM_SOPT1CFG_URWE(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT1CFG_URWE) & BM_SIM_SOPT1CFG_URWE)
/*! @brief Set the URWE field to a new value. */
#define BW_SIM_SOPT1CFG_URWE(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT1CFG_ADDR(x), BP_SIM_SOPT1CFG_URWE) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT1CFG, field UVSWE[25] (RW)
*
* Writing one to the UVSWE bit allows the SOPT1 USBVSTBY bit to be written.
* This register bit clears after a write to USBVSTBY.
*
* Values:
* - 0 - SOPT1 USBVSTBY cannot be written.
* - 1 - SOPT1 USBVSTBY can be written.
*/
/*@{*/
#define BP_SIM_SOPT1CFG_UVSWE (25U) /*!< Bit position for SIM_SOPT1CFG_UVSWE. */
#define BM_SIM_SOPT1CFG_UVSWE (0x02000000U) /*!< Bit mask for SIM_SOPT1CFG_UVSWE. */
#define BS_SIM_SOPT1CFG_UVSWE (1U) /*!< Bit field size in bits for SIM_SOPT1CFG_UVSWE. */
/*! @brief Read current value of the SIM_SOPT1CFG_UVSWE field. */
#define BR_SIM_SOPT1CFG_UVSWE(x) (BITBAND_ACCESS32(HW_SIM_SOPT1CFG_ADDR(x), BP_SIM_SOPT1CFG_UVSWE))
/*! @brief Format value for bitfield SIM_SOPT1CFG_UVSWE. */
#define BF_SIM_SOPT1CFG_UVSWE(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT1CFG_UVSWE) & BM_SIM_SOPT1CFG_UVSWE)
/*! @brief Set the UVSWE field to a new value. */
#define BW_SIM_SOPT1CFG_UVSWE(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT1CFG_ADDR(x), BP_SIM_SOPT1CFG_UVSWE) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT1CFG, field USSWE[26] (RW)
*
* Writing one to the USSWE bit allows the SOPT1 USBSSTBY bit to be written.
* This register bit clears after a write to USBSSTBY.
*
* Values:
* - 0 - SOPT1 USBSSTBY cannot be written.
* - 1 - SOPT1 USBSSTBY can be written.
*/
/*@{*/
#define BP_SIM_SOPT1CFG_USSWE (26U) /*!< Bit position for SIM_SOPT1CFG_USSWE. */
#define BM_SIM_SOPT1CFG_USSWE (0x04000000U) /*!< Bit mask for SIM_SOPT1CFG_USSWE. */
#define BS_SIM_SOPT1CFG_USSWE (1U) /*!< Bit field size in bits for SIM_SOPT1CFG_USSWE. */
/*! @brief Read current value of the SIM_SOPT1CFG_USSWE field. */
#define BR_SIM_SOPT1CFG_USSWE(x) (BITBAND_ACCESS32(HW_SIM_SOPT1CFG_ADDR(x), BP_SIM_SOPT1CFG_USSWE))
/*! @brief Format value for bitfield SIM_SOPT1CFG_USSWE. */
#define BF_SIM_SOPT1CFG_USSWE(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT1CFG_USSWE) & BM_SIM_SOPT1CFG_USSWE)
/*! @brief Set the USSWE field to a new value. */
#define BW_SIM_SOPT1CFG_USSWE(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT1CFG_ADDR(x), BP_SIM_SOPT1CFG_USSWE) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_SOPT2 - System Options Register 2
******************************************************************************/
/*!
* @brief HW_SIM_SOPT2 - System Options Register 2 (RW)
*
* Reset value: 0x00001000U
*
* SOPT2 contains the controls for selecting many of the module clock source
* options on this device. See the Clock Distribution chapter for more information
* including clocking diagrams and definitions of device clocks.
*/
typedef union _hw_sim_sopt2
{
uint32_t U;
struct _hw_sim_sopt2_bitfields
{
uint32_t RESERVED0 : 4; /*!< [3:0] */
uint32_t RTCCLKOUTSEL : 1; /*!< [4] RTC clock out select */
uint32_t CLKOUTSEL : 3; /*!< [7:5] CLKOUT select */
uint32_t FBSL : 2; /*!< [9:8] FlexBus security level */
uint32_t RESERVED1 : 1; /*!< [10] */
uint32_t PTD7PAD : 1; /*!< [11] PTD7 pad drive strength */
uint32_t TRACECLKSEL : 1; /*!< [12] Debug trace clock select */
uint32_t RESERVED2 : 3; /*!< [15:13] */
uint32_t PLLFLLSEL : 2; /*!< [17:16] PLL/FLL clock select */
uint32_t USBSRC : 1; /*!< [18] USB clock source select */
uint32_t RMIISRC : 1; /*!< [19] RMII clock source select */
uint32_t TIMESRC : 2; /*!< [21:20] IEEE 1588 timestamp clock source
* select */
uint32_t RESERVED3 : 6; /*!< [27:22] */
uint32_t SDHCSRC : 2; /*!< [29:28] SDHC clock source select */
uint32_t RESERVED4 : 2; /*!< [31:30] */
} B;
} hw_sim_sopt2_t;
/*!
* @name Constants and macros for entire SIM_SOPT2 register
*/
/*@{*/
#define HW_SIM_SOPT2_ADDR(x) ((x) + 0x1004U)
#define HW_SIM_SOPT2(x) (*(__IO hw_sim_sopt2_t *) HW_SIM_SOPT2_ADDR(x))
#define HW_SIM_SOPT2_RD(x) (HW_SIM_SOPT2(x).U)
#define HW_SIM_SOPT2_WR(x, v) (HW_SIM_SOPT2(x).U = (v))
#define HW_SIM_SOPT2_SET(x, v) (HW_SIM_SOPT2_WR(x, HW_SIM_SOPT2_RD(x) | (v)))
#define HW_SIM_SOPT2_CLR(x, v) (HW_SIM_SOPT2_WR(x, HW_SIM_SOPT2_RD(x) & ~(v)))
#define HW_SIM_SOPT2_TOG(x, v) (HW_SIM_SOPT2_WR(x, HW_SIM_SOPT2_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SOPT2 bitfields
*/
/*!
* @name Register SIM_SOPT2, field RTCCLKOUTSEL[4] (RW)
*
* Selects either the RTC 1 Hz clock or the 32.768kHz clock to be output on the
* RTC_CLKOUT pin.
*
* Values:
* - 0 - RTC 1 Hz clock is output on the RTC_CLKOUT pin.
* - 1 - RTC 32.768kHz clock is output on the RTC_CLKOUT pin.
*/
/*@{*/
#define BP_SIM_SOPT2_RTCCLKOUTSEL (4U) /*!< Bit position for SIM_SOPT2_RTCCLKOUTSEL. */
#define BM_SIM_SOPT2_RTCCLKOUTSEL (0x00000010U) /*!< Bit mask for SIM_SOPT2_RTCCLKOUTSEL. */
#define BS_SIM_SOPT2_RTCCLKOUTSEL (1U) /*!< Bit field size in bits for SIM_SOPT2_RTCCLKOUTSEL. */
/*! @brief Read current value of the SIM_SOPT2_RTCCLKOUTSEL field. */
#define BR_SIM_SOPT2_RTCCLKOUTSEL(x) (BITBAND_ACCESS32(HW_SIM_SOPT2_ADDR(x), BP_SIM_SOPT2_RTCCLKOUTSEL))
/*! @brief Format value for bitfield SIM_SOPT2_RTCCLKOUTSEL. */
#define BF_SIM_SOPT2_RTCCLKOUTSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT2_RTCCLKOUTSEL) & BM_SIM_SOPT2_RTCCLKOUTSEL)
/*! @brief Set the RTCCLKOUTSEL field to a new value. */
#define BW_SIM_SOPT2_RTCCLKOUTSEL(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT2_ADDR(x), BP_SIM_SOPT2_RTCCLKOUTSEL) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT2, field CLKOUTSEL[7:5] (RW)
*
* Selects the clock to output on the CLKOUT pin.
*
* Values:
* - 000 - FlexBus CLKOUT
* - 001 - Reserved
* - 010 - Flash clock
* - 011 - LPO clock (1 kHz)
* - 100 - MCGIRCLK
* - 101 - RTC 32.768kHz clock
* - 110 - OSCERCLK0
* - 111 - IRC 48 MHz clock
*/
/*@{*/
#define BP_SIM_SOPT2_CLKOUTSEL (5U) /*!< Bit position for SIM_SOPT2_CLKOUTSEL. */
#define BM_SIM_SOPT2_CLKOUTSEL (0x000000E0U) /*!< Bit mask for SIM_SOPT2_CLKOUTSEL. */
#define BS_SIM_SOPT2_CLKOUTSEL (3U) /*!< Bit field size in bits for SIM_SOPT2_CLKOUTSEL. */
/*! @brief Read current value of the SIM_SOPT2_CLKOUTSEL field. */
#define BR_SIM_SOPT2_CLKOUTSEL(x) (HW_SIM_SOPT2(x).B.CLKOUTSEL)
/*! @brief Format value for bitfield SIM_SOPT2_CLKOUTSEL. */
#define BF_SIM_SOPT2_CLKOUTSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT2_CLKOUTSEL) & BM_SIM_SOPT2_CLKOUTSEL)
/*! @brief Set the CLKOUTSEL field to a new value. */
#define BW_SIM_SOPT2_CLKOUTSEL(x, v) (HW_SIM_SOPT2_WR(x, (HW_SIM_SOPT2_RD(x) & ~BM_SIM_SOPT2_CLKOUTSEL) | BF_SIM_SOPT2_CLKOUTSEL(v)))
/*@}*/
/*!
* @name Register SIM_SOPT2, field FBSL[9:8] (RW)
*
* If flash security is enabled, then this field affects what CPU operations can
* access off-chip via the FlexBus interface. This field has no effect if flash
* security is not enabled.
*
* Values:
* - 00 - All off-chip accesses (instruction and data) via the FlexBus are
* disallowed.
* - 01 - All off-chip accesses (instruction and data) via the FlexBus are
* disallowed.
* - 10 - Off-chip instruction accesses are disallowed. Data accesses are
* allowed.
* - 11 - Off-chip instruction accesses and data accesses are allowed.
*/
/*@{*/
#define BP_SIM_SOPT2_FBSL (8U) /*!< Bit position for SIM_SOPT2_FBSL. */
#define BM_SIM_SOPT2_FBSL (0x00000300U) /*!< Bit mask for SIM_SOPT2_FBSL. */
#define BS_SIM_SOPT2_FBSL (2U) /*!< Bit field size in bits for SIM_SOPT2_FBSL. */
/*! @brief Read current value of the SIM_SOPT2_FBSL field. */
#define BR_SIM_SOPT2_FBSL(x) (HW_SIM_SOPT2(x).B.FBSL)
/*! @brief Format value for bitfield SIM_SOPT2_FBSL. */
#define BF_SIM_SOPT2_FBSL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT2_FBSL) & BM_SIM_SOPT2_FBSL)
/*! @brief Set the FBSL field to a new value. */
#define BW_SIM_SOPT2_FBSL(x, v) (HW_SIM_SOPT2_WR(x, (HW_SIM_SOPT2_RD(x) & ~BM_SIM_SOPT2_FBSL) | BF_SIM_SOPT2_FBSL(v)))
/*@}*/
/*!
* @name Register SIM_SOPT2, field PTD7PAD[11] (RW)
*
* Controls the output drive strength of the PTD7 pin by selecting either one or
* two pads to drive it.
*
* Values:
* - 0 - Single-pad drive strength for PTD7.
* - 1 - Double pad drive strength for PTD7.
*/
/*@{*/
#define BP_SIM_SOPT2_PTD7PAD (11U) /*!< Bit position for SIM_SOPT2_PTD7PAD. */
#define BM_SIM_SOPT2_PTD7PAD (0x00000800U) /*!< Bit mask for SIM_SOPT2_PTD7PAD. */
#define BS_SIM_SOPT2_PTD7PAD (1U) /*!< Bit field size in bits for SIM_SOPT2_PTD7PAD. */
/*! @brief Read current value of the SIM_SOPT2_PTD7PAD field. */
#define BR_SIM_SOPT2_PTD7PAD(x) (BITBAND_ACCESS32(HW_SIM_SOPT2_ADDR(x), BP_SIM_SOPT2_PTD7PAD))
/*! @brief Format value for bitfield SIM_SOPT2_PTD7PAD. */
#define BF_SIM_SOPT2_PTD7PAD(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT2_PTD7PAD) & BM_SIM_SOPT2_PTD7PAD)
/*! @brief Set the PTD7PAD field to a new value. */
#define BW_SIM_SOPT2_PTD7PAD(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT2_ADDR(x), BP_SIM_SOPT2_PTD7PAD) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT2, field TRACECLKSEL[12] (RW)
*
* Selects the core/system clock or MCG output clock (MCGOUTCLK) as the trace
* clock source.
*
* Values:
* - 0 - MCGOUTCLK
* - 1 - Core/system clock
*/
/*@{*/
#define BP_SIM_SOPT2_TRACECLKSEL (12U) /*!< Bit position for SIM_SOPT2_TRACECLKSEL. */
#define BM_SIM_SOPT2_TRACECLKSEL (0x00001000U) /*!< Bit mask for SIM_SOPT2_TRACECLKSEL. */
#define BS_SIM_SOPT2_TRACECLKSEL (1U) /*!< Bit field size in bits for SIM_SOPT2_TRACECLKSEL. */
/*! @brief Read current value of the SIM_SOPT2_TRACECLKSEL field. */
#define BR_SIM_SOPT2_TRACECLKSEL(x) (BITBAND_ACCESS32(HW_SIM_SOPT2_ADDR(x), BP_SIM_SOPT2_TRACECLKSEL))
/*! @brief Format value for bitfield SIM_SOPT2_TRACECLKSEL. */
#define BF_SIM_SOPT2_TRACECLKSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT2_TRACECLKSEL) & BM_SIM_SOPT2_TRACECLKSEL)
/*! @brief Set the TRACECLKSEL field to a new value. */
#define BW_SIM_SOPT2_TRACECLKSEL(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT2_ADDR(x), BP_SIM_SOPT2_TRACECLKSEL) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT2, field PLLFLLSEL[17:16] (RW)
*
* Selects the high frequency clock for various peripheral clocking options.
*
* Values:
* - 00 - MCGFLLCLK clock
* - 01 - MCGPLLCLK clock
* - 10 - Reserved
* - 11 - IRC48 MHz clock
*/
/*@{*/
#define BP_SIM_SOPT2_PLLFLLSEL (16U) /*!< Bit position for SIM_SOPT2_PLLFLLSEL. */
#define BM_SIM_SOPT2_PLLFLLSEL (0x00030000U) /*!< Bit mask for SIM_SOPT2_PLLFLLSEL. */
#define BS_SIM_SOPT2_PLLFLLSEL (2U) /*!< Bit field size in bits for SIM_SOPT2_PLLFLLSEL. */
/*! @brief Read current value of the SIM_SOPT2_PLLFLLSEL field. */
#define BR_SIM_SOPT2_PLLFLLSEL(x) (HW_SIM_SOPT2(x).B.PLLFLLSEL)
/*! @brief Format value for bitfield SIM_SOPT2_PLLFLLSEL. */
#define BF_SIM_SOPT2_PLLFLLSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT2_PLLFLLSEL) & BM_SIM_SOPT2_PLLFLLSEL)
/*! @brief Set the PLLFLLSEL field to a new value. */
#define BW_SIM_SOPT2_PLLFLLSEL(x, v) (HW_SIM_SOPT2_WR(x, (HW_SIM_SOPT2_RD(x) & ~BM_SIM_SOPT2_PLLFLLSEL) | BF_SIM_SOPT2_PLLFLLSEL(v)))
/*@}*/
/*!
* @name Register SIM_SOPT2, field USBSRC[18] (RW)
*
* Selects the clock source for the USB 48 MHz clock.
*
* Values:
* - 0 - External bypass clock (USB_CLKIN).
* - 1 - MCGFLLCLK , or MCGPLLCLK , or IRC48M clock as selected by
* SOPT2[PLLFLLSEL], and then divided by the USB fractional divider as configured by
* SIM_CLKDIV2[USBFRAC, USBDIV].
*/
/*@{*/
#define BP_SIM_SOPT2_USBSRC (18U) /*!< Bit position for SIM_SOPT2_USBSRC. */
#define BM_SIM_SOPT2_USBSRC (0x00040000U) /*!< Bit mask for SIM_SOPT2_USBSRC. */
#define BS_SIM_SOPT2_USBSRC (1U) /*!< Bit field size in bits for SIM_SOPT2_USBSRC. */
/*! @brief Read current value of the SIM_SOPT2_USBSRC field. */
#define BR_SIM_SOPT2_USBSRC(x) (BITBAND_ACCESS32(HW_SIM_SOPT2_ADDR(x), BP_SIM_SOPT2_USBSRC))
/*! @brief Format value for bitfield SIM_SOPT2_USBSRC. */
#define BF_SIM_SOPT2_USBSRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT2_USBSRC) & BM_SIM_SOPT2_USBSRC)
/*! @brief Set the USBSRC field to a new value. */
#define BW_SIM_SOPT2_USBSRC(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT2_ADDR(x), BP_SIM_SOPT2_USBSRC) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT2, field RMIISRC[19] (RW)
*
* Selects the clock source for the Ethernet RMII interface
*
* Values:
* - 0 - EXTAL clock
* - 1 - External bypass clock (ENET_1588_CLKIN).
*/
/*@{*/
#define BP_SIM_SOPT2_RMIISRC (19U) /*!< Bit position for SIM_SOPT2_RMIISRC. */
#define BM_SIM_SOPT2_RMIISRC (0x00080000U) /*!< Bit mask for SIM_SOPT2_RMIISRC. */
#define BS_SIM_SOPT2_RMIISRC (1U) /*!< Bit field size in bits for SIM_SOPT2_RMIISRC. */
/*! @brief Read current value of the SIM_SOPT2_RMIISRC field. */
#define BR_SIM_SOPT2_RMIISRC(x) (BITBAND_ACCESS32(HW_SIM_SOPT2_ADDR(x), BP_SIM_SOPT2_RMIISRC))
/*! @brief Format value for bitfield SIM_SOPT2_RMIISRC. */
#define BF_SIM_SOPT2_RMIISRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT2_RMIISRC) & BM_SIM_SOPT2_RMIISRC)
/*! @brief Set the RMIISRC field to a new value. */
#define BW_SIM_SOPT2_RMIISRC(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT2_ADDR(x), BP_SIM_SOPT2_RMIISRC) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT2, field TIMESRC[21:20] (RW)
*
* Selects the clock source for the Ethernet timestamp clock.
*
* Values:
* - 00 - Core/system clock.
* - 01 - MCGFLLCLK , or MCGPLLCLK , or IRC48M clock as selected by
* SOPT2[PLLFLLSEL].
* - 10 - OSCERCLK clock
* - 11 - External bypass clock (ENET_1588_CLKIN).
*/
/*@{*/
#define BP_SIM_SOPT2_TIMESRC (20U) /*!< Bit position for SIM_SOPT2_TIMESRC. */
#define BM_SIM_SOPT2_TIMESRC (0x00300000U) /*!< Bit mask for SIM_SOPT2_TIMESRC. */
#define BS_SIM_SOPT2_TIMESRC (2U) /*!< Bit field size in bits for SIM_SOPT2_TIMESRC. */
/*! @brief Read current value of the SIM_SOPT2_TIMESRC field. */
#define BR_SIM_SOPT2_TIMESRC(x) (HW_SIM_SOPT2(x).B.TIMESRC)
/*! @brief Format value for bitfield SIM_SOPT2_TIMESRC. */
#define BF_SIM_SOPT2_TIMESRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT2_TIMESRC) & BM_SIM_SOPT2_TIMESRC)
/*! @brief Set the TIMESRC field to a new value. */
#define BW_SIM_SOPT2_TIMESRC(x, v) (HW_SIM_SOPT2_WR(x, (HW_SIM_SOPT2_RD(x) & ~BM_SIM_SOPT2_TIMESRC) | BF_SIM_SOPT2_TIMESRC(v)))
/*@}*/
/*!
* @name Register SIM_SOPT2, field SDHCSRC[29:28] (RW)
*
* Selects the clock source for the SDHC clock .
*
* Values:
* - 00 - Core/system clock.
* - 01 - MCGFLLCLK, or MCGPLLCLK , or IRC48M clock as selected by
* SOPT2[PLLFLLSEL].
* - 10 - OSCERCLK clock
* - 11 - External bypass clock (SDHC0_CLKIN)
*/
/*@{*/
#define BP_SIM_SOPT2_SDHCSRC (28U) /*!< Bit position for SIM_SOPT2_SDHCSRC. */
#define BM_SIM_SOPT2_SDHCSRC (0x30000000U) /*!< Bit mask for SIM_SOPT2_SDHCSRC. */
#define BS_SIM_SOPT2_SDHCSRC (2U) /*!< Bit field size in bits for SIM_SOPT2_SDHCSRC. */
/*! @brief Read current value of the SIM_SOPT2_SDHCSRC field. */
#define BR_SIM_SOPT2_SDHCSRC(x) (HW_SIM_SOPT2(x).B.SDHCSRC)
/*! @brief Format value for bitfield SIM_SOPT2_SDHCSRC. */
#define BF_SIM_SOPT2_SDHCSRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT2_SDHCSRC) & BM_SIM_SOPT2_SDHCSRC)
/*! @brief Set the SDHCSRC field to a new value. */
#define BW_SIM_SOPT2_SDHCSRC(x, v) (HW_SIM_SOPT2_WR(x, (HW_SIM_SOPT2_RD(x) & ~BM_SIM_SOPT2_SDHCSRC) | BF_SIM_SOPT2_SDHCSRC(v)))
/*@}*/
/*******************************************************************************
* HW_SIM_SOPT4 - System Options Register 4
******************************************************************************/
/*!
* @brief HW_SIM_SOPT4 - System Options Register 4 (RW)
*
* Reset value: 0x00000000U
*/
typedef union _hw_sim_sopt4
{
uint32_t U;
struct _hw_sim_sopt4_bitfields
{
uint32_t FTM0FLT0 : 1; /*!< [0] FTM0 Fault 0 Select */
uint32_t FTM0FLT1 : 1; /*!< [1] FTM0 Fault 1 Select */
uint32_t FTM0FLT2 : 1; /*!< [2] FTM0 Fault 2 Select */
uint32_t RESERVED0 : 1; /*!< [3] */
uint32_t FTM1FLT0 : 1; /*!< [4] FTM1 Fault 0 Select */
uint32_t RESERVED1 : 3; /*!< [7:5] */
uint32_t FTM2FLT0 : 1; /*!< [8] FTM2 Fault 0 Select */
uint32_t RESERVED2 : 3; /*!< [11:9] */
uint32_t FTM3FLT0 : 1; /*!< [12] FTM3 Fault 0 Select */
uint32_t RESERVED3 : 5; /*!< [17:13] */
uint32_t FTM1CH0SRC : 2; /*!< [19:18] FTM1 channel 0 input capture
* source select */
uint32_t FTM2CH0SRC : 2; /*!< [21:20] FTM2 channel 0 input capture
* source select */
uint32_t RESERVED4 : 2; /*!< [23:22] */
uint32_t FTM0CLKSEL : 1; /*!< [24] FlexTimer 0 External Clock Pin
* Select */
uint32_t FTM1CLKSEL : 1; /*!< [25] FTM1 External Clock Pin Select */
uint32_t FTM2CLKSEL : 1; /*!< [26] FlexTimer 2 External Clock Pin
* Select */
uint32_t FTM3CLKSEL : 1; /*!< [27] FlexTimer 3 External Clock Pin
* Select */
uint32_t FTM0TRG0SRC : 1; /*!< [28] FlexTimer 0 Hardware Trigger 0
* Source Select */
uint32_t FTM0TRG1SRC : 1; /*!< [29] FlexTimer 0 Hardware Trigger 1
* Source Select */
uint32_t FTM3TRG0SRC : 1; /*!< [30] FlexTimer 3 Hardware Trigger 0
* Source Select */
uint32_t FTM3TRG1SRC : 1; /*!< [31] FlexTimer 3 Hardware Trigger 1
* Source Select */
} B;
} hw_sim_sopt4_t;
/*!
* @name Constants and macros for entire SIM_SOPT4 register
*/
/*@{*/
#define HW_SIM_SOPT4_ADDR(x) ((x) + 0x100CU)
#define HW_SIM_SOPT4(x) (*(__IO hw_sim_sopt4_t *) HW_SIM_SOPT4_ADDR(x))
#define HW_SIM_SOPT4_RD(x) (HW_SIM_SOPT4(x).U)
#define HW_SIM_SOPT4_WR(x, v) (HW_SIM_SOPT4(x).U = (v))
#define HW_SIM_SOPT4_SET(x, v) (HW_SIM_SOPT4_WR(x, HW_SIM_SOPT4_RD(x) | (v)))
#define HW_SIM_SOPT4_CLR(x, v) (HW_SIM_SOPT4_WR(x, HW_SIM_SOPT4_RD(x) & ~(v)))
#define HW_SIM_SOPT4_TOG(x, v) (HW_SIM_SOPT4_WR(x, HW_SIM_SOPT4_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SOPT4 bitfields
*/
/*!
* @name Register SIM_SOPT4, field FTM0FLT0[0] (RW)
*
* Selects the source of FTM0 fault 0. The pin source for fault 0 must be
* configured for the FTM module fault function through the appropriate pin control
* register in the port control module.
*
* Values:
* - 0 - FTM0_FLT0 pin
* - 1 - CMP0 out
*/
/*@{*/
#define BP_SIM_SOPT4_FTM0FLT0 (0U) /*!< Bit position for SIM_SOPT4_FTM0FLT0. */
#define BM_SIM_SOPT4_FTM0FLT0 (0x00000001U) /*!< Bit mask for SIM_SOPT4_FTM0FLT0. */
#define BS_SIM_SOPT4_FTM0FLT0 (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM0FLT0. */
/*! @brief Read current value of the SIM_SOPT4_FTM0FLT0 field. */
#define BR_SIM_SOPT4_FTM0FLT0(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0FLT0))
/*! @brief Format value for bitfield SIM_SOPT4_FTM0FLT0. */
#define BF_SIM_SOPT4_FTM0FLT0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM0FLT0) & BM_SIM_SOPT4_FTM0FLT0)
/*! @brief Set the FTM0FLT0 field to a new value. */
#define BW_SIM_SOPT4_FTM0FLT0(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0FLT0) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM0FLT1[1] (RW)
*
* Selects the source of FTM0 fault 1. The pin source for fault 1 must be
* configured for the FTM module fault function through the appropriate pin control
* register in the port control module.
*
* Values:
* - 0 - FTM0_FLT1 pin
* - 1 - CMP1 out
*/
/*@{*/
#define BP_SIM_SOPT4_FTM0FLT1 (1U) /*!< Bit position for SIM_SOPT4_FTM0FLT1. */
#define BM_SIM_SOPT4_FTM0FLT1 (0x00000002U) /*!< Bit mask for SIM_SOPT4_FTM0FLT1. */
#define BS_SIM_SOPT4_FTM0FLT1 (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM0FLT1. */
/*! @brief Read current value of the SIM_SOPT4_FTM0FLT1 field. */
#define BR_SIM_SOPT4_FTM0FLT1(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0FLT1))
/*! @brief Format value for bitfield SIM_SOPT4_FTM0FLT1. */
#define BF_SIM_SOPT4_FTM0FLT1(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM0FLT1) & BM_SIM_SOPT4_FTM0FLT1)
/*! @brief Set the FTM0FLT1 field to a new value. */
#define BW_SIM_SOPT4_FTM0FLT1(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0FLT1) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM0FLT2[2] (RW)
*
* Selects the source of FTM0 fault 2. The pin source for fault 2 must be
* configured for the FTM module fault function through the appropriate pin control
* register in the port control module.
*
* Values:
* - 0 - FTM0_FLT2 pin
* - 1 - CMP2 out
*/
/*@{*/
#define BP_SIM_SOPT4_FTM0FLT2 (2U) /*!< Bit position for SIM_SOPT4_FTM0FLT2. */
#define BM_SIM_SOPT4_FTM0FLT2 (0x00000004U) /*!< Bit mask for SIM_SOPT4_FTM0FLT2. */
#define BS_SIM_SOPT4_FTM0FLT2 (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM0FLT2. */
/*! @brief Read current value of the SIM_SOPT4_FTM0FLT2 field. */
#define BR_SIM_SOPT4_FTM0FLT2(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0FLT2))
/*! @brief Format value for bitfield SIM_SOPT4_FTM0FLT2. */
#define BF_SIM_SOPT4_FTM0FLT2(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM0FLT2) & BM_SIM_SOPT4_FTM0FLT2)
/*! @brief Set the FTM0FLT2 field to a new value. */
#define BW_SIM_SOPT4_FTM0FLT2(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0FLT2) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM1FLT0[4] (RW)
*
* Selects the source of FTM1 fault 0. The pin source for fault 0 must be
* configured for the FTM module fault function through the appropriate pin control
* register in the port control module.
*
* Values:
* - 0 - FTM1_FLT0 pin
* - 1 - CMP0 out
*/
/*@{*/
#define BP_SIM_SOPT4_FTM1FLT0 (4U) /*!< Bit position for SIM_SOPT4_FTM1FLT0. */
#define BM_SIM_SOPT4_FTM1FLT0 (0x00000010U) /*!< Bit mask for SIM_SOPT4_FTM1FLT0. */
#define BS_SIM_SOPT4_FTM1FLT0 (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM1FLT0. */
/*! @brief Read current value of the SIM_SOPT4_FTM1FLT0 field. */
#define BR_SIM_SOPT4_FTM1FLT0(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM1FLT0))
/*! @brief Format value for bitfield SIM_SOPT4_FTM1FLT0. */
#define BF_SIM_SOPT4_FTM1FLT0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM1FLT0) & BM_SIM_SOPT4_FTM1FLT0)
/*! @brief Set the FTM1FLT0 field to a new value. */
#define BW_SIM_SOPT4_FTM1FLT0(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM1FLT0) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM2FLT0[8] (RW)
*
* Selects the source of FTM2 fault 0. The pin source for fault 0 must be
* configured for the FTM module fault function through the appropriate PORTx pin
* control register.
*
* Values:
* - 0 - FTM2_FLT0 pin
* - 1 - CMP0 out
*/
/*@{*/
#define BP_SIM_SOPT4_FTM2FLT0 (8U) /*!< Bit position for SIM_SOPT4_FTM2FLT0. */
#define BM_SIM_SOPT4_FTM2FLT0 (0x00000100U) /*!< Bit mask for SIM_SOPT4_FTM2FLT0. */
#define BS_SIM_SOPT4_FTM2FLT0 (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM2FLT0. */
/*! @brief Read current value of the SIM_SOPT4_FTM2FLT0 field. */
#define BR_SIM_SOPT4_FTM2FLT0(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM2FLT0))
/*! @brief Format value for bitfield SIM_SOPT4_FTM2FLT0. */
#define BF_SIM_SOPT4_FTM2FLT0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM2FLT0) & BM_SIM_SOPT4_FTM2FLT0)
/*! @brief Set the FTM2FLT0 field to a new value. */
#define BW_SIM_SOPT4_FTM2FLT0(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM2FLT0) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM3FLT0[12] (RW)
*
* Selects the source of FTM3 fault 0. The pin source for fault 0 must be
* configured for the FTM module fault function through the appropriate PORTx pin
* control register.
*
* Values:
* - 0 - FTM3_FLT0 pin
* - 1 - CMP0 out
*/
/*@{*/
#define BP_SIM_SOPT4_FTM3FLT0 (12U) /*!< Bit position for SIM_SOPT4_FTM3FLT0. */
#define BM_SIM_SOPT4_FTM3FLT0 (0x00001000U) /*!< Bit mask for SIM_SOPT4_FTM3FLT0. */
#define BS_SIM_SOPT4_FTM3FLT0 (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM3FLT0. */
/*! @brief Read current value of the SIM_SOPT4_FTM3FLT0 field. */
#define BR_SIM_SOPT4_FTM3FLT0(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM3FLT0))
/*! @brief Format value for bitfield SIM_SOPT4_FTM3FLT0. */
#define BF_SIM_SOPT4_FTM3FLT0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM3FLT0) & BM_SIM_SOPT4_FTM3FLT0)
/*! @brief Set the FTM3FLT0 field to a new value. */
#define BW_SIM_SOPT4_FTM3FLT0(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM3FLT0) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM1CH0SRC[19:18] (RW)
*
* Selects the source for FTM1 channel 0 input capture. When the FTM is not in
* input capture mode, clear this field.
*
* Values:
* - 00 - FTM1_CH0 signal
* - 01 - CMP0 output
* - 10 - CMP1 output
* - 11 - USB start of frame pulse
*/
/*@{*/
#define BP_SIM_SOPT4_FTM1CH0SRC (18U) /*!< Bit position for SIM_SOPT4_FTM1CH0SRC. */
#define BM_SIM_SOPT4_FTM1CH0SRC (0x000C0000U) /*!< Bit mask for SIM_SOPT4_FTM1CH0SRC. */
#define BS_SIM_SOPT4_FTM1CH0SRC (2U) /*!< Bit field size in bits for SIM_SOPT4_FTM1CH0SRC. */
/*! @brief Read current value of the SIM_SOPT4_FTM1CH0SRC field. */
#define BR_SIM_SOPT4_FTM1CH0SRC(x) (HW_SIM_SOPT4(x).B.FTM1CH0SRC)
/*! @brief Format value for bitfield SIM_SOPT4_FTM1CH0SRC. */
#define BF_SIM_SOPT4_FTM1CH0SRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM1CH0SRC) & BM_SIM_SOPT4_FTM1CH0SRC)
/*! @brief Set the FTM1CH0SRC field to a new value. */
#define BW_SIM_SOPT4_FTM1CH0SRC(x, v) (HW_SIM_SOPT4_WR(x, (HW_SIM_SOPT4_RD(x) & ~BM_SIM_SOPT4_FTM1CH0SRC) | BF_SIM_SOPT4_FTM1CH0SRC(v)))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM2CH0SRC[21:20] (RW)
*
* Selects the source for FTM2 channel 0 input capture. When the FTM is not in
* input capture mode, clear this field.
*
* Values:
* - 00 - FTM2_CH0 signal
* - 01 - CMP0 output
* - 10 - CMP1 output
* - 11 - Reserved
*/
/*@{*/
#define BP_SIM_SOPT4_FTM2CH0SRC (20U) /*!< Bit position for SIM_SOPT4_FTM2CH0SRC. */
#define BM_SIM_SOPT4_FTM2CH0SRC (0x00300000U) /*!< Bit mask for SIM_SOPT4_FTM2CH0SRC. */
#define BS_SIM_SOPT4_FTM2CH0SRC (2U) /*!< Bit field size in bits for SIM_SOPT4_FTM2CH0SRC. */
/*! @brief Read current value of the SIM_SOPT4_FTM2CH0SRC field. */
#define BR_SIM_SOPT4_FTM2CH0SRC(x) (HW_SIM_SOPT4(x).B.FTM2CH0SRC)
/*! @brief Format value for bitfield SIM_SOPT4_FTM2CH0SRC. */
#define BF_SIM_SOPT4_FTM2CH0SRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM2CH0SRC) & BM_SIM_SOPT4_FTM2CH0SRC)
/*! @brief Set the FTM2CH0SRC field to a new value. */
#define BW_SIM_SOPT4_FTM2CH0SRC(x, v) (HW_SIM_SOPT4_WR(x, (HW_SIM_SOPT4_RD(x) & ~BM_SIM_SOPT4_FTM2CH0SRC) | BF_SIM_SOPT4_FTM2CH0SRC(v)))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM0CLKSEL[24] (RW)
*
* Selects the external pin used to drive the clock to the FTM0 module. The
* selected pin must also be configured for the FTM external clock function through
* the appropriate pin control register in the port control module.
*
* Values:
* - 0 - FTM_CLK0 pin
* - 1 - FTM_CLK1 pin
*/
/*@{*/
#define BP_SIM_SOPT4_FTM0CLKSEL (24U) /*!< Bit position for SIM_SOPT4_FTM0CLKSEL. */
#define BM_SIM_SOPT4_FTM0CLKSEL (0x01000000U) /*!< Bit mask for SIM_SOPT4_FTM0CLKSEL. */
#define BS_SIM_SOPT4_FTM0CLKSEL (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM0CLKSEL. */
/*! @brief Read current value of the SIM_SOPT4_FTM0CLKSEL field. */
#define BR_SIM_SOPT4_FTM0CLKSEL(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0CLKSEL))
/*! @brief Format value for bitfield SIM_SOPT4_FTM0CLKSEL. */
#define BF_SIM_SOPT4_FTM0CLKSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM0CLKSEL) & BM_SIM_SOPT4_FTM0CLKSEL)
/*! @brief Set the FTM0CLKSEL field to a new value. */
#define BW_SIM_SOPT4_FTM0CLKSEL(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0CLKSEL) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM1CLKSEL[25] (RW)
*
* Selects the external pin used to drive the clock to the FTM1 module. The
* selected pin must also be configured for the FTM external clock function through
* the appropriate pin control register in the port control module.
*
* Values:
* - 0 - FTM_CLK0 pin
* - 1 - FTM_CLK1 pin
*/
/*@{*/
#define BP_SIM_SOPT4_FTM1CLKSEL (25U) /*!< Bit position for SIM_SOPT4_FTM1CLKSEL. */
#define BM_SIM_SOPT4_FTM1CLKSEL (0x02000000U) /*!< Bit mask for SIM_SOPT4_FTM1CLKSEL. */
#define BS_SIM_SOPT4_FTM1CLKSEL (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM1CLKSEL. */
/*! @brief Read current value of the SIM_SOPT4_FTM1CLKSEL field. */
#define BR_SIM_SOPT4_FTM1CLKSEL(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM1CLKSEL))
/*! @brief Format value for bitfield SIM_SOPT4_FTM1CLKSEL. */
#define BF_SIM_SOPT4_FTM1CLKSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM1CLKSEL) & BM_SIM_SOPT4_FTM1CLKSEL)
/*! @brief Set the FTM1CLKSEL field to a new value. */
#define BW_SIM_SOPT4_FTM1CLKSEL(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM1CLKSEL) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM2CLKSEL[26] (RW)
*
* Selects the external pin used to drive the clock to the FTM2 module. The
* selected pin must also be configured for the FTM2 module external clock function
* through the appropriate pin control register in the port control module.
*
* Values:
* - 0 - FTM2 external clock driven by FTM_CLK0 pin.
* - 1 - FTM2 external clock driven by FTM_CLK1 pin.
*/
/*@{*/
#define BP_SIM_SOPT4_FTM2CLKSEL (26U) /*!< Bit position for SIM_SOPT4_FTM2CLKSEL. */
#define BM_SIM_SOPT4_FTM2CLKSEL (0x04000000U) /*!< Bit mask for SIM_SOPT4_FTM2CLKSEL. */
#define BS_SIM_SOPT4_FTM2CLKSEL (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM2CLKSEL. */
/*! @brief Read current value of the SIM_SOPT4_FTM2CLKSEL field. */
#define BR_SIM_SOPT4_FTM2CLKSEL(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM2CLKSEL))
/*! @brief Format value for bitfield SIM_SOPT4_FTM2CLKSEL. */
#define BF_SIM_SOPT4_FTM2CLKSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM2CLKSEL) & BM_SIM_SOPT4_FTM2CLKSEL)
/*! @brief Set the FTM2CLKSEL field to a new value. */
#define BW_SIM_SOPT4_FTM2CLKSEL(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM2CLKSEL) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM3CLKSEL[27] (RW)
*
* Selects the external pin used to drive the clock to the FTM3 module. The
* selected pin must also be configured for the FTM3 module external clock function
* through the appropriate pin control register in the port control module.
*
* Values:
* - 0 - FTM3 external clock driven by FTM_CLK0 pin.
* - 1 - FTM3 external clock driven by FTM_CLK1 pin.
*/
/*@{*/
#define BP_SIM_SOPT4_FTM3CLKSEL (27U) /*!< Bit position for SIM_SOPT4_FTM3CLKSEL. */
#define BM_SIM_SOPT4_FTM3CLKSEL (0x08000000U) /*!< Bit mask for SIM_SOPT4_FTM3CLKSEL. */
#define BS_SIM_SOPT4_FTM3CLKSEL (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM3CLKSEL. */
/*! @brief Read current value of the SIM_SOPT4_FTM3CLKSEL field. */
#define BR_SIM_SOPT4_FTM3CLKSEL(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM3CLKSEL))
/*! @brief Format value for bitfield SIM_SOPT4_FTM3CLKSEL. */
#define BF_SIM_SOPT4_FTM3CLKSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM3CLKSEL) & BM_SIM_SOPT4_FTM3CLKSEL)
/*! @brief Set the FTM3CLKSEL field to a new value. */
#define BW_SIM_SOPT4_FTM3CLKSEL(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM3CLKSEL) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM0TRG0SRC[28] (RW)
*
* Selects the source of FTM0 hardware trigger 0.
*
* Values:
* - 0 - HSCMP0 output drives FTM0 hardware trigger 0
* - 1 - FTM1 channel match drives FTM0 hardware trigger 0
*/
/*@{*/
#define BP_SIM_SOPT4_FTM0TRG0SRC (28U) /*!< Bit position for SIM_SOPT4_FTM0TRG0SRC. */
#define BM_SIM_SOPT4_FTM0TRG0SRC (0x10000000U) /*!< Bit mask for SIM_SOPT4_FTM0TRG0SRC. */
#define BS_SIM_SOPT4_FTM0TRG0SRC (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM0TRG0SRC. */
/*! @brief Read current value of the SIM_SOPT4_FTM0TRG0SRC field. */
#define BR_SIM_SOPT4_FTM0TRG0SRC(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0TRG0SRC))
/*! @brief Format value for bitfield SIM_SOPT4_FTM0TRG0SRC. */
#define BF_SIM_SOPT4_FTM0TRG0SRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM0TRG0SRC) & BM_SIM_SOPT4_FTM0TRG0SRC)
/*! @brief Set the FTM0TRG0SRC field to a new value. */
#define BW_SIM_SOPT4_FTM0TRG0SRC(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0TRG0SRC) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM0TRG1SRC[29] (RW)
*
* Selects the source of FTM0 hardware trigger 1.
*
* Values:
* - 0 - PDB output trigger 1 drives FTM0 hardware trigger 1
* - 1 - FTM2 channel match drives FTM0 hardware trigger 1
*/
/*@{*/
#define BP_SIM_SOPT4_FTM0TRG1SRC (29U) /*!< Bit position for SIM_SOPT4_FTM0TRG1SRC. */
#define BM_SIM_SOPT4_FTM0TRG1SRC (0x20000000U) /*!< Bit mask for SIM_SOPT4_FTM0TRG1SRC. */
#define BS_SIM_SOPT4_FTM0TRG1SRC (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM0TRG1SRC. */
/*! @brief Read current value of the SIM_SOPT4_FTM0TRG1SRC field. */
#define BR_SIM_SOPT4_FTM0TRG1SRC(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0TRG1SRC))
/*! @brief Format value for bitfield SIM_SOPT4_FTM0TRG1SRC. */
#define BF_SIM_SOPT4_FTM0TRG1SRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM0TRG1SRC) & BM_SIM_SOPT4_FTM0TRG1SRC)
/*! @brief Set the FTM0TRG1SRC field to a new value. */
#define BW_SIM_SOPT4_FTM0TRG1SRC(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM0TRG1SRC) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM3TRG0SRC[30] (RW)
*
* Selects the source of FTM3 hardware trigger 0.
*
* Values:
* - 0 - Reserved
* - 1 - FTM1 channel match drives FTM3 hardware trigger 0
*/
/*@{*/
#define BP_SIM_SOPT4_FTM3TRG0SRC (30U) /*!< Bit position for SIM_SOPT4_FTM3TRG0SRC. */
#define BM_SIM_SOPT4_FTM3TRG0SRC (0x40000000U) /*!< Bit mask for SIM_SOPT4_FTM3TRG0SRC. */
#define BS_SIM_SOPT4_FTM3TRG0SRC (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM3TRG0SRC. */
/*! @brief Read current value of the SIM_SOPT4_FTM3TRG0SRC field. */
#define BR_SIM_SOPT4_FTM3TRG0SRC(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM3TRG0SRC))
/*! @brief Format value for bitfield SIM_SOPT4_FTM3TRG0SRC. */
#define BF_SIM_SOPT4_FTM3TRG0SRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM3TRG0SRC) & BM_SIM_SOPT4_FTM3TRG0SRC)
/*! @brief Set the FTM3TRG0SRC field to a new value. */
#define BW_SIM_SOPT4_FTM3TRG0SRC(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM3TRG0SRC) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT4, field FTM3TRG1SRC[31] (RW)
*
* Selects the source of FTM3 hardware trigger 1.
*
* Values:
* - 0 - Reserved
* - 1 - FTM2 channel match drives FTM3 hardware trigger 1
*/
/*@{*/
#define BP_SIM_SOPT4_FTM3TRG1SRC (31U) /*!< Bit position for SIM_SOPT4_FTM3TRG1SRC. */
#define BM_SIM_SOPT4_FTM3TRG1SRC (0x80000000U) /*!< Bit mask for SIM_SOPT4_FTM3TRG1SRC. */
#define BS_SIM_SOPT4_FTM3TRG1SRC (1U) /*!< Bit field size in bits for SIM_SOPT4_FTM3TRG1SRC. */
/*! @brief Read current value of the SIM_SOPT4_FTM3TRG1SRC field. */
#define BR_SIM_SOPT4_FTM3TRG1SRC(x) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM3TRG1SRC))
/*! @brief Format value for bitfield SIM_SOPT4_FTM3TRG1SRC. */
#define BF_SIM_SOPT4_FTM3TRG1SRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT4_FTM3TRG1SRC) & BM_SIM_SOPT4_FTM3TRG1SRC)
/*! @brief Set the FTM3TRG1SRC field to a new value. */
#define BW_SIM_SOPT4_FTM3TRG1SRC(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT4_ADDR(x), BP_SIM_SOPT4_FTM3TRG1SRC) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_SOPT5 - System Options Register 5
******************************************************************************/
/*!
* @brief HW_SIM_SOPT5 - System Options Register 5 (RW)
*
* Reset value: 0x00000000U
*/
typedef union _hw_sim_sopt5
{
uint32_t U;
struct _hw_sim_sopt5_bitfields
{
uint32_t UART0TXSRC : 2; /*!< [1:0] UART 0 transmit data source
* select */
uint32_t UART0RXSRC : 2; /*!< [3:2] UART 0 receive data source select
* */
uint32_t UART1TXSRC : 2; /*!< [5:4] UART 1 transmit data source
* select */
uint32_t UART1RXSRC : 2; /*!< [7:6] UART 1 receive data source select
* */
uint32_t RESERVED0 : 24; /*!< [31:8] */
} B;
} hw_sim_sopt5_t;
/*!
* @name Constants and macros for entire SIM_SOPT5 register
*/
/*@{*/
#define HW_SIM_SOPT5_ADDR(x) ((x) + 0x1010U)
#define HW_SIM_SOPT5(x) (*(__IO hw_sim_sopt5_t *) HW_SIM_SOPT5_ADDR(x))
#define HW_SIM_SOPT5_RD(x) (HW_SIM_SOPT5(x).U)
#define HW_SIM_SOPT5_WR(x, v) (HW_SIM_SOPT5(x).U = (v))
#define HW_SIM_SOPT5_SET(x, v) (HW_SIM_SOPT5_WR(x, HW_SIM_SOPT5_RD(x) | (v)))
#define HW_SIM_SOPT5_CLR(x, v) (HW_SIM_SOPT5_WR(x, HW_SIM_SOPT5_RD(x) & ~(v)))
#define HW_SIM_SOPT5_TOG(x, v) (HW_SIM_SOPT5_WR(x, HW_SIM_SOPT5_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SOPT5 bitfields
*/
/*!
* @name Register SIM_SOPT5, field UART0TXSRC[1:0] (RW)
*
* Selects the source for the UART 0 transmit data.
*
* Values:
* - 00 - UART0_TX pin
* - 01 - UART0_TX pin modulated with FTM1 channel 0 output
* - 10 - UART0_TX pin modulated with FTM2 channel 0 output
* - 11 - Reserved
*/
/*@{*/
#define BP_SIM_SOPT5_UART0TXSRC (0U) /*!< Bit position for SIM_SOPT5_UART0TXSRC. */
#define BM_SIM_SOPT5_UART0TXSRC (0x00000003U) /*!< Bit mask for SIM_SOPT5_UART0TXSRC. */
#define BS_SIM_SOPT5_UART0TXSRC (2U) /*!< Bit field size in bits for SIM_SOPT5_UART0TXSRC. */
/*! @brief Read current value of the SIM_SOPT5_UART0TXSRC field. */
#define BR_SIM_SOPT5_UART0TXSRC(x) (HW_SIM_SOPT5(x).B.UART0TXSRC)
/*! @brief Format value for bitfield SIM_SOPT5_UART0TXSRC. */
#define BF_SIM_SOPT5_UART0TXSRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT5_UART0TXSRC) & BM_SIM_SOPT5_UART0TXSRC)
/*! @brief Set the UART0TXSRC field to a new value. */
#define BW_SIM_SOPT5_UART0TXSRC(x, v) (HW_SIM_SOPT5_WR(x, (HW_SIM_SOPT5_RD(x) & ~BM_SIM_SOPT5_UART0TXSRC) | BF_SIM_SOPT5_UART0TXSRC(v)))
/*@}*/
/*!
* @name Register SIM_SOPT5, field UART0RXSRC[3:2] (RW)
*
* Selects the source for the UART 0 receive data.
*
* Values:
* - 00 - UART0_RX pin
* - 01 - CMP0
* - 10 - CMP1
* - 11 - Reserved
*/
/*@{*/
#define BP_SIM_SOPT5_UART0RXSRC (2U) /*!< Bit position for SIM_SOPT5_UART0RXSRC. */
#define BM_SIM_SOPT5_UART0RXSRC (0x0000000CU) /*!< Bit mask for SIM_SOPT5_UART0RXSRC. */
#define BS_SIM_SOPT5_UART0RXSRC (2U) /*!< Bit field size in bits for SIM_SOPT5_UART0RXSRC. */
/*! @brief Read current value of the SIM_SOPT5_UART0RXSRC field. */
#define BR_SIM_SOPT5_UART0RXSRC(x) (HW_SIM_SOPT5(x).B.UART0RXSRC)
/*! @brief Format value for bitfield SIM_SOPT5_UART0RXSRC. */
#define BF_SIM_SOPT5_UART0RXSRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT5_UART0RXSRC) & BM_SIM_SOPT5_UART0RXSRC)
/*! @brief Set the UART0RXSRC field to a new value. */
#define BW_SIM_SOPT5_UART0RXSRC(x, v) (HW_SIM_SOPT5_WR(x, (HW_SIM_SOPT5_RD(x) & ~BM_SIM_SOPT5_UART0RXSRC) | BF_SIM_SOPT5_UART0RXSRC(v)))
/*@}*/
/*!
* @name Register SIM_SOPT5, field UART1TXSRC[5:4] (RW)
*
* Selects the source for the UART 1 transmit data.
*
* Values:
* - 00 - UART1_TX pin
* - 01 - UART1_TX pin modulated with FTM1 channel 0 output
* - 10 - UART1_TX pin modulated with FTM2 channel 0 output
* - 11 - Reserved
*/
/*@{*/
#define BP_SIM_SOPT5_UART1TXSRC (4U) /*!< Bit position for SIM_SOPT5_UART1TXSRC. */
#define BM_SIM_SOPT5_UART1TXSRC (0x00000030U) /*!< Bit mask for SIM_SOPT5_UART1TXSRC. */
#define BS_SIM_SOPT5_UART1TXSRC (2U) /*!< Bit field size in bits for SIM_SOPT5_UART1TXSRC. */
/*! @brief Read current value of the SIM_SOPT5_UART1TXSRC field. */
#define BR_SIM_SOPT5_UART1TXSRC(x) (HW_SIM_SOPT5(x).B.UART1TXSRC)
/*! @brief Format value for bitfield SIM_SOPT5_UART1TXSRC. */
#define BF_SIM_SOPT5_UART1TXSRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT5_UART1TXSRC) & BM_SIM_SOPT5_UART1TXSRC)
/*! @brief Set the UART1TXSRC field to a new value. */
#define BW_SIM_SOPT5_UART1TXSRC(x, v) (HW_SIM_SOPT5_WR(x, (HW_SIM_SOPT5_RD(x) & ~BM_SIM_SOPT5_UART1TXSRC) | BF_SIM_SOPT5_UART1TXSRC(v)))
/*@}*/
/*!
* @name Register SIM_SOPT5, field UART1RXSRC[7:6] (RW)
*
* Selects the source for the UART 1 receive data.
*
* Values:
* - 00 - UART1_RX pin
* - 01 - CMP0
* - 10 - CMP1
* - 11 - Reserved
*/
/*@{*/
#define BP_SIM_SOPT5_UART1RXSRC (6U) /*!< Bit position for SIM_SOPT5_UART1RXSRC. */
#define BM_SIM_SOPT5_UART1RXSRC (0x000000C0U) /*!< Bit mask for SIM_SOPT5_UART1RXSRC. */
#define BS_SIM_SOPT5_UART1RXSRC (2U) /*!< Bit field size in bits for SIM_SOPT5_UART1RXSRC. */
/*! @brief Read current value of the SIM_SOPT5_UART1RXSRC field. */
#define BR_SIM_SOPT5_UART1RXSRC(x) (HW_SIM_SOPT5(x).B.UART1RXSRC)
/*! @brief Format value for bitfield SIM_SOPT5_UART1RXSRC. */
#define BF_SIM_SOPT5_UART1RXSRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT5_UART1RXSRC) & BM_SIM_SOPT5_UART1RXSRC)
/*! @brief Set the UART1RXSRC field to a new value. */
#define BW_SIM_SOPT5_UART1RXSRC(x, v) (HW_SIM_SOPT5_WR(x, (HW_SIM_SOPT5_RD(x) & ~BM_SIM_SOPT5_UART1RXSRC) | BF_SIM_SOPT5_UART1RXSRC(v)))
/*@}*/
/*******************************************************************************
* HW_SIM_SOPT7 - System Options Register 7
******************************************************************************/
/*!
* @brief HW_SIM_SOPT7 - System Options Register 7 (RW)
*
* Reset value: 0x00000000U
*/
typedef union _hw_sim_sopt7
{
uint32_t U;
struct _hw_sim_sopt7_bitfields
{
uint32_t ADC0TRGSEL : 4; /*!< [3:0] ADC0 trigger select */
uint32_t ADC0PRETRGSEL : 1; /*!< [4] ADC0 pretrigger select */
uint32_t RESERVED0 : 2; /*!< [6:5] */
uint32_t ADC0ALTTRGEN : 1; /*!< [7] ADC0 alternate trigger enable */
uint32_t ADC1TRGSEL : 4; /*!< [11:8] ADC1 trigger select */
uint32_t ADC1PRETRGSEL : 1; /*!< [12] ADC1 pre-trigger select */
uint32_t RESERVED1 : 2; /*!< [14:13] */
uint32_t ADC1ALTTRGEN : 1; /*!< [15] ADC1 alternate trigger enable */
uint32_t RESERVED2 : 16; /*!< [31:16] */
} B;
} hw_sim_sopt7_t;
/*!
* @name Constants and macros for entire SIM_SOPT7 register
*/
/*@{*/
#define HW_SIM_SOPT7_ADDR(x) ((x) + 0x1018U)
#define HW_SIM_SOPT7(x) (*(__IO hw_sim_sopt7_t *) HW_SIM_SOPT7_ADDR(x))
#define HW_SIM_SOPT7_RD(x) (HW_SIM_SOPT7(x).U)
#define HW_SIM_SOPT7_WR(x, v) (HW_SIM_SOPT7(x).U = (v))
#define HW_SIM_SOPT7_SET(x, v) (HW_SIM_SOPT7_WR(x, HW_SIM_SOPT7_RD(x) | (v)))
#define HW_SIM_SOPT7_CLR(x, v) (HW_SIM_SOPT7_WR(x, HW_SIM_SOPT7_RD(x) & ~(v)))
#define HW_SIM_SOPT7_TOG(x, v) (HW_SIM_SOPT7_WR(x, HW_SIM_SOPT7_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SOPT7 bitfields
*/
/*!
* @name Register SIM_SOPT7, field ADC0TRGSEL[3:0] (RW)
*
* Selects the ADC0 trigger source when alternative triggers are functional in
* stop and VLPS modes. .
*
* Values:
* - 0000 - PDB external trigger pin input (PDB0_EXTRG)
* - 0001 - High speed comparator 0 output
* - 0010 - High speed comparator 1 output
* - 0011 - High speed comparator 2 output
* - 0100 - PIT trigger 0
* - 0101 - PIT trigger 1
* - 0110 - PIT trigger 2
* - 0111 - PIT trigger 3
* - 1000 - FTM0 trigger
* - 1001 - FTM1 trigger
* - 1010 - FTM2 trigger
* - 1011 - FTM3 trigger
* - 1100 - RTC alarm
* - 1101 - RTC seconds
* - 1110 - Low-power timer (LPTMR) trigger
* - 1111 - Reserved
*/
/*@{*/
#define BP_SIM_SOPT7_ADC0TRGSEL (0U) /*!< Bit position for SIM_SOPT7_ADC0TRGSEL. */
#define BM_SIM_SOPT7_ADC0TRGSEL (0x0000000FU) /*!< Bit mask for SIM_SOPT7_ADC0TRGSEL. */
#define BS_SIM_SOPT7_ADC0TRGSEL (4U) /*!< Bit field size in bits for SIM_SOPT7_ADC0TRGSEL. */
/*! @brief Read current value of the SIM_SOPT7_ADC0TRGSEL field. */
#define BR_SIM_SOPT7_ADC0TRGSEL(x) (HW_SIM_SOPT7(x).B.ADC0TRGSEL)
/*! @brief Format value for bitfield SIM_SOPT7_ADC0TRGSEL. */
#define BF_SIM_SOPT7_ADC0TRGSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT7_ADC0TRGSEL) & BM_SIM_SOPT7_ADC0TRGSEL)
/*! @brief Set the ADC0TRGSEL field to a new value. */
#define BW_SIM_SOPT7_ADC0TRGSEL(x, v) (HW_SIM_SOPT7_WR(x, (HW_SIM_SOPT7_RD(x) & ~BM_SIM_SOPT7_ADC0TRGSEL) | BF_SIM_SOPT7_ADC0TRGSEL(v)))
/*@}*/
/*!
* @name Register SIM_SOPT7, field ADC0PRETRGSEL[4] (RW)
*
* Selects the ADC0 pre-trigger source when alternative triggers are enabled
* through ADC0ALTTRGEN.
*
* Values:
* - 0 - Pre-trigger A
* - 1 - Pre-trigger B
*/
/*@{*/
#define BP_SIM_SOPT7_ADC0PRETRGSEL (4U) /*!< Bit position for SIM_SOPT7_ADC0PRETRGSEL. */
#define BM_SIM_SOPT7_ADC0PRETRGSEL (0x00000010U) /*!< Bit mask for SIM_SOPT7_ADC0PRETRGSEL. */
#define BS_SIM_SOPT7_ADC0PRETRGSEL (1U) /*!< Bit field size in bits for SIM_SOPT7_ADC0PRETRGSEL. */
/*! @brief Read current value of the SIM_SOPT7_ADC0PRETRGSEL field. */
#define BR_SIM_SOPT7_ADC0PRETRGSEL(x) (BITBAND_ACCESS32(HW_SIM_SOPT7_ADDR(x), BP_SIM_SOPT7_ADC0PRETRGSEL))
/*! @brief Format value for bitfield SIM_SOPT7_ADC0PRETRGSEL. */
#define BF_SIM_SOPT7_ADC0PRETRGSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT7_ADC0PRETRGSEL) & BM_SIM_SOPT7_ADC0PRETRGSEL)
/*! @brief Set the ADC0PRETRGSEL field to a new value. */
#define BW_SIM_SOPT7_ADC0PRETRGSEL(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT7_ADDR(x), BP_SIM_SOPT7_ADC0PRETRGSEL) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT7, field ADC0ALTTRGEN[7] (RW)
*
* Enable alternative conversion triggers for ADC0.
*
* Values:
* - 0 - PDB trigger selected for ADC0.
* - 1 - Alternate trigger selected for ADC0.
*/
/*@{*/
#define BP_SIM_SOPT7_ADC0ALTTRGEN (7U) /*!< Bit position for SIM_SOPT7_ADC0ALTTRGEN. */
#define BM_SIM_SOPT7_ADC0ALTTRGEN (0x00000080U) /*!< Bit mask for SIM_SOPT7_ADC0ALTTRGEN. */
#define BS_SIM_SOPT7_ADC0ALTTRGEN (1U) /*!< Bit field size in bits for SIM_SOPT7_ADC0ALTTRGEN. */
/*! @brief Read current value of the SIM_SOPT7_ADC0ALTTRGEN field. */
#define BR_SIM_SOPT7_ADC0ALTTRGEN(x) (BITBAND_ACCESS32(HW_SIM_SOPT7_ADDR(x), BP_SIM_SOPT7_ADC0ALTTRGEN))
/*! @brief Format value for bitfield SIM_SOPT7_ADC0ALTTRGEN. */
#define BF_SIM_SOPT7_ADC0ALTTRGEN(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT7_ADC0ALTTRGEN) & BM_SIM_SOPT7_ADC0ALTTRGEN)
/*! @brief Set the ADC0ALTTRGEN field to a new value. */
#define BW_SIM_SOPT7_ADC0ALTTRGEN(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT7_ADDR(x), BP_SIM_SOPT7_ADC0ALTTRGEN) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT7, field ADC1TRGSEL[11:8] (RW)
*
* Selects the ADC1 trigger source when alternative triggers are functional in
* stop and VLPS modes.
*
* Values:
* - 0000 - PDB external trigger pin input (PDB0_EXTRG)
* - 0001 - High speed comparator 0 output
* - 0010 - High speed comparator 1 output
* - 0011 - High speed comparator 2 output
* - 0100 - PIT trigger 0
* - 0101 - PIT trigger 1
* - 0110 - PIT trigger 2
* - 0111 - PIT trigger 3
* - 1000 - FTM0 trigger
* - 1001 - FTM1 trigger
* - 1010 - FTM2 trigger
* - 1011 - FTM3 trigger
* - 1100 - RTC alarm
* - 1101 - RTC seconds
* - 1110 - Low-power timer (LPTMR) trigger
* - 1111 - Reserved
*/
/*@{*/
#define BP_SIM_SOPT7_ADC1TRGSEL (8U) /*!< Bit position for SIM_SOPT7_ADC1TRGSEL. */
#define BM_SIM_SOPT7_ADC1TRGSEL (0x00000F00U) /*!< Bit mask for SIM_SOPT7_ADC1TRGSEL. */
#define BS_SIM_SOPT7_ADC1TRGSEL (4U) /*!< Bit field size in bits for SIM_SOPT7_ADC1TRGSEL. */
/*! @brief Read current value of the SIM_SOPT7_ADC1TRGSEL field. */
#define BR_SIM_SOPT7_ADC1TRGSEL(x) (HW_SIM_SOPT7(x).B.ADC1TRGSEL)
/*! @brief Format value for bitfield SIM_SOPT7_ADC1TRGSEL. */
#define BF_SIM_SOPT7_ADC1TRGSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT7_ADC1TRGSEL) & BM_SIM_SOPT7_ADC1TRGSEL)
/*! @brief Set the ADC1TRGSEL field to a new value. */
#define BW_SIM_SOPT7_ADC1TRGSEL(x, v) (HW_SIM_SOPT7_WR(x, (HW_SIM_SOPT7_RD(x) & ~BM_SIM_SOPT7_ADC1TRGSEL) | BF_SIM_SOPT7_ADC1TRGSEL(v)))
/*@}*/
/*!
* @name Register SIM_SOPT7, field ADC1PRETRGSEL[12] (RW)
*
* Selects the ADC1 pre-trigger source when alternative triggers are enabled
* through ADC1ALTTRGEN.
*
* Values:
* - 0 - Pre-trigger A selected for ADC1.
* - 1 - Pre-trigger B selected for ADC1.
*/
/*@{*/
#define BP_SIM_SOPT7_ADC1PRETRGSEL (12U) /*!< Bit position for SIM_SOPT7_ADC1PRETRGSEL. */
#define BM_SIM_SOPT7_ADC1PRETRGSEL (0x00001000U) /*!< Bit mask for SIM_SOPT7_ADC1PRETRGSEL. */
#define BS_SIM_SOPT7_ADC1PRETRGSEL (1U) /*!< Bit field size in bits for SIM_SOPT7_ADC1PRETRGSEL. */
/*! @brief Read current value of the SIM_SOPT7_ADC1PRETRGSEL field. */
#define BR_SIM_SOPT7_ADC1PRETRGSEL(x) (BITBAND_ACCESS32(HW_SIM_SOPT7_ADDR(x), BP_SIM_SOPT7_ADC1PRETRGSEL))
/*! @brief Format value for bitfield SIM_SOPT7_ADC1PRETRGSEL. */
#define BF_SIM_SOPT7_ADC1PRETRGSEL(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT7_ADC1PRETRGSEL) & BM_SIM_SOPT7_ADC1PRETRGSEL)
/*! @brief Set the ADC1PRETRGSEL field to a new value. */
#define BW_SIM_SOPT7_ADC1PRETRGSEL(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT7_ADDR(x), BP_SIM_SOPT7_ADC1PRETRGSEL) = (v))
/*@}*/
/*!
* @name Register SIM_SOPT7, field ADC1ALTTRGEN[15] (RW)
*
* Enable alternative conversion triggers for ADC1.
*
* Values:
* - 0 - PDB trigger selected for ADC1
* - 1 - Alternate trigger selected for ADC1 as defined by ADC1TRGSEL.
*/
/*@{*/
#define BP_SIM_SOPT7_ADC1ALTTRGEN (15U) /*!< Bit position for SIM_SOPT7_ADC1ALTTRGEN. */
#define BM_SIM_SOPT7_ADC1ALTTRGEN (0x00008000U) /*!< Bit mask for SIM_SOPT7_ADC1ALTTRGEN. */
#define BS_SIM_SOPT7_ADC1ALTTRGEN (1U) /*!< Bit field size in bits for SIM_SOPT7_ADC1ALTTRGEN. */
/*! @brief Read current value of the SIM_SOPT7_ADC1ALTTRGEN field. */
#define BR_SIM_SOPT7_ADC1ALTTRGEN(x) (BITBAND_ACCESS32(HW_SIM_SOPT7_ADDR(x), BP_SIM_SOPT7_ADC1ALTTRGEN))
/*! @brief Format value for bitfield SIM_SOPT7_ADC1ALTTRGEN. */
#define BF_SIM_SOPT7_ADC1ALTTRGEN(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SOPT7_ADC1ALTTRGEN) & BM_SIM_SOPT7_ADC1ALTTRGEN)
/*! @brief Set the ADC1ALTTRGEN field to a new value. */
#define BW_SIM_SOPT7_ADC1ALTTRGEN(x, v) (BITBAND_ACCESS32(HW_SIM_SOPT7_ADDR(x), BP_SIM_SOPT7_ADC1ALTTRGEN) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_SDID - System Device Identification Register
******************************************************************************/
/*!
* @brief HW_SIM_SDID - System Device Identification Register (RO)
*
* Reset value: 0x00000380U
*/
typedef union _hw_sim_sdid
{
uint32_t U;
struct _hw_sim_sdid_bitfields
{
uint32_t PINID : 4; /*!< [3:0] Pincount identification */
uint32_t FAMID : 3; /*!< [6:4] Kinetis family identification */
uint32_t DIEID : 5; /*!< [11:7] Device Die ID */
uint32_t REVID : 4; /*!< [15:12] Device revision number */
uint32_t RESERVED0 : 4; /*!< [19:16] */
uint32_t SERIESID : 4; /*!< [23:20] Kinetis Series ID */
uint32_t SUBFAMID : 4; /*!< [27:24] Kinetis Sub-Family ID */
uint32_t FAMILYID : 4; /*!< [31:28] Kinetis Family ID */
} B;
} hw_sim_sdid_t;
/*!
* @name Constants and macros for entire SIM_SDID register
*/
/*@{*/
#define HW_SIM_SDID_ADDR(x) ((x) + 0x1024U)
#define HW_SIM_SDID(x) (*(__I hw_sim_sdid_t *) HW_SIM_SDID_ADDR(x))
#define HW_SIM_SDID_RD(x) (HW_SIM_SDID(x).U)
/*@}*/
/*
* Constants & macros for individual SIM_SDID bitfields
*/
/*!
* @name Register SIM_SDID, field PINID[3:0] (RO)
*
* Specifies the pincount of the device.
*
* Values:
* - 0000 - Reserved
* - 0001 - Reserved
* - 0010 - 32-pin
* - 0011 - Reserved
* - 0100 - 48-pin
* - 0101 - 64-pin
* - 0110 - 80-pin
* - 0111 - 81-pin or 121-pin
* - 1000 - 100-pin
* - 1001 - 121-pin
* - 1010 - 144-pin
* - 1011 - Custom pinout (WLCSP)
* - 1100 - 169-pin
* - 1101 - Reserved
* - 1110 - 256-pin
* - 1111 - Reserved
*/
/*@{*/
#define BP_SIM_SDID_PINID (0U) /*!< Bit position for SIM_SDID_PINID. */
#define BM_SIM_SDID_PINID (0x0000000FU) /*!< Bit mask for SIM_SDID_PINID. */
#define BS_SIM_SDID_PINID (4U) /*!< Bit field size in bits for SIM_SDID_PINID. */
/*! @brief Read current value of the SIM_SDID_PINID field. */
#define BR_SIM_SDID_PINID(x) (HW_SIM_SDID(x).B.PINID)
/*@}*/
/*!
* @name Register SIM_SDID, field FAMID[6:4] (RO)
*
* This field is maintained for compatibility only, but has been superceded by
* the SERIESID, FAMILYID and SUBFAMID fields in this register.
*
* Values:
* - 000 - K1x Family (without tamper)
* - 001 - K2x Family (without tamper)
* - 010 - K3x Family or K1x/K6x Family (with tamper)
* - 011 - K4x Family or K2x Family (with tamper)
* - 100 - K6x Family (without tamper)
* - 101 - K7x Family
* - 110 - Reserved
* - 111 - Reserved
*/
/*@{*/
#define BP_SIM_SDID_FAMID (4U) /*!< Bit position for SIM_SDID_FAMID. */
#define BM_SIM_SDID_FAMID (0x00000070U) /*!< Bit mask for SIM_SDID_FAMID. */
#define BS_SIM_SDID_FAMID (3U) /*!< Bit field size in bits for SIM_SDID_FAMID. */
/*! @brief Read current value of the SIM_SDID_FAMID field. */
#define BR_SIM_SDID_FAMID(x) (HW_SIM_SDID(x).B.FAMID)
/*@}*/
/*!
* @name Register SIM_SDID, field DIEID[11:7] (RO)
*
* Specifies the silicon feature set identication number for the device.
*/
/*@{*/
#define BP_SIM_SDID_DIEID (7U) /*!< Bit position for SIM_SDID_DIEID. */
#define BM_SIM_SDID_DIEID (0x00000F80U) /*!< Bit mask for SIM_SDID_DIEID. */
#define BS_SIM_SDID_DIEID (5U) /*!< Bit field size in bits for SIM_SDID_DIEID. */
/*! @brief Read current value of the SIM_SDID_DIEID field. */
#define BR_SIM_SDID_DIEID(x) (HW_SIM_SDID(x).B.DIEID)
/*@}*/
/*!
* @name Register SIM_SDID, field REVID[15:12] (RO)
*
* Specifies the silicon implementation number for the device.
*/
/*@{*/
#define BP_SIM_SDID_REVID (12U) /*!< Bit position for SIM_SDID_REVID. */
#define BM_SIM_SDID_REVID (0x0000F000U) /*!< Bit mask for SIM_SDID_REVID. */
#define BS_SIM_SDID_REVID (4U) /*!< Bit field size in bits for SIM_SDID_REVID. */
/*! @brief Read current value of the SIM_SDID_REVID field. */
#define BR_SIM_SDID_REVID(x) (HW_SIM_SDID(x).B.REVID)
/*@}*/
/*!
* @name Register SIM_SDID, field SERIESID[23:20] (RO)
*
* Specifies the Kinetis series of the device.
*
* Values:
* - 0000 - Kinetis K series
* - 0001 - Kinetis L series
* - 0101 - Kinetis W series
* - 0110 - Kinetis V series
*/
/*@{*/
#define BP_SIM_SDID_SERIESID (20U) /*!< Bit position for SIM_SDID_SERIESID. */
#define BM_SIM_SDID_SERIESID (0x00F00000U) /*!< Bit mask for SIM_SDID_SERIESID. */
#define BS_SIM_SDID_SERIESID (4U) /*!< Bit field size in bits for SIM_SDID_SERIESID. */
/*! @brief Read current value of the SIM_SDID_SERIESID field. */
#define BR_SIM_SDID_SERIESID(x) (HW_SIM_SDID(x).B.SERIESID)
/*@}*/
/*!
* @name Register SIM_SDID, field SUBFAMID[27:24] (RO)
*
* Specifies the Kinetis sub-family of the device.
*
* Values:
* - 0000 - Kx0 Subfamily
* - 0001 - Kx1 Subfamily (tamper detect)
* - 0010 - Kx2 Subfamily
* - 0011 - Kx3 Subfamily (tamper detect)
* - 0100 - Kx4 Subfamily
* - 0101 - Kx5 Subfamily (tamper detect)
* - 0110 - Kx6 Subfamily
*/
/*@{*/
#define BP_SIM_SDID_SUBFAMID (24U) /*!< Bit position for SIM_SDID_SUBFAMID. */
#define BM_SIM_SDID_SUBFAMID (0x0F000000U) /*!< Bit mask for SIM_SDID_SUBFAMID. */
#define BS_SIM_SDID_SUBFAMID (4U) /*!< Bit field size in bits for SIM_SDID_SUBFAMID. */
/*! @brief Read current value of the SIM_SDID_SUBFAMID field. */
#define BR_SIM_SDID_SUBFAMID(x) (HW_SIM_SDID(x).B.SUBFAMID)
/*@}*/
/*!
* @name Register SIM_SDID, field FAMILYID[31:28] (RO)
*
* Specifies the Kinetis family of the device.
*
* Values:
* - 0001 - K1x Family
* - 0010 - K2x Family
* - 0011 - K3x Family
* - 0100 - K4x Family
* - 0110 - K6x Family
* - 0111 - K7x Family
*/
/*@{*/
#define BP_SIM_SDID_FAMILYID (28U) /*!< Bit position for SIM_SDID_FAMILYID. */
#define BM_SIM_SDID_FAMILYID (0xF0000000U) /*!< Bit mask for SIM_SDID_FAMILYID. */
#define BS_SIM_SDID_FAMILYID (4U) /*!< Bit field size in bits for SIM_SDID_FAMILYID. */
/*! @brief Read current value of the SIM_SDID_FAMILYID field. */
#define BR_SIM_SDID_FAMILYID(x) (HW_SIM_SDID(x).B.FAMILYID)
/*@}*/
/*******************************************************************************
* HW_SIM_SCGC1 - System Clock Gating Control Register 1
******************************************************************************/
/*!
* @brief HW_SIM_SCGC1 - System Clock Gating Control Register 1 (RW)
*
* Reset value: 0x00000000U
*/
typedef union _hw_sim_scgc1
{
uint32_t U;
struct _hw_sim_scgc1_bitfields
{
uint32_t RESERVED0 : 6; /*!< [5:0] */
uint32_t I2C2b : 1; /*!< [6] I2C2 Clock Gate Control */
uint32_t RESERVED1 : 3; /*!< [9:7] */
uint32_t UART4b : 1; /*!< [10] UART4 Clock Gate Control */
uint32_t UART5b : 1; /*!< [11] UART5 Clock Gate Control */
uint32_t RESERVED2 : 20; /*!< [31:12] */
} B;
} hw_sim_scgc1_t;
/*!
* @name Constants and macros for entire SIM_SCGC1 register
*/
/*@{*/
#define HW_SIM_SCGC1_ADDR(x) ((x) + 0x1028U)
#define HW_SIM_SCGC1(x) (*(__IO hw_sim_scgc1_t *) HW_SIM_SCGC1_ADDR(x))
#define HW_SIM_SCGC1_RD(x) (HW_SIM_SCGC1(x).U)
#define HW_SIM_SCGC1_WR(x, v) (HW_SIM_SCGC1(x).U = (v))
#define HW_SIM_SCGC1_SET(x, v) (HW_SIM_SCGC1_WR(x, HW_SIM_SCGC1_RD(x) | (v)))
#define HW_SIM_SCGC1_CLR(x, v) (HW_SIM_SCGC1_WR(x, HW_SIM_SCGC1_RD(x) & ~(v)))
#define HW_SIM_SCGC1_TOG(x, v) (HW_SIM_SCGC1_WR(x, HW_SIM_SCGC1_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SCGC1 bitfields
*/
/*!
* @name Register SIM_SCGC1, field I2C2[6] (RW)
*
* This bit controls the clock gate to the I2C2 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC1_I2C2 (6U) /*!< Bit position for SIM_SCGC1_I2C2. */
#define BM_SIM_SCGC1_I2C2 (0x00000040U) /*!< Bit mask for SIM_SCGC1_I2C2. */
#define BS_SIM_SCGC1_I2C2 (1U) /*!< Bit field size in bits for SIM_SCGC1_I2C2. */
/*! @brief Read current value of the SIM_SCGC1_I2C2 field. */
#define BR_SIM_SCGC1_I2C2(x) (BITBAND_ACCESS32(HW_SIM_SCGC1_ADDR(x), BP_SIM_SCGC1_I2C2))
/*! @brief Format value for bitfield SIM_SCGC1_I2C2. */
#define BF_SIM_SCGC1_I2C2(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC1_I2C2) & BM_SIM_SCGC1_I2C2)
/*! @brief Set the I2C2 field to a new value. */
#define BW_SIM_SCGC1_I2C2(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC1_ADDR(x), BP_SIM_SCGC1_I2C2) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC1, field UART4[10] (RW)
*
* This bit controls the clock gate to the UART4 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC1_UART4 (10U) /*!< Bit position for SIM_SCGC1_UART4. */
#define BM_SIM_SCGC1_UART4 (0x00000400U) /*!< Bit mask for SIM_SCGC1_UART4. */
#define BS_SIM_SCGC1_UART4 (1U) /*!< Bit field size in bits for SIM_SCGC1_UART4. */
/*! @brief Read current value of the SIM_SCGC1_UART4 field. */
#define BR_SIM_SCGC1_UART4(x) (BITBAND_ACCESS32(HW_SIM_SCGC1_ADDR(x), BP_SIM_SCGC1_UART4))
/*! @brief Format value for bitfield SIM_SCGC1_UART4. */
#define BF_SIM_SCGC1_UART4(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC1_UART4) & BM_SIM_SCGC1_UART4)
/*! @brief Set the UART4 field to a new value. */
#define BW_SIM_SCGC1_UART4(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC1_ADDR(x), BP_SIM_SCGC1_UART4) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC1, field UART5[11] (RW)
*
* This bit controls the clock gate to the UART5 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC1_UART5 (11U) /*!< Bit position for SIM_SCGC1_UART5. */
#define BM_SIM_SCGC1_UART5 (0x00000800U) /*!< Bit mask for SIM_SCGC1_UART5. */
#define BS_SIM_SCGC1_UART5 (1U) /*!< Bit field size in bits for SIM_SCGC1_UART5. */
/*! @brief Read current value of the SIM_SCGC1_UART5 field. */
#define BR_SIM_SCGC1_UART5(x) (BITBAND_ACCESS32(HW_SIM_SCGC1_ADDR(x), BP_SIM_SCGC1_UART5))
/*! @brief Format value for bitfield SIM_SCGC1_UART5. */
#define BF_SIM_SCGC1_UART5(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC1_UART5) & BM_SIM_SCGC1_UART5)
/*! @brief Set the UART5 field to a new value. */
#define BW_SIM_SCGC1_UART5(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC1_ADDR(x), BP_SIM_SCGC1_UART5) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_SCGC2 - System Clock Gating Control Register 2
******************************************************************************/
/*!
* @brief HW_SIM_SCGC2 - System Clock Gating Control Register 2 (RW)
*
* Reset value: 0x00000000U
*
* DAC0 can be accessed through both AIPS0 and AIPS1. When accessing through
* AIPS1, define the clock gate control bits in the SCGC2. When accessing through
* AIPS0, define the clock gate control bits in SCGC6.
*/
typedef union _hw_sim_scgc2
{
uint32_t U;
struct _hw_sim_scgc2_bitfields
{
uint32_t ENETb : 1; /*!< [0] ENET Clock Gate Control */
uint32_t RESERVED0 : 11; /*!< [11:1] */
uint32_t DAC0b : 1; /*!< [12] DAC0 Clock Gate Control */
uint32_t DAC1b : 1; /*!< [13] DAC1 Clock Gate Control */
uint32_t RESERVED1 : 18; /*!< [31:14] */
} B;
} hw_sim_scgc2_t;
/*!
* @name Constants and macros for entire SIM_SCGC2 register
*/
/*@{*/
#define HW_SIM_SCGC2_ADDR(x) ((x) + 0x102CU)
#define HW_SIM_SCGC2(x) (*(__IO hw_sim_scgc2_t *) HW_SIM_SCGC2_ADDR(x))
#define HW_SIM_SCGC2_RD(x) (HW_SIM_SCGC2(x).U)
#define HW_SIM_SCGC2_WR(x, v) (HW_SIM_SCGC2(x).U = (v))
#define HW_SIM_SCGC2_SET(x, v) (HW_SIM_SCGC2_WR(x, HW_SIM_SCGC2_RD(x) | (v)))
#define HW_SIM_SCGC2_CLR(x, v) (HW_SIM_SCGC2_WR(x, HW_SIM_SCGC2_RD(x) & ~(v)))
#define HW_SIM_SCGC2_TOG(x, v) (HW_SIM_SCGC2_WR(x, HW_SIM_SCGC2_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SCGC2 bitfields
*/
/*!
* @name Register SIM_SCGC2, field ENET[0] (RW)
*
* This bit controls the clock gate to the ENET module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC2_ENET (0U) /*!< Bit position for SIM_SCGC2_ENET. */
#define BM_SIM_SCGC2_ENET (0x00000001U) /*!< Bit mask for SIM_SCGC2_ENET. */
#define BS_SIM_SCGC2_ENET (1U) /*!< Bit field size in bits for SIM_SCGC2_ENET. */
/*! @brief Read current value of the SIM_SCGC2_ENET field. */
#define BR_SIM_SCGC2_ENET(x) (BITBAND_ACCESS32(HW_SIM_SCGC2_ADDR(x), BP_SIM_SCGC2_ENET))
/*! @brief Format value for bitfield SIM_SCGC2_ENET. */
#define BF_SIM_SCGC2_ENET(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC2_ENET) & BM_SIM_SCGC2_ENET)
/*! @brief Set the ENET field to a new value. */
#define BW_SIM_SCGC2_ENET(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC2_ADDR(x), BP_SIM_SCGC2_ENET) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC2, field DAC0[12] (RW)
*
* This bit controls the clock gate to the DAC0 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC2_DAC0 (12U) /*!< Bit position for SIM_SCGC2_DAC0. */
#define BM_SIM_SCGC2_DAC0 (0x00001000U) /*!< Bit mask for SIM_SCGC2_DAC0. */
#define BS_SIM_SCGC2_DAC0 (1U) /*!< Bit field size in bits for SIM_SCGC2_DAC0. */
/*! @brief Read current value of the SIM_SCGC2_DAC0 field. */
#define BR_SIM_SCGC2_DAC0(x) (BITBAND_ACCESS32(HW_SIM_SCGC2_ADDR(x), BP_SIM_SCGC2_DAC0))
/*! @brief Format value for bitfield SIM_SCGC2_DAC0. */
#define BF_SIM_SCGC2_DAC0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC2_DAC0) & BM_SIM_SCGC2_DAC0)
/*! @brief Set the DAC0 field to a new value. */
#define BW_SIM_SCGC2_DAC0(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC2_ADDR(x), BP_SIM_SCGC2_DAC0) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC2, field DAC1[13] (RW)
*
* This bit controls the clock gate to the DAC1 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC2_DAC1 (13U) /*!< Bit position for SIM_SCGC2_DAC1. */
#define BM_SIM_SCGC2_DAC1 (0x00002000U) /*!< Bit mask for SIM_SCGC2_DAC1. */
#define BS_SIM_SCGC2_DAC1 (1U) /*!< Bit field size in bits for SIM_SCGC2_DAC1. */
/*! @brief Read current value of the SIM_SCGC2_DAC1 field. */
#define BR_SIM_SCGC2_DAC1(x) (BITBAND_ACCESS32(HW_SIM_SCGC2_ADDR(x), BP_SIM_SCGC2_DAC1))
/*! @brief Format value for bitfield SIM_SCGC2_DAC1. */
#define BF_SIM_SCGC2_DAC1(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC2_DAC1) & BM_SIM_SCGC2_DAC1)
/*! @brief Set the DAC1 field to a new value. */
#define BW_SIM_SCGC2_DAC1(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC2_ADDR(x), BP_SIM_SCGC2_DAC1) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_SCGC3 - System Clock Gating Control Register 3
******************************************************************************/
/*!
* @brief HW_SIM_SCGC3 - System Clock Gating Control Register 3 (RW)
*
* Reset value: 0x00000000U
*
* FTM2 and RNGA can be accessed through both AIPS0 and AIPS1. When accessing
* through AIPS1, define the clock gate control bits in the SCGC3. When accessing
* through AIPS0, define the clock gate control bits in SCGC6.
*/
typedef union _hw_sim_scgc3
{
uint32_t U;
struct _hw_sim_scgc3_bitfields
{
uint32_t RNGA : 1; /*!< [0] RNGA Clock Gate Control */
uint32_t RESERVED0 : 11; /*!< [11:1] */
uint32_t SPI2b : 1; /*!< [12] SPI2 Clock Gate Control */
uint32_t RESERVED1 : 4; /*!< [16:13] */
uint32_t SDHCb : 1; /*!< [17] SDHC Clock Gate Control */
uint32_t RESERVED2 : 6; /*!< [23:18] */
uint32_t FTM2b : 1; /*!< [24] FTM2 Clock Gate Control */
uint32_t FTM3b : 1; /*!< [25] FTM3 Clock Gate Control */
uint32_t RESERVED3 : 1; /*!< [26] */
uint32_t ADC1b : 1; /*!< [27] ADC1 Clock Gate Control */
uint32_t RESERVED4 : 4; /*!< [31:28] */
} B;
} hw_sim_scgc3_t;
/*!
* @name Constants and macros for entire SIM_SCGC3 register
*/
/*@{*/
#define HW_SIM_SCGC3_ADDR(x) ((x) + 0x1030U)
#define HW_SIM_SCGC3(x) (*(__IO hw_sim_scgc3_t *) HW_SIM_SCGC3_ADDR(x))
#define HW_SIM_SCGC3_RD(x) (HW_SIM_SCGC3(x).U)
#define HW_SIM_SCGC3_WR(x, v) (HW_SIM_SCGC3(x).U = (v))
#define HW_SIM_SCGC3_SET(x, v) (HW_SIM_SCGC3_WR(x, HW_SIM_SCGC3_RD(x) | (v)))
#define HW_SIM_SCGC3_CLR(x, v) (HW_SIM_SCGC3_WR(x, HW_SIM_SCGC3_RD(x) & ~(v)))
#define HW_SIM_SCGC3_TOG(x, v) (HW_SIM_SCGC3_WR(x, HW_SIM_SCGC3_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SCGC3 bitfields
*/
/*!
* @name Register SIM_SCGC3, field RNGA[0] (RW)
*
* This bit controls the clock gate to the RNGA module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC3_RNGA (0U) /*!< Bit position for SIM_SCGC3_RNGA. */
#define BM_SIM_SCGC3_RNGA (0x00000001U) /*!< Bit mask for SIM_SCGC3_RNGA. */
#define BS_SIM_SCGC3_RNGA (1U) /*!< Bit field size in bits for SIM_SCGC3_RNGA. */
/*! @brief Read current value of the SIM_SCGC3_RNGA field. */
#define BR_SIM_SCGC3_RNGA(x) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_RNGA))
/*! @brief Format value for bitfield SIM_SCGC3_RNGA. */
#define BF_SIM_SCGC3_RNGA(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC3_RNGA) & BM_SIM_SCGC3_RNGA)
/*! @brief Set the RNGA field to a new value. */
#define BW_SIM_SCGC3_RNGA(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_RNGA) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC3, field SPI2[12] (RW)
*
* This bit controls the clock gate to the SPI2 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC3_SPI2 (12U) /*!< Bit position for SIM_SCGC3_SPI2. */
#define BM_SIM_SCGC3_SPI2 (0x00001000U) /*!< Bit mask for SIM_SCGC3_SPI2. */
#define BS_SIM_SCGC3_SPI2 (1U) /*!< Bit field size in bits for SIM_SCGC3_SPI2. */
/*! @brief Read current value of the SIM_SCGC3_SPI2 field. */
#define BR_SIM_SCGC3_SPI2(x) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_SPI2))
/*! @brief Format value for bitfield SIM_SCGC3_SPI2. */
#define BF_SIM_SCGC3_SPI2(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC3_SPI2) & BM_SIM_SCGC3_SPI2)
/*! @brief Set the SPI2 field to a new value. */
#define BW_SIM_SCGC3_SPI2(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_SPI2) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC3, field SDHC[17] (RW)
*
* This bit controls the clock gate to the SDHC module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC3_SDHC (17U) /*!< Bit position for SIM_SCGC3_SDHC. */
#define BM_SIM_SCGC3_SDHC (0x00020000U) /*!< Bit mask for SIM_SCGC3_SDHC. */
#define BS_SIM_SCGC3_SDHC (1U) /*!< Bit field size in bits for SIM_SCGC3_SDHC. */
/*! @brief Read current value of the SIM_SCGC3_SDHC field. */
#define BR_SIM_SCGC3_SDHC(x) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_SDHC))
/*! @brief Format value for bitfield SIM_SCGC3_SDHC. */
#define BF_SIM_SCGC3_SDHC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC3_SDHC) & BM_SIM_SCGC3_SDHC)
/*! @brief Set the SDHC field to a new value. */
#define BW_SIM_SCGC3_SDHC(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_SDHC) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC3, field FTM2[24] (RW)
*
* This bit controls the clock gate to the FTM2 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC3_FTM2 (24U) /*!< Bit position for SIM_SCGC3_FTM2. */
#define BM_SIM_SCGC3_FTM2 (0x01000000U) /*!< Bit mask for SIM_SCGC3_FTM2. */
#define BS_SIM_SCGC3_FTM2 (1U) /*!< Bit field size in bits for SIM_SCGC3_FTM2. */
/*! @brief Read current value of the SIM_SCGC3_FTM2 field. */
#define BR_SIM_SCGC3_FTM2(x) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_FTM2))
/*! @brief Format value for bitfield SIM_SCGC3_FTM2. */
#define BF_SIM_SCGC3_FTM2(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC3_FTM2) & BM_SIM_SCGC3_FTM2)
/*! @brief Set the FTM2 field to a new value. */
#define BW_SIM_SCGC3_FTM2(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_FTM2) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC3, field FTM3[25] (RW)
*
* This bit controls the clock gate to the FTM3 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC3_FTM3 (25U) /*!< Bit position for SIM_SCGC3_FTM3. */
#define BM_SIM_SCGC3_FTM3 (0x02000000U) /*!< Bit mask for SIM_SCGC3_FTM3. */
#define BS_SIM_SCGC3_FTM3 (1U) /*!< Bit field size in bits for SIM_SCGC3_FTM3. */
/*! @brief Read current value of the SIM_SCGC3_FTM3 field. */
#define BR_SIM_SCGC3_FTM3(x) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_FTM3))
/*! @brief Format value for bitfield SIM_SCGC3_FTM3. */
#define BF_SIM_SCGC3_FTM3(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC3_FTM3) & BM_SIM_SCGC3_FTM3)
/*! @brief Set the FTM3 field to a new value. */
#define BW_SIM_SCGC3_FTM3(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_FTM3) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC3, field ADC1[27] (RW)
*
* This bit controls the clock gate to the ADC1 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC3_ADC1 (27U) /*!< Bit position for SIM_SCGC3_ADC1. */
#define BM_SIM_SCGC3_ADC1 (0x08000000U) /*!< Bit mask for SIM_SCGC3_ADC1. */
#define BS_SIM_SCGC3_ADC1 (1U) /*!< Bit field size in bits for SIM_SCGC3_ADC1. */
/*! @brief Read current value of the SIM_SCGC3_ADC1 field. */
#define BR_SIM_SCGC3_ADC1(x) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_ADC1))
/*! @brief Format value for bitfield SIM_SCGC3_ADC1. */
#define BF_SIM_SCGC3_ADC1(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC3_ADC1) & BM_SIM_SCGC3_ADC1)
/*! @brief Set the ADC1 field to a new value. */
#define BW_SIM_SCGC3_ADC1(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC3_ADDR(x), BP_SIM_SCGC3_ADC1) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_SCGC4 - System Clock Gating Control Register 4
******************************************************************************/
/*!
* @brief HW_SIM_SCGC4 - System Clock Gating Control Register 4 (RW)
*
* Reset value: 0xF0100030U
*/
typedef union _hw_sim_scgc4
{
uint32_t U;
struct _hw_sim_scgc4_bitfields
{
uint32_t RESERVED0 : 1; /*!< [0] */
uint32_t EWMb : 1; /*!< [1] EWM Clock Gate Control */
uint32_t CMTb : 1; /*!< [2] CMT Clock Gate Control */
uint32_t RESERVED1 : 3; /*!< [5:3] */
uint32_t I2C0b : 1; /*!< [6] I2C0 Clock Gate Control */
uint32_t I2C1b : 1; /*!< [7] I2C1 Clock Gate Control */
uint32_t RESERVED2 : 2; /*!< [9:8] */
uint32_t UART0b : 1; /*!< [10] UART0 Clock Gate Control */
uint32_t UART1b : 1; /*!< [11] UART1 Clock Gate Control */
uint32_t UART2b : 1; /*!< [12] UART2 Clock Gate Control */
uint32_t UART3b : 1; /*!< [13] UART3 Clock Gate Control */
uint32_t RESERVED3 : 4; /*!< [17:14] */
uint32_t USBOTG : 1; /*!< [18] USB Clock Gate Control */
uint32_t CMP : 1; /*!< [19] Comparator Clock Gate Control */
uint32_t VREFb : 1; /*!< [20] VREF Clock Gate Control */
uint32_t RESERVED4 : 11; /*!< [31:21] */
} B;
} hw_sim_scgc4_t;
/*!
* @name Constants and macros for entire SIM_SCGC4 register
*/
/*@{*/
#define HW_SIM_SCGC4_ADDR(x) ((x) + 0x1034U)
#define HW_SIM_SCGC4(x) (*(__IO hw_sim_scgc4_t *) HW_SIM_SCGC4_ADDR(x))
#define HW_SIM_SCGC4_RD(x) (HW_SIM_SCGC4(x).U)
#define HW_SIM_SCGC4_WR(x, v) (HW_SIM_SCGC4(x).U = (v))
#define HW_SIM_SCGC4_SET(x, v) (HW_SIM_SCGC4_WR(x, HW_SIM_SCGC4_RD(x) | (v)))
#define HW_SIM_SCGC4_CLR(x, v) (HW_SIM_SCGC4_WR(x, HW_SIM_SCGC4_RD(x) & ~(v)))
#define HW_SIM_SCGC4_TOG(x, v) (HW_SIM_SCGC4_WR(x, HW_SIM_SCGC4_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SCGC4 bitfields
*/
/*!
* @name Register SIM_SCGC4, field EWM[1] (RW)
*
* This bit controls the clock gate to the EWM module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_EWM (1U) /*!< Bit position for SIM_SCGC4_EWM. */
#define BM_SIM_SCGC4_EWM (0x00000002U) /*!< Bit mask for SIM_SCGC4_EWM. */
#define BS_SIM_SCGC4_EWM (1U) /*!< Bit field size in bits for SIM_SCGC4_EWM. */
/*! @brief Read current value of the SIM_SCGC4_EWM field. */
#define BR_SIM_SCGC4_EWM(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_EWM))
/*! @brief Format value for bitfield SIM_SCGC4_EWM. */
#define BF_SIM_SCGC4_EWM(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_EWM) & BM_SIM_SCGC4_EWM)
/*! @brief Set the EWM field to a new value. */
#define BW_SIM_SCGC4_EWM(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_EWM) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC4, field CMT[2] (RW)
*
* This bit controls the clock gate to the CMT module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_CMT (2U) /*!< Bit position for SIM_SCGC4_CMT. */
#define BM_SIM_SCGC4_CMT (0x00000004U) /*!< Bit mask for SIM_SCGC4_CMT. */
#define BS_SIM_SCGC4_CMT (1U) /*!< Bit field size in bits for SIM_SCGC4_CMT. */
/*! @brief Read current value of the SIM_SCGC4_CMT field. */
#define BR_SIM_SCGC4_CMT(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_CMT))
/*! @brief Format value for bitfield SIM_SCGC4_CMT. */
#define BF_SIM_SCGC4_CMT(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_CMT) & BM_SIM_SCGC4_CMT)
/*! @brief Set the CMT field to a new value. */
#define BW_SIM_SCGC4_CMT(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_CMT) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC4, field I2C0[6] (RW)
*
* This bit controls the clock gate to the I 2 C0 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_I2C0 (6U) /*!< Bit position for SIM_SCGC4_I2C0. */
#define BM_SIM_SCGC4_I2C0 (0x00000040U) /*!< Bit mask for SIM_SCGC4_I2C0. */
#define BS_SIM_SCGC4_I2C0 (1U) /*!< Bit field size in bits for SIM_SCGC4_I2C0. */
/*! @brief Read current value of the SIM_SCGC4_I2C0 field. */
#define BR_SIM_SCGC4_I2C0(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_I2C0))
/*! @brief Format value for bitfield SIM_SCGC4_I2C0. */
#define BF_SIM_SCGC4_I2C0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_I2C0) & BM_SIM_SCGC4_I2C0)
/*! @brief Set the I2C0 field to a new value. */
#define BW_SIM_SCGC4_I2C0(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_I2C0) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC4, field I2C1[7] (RW)
*
* This bit controls the clock gate to the I 2 C1 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_I2C1 (7U) /*!< Bit position for SIM_SCGC4_I2C1. */
#define BM_SIM_SCGC4_I2C1 (0x00000080U) /*!< Bit mask for SIM_SCGC4_I2C1. */
#define BS_SIM_SCGC4_I2C1 (1U) /*!< Bit field size in bits for SIM_SCGC4_I2C1. */
/*! @brief Read current value of the SIM_SCGC4_I2C1 field. */
#define BR_SIM_SCGC4_I2C1(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_I2C1))
/*! @brief Format value for bitfield SIM_SCGC4_I2C1. */
#define BF_SIM_SCGC4_I2C1(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_I2C1) & BM_SIM_SCGC4_I2C1)
/*! @brief Set the I2C1 field to a new value. */
#define BW_SIM_SCGC4_I2C1(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_I2C1) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC4, field UART0[10] (RW)
*
* This bit controls the clock gate to the UART0 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_UART0 (10U) /*!< Bit position for SIM_SCGC4_UART0. */
#define BM_SIM_SCGC4_UART0 (0x00000400U) /*!< Bit mask for SIM_SCGC4_UART0. */
#define BS_SIM_SCGC4_UART0 (1U) /*!< Bit field size in bits for SIM_SCGC4_UART0. */
/*! @brief Read current value of the SIM_SCGC4_UART0 field. */
#define BR_SIM_SCGC4_UART0(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_UART0))
/*! @brief Format value for bitfield SIM_SCGC4_UART0. */
#define BF_SIM_SCGC4_UART0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_UART0) & BM_SIM_SCGC4_UART0)
/*! @brief Set the UART0 field to a new value. */
#define BW_SIM_SCGC4_UART0(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_UART0) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC4, field UART1[11] (RW)
*
* This bit controls the clock gate to the UART1 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_UART1 (11U) /*!< Bit position for SIM_SCGC4_UART1. */
#define BM_SIM_SCGC4_UART1 (0x00000800U) /*!< Bit mask for SIM_SCGC4_UART1. */
#define BS_SIM_SCGC4_UART1 (1U) /*!< Bit field size in bits for SIM_SCGC4_UART1. */
/*! @brief Read current value of the SIM_SCGC4_UART1 field. */
#define BR_SIM_SCGC4_UART1(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_UART1))
/*! @brief Format value for bitfield SIM_SCGC4_UART1. */
#define BF_SIM_SCGC4_UART1(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_UART1) & BM_SIM_SCGC4_UART1)
/*! @brief Set the UART1 field to a new value. */
#define BW_SIM_SCGC4_UART1(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_UART1) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC4, field UART2[12] (RW)
*
* This bit controls the clock gate to the UART2 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_UART2 (12U) /*!< Bit position for SIM_SCGC4_UART2. */
#define BM_SIM_SCGC4_UART2 (0x00001000U) /*!< Bit mask for SIM_SCGC4_UART2. */
#define BS_SIM_SCGC4_UART2 (1U) /*!< Bit field size in bits for SIM_SCGC4_UART2. */
/*! @brief Read current value of the SIM_SCGC4_UART2 field. */
#define BR_SIM_SCGC4_UART2(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_UART2))
/*! @brief Format value for bitfield SIM_SCGC4_UART2. */
#define BF_SIM_SCGC4_UART2(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_UART2) & BM_SIM_SCGC4_UART2)
/*! @brief Set the UART2 field to a new value. */
#define BW_SIM_SCGC4_UART2(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_UART2) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC4, field UART3[13] (RW)
*
* This bit controls the clock gate to the UART3 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_UART3 (13U) /*!< Bit position for SIM_SCGC4_UART3. */
#define BM_SIM_SCGC4_UART3 (0x00002000U) /*!< Bit mask for SIM_SCGC4_UART3. */
#define BS_SIM_SCGC4_UART3 (1U) /*!< Bit field size in bits for SIM_SCGC4_UART3. */
/*! @brief Read current value of the SIM_SCGC4_UART3 field. */
#define BR_SIM_SCGC4_UART3(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_UART3))
/*! @brief Format value for bitfield SIM_SCGC4_UART3. */
#define BF_SIM_SCGC4_UART3(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_UART3) & BM_SIM_SCGC4_UART3)
/*! @brief Set the UART3 field to a new value. */
#define BW_SIM_SCGC4_UART3(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_UART3) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC4, field USBOTG[18] (RW)
*
* This bit controls the clock gate to the USB module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_USBOTG (18U) /*!< Bit position for SIM_SCGC4_USBOTG. */
#define BM_SIM_SCGC4_USBOTG (0x00040000U) /*!< Bit mask for SIM_SCGC4_USBOTG. */
#define BS_SIM_SCGC4_USBOTG (1U) /*!< Bit field size in bits for SIM_SCGC4_USBOTG. */
/*! @brief Read current value of the SIM_SCGC4_USBOTG field. */
#define BR_SIM_SCGC4_USBOTG(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_USBOTG))
/*! @brief Format value for bitfield SIM_SCGC4_USBOTG. */
#define BF_SIM_SCGC4_USBOTG(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_USBOTG) & BM_SIM_SCGC4_USBOTG)
/*! @brief Set the USBOTG field to a new value. */
#define BW_SIM_SCGC4_USBOTG(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_USBOTG) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC4, field CMP[19] (RW)
*
* This bit controls the clock gate to the comparator module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_CMP (19U) /*!< Bit position for SIM_SCGC4_CMP. */
#define BM_SIM_SCGC4_CMP (0x00080000U) /*!< Bit mask for SIM_SCGC4_CMP. */
#define BS_SIM_SCGC4_CMP (1U) /*!< Bit field size in bits for SIM_SCGC4_CMP. */
/*! @brief Read current value of the SIM_SCGC4_CMP field. */
#define BR_SIM_SCGC4_CMP(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_CMP))
/*! @brief Format value for bitfield SIM_SCGC4_CMP. */
#define BF_SIM_SCGC4_CMP(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_CMP) & BM_SIM_SCGC4_CMP)
/*! @brief Set the CMP field to a new value. */
#define BW_SIM_SCGC4_CMP(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_CMP) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC4, field VREF[20] (RW)
*
* This bit controls the clock gate to the VREF module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC4_VREF (20U) /*!< Bit position for SIM_SCGC4_VREF. */
#define BM_SIM_SCGC4_VREF (0x00100000U) /*!< Bit mask for SIM_SCGC4_VREF. */
#define BS_SIM_SCGC4_VREF (1U) /*!< Bit field size in bits for SIM_SCGC4_VREF. */
/*! @brief Read current value of the SIM_SCGC4_VREF field. */
#define BR_SIM_SCGC4_VREF(x) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_VREF))
/*! @brief Format value for bitfield SIM_SCGC4_VREF. */
#define BF_SIM_SCGC4_VREF(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC4_VREF) & BM_SIM_SCGC4_VREF)
/*! @brief Set the VREF field to a new value. */
#define BW_SIM_SCGC4_VREF(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC4_ADDR(x), BP_SIM_SCGC4_VREF) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_SCGC5 - System Clock Gating Control Register 5
******************************************************************************/
/*!
* @brief HW_SIM_SCGC5 - System Clock Gating Control Register 5 (RW)
*
* Reset value: 0x00040182U
*/
typedef union _hw_sim_scgc5
{
uint32_t U;
struct _hw_sim_scgc5_bitfields
{
uint32_t LPTMR : 1; /*!< [0] Low Power Timer Access Control */
uint32_t RESERVED0 : 8; /*!< [8:1] */
uint32_t PORTAb : 1; /*!< [9] Port A Clock Gate Control */
uint32_t PORTBb : 1; /*!< [10] Port B Clock Gate Control */
uint32_t PORTCb : 1; /*!< [11] Port C Clock Gate Control */
uint32_t PORTDb : 1; /*!< [12] Port D Clock Gate Control */
uint32_t PORTEb : 1; /*!< [13] Port E Clock Gate Control */
uint32_t RESERVED1 : 18; /*!< [31:14] */
} B;
} hw_sim_scgc5_t;
/*!
* @name Constants and macros for entire SIM_SCGC5 register
*/
/*@{*/
#define HW_SIM_SCGC5_ADDR(x) ((x) + 0x1038U)
#define HW_SIM_SCGC5(x) (*(__IO hw_sim_scgc5_t *) HW_SIM_SCGC5_ADDR(x))
#define HW_SIM_SCGC5_RD(x) (HW_SIM_SCGC5(x).U)
#define HW_SIM_SCGC5_WR(x, v) (HW_SIM_SCGC5(x).U = (v))
#define HW_SIM_SCGC5_SET(x, v) (HW_SIM_SCGC5_WR(x, HW_SIM_SCGC5_RD(x) | (v)))
#define HW_SIM_SCGC5_CLR(x, v) (HW_SIM_SCGC5_WR(x, HW_SIM_SCGC5_RD(x) & ~(v)))
#define HW_SIM_SCGC5_TOG(x, v) (HW_SIM_SCGC5_WR(x, HW_SIM_SCGC5_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SCGC5 bitfields
*/
/*!
* @name Register SIM_SCGC5, field LPTMR[0] (RW)
*
* This bit controls software access to the Low Power Timer module.
*
* Values:
* - 0 - Access disabled
* - 1 - Access enabled
*/
/*@{*/
#define BP_SIM_SCGC5_LPTMR (0U) /*!< Bit position for SIM_SCGC5_LPTMR. */
#define BM_SIM_SCGC5_LPTMR (0x00000001U) /*!< Bit mask for SIM_SCGC5_LPTMR. */
#define BS_SIM_SCGC5_LPTMR (1U) /*!< Bit field size in bits for SIM_SCGC5_LPTMR. */
/*! @brief Read current value of the SIM_SCGC5_LPTMR field. */
#define BR_SIM_SCGC5_LPTMR(x) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_LPTMR))
/*! @brief Format value for bitfield SIM_SCGC5_LPTMR. */
#define BF_SIM_SCGC5_LPTMR(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC5_LPTMR) & BM_SIM_SCGC5_LPTMR)
/*! @brief Set the LPTMR field to a new value. */
#define BW_SIM_SCGC5_LPTMR(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_LPTMR) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC5, field PORTA[9] (RW)
*
* This bit controls the clock gate to the Port A module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC5_PORTA (9U) /*!< Bit position for SIM_SCGC5_PORTA. */
#define BM_SIM_SCGC5_PORTA (0x00000200U) /*!< Bit mask for SIM_SCGC5_PORTA. */
#define BS_SIM_SCGC5_PORTA (1U) /*!< Bit field size in bits for SIM_SCGC5_PORTA. */
/*! @brief Read current value of the SIM_SCGC5_PORTA field. */
#define BR_SIM_SCGC5_PORTA(x) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_PORTA))
/*! @brief Format value for bitfield SIM_SCGC5_PORTA. */
#define BF_SIM_SCGC5_PORTA(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC5_PORTA) & BM_SIM_SCGC5_PORTA)
/*! @brief Set the PORTA field to a new value. */
#define BW_SIM_SCGC5_PORTA(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_PORTA) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC5, field PORTB[10] (RW)
*
* This bit controls the clock gate to the Port B module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC5_PORTB (10U) /*!< Bit position for SIM_SCGC5_PORTB. */
#define BM_SIM_SCGC5_PORTB (0x00000400U) /*!< Bit mask for SIM_SCGC5_PORTB. */
#define BS_SIM_SCGC5_PORTB (1U) /*!< Bit field size in bits for SIM_SCGC5_PORTB. */
/*! @brief Read current value of the SIM_SCGC5_PORTB field. */
#define BR_SIM_SCGC5_PORTB(x) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_PORTB))
/*! @brief Format value for bitfield SIM_SCGC5_PORTB. */
#define BF_SIM_SCGC5_PORTB(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC5_PORTB) & BM_SIM_SCGC5_PORTB)
/*! @brief Set the PORTB field to a new value. */
#define BW_SIM_SCGC5_PORTB(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_PORTB) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC5, field PORTC[11] (RW)
*
* This bit controls the clock gate to the Port C module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC5_PORTC (11U) /*!< Bit position for SIM_SCGC5_PORTC. */
#define BM_SIM_SCGC5_PORTC (0x00000800U) /*!< Bit mask for SIM_SCGC5_PORTC. */
#define BS_SIM_SCGC5_PORTC (1U) /*!< Bit field size in bits for SIM_SCGC5_PORTC. */
/*! @brief Read current value of the SIM_SCGC5_PORTC field. */
#define BR_SIM_SCGC5_PORTC(x) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_PORTC))
/*! @brief Format value for bitfield SIM_SCGC5_PORTC. */
#define BF_SIM_SCGC5_PORTC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC5_PORTC) & BM_SIM_SCGC5_PORTC)
/*! @brief Set the PORTC field to a new value. */
#define BW_SIM_SCGC5_PORTC(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_PORTC) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC5, field PORTD[12] (RW)
*
* This bit controls the clock gate to the Port D module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC5_PORTD (12U) /*!< Bit position for SIM_SCGC5_PORTD. */
#define BM_SIM_SCGC5_PORTD (0x00001000U) /*!< Bit mask for SIM_SCGC5_PORTD. */
#define BS_SIM_SCGC5_PORTD (1U) /*!< Bit field size in bits for SIM_SCGC5_PORTD. */
/*! @brief Read current value of the SIM_SCGC5_PORTD field. */
#define BR_SIM_SCGC5_PORTD(x) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_PORTD))
/*! @brief Format value for bitfield SIM_SCGC5_PORTD. */
#define BF_SIM_SCGC5_PORTD(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC5_PORTD) & BM_SIM_SCGC5_PORTD)
/*! @brief Set the PORTD field to a new value. */
#define BW_SIM_SCGC5_PORTD(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_PORTD) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC5, field PORTE[13] (RW)
*
* This bit controls the clock gate to the Port E module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC5_PORTE (13U) /*!< Bit position for SIM_SCGC5_PORTE. */
#define BM_SIM_SCGC5_PORTE (0x00002000U) /*!< Bit mask for SIM_SCGC5_PORTE. */
#define BS_SIM_SCGC5_PORTE (1U) /*!< Bit field size in bits for SIM_SCGC5_PORTE. */
/*! @brief Read current value of the SIM_SCGC5_PORTE field. */
#define BR_SIM_SCGC5_PORTE(x) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_PORTE))
/*! @brief Format value for bitfield SIM_SCGC5_PORTE. */
#define BF_SIM_SCGC5_PORTE(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC5_PORTE) & BM_SIM_SCGC5_PORTE)
/*! @brief Set the PORTE field to a new value. */
#define BW_SIM_SCGC5_PORTE(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC5_ADDR(x), BP_SIM_SCGC5_PORTE) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_SCGC6 - System Clock Gating Control Register 6
******************************************************************************/
/*!
* @brief HW_SIM_SCGC6 - System Clock Gating Control Register 6 (RW)
*
* Reset value: 0x40000001U
*
* DAC0, FTM2, and RNGA can be accessed through both AIPS0 and AIPS1. When
* accessing through AIPS1, define the clock gate control bits in the SCGC2 and SCGC3.
* When accessing through AIPS0, define the clock gate control bits in SCGC6.
*/
typedef union _hw_sim_scgc6
{
uint32_t U;
struct _hw_sim_scgc6_bitfields
{
uint32_t FTF : 1; /*!< [0] Flash Memory Clock Gate Control */
uint32_t DMAMUXb : 1; /*!< [1] DMA Mux Clock Gate Control */
uint32_t RESERVED0 : 2; /*!< [3:2] */
uint32_t FLEXCAN0 : 1; /*!< [4] FlexCAN0 Clock Gate Control */
uint32_t RESERVED1 : 4; /*!< [8:5] */
uint32_t RNGA : 1; /*!< [9] RNGA Clock Gate Control */
uint32_t RESERVED2 : 2; /*!< [11:10] */
uint32_t SPI0b : 1; /*!< [12] SPI0 Clock Gate Control */
uint32_t SPI1b : 1; /*!< [13] SPI1 Clock Gate Control */
uint32_t RESERVED3 : 1; /*!< [14] */
uint32_t I2S : 1; /*!< [15] I2S Clock Gate Control */
uint32_t RESERVED4 : 2; /*!< [17:16] */
uint32_t CRC : 1; /*!< [18] CRC Clock Gate Control */
uint32_t RESERVED5 : 2; /*!< [20:19] */
uint32_t USBDCDb : 1; /*!< [21] USB DCD Clock Gate Control */
uint32_t PDB : 1; /*!< [22] PDB Clock Gate Control */
uint32_t PITb : 1; /*!< [23] PIT Clock Gate Control */
uint32_t FTM0b : 1; /*!< [24] FTM0 Clock Gate Control */
uint32_t FTM1b : 1; /*!< [25] FTM1 Clock Gate Control */
uint32_t FTM2b : 1; /*!< [26] FTM2 Clock Gate Control */
uint32_t ADC0b : 1; /*!< [27] ADC0 Clock Gate Control */
uint32_t RESERVED6 : 1; /*!< [28] */
uint32_t RTCb : 1; /*!< [29] RTC Access Control */
uint32_t RESERVED7 : 1; /*!< [30] */
uint32_t DAC0b : 1; /*!< [31] DAC0 Clock Gate Control */
} B;
} hw_sim_scgc6_t;
/*!
* @name Constants and macros for entire SIM_SCGC6 register
*/
/*@{*/
#define HW_SIM_SCGC6_ADDR(x) ((x) + 0x103CU)
#define HW_SIM_SCGC6(x) (*(__IO hw_sim_scgc6_t *) HW_SIM_SCGC6_ADDR(x))
#define HW_SIM_SCGC6_RD(x) (HW_SIM_SCGC6(x).U)
#define HW_SIM_SCGC6_WR(x, v) (HW_SIM_SCGC6(x).U = (v))
#define HW_SIM_SCGC6_SET(x, v) (HW_SIM_SCGC6_WR(x, HW_SIM_SCGC6_RD(x) | (v)))
#define HW_SIM_SCGC6_CLR(x, v) (HW_SIM_SCGC6_WR(x, HW_SIM_SCGC6_RD(x) & ~(v)))
#define HW_SIM_SCGC6_TOG(x, v) (HW_SIM_SCGC6_WR(x, HW_SIM_SCGC6_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SCGC6 bitfields
*/
/*!
* @name Register SIM_SCGC6, field FTF[0] (RW)
*
* This bit controls the clock gate to the flash memory. Flash reads are still
* supported while the flash memory is clock gated, but entry into low power modes
* is blocked.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_FTF (0U) /*!< Bit position for SIM_SCGC6_FTF. */
#define BM_SIM_SCGC6_FTF (0x00000001U) /*!< Bit mask for SIM_SCGC6_FTF. */
#define BS_SIM_SCGC6_FTF (1U) /*!< Bit field size in bits for SIM_SCGC6_FTF. */
/*! @brief Read current value of the SIM_SCGC6_FTF field. */
#define BR_SIM_SCGC6_FTF(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_FTF))
/*! @brief Format value for bitfield SIM_SCGC6_FTF. */
#define BF_SIM_SCGC6_FTF(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_FTF) & BM_SIM_SCGC6_FTF)
/*! @brief Set the FTF field to a new value. */
#define BW_SIM_SCGC6_FTF(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_FTF) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field DMAMUX[1] (RW)
*
* This bit controls the clock gate to the DMA Mux module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_DMAMUX (1U) /*!< Bit position for SIM_SCGC6_DMAMUX. */
#define BM_SIM_SCGC6_DMAMUX (0x00000002U) /*!< Bit mask for SIM_SCGC6_DMAMUX. */
#define BS_SIM_SCGC6_DMAMUX (1U) /*!< Bit field size in bits for SIM_SCGC6_DMAMUX. */
/*! @brief Read current value of the SIM_SCGC6_DMAMUX field. */
#define BR_SIM_SCGC6_DMAMUX(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_DMAMUX))
/*! @brief Format value for bitfield SIM_SCGC6_DMAMUX. */
#define BF_SIM_SCGC6_DMAMUX(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_DMAMUX) & BM_SIM_SCGC6_DMAMUX)
/*! @brief Set the DMAMUX field to a new value. */
#define BW_SIM_SCGC6_DMAMUX(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_DMAMUX) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field FLEXCAN0[4] (RW)
*
* This bit controls the clock gate to the FlexCAN0 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_FLEXCAN0 (4U) /*!< Bit position for SIM_SCGC6_FLEXCAN0. */
#define BM_SIM_SCGC6_FLEXCAN0 (0x00000010U) /*!< Bit mask for SIM_SCGC6_FLEXCAN0. */
#define BS_SIM_SCGC6_FLEXCAN0 (1U) /*!< Bit field size in bits for SIM_SCGC6_FLEXCAN0. */
/*! @brief Read current value of the SIM_SCGC6_FLEXCAN0 field. */
#define BR_SIM_SCGC6_FLEXCAN0(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_FLEXCAN0))
/*! @brief Format value for bitfield SIM_SCGC6_FLEXCAN0. */
#define BF_SIM_SCGC6_FLEXCAN0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_FLEXCAN0) & BM_SIM_SCGC6_FLEXCAN0)
/*! @brief Set the FLEXCAN0 field to a new value. */
#define BW_SIM_SCGC6_FLEXCAN0(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_FLEXCAN0) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field RNGA[9] (RW)
*
* This bit controls the clock gate to the RNGA module.
*/
/*@{*/
#define BP_SIM_SCGC6_RNGA (9U) /*!< Bit position for SIM_SCGC6_RNGA. */
#define BM_SIM_SCGC6_RNGA (0x00000200U) /*!< Bit mask for SIM_SCGC6_RNGA. */
#define BS_SIM_SCGC6_RNGA (1U) /*!< Bit field size in bits for SIM_SCGC6_RNGA. */
/*! @brief Read current value of the SIM_SCGC6_RNGA field. */
#define BR_SIM_SCGC6_RNGA(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_RNGA))
/*! @brief Format value for bitfield SIM_SCGC6_RNGA. */
#define BF_SIM_SCGC6_RNGA(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_RNGA) & BM_SIM_SCGC6_RNGA)
/*! @brief Set the RNGA field to a new value. */
#define BW_SIM_SCGC6_RNGA(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_RNGA) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field SPI0[12] (RW)
*
* This bit controls the clock gate to the SPI0 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_SPI0 (12U) /*!< Bit position for SIM_SCGC6_SPI0. */
#define BM_SIM_SCGC6_SPI0 (0x00001000U) /*!< Bit mask for SIM_SCGC6_SPI0. */
#define BS_SIM_SCGC6_SPI0 (1U) /*!< Bit field size in bits for SIM_SCGC6_SPI0. */
/*! @brief Read current value of the SIM_SCGC6_SPI0 field. */
#define BR_SIM_SCGC6_SPI0(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_SPI0))
/*! @brief Format value for bitfield SIM_SCGC6_SPI0. */
#define BF_SIM_SCGC6_SPI0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_SPI0) & BM_SIM_SCGC6_SPI0)
/*! @brief Set the SPI0 field to a new value. */
#define BW_SIM_SCGC6_SPI0(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_SPI0) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field SPI1[13] (RW)
*
* This bit controls the clock gate to the SPI1 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_SPI1 (13U) /*!< Bit position for SIM_SCGC6_SPI1. */
#define BM_SIM_SCGC6_SPI1 (0x00002000U) /*!< Bit mask for SIM_SCGC6_SPI1. */
#define BS_SIM_SCGC6_SPI1 (1U) /*!< Bit field size in bits for SIM_SCGC6_SPI1. */
/*! @brief Read current value of the SIM_SCGC6_SPI1 field. */
#define BR_SIM_SCGC6_SPI1(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_SPI1))
/*! @brief Format value for bitfield SIM_SCGC6_SPI1. */
#define BF_SIM_SCGC6_SPI1(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_SPI1) & BM_SIM_SCGC6_SPI1)
/*! @brief Set the SPI1 field to a new value. */
#define BW_SIM_SCGC6_SPI1(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_SPI1) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field I2S[15] (RW)
*
* This bit controls the clock gate to the I 2 S module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_I2S (15U) /*!< Bit position for SIM_SCGC6_I2S. */
#define BM_SIM_SCGC6_I2S (0x00008000U) /*!< Bit mask for SIM_SCGC6_I2S. */
#define BS_SIM_SCGC6_I2S (1U) /*!< Bit field size in bits for SIM_SCGC6_I2S. */
/*! @brief Read current value of the SIM_SCGC6_I2S field. */
#define BR_SIM_SCGC6_I2S(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_I2S))
/*! @brief Format value for bitfield SIM_SCGC6_I2S. */
#define BF_SIM_SCGC6_I2S(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_I2S) & BM_SIM_SCGC6_I2S)
/*! @brief Set the I2S field to a new value. */
#define BW_SIM_SCGC6_I2S(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_I2S) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field CRC[18] (RW)
*
* This bit controls the clock gate to the CRC module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_CRC (18U) /*!< Bit position for SIM_SCGC6_CRC. */
#define BM_SIM_SCGC6_CRC (0x00040000U) /*!< Bit mask for SIM_SCGC6_CRC. */
#define BS_SIM_SCGC6_CRC (1U) /*!< Bit field size in bits for SIM_SCGC6_CRC. */
/*! @brief Read current value of the SIM_SCGC6_CRC field. */
#define BR_SIM_SCGC6_CRC(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_CRC))
/*! @brief Format value for bitfield SIM_SCGC6_CRC. */
#define BF_SIM_SCGC6_CRC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_CRC) & BM_SIM_SCGC6_CRC)
/*! @brief Set the CRC field to a new value. */
#define BW_SIM_SCGC6_CRC(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_CRC) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field USBDCD[21] (RW)
*
* This bit controls the clock gate to the USB DCD module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_USBDCD (21U) /*!< Bit position for SIM_SCGC6_USBDCD. */
#define BM_SIM_SCGC6_USBDCD (0x00200000U) /*!< Bit mask for SIM_SCGC6_USBDCD. */
#define BS_SIM_SCGC6_USBDCD (1U) /*!< Bit field size in bits for SIM_SCGC6_USBDCD. */
/*! @brief Read current value of the SIM_SCGC6_USBDCD field. */
#define BR_SIM_SCGC6_USBDCD(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_USBDCD))
/*! @brief Format value for bitfield SIM_SCGC6_USBDCD. */
#define BF_SIM_SCGC6_USBDCD(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_USBDCD) & BM_SIM_SCGC6_USBDCD)
/*! @brief Set the USBDCD field to a new value. */
#define BW_SIM_SCGC6_USBDCD(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_USBDCD) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field PDB[22] (RW)
*
* This bit controls the clock gate to the PDB module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_PDB (22U) /*!< Bit position for SIM_SCGC6_PDB. */
#define BM_SIM_SCGC6_PDB (0x00400000U) /*!< Bit mask for SIM_SCGC6_PDB. */
#define BS_SIM_SCGC6_PDB (1U) /*!< Bit field size in bits for SIM_SCGC6_PDB. */
/*! @brief Read current value of the SIM_SCGC6_PDB field. */
#define BR_SIM_SCGC6_PDB(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_PDB))
/*! @brief Format value for bitfield SIM_SCGC6_PDB. */
#define BF_SIM_SCGC6_PDB(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_PDB) & BM_SIM_SCGC6_PDB)
/*! @brief Set the PDB field to a new value. */
#define BW_SIM_SCGC6_PDB(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_PDB) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field PIT[23] (RW)
*
* This bit controls the clock gate to the PIT module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_PIT (23U) /*!< Bit position for SIM_SCGC6_PIT. */
#define BM_SIM_SCGC6_PIT (0x00800000U) /*!< Bit mask for SIM_SCGC6_PIT. */
#define BS_SIM_SCGC6_PIT (1U) /*!< Bit field size in bits for SIM_SCGC6_PIT. */
/*! @brief Read current value of the SIM_SCGC6_PIT field. */
#define BR_SIM_SCGC6_PIT(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_PIT))
/*! @brief Format value for bitfield SIM_SCGC6_PIT. */
#define BF_SIM_SCGC6_PIT(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_PIT) & BM_SIM_SCGC6_PIT)
/*! @brief Set the PIT field to a new value. */
#define BW_SIM_SCGC6_PIT(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_PIT) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field FTM0[24] (RW)
*
* This bit controls the clock gate to the FTM0 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_FTM0 (24U) /*!< Bit position for SIM_SCGC6_FTM0. */
#define BM_SIM_SCGC6_FTM0 (0x01000000U) /*!< Bit mask for SIM_SCGC6_FTM0. */
#define BS_SIM_SCGC6_FTM0 (1U) /*!< Bit field size in bits for SIM_SCGC6_FTM0. */
/*! @brief Read current value of the SIM_SCGC6_FTM0 field. */
#define BR_SIM_SCGC6_FTM0(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_FTM0))
/*! @brief Format value for bitfield SIM_SCGC6_FTM0. */
#define BF_SIM_SCGC6_FTM0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_FTM0) & BM_SIM_SCGC6_FTM0)
/*! @brief Set the FTM0 field to a new value. */
#define BW_SIM_SCGC6_FTM0(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_FTM0) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field FTM1[25] (RW)
*
* This bit controls the clock gate to the FTM1 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_FTM1 (25U) /*!< Bit position for SIM_SCGC6_FTM1. */
#define BM_SIM_SCGC6_FTM1 (0x02000000U) /*!< Bit mask for SIM_SCGC6_FTM1. */
#define BS_SIM_SCGC6_FTM1 (1U) /*!< Bit field size in bits for SIM_SCGC6_FTM1. */
/*! @brief Read current value of the SIM_SCGC6_FTM1 field. */
#define BR_SIM_SCGC6_FTM1(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_FTM1))
/*! @brief Format value for bitfield SIM_SCGC6_FTM1. */
#define BF_SIM_SCGC6_FTM1(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_FTM1) & BM_SIM_SCGC6_FTM1)
/*! @brief Set the FTM1 field to a new value. */
#define BW_SIM_SCGC6_FTM1(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_FTM1) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field FTM2[26] (RW)
*
* This bit controls the clock gate to the FTM2 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_FTM2 (26U) /*!< Bit position for SIM_SCGC6_FTM2. */
#define BM_SIM_SCGC6_FTM2 (0x04000000U) /*!< Bit mask for SIM_SCGC6_FTM2. */
#define BS_SIM_SCGC6_FTM2 (1U) /*!< Bit field size in bits for SIM_SCGC6_FTM2. */
/*! @brief Read current value of the SIM_SCGC6_FTM2 field. */
#define BR_SIM_SCGC6_FTM2(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_FTM2))
/*! @brief Format value for bitfield SIM_SCGC6_FTM2. */
#define BF_SIM_SCGC6_FTM2(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_FTM2) & BM_SIM_SCGC6_FTM2)
/*! @brief Set the FTM2 field to a new value. */
#define BW_SIM_SCGC6_FTM2(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_FTM2) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field ADC0[27] (RW)
*
* This bit controls the clock gate to the ADC0 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_ADC0 (27U) /*!< Bit position for SIM_SCGC6_ADC0. */
#define BM_SIM_SCGC6_ADC0 (0x08000000U) /*!< Bit mask for SIM_SCGC6_ADC0. */
#define BS_SIM_SCGC6_ADC0 (1U) /*!< Bit field size in bits for SIM_SCGC6_ADC0. */
/*! @brief Read current value of the SIM_SCGC6_ADC0 field. */
#define BR_SIM_SCGC6_ADC0(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_ADC0))
/*! @brief Format value for bitfield SIM_SCGC6_ADC0. */
#define BF_SIM_SCGC6_ADC0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_ADC0) & BM_SIM_SCGC6_ADC0)
/*! @brief Set the ADC0 field to a new value. */
#define BW_SIM_SCGC6_ADC0(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_ADC0) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field RTC[29] (RW)
*
* This bit controls software access and interrupts to the RTC module.
*
* Values:
* - 0 - Access and interrupts disabled
* - 1 - Access and interrupts enabled
*/
/*@{*/
#define BP_SIM_SCGC6_RTC (29U) /*!< Bit position for SIM_SCGC6_RTC. */
#define BM_SIM_SCGC6_RTC (0x20000000U) /*!< Bit mask for SIM_SCGC6_RTC. */
#define BS_SIM_SCGC6_RTC (1U) /*!< Bit field size in bits for SIM_SCGC6_RTC. */
/*! @brief Read current value of the SIM_SCGC6_RTC field. */
#define BR_SIM_SCGC6_RTC(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_RTC))
/*! @brief Format value for bitfield SIM_SCGC6_RTC. */
#define BF_SIM_SCGC6_RTC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_RTC) & BM_SIM_SCGC6_RTC)
/*! @brief Set the RTC field to a new value. */
#define BW_SIM_SCGC6_RTC(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_RTC) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC6, field DAC0[31] (RW)
*
* This bit controls the clock gate to the DAC0 module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC6_DAC0 (31U) /*!< Bit position for SIM_SCGC6_DAC0. */
#define BM_SIM_SCGC6_DAC0 (0x80000000U) /*!< Bit mask for SIM_SCGC6_DAC0. */
#define BS_SIM_SCGC6_DAC0 (1U) /*!< Bit field size in bits for SIM_SCGC6_DAC0. */
/*! @brief Read current value of the SIM_SCGC6_DAC0 field. */
#define BR_SIM_SCGC6_DAC0(x) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_DAC0))
/*! @brief Format value for bitfield SIM_SCGC6_DAC0. */
#define BF_SIM_SCGC6_DAC0(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC6_DAC0) & BM_SIM_SCGC6_DAC0)
/*! @brief Set the DAC0 field to a new value. */
#define BW_SIM_SCGC6_DAC0(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC6_ADDR(x), BP_SIM_SCGC6_DAC0) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_SCGC7 - System Clock Gating Control Register 7
******************************************************************************/
/*!
* @brief HW_SIM_SCGC7 - System Clock Gating Control Register 7 (RW)
*
* Reset value: 0x00000006U
*/
typedef union _hw_sim_scgc7
{
uint32_t U;
struct _hw_sim_scgc7_bitfields
{
uint32_t FLEXBUS : 1; /*!< [0] FlexBus Clock Gate Control */
uint32_t DMA : 1; /*!< [1] DMA Clock Gate Control */
uint32_t MPUb : 1; /*!< [2] MPU Clock Gate Control */
uint32_t RESERVED0 : 29; /*!< [31:3] */
} B;
} hw_sim_scgc7_t;
/*!
* @name Constants and macros for entire SIM_SCGC7 register
*/
/*@{*/
#define HW_SIM_SCGC7_ADDR(x) ((x) + 0x1040U)
#define HW_SIM_SCGC7(x) (*(__IO hw_sim_scgc7_t *) HW_SIM_SCGC7_ADDR(x))
#define HW_SIM_SCGC7_RD(x) (HW_SIM_SCGC7(x).U)
#define HW_SIM_SCGC7_WR(x, v) (HW_SIM_SCGC7(x).U = (v))
#define HW_SIM_SCGC7_SET(x, v) (HW_SIM_SCGC7_WR(x, HW_SIM_SCGC7_RD(x) | (v)))
#define HW_SIM_SCGC7_CLR(x, v) (HW_SIM_SCGC7_WR(x, HW_SIM_SCGC7_RD(x) & ~(v)))
#define HW_SIM_SCGC7_TOG(x, v) (HW_SIM_SCGC7_WR(x, HW_SIM_SCGC7_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_SCGC7 bitfields
*/
/*!
* @name Register SIM_SCGC7, field FLEXBUS[0] (RW)
*
* This bit controls the clock gate to the FlexBus module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC7_FLEXBUS (0U) /*!< Bit position for SIM_SCGC7_FLEXBUS. */
#define BM_SIM_SCGC7_FLEXBUS (0x00000001U) /*!< Bit mask for SIM_SCGC7_FLEXBUS. */
#define BS_SIM_SCGC7_FLEXBUS (1U) /*!< Bit field size in bits for SIM_SCGC7_FLEXBUS. */
/*! @brief Read current value of the SIM_SCGC7_FLEXBUS field. */
#define BR_SIM_SCGC7_FLEXBUS(x) (BITBAND_ACCESS32(HW_SIM_SCGC7_ADDR(x), BP_SIM_SCGC7_FLEXBUS))
/*! @brief Format value for bitfield SIM_SCGC7_FLEXBUS. */
#define BF_SIM_SCGC7_FLEXBUS(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC7_FLEXBUS) & BM_SIM_SCGC7_FLEXBUS)
/*! @brief Set the FLEXBUS field to a new value. */
#define BW_SIM_SCGC7_FLEXBUS(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC7_ADDR(x), BP_SIM_SCGC7_FLEXBUS) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC7, field DMA[1] (RW)
*
* This bit controls the clock gate to the DMA module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC7_DMA (1U) /*!< Bit position for SIM_SCGC7_DMA. */
#define BM_SIM_SCGC7_DMA (0x00000002U) /*!< Bit mask for SIM_SCGC7_DMA. */
#define BS_SIM_SCGC7_DMA (1U) /*!< Bit field size in bits for SIM_SCGC7_DMA. */
/*! @brief Read current value of the SIM_SCGC7_DMA field. */
#define BR_SIM_SCGC7_DMA(x) (BITBAND_ACCESS32(HW_SIM_SCGC7_ADDR(x), BP_SIM_SCGC7_DMA))
/*! @brief Format value for bitfield SIM_SCGC7_DMA. */
#define BF_SIM_SCGC7_DMA(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC7_DMA) & BM_SIM_SCGC7_DMA)
/*! @brief Set the DMA field to a new value. */
#define BW_SIM_SCGC7_DMA(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC7_ADDR(x), BP_SIM_SCGC7_DMA) = (v))
/*@}*/
/*!
* @name Register SIM_SCGC7, field MPU[2] (RW)
*
* This bit controls the clock gate to the MPU module.
*
* Values:
* - 0 - Clock disabled
* - 1 - Clock enabled
*/
/*@{*/
#define BP_SIM_SCGC7_MPU (2U) /*!< Bit position for SIM_SCGC7_MPU. */
#define BM_SIM_SCGC7_MPU (0x00000004U) /*!< Bit mask for SIM_SCGC7_MPU. */
#define BS_SIM_SCGC7_MPU (1U) /*!< Bit field size in bits for SIM_SCGC7_MPU. */
/*! @brief Read current value of the SIM_SCGC7_MPU field. */
#define BR_SIM_SCGC7_MPU(x) (BITBAND_ACCESS32(HW_SIM_SCGC7_ADDR(x), BP_SIM_SCGC7_MPU))
/*! @brief Format value for bitfield SIM_SCGC7_MPU. */
#define BF_SIM_SCGC7_MPU(v) ((uint32_t)((uint32_t)(v) << BP_SIM_SCGC7_MPU) & BM_SIM_SCGC7_MPU)
/*! @brief Set the MPU field to a new value. */
#define BW_SIM_SCGC7_MPU(x, v) (BITBAND_ACCESS32(HW_SIM_SCGC7_ADDR(x), BP_SIM_SCGC7_MPU) = (v))
/*@}*/
/*******************************************************************************
* HW_SIM_CLKDIV1 - System Clock Divider Register 1
******************************************************************************/
/*!
* @brief HW_SIM_CLKDIV1 - System Clock Divider Register 1 (RW)
*
* Reset value: 0x00010000U
*
* When updating CLKDIV1, update all fields using the one write command.
* Attempting to write an invalid clock ratio to the CLKDIV1 register will cause the
* write to be ignored. The maximum divide ratio that can be programmed between
* core/system clock and the other divided clocks is divide by 8. When OUTDIV1 equals
* 0000 (divide by 1), the other dividers cannot be set higher than 0111 (divide
* by 8). The CLKDIV1 register cannot be written to when the device is in VLPR
* mode.
*/
typedef union _hw_sim_clkdiv1
{
uint32_t U;
struct _hw_sim_clkdiv1_bitfields
{
uint32_t RESERVED0 : 16; /*!< [15:0] */
uint32_t OUTDIV4 : 4; /*!< [19:16] Clock 4 output divider value */
uint32_t OUTDIV3 : 4; /*!< [23:20] Clock 3 output divider value */
uint32_t OUTDIV2 : 4; /*!< [27:24] Clock 2 output divider value */
uint32_t OUTDIV1 : 4; /*!< [31:28] Clock 1 output divider value */
} B;
} hw_sim_clkdiv1_t;
/*!
* @name Constants and macros for entire SIM_CLKDIV1 register
*/
/*@{*/
#define HW_SIM_CLKDIV1_ADDR(x) ((x) + 0x1044U)
#define HW_SIM_CLKDIV1(x) (*(__IO hw_sim_clkdiv1_t *) HW_SIM_CLKDIV1_ADDR(x))
#define HW_SIM_CLKDIV1_RD(x) (HW_SIM_CLKDIV1(x).U)
#define HW_SIM_CLKDIV1_WR(x, v) (HW_SIM_CLKDIV1(x).U = (v))
#define HW_SIM_CLKDIV1_SET(x, v) (HW_SIM_CLKDIV1_WR(x, HW_SIM_CLKDIV1_RD(x) | (v)))
#define HW_SIM_CLKDIV1_CLR(x, v) (HW_SIM_CLKDIV1_WR(x, HW_SIM_CLKDIV1_RD(x) & ~(v)))
#define HW_SIM_CLKDIV1_TOG(x, v) (HW_SIM_CLKDIV1_WR(x, HW_SIM_CLKDIV1_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_CLKDIV1 bitfields
*/
/*!
* @name Register SIM_CLKDIV1, field OUTDIV4[19:16] (RW)
*
* This field sets the divide value for the flash clock from MCGOUTCLK. At the
* end of reset, it is loaded with either 0001 or 1111 depending on
* FTF_FOPT[LPBOOT]. The flash clock frequency must be an integer divide of the system clock
* frequency.
*
* Values:
* - 0000 - Divide-by-1.
* - 0001 - Divide-by-2.
* - 0010 - Divide-by-3.
* - 0011 - Divide-by-4.
* - 0100 - Divide-by-5.
* - 0101 - Divide-by-6.
* - 0110 - Divide-by-7.
* - 0111 - Divide-by-8.
* - 1000 - Divide-by-9.
* - 1001 - Divide-by-10.
* - 1010 - Divide-by-11.
* - 1011 - Divide-by-12.
* - 1100 - Divide-by-13.
* - 1101 - Divide-by-14.
* - 1110 - Divide-by-15.
* - 1111 - Divide-by-16.
*/
/*@{*/
#define BP_SIM_CLKDIV1_OUTDIV4 (16U) /*!< Bit position for SIM_CLKDIV1_OUTDIV4. */
#define BM_SIM_CLKDIV1_OUTDIV4 (0x000F0000U) /*!< Bit mask for SIM_CLKDIV1_OUTDIV4. */
#define BS_SIM_CLKDIV1_OUTDIV4 (4U) /*!< Bit field size in bits for SIM_CLKDIV1_OUTDIV4. */
/*! @brief Read current value of the SIM_CLKDIV1_OUTDIV4 field. */
#define BR_SIM_CLKDIV1_OUTDIV4(x) (HW_SIM_CLKDIV1(x).B.OUTDIV4)
/*! @brief Format value for bitfield SIM_CLKDIV1_OUTDIV4. */
#define BF_SIM_CLKDIV1_OUTDIV4(v) ((uint32_t)((uint32_t)(v) << BP_SIM_CLKDIV1_OUTDIV4) & BM_SIM_CLKDIV1_OUTDIV4)
/*! @brief Set the OUTDIV4 field to a new value. */
#define BW_SIM_CLKDIV1_OUTDIV4(x, v) (HW_SIM_CLKDIV1_WR(x, (HW_SIM_CLKDIV1_RD(x) & ~BM_SIM_CLKDIV1_OUTDIV4) | BF_SIM_CLKDIV1_OUTDIV4(v)))
/*@}*/
/*!
* @name Register SIM_CLKDIV1, field OUTDIV3[23:20] (RW)
*
* This field sets the divide value for the FlexBus clock (external pin FB_CLK)
* from MCGOUTCLK. At the end of reset, it is loaded with either 0001 or 1111
* depending on FTF_FOPT[LPBOOT]. The FlexBus clock frequency must be an integer
* divide of the system clock frequency.
*
* Values:
* - 0000 - Divide-by-1.
* - 0001 - Divide-by-2.
* - 0010 - Divide-by-3.
* - 0011 - Divide-by-4.
* - 0100 - Divide-by-5.
* - 0101 - Divide-by-6.
* - 0110 - Divide-by-7.
* - 0111 - Divide-by-8.
* - 1000 - Divide-by-9.
* - 1001 - Divide-by-10.
* - 1010 - Divide-by-11.
* - 1011 - Divide-by-12.
* - 1100 - Divide-by-13.
* - 1101 - Divide-by-14.
* - 1110 - Divide-by-15.
* - 1111 - Divide-by-16.
*/
/*@{*/
#define BP_SIM_CLKDIV1_OUTDIV3 (20U) /*!< Bit position for SIM_CLKDIV1_OUTDIV3. */
#define BM_SIM_CLKDIV1_OUTDIV3 (0x00F00000U) /*!< Bit mask for SIM_CLKDIV1_OUTDIV3. */
#define BS_SIM_CLKDIV1_OUTDIV3 (4U) /*!< Bit field size in bits for SIM_CLKDIV1_OUTDIV3. */
/*! @brief Read current value of the SIM_CLKDIV1_OUTDIV3 field. */
#define BR_SIM_CLKDIV1_OUTDIV3(x) (HW_SIM_CLKDIV1(x).B.OUTDIV3)
/*! @brief Format value for bitfield SIM_CLKDIV1_OUTDIV3. */
#define BF_SIM_CLKDIV1_OUTDIV3(v) ((uint32_t)((uint32_t)(v) << BP_SIM_CLKDIV1_OUTDIV3) & BM_SIM_CLKDIV1_OUTDIV3)
/*! @brief Set the OUTDIV3 field to a new value. */
#define BW_SIM_CLKDIV1_OUTDIV3(x, v) (HW_SIM_CLKDIV1_WR(x, (HW_SIM_CLKDIV1_RD(x) & ~BM_SIM_CLKDIV1_OUTDIV3) | BF_SIM_CLKDIV1_OUTDIV3(v)))
/*@}*/
/*!
* @name Register SIM_CLKDIV1, field OUTDIV2[27:24] (RW)
*
* This field sets the divide value for the bus clock from MCGOUTCLK. At the end
* of reset, it is loaded with either 0000 or 0111 depending on
* FTF_FOPT[LPBOOT]. The bus clock frequency must be an integer divide of the core/system clock
* frequency.
*
* Values:
* - 0000 - Divide-by-1.
* - 0001 - Divide-by-2.
* - 0010 - Divide-by-3.
* - 0011 - Divide-by-4.
* - 0100 - Divide-by-5.
* - 0101 - Divide-by-6.
* - 0110 - Divide-by-7.
* - 0111 - Divide-by-8.
* - 1000 - Divide-by-9.
* - 1001 - Divide-by-10.
* - 1010 - Divide-by-11.
* - 1011 - Divide-by-12.
* - 1100 - Divide-by-13.
* - 1101 - Divide-by-14.
* - 1110 - Divide-by-15.
* - 1111 - Divide-by-16.
*/
/*@{*/
#define BP_SIM_CLKDIV1_OUTDIV2 (24U) /*!< Bit position for SIM_CLKDIV1_OUTDIV2. */
#define BM_SIM_CLKDIV1_OUTDIV2 (0x0F000000U) /*!< Bit mask for SIM_CLKDIV1_OUTDIV2. */
#define BS_SIM_CLKDIV1_OUTDIV2 (4U) /*!< Bit field size in bits for SIM_CLKDIV1_OUTDIV2. */
/*! @brief Read current value of the SIM_CLKDIV1_OUTDIV2 field. */
#define BR_SIM_CLKDIV1_OUTDIV2(x) (HW_SIM_CLKDIV1(x).B.OUTDIV2)
/*! @brief Format value for bitfield SIM_CLKDIV1_OUTDIV2. */
#define BF_SIM_CLKDIV1_OUTDIV2(v) ((uint32_t)((uint32_t)(v) << BP_SIM_CLKDIV1_OUTDIV2) & BM_SIM_CLKDIV1_OUTDIV2)
/*! @brief Set the OUTDIV2 field to a new value. */
#define BW_SIM_CLKDIV1_OUTDIV2(x, v) (HW_SIM_CLKDIV1_WR(x, (HW_SIM_CLKDIV1_RD(x) & ~BM_SIM_CLKDIV1_OUTDIV2) | BF_SIM_CLKDIV1_OUTDIV2(v)))
/*@}*/
/*!
* @name Register SIM_CLKDIV1, field OUTDIV1[31:28] (RW)
*
* This field sets the divide value for the core/system clock from MCGOUTCLK. At
* the end of reset, it is loaded with either 0000 or 0111 depending on
* FTF_FOPT[LPBOOT].
*
* Values:
* - 0000 - Divide-by-1.
* - 0001 - Divide-by-2.
* - 0010 - Divide-by-3.
* - 0011 - Divide-by-4.
* - 0100 - Divide-by-5.
* - 0101 - Divide-by-6.
* - 0110 - Divide-by-7.
* - 0111 - Divide-by-8.
* - 1000 - Divide-by-9.
* - 1001 - Divide-by-10.
* - 1010 - Divide-by-11.
* - 1011 - Divide-by-12.
* - 1100 - Divide-by-13.
* - 1101 - Divide-by-14.
* - 1110 - Divide-by-15.
* - 1111 - Divide-by-16.
*/
/*@{*/
#define BP_SIM_CLKDIV1_OUTDIV1 (28U) /*!< Bit position for SIM_CLKDIV1_OUTDIV1. */
#define BM_SIM_CLKDIV1_OUTDIV1 (0xF0000000U) /*!< Bit mask for SIM_CLKDIV1_OUTDIV1. */
#define BS_SIM_CLKDIV1_OUTDIV1 (4U) /*!< Bit field size in bits for SIM_CLKDIV1_OUTDIV1. */
/*! @brief Read current value of the SIM_CLKDIV1_OUTDIV1 field. */
#define BR_SIM_CLKDIV1_OUTDIV1(x) (HW_SIM_CLKDIV1(x).B.OUTDIV1)
/*! @brief Format value for bitfield SIM_CLKDIV1_OUTDIV1. */
#define BF_SIM_CLKDIV1_OUTDIV1(v) ((uint32_t)((uint32_t)(v) << BP_SIM_CLKDIV1_OUTDIV1) & BM_SIM_CLKDIV1_OUTDIV1)
/*! @brief Set the OUTDIV1 field to a new value. */
#define BW_SIM_CLKDIV1_OUTDIV1(x, v) (HW_SIM_CLKDIV1_WR(x, (HW_SIM_CLKDIV1_RD(x) & ~BM_SIM_CLKDIV1_OUTDIV1) | BF_SIM_CLKDIV1_OUTDIV1(v)))
/*@}*/
/*******************************************************************************
* HW_SIM_CLKDIV2 - System Clock Divider Register 2
******************************************************************************/
/*!
* @brief HW_SIM_CLKDIV2 - System Clock Divider Register 2 (RW)
*
* Reset value: 0x00000000U
*/
typedef union _hw_sim_clkdiv2
{
uint32_t U;
struct _hw_sim_clkdiv2_bitfields
{
uint32_t USBFRAC : 1; /*!< [0] USB clock divider fraction */
uint32_t USBDIV : 3; /*!< [3:1] USB clock divider divisor */
uint32_t RESERVED0 : 28; /*!< [31:4] */
} B;
} hw_sim_clkdiv2_t;
/*!
* @name Constants and macros for entire SIM_CLKDIV2 register
*/
/*@{*/
#define HW_SIM_CLKDIV2_ADDR(x) ((x) + 0x1048U)
#define HW_SIM_CLKDIV2(x) (*(__IO hw_sim_clkdiv2_t *) HW_SIM_CLKDIV2_ADDR(x))
#define HW_SIM_CLKDIV2_RD(x) (HW_SIM_CLKDIV2(x).U)
#define HW_SIM_CLKDIV2_WR(x, v) (HW_SIM_CLKDIV2(x).U = (v))
#define HW_SIM_CLKDIV2_SET(x, v) (HW_SIM_CLKDIV2_WR(x, HW_SIM_CLKDIV2_RD(x) | (v)))
#define HW_SIM_CLKDIV2_CLR(x, v) (HW_SIM_CLKDIV2_WR(x, HW_SIM_CLKDIV2_RD(x) & ~(v)))
#define HW_SIM_CLKDIV2_TOG(x, v) (HW_SIM_CLKDIV2_WR(x, HW_SIM_CLKDIV2_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_CLKDIV2 bitfields
*/
/*!
* @name Register SIM_CLKDIV2, field USBFRAC[0] (RW)
*
* This field sets the fraction multiply value for the fractional clock divider
* when the MCGFLLCLK/MCGPLLCLK clock is the USB clock source (SOPT2[USBSRC] =
* 1). Divider output clock = Divider input clock * [ (USBFRAC+1) / (USBDIV+1) ]
*/
/*@{*/
#define BP_SIM_CLKDIV2_USBFRAC (0U) /*!< Bit position for SIM_CLKDIV2_USBFRAC. */
#define BM_SIM_CLKDIV2_USBFRAC (0x00000001U) /*!< Bit mask for SIM_CLKDIV2_USBFRAC. */
#define BS_SIM_CLKDIV2_USBFRAC (1U) /*!< Bit field size in bits for SIM_CLKDIV2_USBFRAC. */
/*! @brief Read current value of the SIM_CLKDIV2_USBFRAC field. */
#define BR_SIM_CLKDIV2_USBFRAC(x) (BITBAND_ACCESS32(HW_SIM_CLKDIV2_ADDR(x), BP_SIM_CLKDIV2_USBFRAC))
/*! @brief Format value for bitfield SIM_CLKDIV2_USBFRAC. */
#define BF_SIM_CLKDIV2_USBFRAC(v) ((uint32_t)((uint32_t)(v) << BP_SIM_CLKDIV2_USBFRAC) & BM_SIM_CLKDIV2_USBFRAC)
/*! @brief Set the USBFRAC field to a new value. */
#define BW_SIM_CLKDIV2_USBFRAC(x, v) (BITBAND_ACCESS32(HW_SIM_CLKDIV2_ADDR(x), BP_SIM_CLKDIV2_USBFRAC) = (v))
/*@}*/
/*!
* @name Register SIM_CLKDIV2, field USBDIV[3:1] (RW)
*
* This field sets the divide value for the fractional clock divider when the
* MCGFLLCLK/MCGPLLCLK clock is the USB clock source (SOPT2[USBSRC] = 1). Divider
* output clock = Divider input clock * [ (USBFRAC+1) / (USBDIV+1) ]
*/
/*@{*/
#define BP_SIM_CLKDIV2_USBDIV (1U) /*!< Bit position for SIM_CLKDIV2_USBDIV. */
#define BM_SIM_CLKDIV2_USBDIV (0x0000000EU) /*!< Bit mask for SIM_CLKDIV2_USBDIV. */
#define BS_SIM_CLKDIV2_USBDIV (3U) /*!< Bit field size in bits for SIM_CLKDIV2_USBDIV. */
/*! @brief Read current value of the SIM_CLKDIV2_USBDIV field. */
#define BR_SIM_CLKDIV2_USBDIV(x) (HW_SIM_CLKDIV2(x).B.USBDIV)
/*! @brief Format value for bitfield SIM_CLKDIV2_USBDIV. */
#define BF_SIM_CLKDIV2_USBDIV(v) ((uint32_t)((uint32_t)(v) << BP_SIM_CLKDIV2_USBDIV) & BM_SIM_CLKDIV2_USBDIV)
/*! @brief Set the USBDIV field to a new value. */
#define BW_SIM_CLKDIV2_USBDIV(x, v) (HW_SIM_CLKDIV2_WR(x, (HW_SIM_CLKDIV2_RD(x) & ~BM_SIM_CLKDIV2_USBDIV) | BF_SIM_CLKDIV2_USBDIV(v)))
/*@}*/
/*******************************************************************************
* HW_SIM_FCFG1 - Flash Configuration Register 1
******************************************************************************/
/*!
* @brief HW_SIM_FCFG1 - Flash Configuration Register 1 (RW)
*
* Reset value: 0xFF0F0F00U
*
* For devices with FlexNVM: The reset value of EESIZE and DEPART are based on
* user programming in user IFR via the PGMPART flash command. For devices with
* program flash only:
*/
typedef union _hw_sim_fcfg1
{
uint32_t U;
struct _hw_sim_fcfg1_bitfields
{
uint32_t FLASHDIS : 1; /*!< [0] Flash Disable */
uint32_t FLASHDOZE : 1; /*!< [1] Flash Doze */
uint32_t RESERVED0 : 6; /*!< [7:2] */
uint32_t DEPART : 4; /*!< [11:8] FlexNVM partition */
uint32_t RESERVED1 : 4; /*!< [15:12] */
uint32_t EESIZE : 4; /*!< [19:16] EEPROM size */
uint32_t RESERVED2 : 4; /*!< [23:20] */
uint32_t PFSIZE : 4; /*!< [27:24] Program flash size */
uint32_t NVMSIZE : 4; /*!< [31:28] FlexNVM size */
} B;
} hw_sim_fcfg1_t;
/*!
* @name Constants and macros for entire SIM_FCFG1 register
*/
/*@{*/
#define HW_SIM_FCFG1_ADDR(x) ((x) + 0x104CU)
#define HW_SIM_FCFG1(x) (*(__IO hw_sim_fcfg1_t *) HW_SIM_FCFG1_ADDR(x))
#define HW_SIM_FCFG1_RD(x) (HW_SIM_FCFG1(x).U)
#define HW_SIM_FCFG1_WR(x, v) (HW_SIM_FCFG1(x).U = (v))
#define HW_SIM_FCFG1_SET(x, v) (HW_SIM_FCFG1_WR(x, HW_SIM_FCFG1_RD(x) | (v)))
#define HW_SIM_FCFG1_CLR(x, v) (HW_SIM_FCFG1_WR(x, HW_SIM_FCFG1_RD(x) & ~(v)))
#define HW_SIM_FCFG1_TOG(x, v) (HW_SIM_FCFG1_WR(x, HW_SIM_FCFG1_RD(x) ^ (v)))
/*@}*/
/*
* Constants & macros for individual SIM_FCFG1 bitfields
*/
/*!
* @name Register SIM_FCFG1, field FLASHDIS[0] (RW)
*
* Flash accesses are disabled (and generate a bus error) and the Flash memory
* is placed in a low power state. This bit should not be changed during VLP
* modes. Relocate the interrupt vectors out of Flash memory before disabling the
* Flash.
*
* Values:
* - 0 - Flash is enabled
* - 1 - Flash is disabled
*/
/*@{*/
#define BP_SIM_FCFG1_FLASHDIS (0U) /*!< Bit position for SIM_FCFG1_FLASHDIS. */
#define BM_SIM_FCFG1_FLASHDIS (0x00000001U) /*!< Bit mask for SIM_FCFG1_FLASHDIS. */
#define BS_SIM_FCFG1_FLASHDIS (1U) /*!< Bit field size in bits for SIM_FCFG1_FLASHDIS. */
/*! @brief Read current value of the SIM_FCFG1_FLASHDIS field. */
#define BR_SIM_FCFG1_FLASHDIS(x) (BITBAND_ACCESS32(HW_SIM_FCFG1_ADDR(x), BP_SIM_FCFG1_FLASHDIS))
/*! @brief Format value for bitfield SIM_FCFG1_FLASHDIS. */
#define BF_SIM_FCFG1_FLASHDIS(v) ((uint32_t)((uint32_t)(v) << BP_SIM_FCFG1_FLASHDIS) & BM_SIM_FCFG1_FLASHDIS)
/*! @brief Set the FLASHDIS field to a new value. */
#define BW_SIM_FCFG1_FLASHDIS(x, v) (BITBAND_ACCESS32(HW_SIM_FCFG1_ADDR(x), BP_SIM_FCFG1_FLASHDIS) = (v))
/*@}*/
/*!
* @name Register SIM_FCFG1, field FLASHDOZE[1] (RW)
*
* When set, Flash memory is disabled for the duration of Wait mode. An attempt
* by the DMA or other bus master to access the Flash when the Flash is disabled
* will result in a bus error. This bit should be clear during VLP modes. The
* Flash will be automatically enabled again at the end of Wait mode so interrupt
* vectors do not need to be relocated out of Flash memory. The wakeup time from
* Wait mode is extended when this bit is set.
*
* Values:
* - 0 - Flash remains enabled during Wait mode
* - 1 - Flash is disabled for the duration of Wait mode
*/
/*@{*/
#define BP_SIM_FCFG1_FLASHDOZE (1U) /*!< Bit position for SIM_FCFG1_FLASHDOZE. */
#define BM_SIM_FCFG1_FLASHDOZE (0x00000002U) /*!< Bit mask for SIM_FCFG1_FLASHDOZE. */
#define BS_SIM_FCFG1_FLASHDOZE (1U) /*!< Bit field size in bits for SIM_FCFG1_FLASHDOZE. */
/*! @brief Read current value of the SIM_FCFG1_FLASHDOZE field. */
#define BR_SIM_FCFG1_FLASHDOZE(x) (BITBAND_ACCESS32(HW_SIM_FCFG1_ADDR(x), BP_SIM_FCFG1_FLASHDOZE))
/*! @brief Format value for bitfield SIM_FCFG1_FLASHDOZE. */
#define BF_SIM_FCFG1_FLASHDOZE(v) ((uint32_t)((uint32_t)(v) << BP_SIM_FCFG1_FLASHDOZE) & BM_SIM_FCFG1_FLASHDOZE)
/*! @brief Set the FLASHDOZE field to a new value. */
#define BW_SIM_FCFG1_FLASHDOZE(x, v) (BITBAND_ACCESS32(HW_SIM_FCFG1_ADDR(x), BP_SIM_FCFG1_FLASHDOZE) = (v))
/*@}*/
/*!
* @name Register SIM_FCFG1, field DEPART[11:8] (RO)
*
* For devices with FlexNVM: Data flash / EEPROM backup split . See DEPART bit
* description in FTFE chapter. For devices without FlexNVM: Reserved
*/
/*@{*/
#define BP_SIM_FCFG1_DEPART (8U) /*!< Bit position for SIM_FCFG1_DEPART. */
#define BM_SIM_FCFG1_DEPART (0x00000F00U) /*!< Bit mask for SIM_FCFG1_DEPART. */
#define BS_SIM_FCFG1_DEPART (4U) /*!< Bit field size in bits for SIM_FCFG1_DEPART. */
/*! @brief Read current value of the SIM_FCFG1_DEPART field. */
#define BR_SIM_FCFG1_DEPART(x) (HW_SIM_FCFG1(x).B.DEPART)
/*@}*/
/*!
* @name Register SIM_FCFG1, field EESIZE[19:16] (RO)
*
* EEPROM data size .
*
* Values:
* - 0000 - 16 KB
* - 0001 - 8 KB
* - 0010 - 4 KB
* - 0011 - 2 KB
* - 0100 - 1 KB
* - 0101 - 512 Bytes
* - 0110 - 256 Bytes
* - 0111 - 128 Bytes
* - 1000 - 64 Bytes
* - 1001 - 32 Bytes
* - 1111 - 0 Bytes
*/
/*@{*/
#define BP_SIM_FCFG1_EESIZE (16U) /*!< Bit position for SIM_FCFG1_EESIZE. */
#define BM_SIM_FCFG1_EESIZE (0x000F0000U) /*!< Bit mask for SIM_FCFG1_EESIZE. */
#define BS_SIM_FCFG1_EESIZE (4U) /*!< Bit field size in bits for SIM_FCFG1_EESIZE. */
/*! @brief Read current value of the SIM_FCFG1_EESIZE field. */
#define BR_SIM_FCFG1_EESIZE(x) (HW_SIM_FCFG1(x).B.EESIZE)
/*@}*/
/*!
* @name Register SIM_FCFG1, field PFSIZE[27:24] (RO)
*
* This field specifies the amount of program flash memory available on the
* device . Undefined values are reserved.
*
* Values:
* - 0011 - 32 KB of program flash memory
* - 0101 - 64 KB of program flash memory
* - 0111 - 128 KB of program flash memory
* - 1001 - 256 KB of program flash memory
* - 1011 - 512 KB of program flash memory
* - 1101 - 1024 KB of program flash memory
* - 1111 - 1024 KB of program flash memory
*/
/*@{*/
#define BP_SIM_FCFG1_PFSIZE (24U) /*!< Bit position for SIM_FCFG1_PFSIZE. */
#define BM_SIM_FCFG1_PFSIZE (0x0F000000U) /*!< Bit mask for SIM_FCFG1_PFSIZE. */
#define BS_SIM_FCFG1_PFSIZE (4U) /*!< Bit field size in bits for SIM_FCFG1_PFSIZE. */
/*! @brief Read current value of the SIM_FCFG1_PFSIZE field. */
#define BR_SIM_FCFG1_PFSIZE(x) (HW_SIM_FCFG1(x).B.PFSIZE)
/*@}*/
/*!
* @name Register SIM_FCFG1, field NVMSIZE[31:28] (RO)
*
* This field specifies the amount of FlexNVM memory available on the device .
* Undefined values are reserved.
*
* Values:
* - 0000 - 0 KB of FlexNVM
* - 0011 - 32 KB of FlexNVM
* - 0101 - 64 KB of FlexNVM
* - 0111 - 128 KB of FlexNVM
* - 1001 - 256 KB of FlexNVM
* - 1011 - 512 KB of FlexNVM
* - 1111 - 512 KB of FlexNVM
*/
/*@{*/
#define BP_SIM_FCFG1_NVMSIZE (28U) /*!< Bit position for SIM_FCFG1_NVMSIZE. */
#define BM_SIM_FCFG1_NVMSIZE (0xF0000000U) /*!< Bit mask for SIM_FCFG1_NVMSIZE. */
#define BS_SIM_FCFG1_NVMSIZE (4U) /*!< Bit field size in bits for SIM_FCFG1_NVMSIZE. */
/*! @brief Read current value of the SIM_FCFG1_NVMSIZE field. */
#define BR_SIM_FCFG1_NVMSIZE(x) (HW_SIM_FCFG1(x).B.NVMSIZE)
/*@}*/
/*******************************************************************************
* HW_SIM_FCFG2 - Flash Configuration Register 2
******************************************************************************/
/*!
* @brief HW_SIM_FCFG2 - Flash Configuration Register 2 (RO)
*
* Reset value: 0x7F7F0000U
*/
typedef union _hw_sim_fcfg2
{
uint32_t U;
struct _hw_sim_fcfg2_bitfields
{
uint32_t RESERVED0 : 16; /*!< [15:0] */
uint32_t MAXADDR1 : 7; /*!< [22:16] Max address block 1 */
uint32_t PFLSH : 1; /*!< [23] Program flash only */
uint32_t MAXADDR0 : 7; /*!< [30:24] Max address block 0 */
uint32_t RESERVED1 : 1; /*!< [31] */
} B;
} hw_sim_fcfg2_t;
/*!
* @name Constants and macros for entire SIM_FCFG2 register
*/
/*@{*/
#define HW_SIM_FCFG2_ADDR(x) ((x) + 0x1050U)
#define HW_SIM_FCFG2(x) (*(__I hw_sim_fcfg2_t *) HW_SIM_FCFG2_ADDR(x))
#define HW_SIM_FCFG2_RD(x) (HW_SIM_FCFG2(x).U)
/*@}*/
/*
* Constants & macros for individual SIM_FCFG2 bitfields
*/
/*!
* @name Register SIM_FCFG2, field MAXADDR1[22:16] (RO)
*
* For devices with FlexNVM: This field concatenated with 13 trailing zeros plus
* the FlexNVM base address indicates the first invalid address of the FlexNVM
* flash block. For example, if MAXADDR1 = 0x20 the first invalid address of
* FlexNVM flash block is 0x4_0000 + 0x1000_0000 . This would be the MAXADDR1 value
* for a device with 256 KB FlexNVM. For devices with program flash only: This
* field equals zero if there is only one program flash block, otherwise it equals
* the value of the MAXADDR0 field. For example, with MAXADDR0 = MAXADDR1 = 0x20
* the first invalid address of flash block 1 is 0x4_0000 + 0x4_0000. This would be
* the MAXADDR1 value for a device with 512 KB program flash memory across two
* flash blocks and no FlexNVM.
*/
/*@{*/
#define BP_SIM_FCFG2_MAXADDR1 (16U) /*!< Bit position for SIM_FCFG2_MAXADDR1. */
#define BM_SIM_FCFG2_MAXADDR1 (0x007F0000U) /*!< Bit mask for SIM_FCFG2_MAXADDR1. */
#define BS_SIM_FCFG2_MAXADDR1 (7U) /*!< Bit field size in bits for SIM_FCFG2_MAXADDR1. */
/*! @brief Read current value of the SIM_FCFG2_MAXADDR1 field. */
#define BR_SIM_FCFG2_MAXADDR1(x) (HW_SIM_FCFG2(x).B.MAXADDR1)
/*@}*/
/*!
* @name Register SIM_FCFG2, field PFLSH[23] (RO)
*
* For devices with FlexNVM, this bit is always clear. For devices without
* FlexNVM, this bit is always set.
*
* Values:
* - 0 - Device supports FlexNVM
* - 1 - Program Flash only, device does not support FlexNVM
*/
/*@{*/
#define BP_SIM_FCFG2_PFLSH (23U) /*!< Bit position for SIM_FCFG2_PFLSH. */
#define BM_SIM_FCFG2_PFLSH (0x00800000U) /*!< Bit mask for SIM_FCFG2_PFLSH. */
#define BS_SIM_FCFG2_PFLSH (1U) /*!< Bit field size in bits for SIM_FCFG2_PFLSH. */
/*! @brief Read current value of the SIM_FCFG2_PFLSH field. */
#define BR_SIM_FCFG2_PFLSH(x) (BITBAND_ACCESS32(HW_SIM_FCFG2_ADDR(x), BP_SIM_FCFG2_PFLSH))
/*@}*/
/*!
* @name Register SIM_FCFG2, field MAXADDR0[30:24] (RO)
*
* This field concatenated with 13 trailing zeros indicates the first invalid
* address of each program flash block. For example, if MAXADDR0 = 0x20 the first
* invalid address of flash block 0 is 0x0004_0000. This would be the MAXADDR0
* value for a device with 256 KB program flash in flash block 0.
*/
/*@{*/
#define BP_SIM_FCFG2_MAXADDR0 (24U) /*!< Bit position for SIM_FCFG2_MAXADDR0. */
#define BM_SIM_FCFG2_MAXADDR0 (0x7F000000U) /*!< Bit mask for SIM_FCFG2_MAXADDR0. */
#define BS_SIM_FCFG2_MAXADDR0 (7U) /*!< Bit field size in bits for SIM_FCFG2_MAXADDR0. */
/*! @brief Read current value of the SIM_FCFG2_MAXADDR0 field. */
#define BR_SIM_FCFG2_MAXADDR0(x) (HW_SIM_FCFG2(x).B.MAXADDR0)
/*@}*/
/*******************************************************************************
* HW_SIM_UIDH - Unique Identification Register High
******************************************************************************/
/*!
* @brief HW_SIM_UIDH - Unique Identification Register High (RO)
*
* Reset value: 0x00000000U
*/
typedef union _hw_sim_uidh
{
uint32_t U;
struct _hw_sim_uidh_bitfields
{
uint32_t UID : 32; /*!< [31:0] Unique Identification */
} B;
} hw_sim_uidh_t;
/*!
* @name Constants and macros for entire SIM_UIDH register
*/
/*@{*/
#define HW_SIM_UIDH_ADDR(x) ((x) + 0x1054U)
#define HW_SIM_UIDH(x) (*(__I hw_sim_uidh_t *) HW_SIM_UIDH_ADDR(x))
#define HW_SIM_UIDH_RD(x) (HW_SIM_UIDH(x).U)
/*@}*/
/*
* Constants & macros for individual SIM_UIDH bitfields
*/
/*!
* @name Register SIM_UIDH, field UID[31:0] (RO)
*
* Unique identification for the device.
*/
/*@{*/
#define BP_SIM_UIDH_UID (0U) /*!< Bit position for SIM_UIDH_UID. */
#define BM_SIM_UIDH_UID (0xFFFFFFFFU) /*!< Bit mask for SIM_UIDH_UID. */
#define BS_SIM_UIDH_UID (32U) /*!< Bit field size in bits for SIM_UIDH_UID. */
/*! @brief Read current value of the SIM_UIDH_UID field. */
#define BR_SIM_UIDH_UID(x) (HW_SIM_UIDH(x).U)
/*@}*/
/*******************************************************************************
* HW_SIM_UIDMH - Unique Identification Register Mid-High
******************************************************************************/
/*!
* @brief HW_SIM_UIDMH - Unique Identification Register Mid-High (RO)
*
* Reset value: 0x00000000U
*/
typedef union _hw_sim_uidmh
{
uint32_t U;
struct _hw_sim_uidmh_bitfields
{
uint32_t UID : 32; /*!< [31:0] Unique Identification */
} B;
} hw_sim_uidmh_t;
/*!
* @name Constants and macros for entire SIM_UIDMH register
*/
/*@{*/
#define HW_SIM_UIDMH_ADDR(x) ((x) + 0x1058U)
#define HW_SIM_UIDMH(x) (*(__I hw_sim_uidmh_t *) HW_SIM_UIDMH_ADDR(x))
#define HW_SIM_UIDMH_RD(x) (HW_SIM_UIDMH(x).U)
/*@}*/
/*
* Constants & macros for individual SIM_UIDMH bitfields
*/
/*!
* @name Register SIM_UIDMH, field UID[31:0] (RO)
*
* Unique identification for the device.
*/
/*@{*/
#define BP_SIM_UIDMH_UID (0U) /*!< Bit position for SIM_UIDMH_UID. */
#define BM_SIM_UIDMH_UID (0xFFFFFFFFU) /*!< Bit mask for SIM_UIDMH_UID. */
#define BS_SIM_UIDMH_UID (32U) /*!< Bit field size in bits for SIM_UIDMH_UID. */
/*! @brief Read current value of the SIM_UIDMH_UID field. */
#define BR_SIM_UIDMH_UID(x) (HW_SIM_UIDMH(x).U)
/*@}*/
/*******************************************************************************
* HW_SIM_UIDML - Unique Identification Register Mid Low
******************************************************************************/
/*!
* @brief HW_SIM_UIDML - Unique Identification Register Mid Low (RO)
*
* Reset value: 0x00000000U
*/
typedef union _hw_sim_uidml
{
uint32_t U;
struct _hw_sim_uidml_bitfields
{
uint32_t UID : 32; /*!< [31:0] Unique Identification */
} B;
} hw_sim_uidml_t;
/*!
* @name Constants and macros for entire SIM_UIDML register
*/
/*@{*/
#define HW_SIM_UIDML_ADDR(x) ((x) + 0x105CU)
#define HW_SIM_UIDML(x) (*(__I hw_sim_uidml_t *) HW_SIM_UIDML_ADDR(x))
#define HW_SIM_UIDML_RD(x) (HW_SIM_UIDML(x).U)
/*@}*/
/*
* Constants & macros for individual SIM_UIDML bitfields
*/
/*!
* @name Register SIM_UIDML, field UID[31:0] (RO)
*
* Unique identification for the device.
*/
/*@{*/
#define BP_SIM_UIDML_UID (0U) /*!< Bit position for SIM_UIDML_UID. */
#define BM_SIM_UIDML_UID (0xFFFFFFFFU) /*!< Bit mask for SIM_UIDML_UID. */
#define BS_SIM_UIDML_UID (32U) /*!< Bit field size in bits for SIM_UIDML_UID. */
/*! @brief Read current value of the SIM_UIDML_UID field. */
#define BR_SIM_UIDML_UID(x) (HW_SIM_UIDML(x).U)
/*@}*/
/*******************************************************************************
* HW_SIM_UIDL - Unique Identification Register Low
******************************************************************************/
/*!
* @brief HW_SIM_UIDL - Unique Identification Register Low (RO)
*
* Reset value: 0x00000000U
*/
typedef union _hw_sim_uidl
{
uint32_t U;
struct _hw_sim_uidl_bitfields
{
uint32_t UID : 32; /*!< [31:0] Unique Identification */
} B;
} hw_sim_uidl_t;
/*!
* @name Constants and macros for entire SIM_UIDL register
*/
/*@{*/
#define HW_SIM_UIDL_ADDR(x) ((x) + 0x1060U)
#define HW_SIM_UIDL(x) (*(__I hw_sim_uidl_t *) HW_SIM_UIDL_ADDR(x))
#define HW_SIM_UIDL_RD(x) (HW_SIM_UIDL(x).U)
/*@}*/
/*
* Constants & macros for individual SIM_UIDL bitfields
*/
/*!
* @name Register SIM_UIDL, field UID[31:0] (RO)
*
* Unique identification for the device.
*/
/*@{*/
#define BP_SIM_UIDL_UID (0U) /*!< Bit position for SIM_UIDL_UID. */
#define BM_SIM_UIDL_UID (0xFFFFFFFFU) /*!< Bit mask for SIM_UIDL_UID. */
#define BS_SIM_UIDL_UID (32U) /*!< Bit field size in bits for SIM_UIDL_UID. */
/*! @brief Read current value of the SIM_UIDL_UID field. */
#define BR_SIM_UIDL_UID(x) (HW_SIM_UIDL(x).U)
/*@}*/
/*******************************************************************************
* hw_sim_t - module struct
******************************************************************************/
/*!
* @brief All SIM module registers.
*/
#pragma pack(1)
typedef struct _hw_sim
{
__IO hw_sim_sopt1_t SOPT1; /*!< [0x0] System Options Register 1 */
__IO hw_sim_sopt1cfg_t SOPT1CFG; /*!< [0x4] SOPT1 Configuration Register */
uint8_t _reserved0[4092];
__IO hw_sim_sopt2_t SOPT2; /*!< [0x1004] System Options Register 2 */
uint8_t _reserved1[4];
__IO hw_sim_sopt4_t SOPT4; /*!< [0x100C] System Options Register 4 */
__IO hw_sim_sopt5_t SOPT5; /*!< [0x1010] System Options Register 5 */
uint8_t _reserved2[4];
__IO hw_sim_sopt7_t SOPT7; /*!< [0x1018] System Options Register 7 */
uint8_t _reserved3[8];
__I hw_sim_sdid_t SDID; /*!< [0x1024] System Device Identification Register */
__IO hw_sim_scgc1_t SCGC1; /*!< [0x1028] System Clock Gating Control Register 1 */
__IO hw_sim_scgc2_t SCGC2; /*!< [0x102C] System Clock Gating Control Register 2 */
__IO hw_sim_scgc3_t SCGC3; /*!< [0x1030] System Clock Gating Control Register 3 */
__IO hw_sim_scgc4_t SCGC4; /*!< [0x1034] System Clock Gating Control Register 4 */
__IO hw_sim_scgc5_t SCGC5; /*!< [0x1038] System Clock Gating Control Register 5 */
__IO hw_sim_scgc6_t SCGC6; /*!< [0x103C] System Clock Gating Control Register 6 */
__IO hw_sim_scgc7_t SCGC7; /*!< [0x1040] System Clock Gating Control Register 7 */
__IO hw_sim_clkdiv1_t CLKDIV1; /*!< [0x1044] System Clock Divider Register 1 */
__IO hw_sim_clkdiv2_t CLKDIV2; /*!< [0x1048] System Clock Divider Register 2 */
__IO hw_sim_fcfg1_t FCFG1; /*!< [0x104C] Flash Configuration Register 1 */
__I hw_sim_fcfg2_t FCFG2; /*!< [0x1050] Flash Configuration Register 2 */
__I hw_sim_uidh_t UIDH; /*!< [0x1054] Unique Identification Register High */
__I hw_sim_uidmh_t UIDMH; /*!< [0x1058] Unique Identification Register Mid-High */
__I hw_sim_uidml_t UIDML; /*!< [0x105C] Unique Identification Register Mid Low */
__I hw_sim_uidl_t UIDL; /*!< [0x1060] Unique Identification Register Low */
} hw_sim_t;
#pragma pack()
/*! @brief Macro to access all SIM registers. */
/*! @param x SIM 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_SIM(SIM_BASE)</code>. */
#define HW_SIM(x) (*(hw_sim_t *)(x))
#endif /* __HW_SIM_REGISTERS_H__ */
/* EOF */
