/****************************************************************************** * * Copyright (C) 2012 - 2017 Texas Instruments Incorporated - http://www.ti.com/ * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the name of Texas Instruments Incorporated 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 * OWNER 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. * * MSP432P401R Register Definitions * * This file includes MSP430 style component and register definitions * for legacy components re-used in MSP432 * * File creation date: 2017-08-03 * ******************************************************************************/ #ifndef __MSP432P401R_CLASSIC_H__ #define __MSP432P401R_CLASSIC_H__ /* Use standard integer types with explicit width */ #include #ifdef __cplusplus extern "C" { #endif /****************************************************************************** * Device memory map * ******************************************************************************/ #define __MAIN_MEMORY_START__ (0x00000000) /*!< Main Flash memory start address */ #define __MAIN_MEMORY_END__ (0x0003FFFF) /*!< Main Flash memory end address */ #define __BSL_MEMORY_START__ (0x00202000) /*!< BSL memory start address */ #define __BSL_MEMORY_END__ (0x00203FFF) /*!< BSL memory end address */ #define __SRAM_START__ (0x20000000) /*!< SRAM memory start address */ #define __SRAM_END__ (0x2000FFFF) /*!< SRAM memory end address */ /****************************************************************************** * MSP-format peripheral registers * ******************************************************************************/ /****************************************************************************** * AES256 Registers ******************************************************************************/ #define AESACTL0 (HWREG16(0x40003C00)) /*!< AES Accelerator Control Register 0 */ #define AESACTL1 (HWREG16(0x40003C02)) /*!< AES Accelerator Control Register 1 */ #define AESASTAT (HWREG16(0x40003C04)) /*!< AES Accelerator Status Register */ #define AESAKEY (HWREG16(0x40003C06)) /*!< AES Accelerator Key Register */ #define AESADIN (HWREG16(0x40003C08)) /*!< AES Accelerator Data In Register */ #define AESADOUT (HWREG16(0x40003C0A)) /*!< AES Accelerator Data Out Register */ #define AESAXDIN (HWREG16(0x40003C0C)) /*!< AES Accelerator XORed Data In Register */ #define AESAXIN (HWREG16(0x40003C0E)) /*!< AES Accelerator XORed Data In Register */ /* Register offsets from AES256_BASE address */ #define OFS_AESACTL0 (0x0000) /*!< AES Accelerator Control Register 0 */ #define OFS_AESACTL1 (0x0002) /*!< AES Accelerator Control Register 1 */ #define OFS_AESASTAT (0x0004) /*!< AES Accelerator Status Register */ #define OFS_AESAKEY (0x0006) /*!< AES Accelerator Key Register */ #define OFS_AESADIN (0x0008) /*!< AES Accelerator Data In Register */ #define OFS_AESADOUT (0x000A) /*!< AES Accelerator Data Out Register */ #define OFS_AESAXDIN (0x000C) /*!< AES Accelerator XORed Data In Register */ #define OFS_AESAXIN (0x000E) /*!< AES Accelerator XORed Data In Register */ /****************************************************************************** * CAPTIO0 Registers ******************************************************************************/ #define CAPTIO0CTL (HWREG16(0x4000540E)) /*!< Capacitive Touch IO x Control Register */ /* Register offsets from CAPTIO0_BASE address */ #define OFS_CAPTIO0CTL (0x000E) /*!< Capacitive Touch IO x Control Register */ #define CAPTIO0CTL_L (HWREG8_L(CAPTIO0CTL))/* Capacitive Touch IO x Control Register */ #define CAPTIO0CTL_H (HWREG8_H(CAPTIO0CTL))/* Capacitive Touch IO x Control Register */ /****************************************************************************** * CAPTIO1 Registers ******************************************************************************/ #define CAPTIO1CTL (HWREG16(0x4000580E)) /*!< Capacitive Touch IO x Control Register */ /* Register offsets from CAPTIO1_BASE address */ #define OFS_CAPTIO1CTL (0x000E) /*!< Capacitive Touch IO x Control Register */ #define CAPTIO1CTL_L (HWREG8_L(CAPTIO1CTL))/* Capacitive Touch IO x Control Register */ #define CAPTIO1CTL_H (HWREG8_H(CAPTIO1CTL))/* Capacitive Touch IO x Control Register */ /****************************************************************************** * COMP_E0 Registers ******************************************************************************/ #define CE0CTL0 (HWREG16(0x40003400)) /*!< Comparator Control Register 0 */ #define CE0CTL1 (HWREG16(0x40003402)) /*!< Comparator Control Register 1 */ #define CE0CTL2 (HWREG16(0x40003404)) /*!< Comparator Control Register 2 */ #define CE0CTL3 (HWREG16(0x40003406)) /*!< Comparator Control Register 3 */ #define CE0INT (HWREG16(0x4000340C)) /*!< Comparator Interrupt Control Register */ #define CE0IV (HWREG16(0x4000340E)) /*!< Comparator Interrupt Vector Word Register */ /* Register offsets from COMP_E0_BASE address */ #define OFS_CE0CTL0 (0x0000) /*!< Comparator Control Register 0 */ #define OFS_CE0CTL1 (0x0002) /*!< Comparator Control Register 1 */ #define OFS_CE0CTL2 (0x0004) /*!< Comparator Control Register 2 */ #define OFS_CE0CTL3 (0x0006) /*!< Comparator Control Register 3 */ #define OFS_CE0INT (0x000C) /*!< Comparator Interrupt Control Register */ #define OFS_CE0IV (0x000E) /*!< Comparator Interrupt Vector Word Register */ /****************************************************************************** * COMP_E1 Registers ******************************************************************************/ #define CE1CTL0 (HWREG16(0x40003800)) /*!< Comparator Control Register 0 */ #define CE1CTL1 (HWREG16(0x40003802)) /*!< Comparator Control Register 1 */ #define CE1CTL2 (HWREG16(0x40003804)) /*!< Comparator Control Register 2 */ #define CE1CTL3 (HWREG16(0x40003806)) /*!< Comparator Control Register 3 */ #define CE1INT (HWREG16(0x4000380C)) /*!< Comparator Interrupt Control Register */ #define CE1IV (HWREG16(0x4000380E)) /*!< Comparator Interrupt Vector Word Register */ /* Register offsets from COMP_E1_BASE address */ #define OFS_CE1CTL0 (0x0000) /*!< Comparator Control Register 0 */ #define OFS_CE1CTL1 (0x0002) /*!< Comparator Control Register 1 */ #define OFS_CE1CTL2 (0x0004) /*!< Comparator Control Register 2 */ #define OFS_CE1CTL3 (0x0006) /*!< Comparator Control Register 3 */ #define OFS_CE1INT (0x000C) /*!< Comparator Interrupt Control Register */ #define OFS_CE1IV (0x000E) /*!< Comparator Interrupt Vector Word Register */ /****************************************************************************** * CRC32 Registers ******************************************************************************/ #define CRC32DI (HWREG16(0x40004000)) /*!< Data Input for CRC32 Signature Computation */ #define CRC32DIRB (HWREG16(0x40004004)) /*!< Data In Reverse for CRC32 Computation */ #define CRC32INIRES_LO (HWREG16(0x40004008)) /*!< CRC32 Initialization and Result, lower 16 bits */ #define CRC32INIRES_HI (HWREG16(0x4000400A)) /*!< CRC32 Initialization and Result, upper 16 bits */ #define CRC32RESR_LO (HWREG16(0x4000400C)) /*!< CRC32 Result Reverse, lower 16 bits */ #define CRC32RESR_HI (HWREG16(0x4000400E)) /*!< CRC32 Result Reverse, Upper 16 bits */ #define CRC16DI (HWREG16(0x40004010)) /*!< Data Input for CRC16 computation */ #define CRC16DIRB (HWREG16(0x40004014)) /*!< CRC16 Data In Reverse */ #define CRC16INIRES (HWREG16(0x40004018)) /*!< CRC16 Initialization and Result register */ #define CRC16RESR (HWREG16(0x4000401E)) /*!< CRC16 Result Reverse */ /* Register offsets from CRC32_BASE address */ #define OFS_CRC32DI (0x0000) /*!< Data Input for CRC32 Signature Computation */ #define OFS_CRC32DIRB (0x0004) /*!< Data In Reverse for CRC32 Computation */ #define OFS_CRC32INIRES_LO (0x0008) /*!< CRC32 Initialization and Result, lower 16 bits */ #define OFS_CRC32INIRES_HI (0x000A) /*!< CRC32 Initialization and Result, upper 16 bits */ #define OFS_CRC32RESR_LO (0x000C) /*!< CRC32 Result Reverse, lower 16 bits */ #define OFS_CRC32RESR_HI (0x000E) /*!< CRC32 Result Reverse, Upper 16 bits */ #define OFS_CRC16DI (0x0010) /*!< Data Input for CRC16 computation */ #define OFS_CRC16DIRB (0x0014) /*!< CRC16 Data In Reverse */ #define OFS_CRC16INIRES (0x0018) /*!< CRC16 Initialization and Result register */ #define OFS_CRC16RESR (0x001E) /*!< CRC16 Result Reverse */ /****************************************************************************** * DIO Registers ******************************************************************************/ #define PAIN (HWREG16(0x40004C00)) /*!< Port A Input */ #define PAOUT (HWREG16(0x40004C02)) /*!< Port A Output */ #define PADIR (HWREG16(0x40004C04)) /*!< Port A Direction */ #define PAREN (HWREG16(0x40004C06)) /*!< Port A Resistor Enable */ #define PADS (HWREG16(0x40004C08)) /*!< Port A Drive Strength */ #define PASEL0 (HWREG16(0x40004C0A)) /*!< Port A Select 0 */ #define PASEL1 (HWREG16(0x40004C0C)) /*!< Port A Select 1 */ #define P1IV (HWREG16(0x40004C0E)) /*!< Port 1 Interrupt Vector Register */ #define PASELC (HWREG16(0x40004C16)) /*!< Port A Complement Select */ #define PAIES (HWREG16(0x40004C18)) /*!< Port A Interrupt Edge Select */ #define PAIE (HWREG16(0x40004C1A)) /*!< Port A Interrupt Enable */ #define PAIFG (HWREG16(0x40004C1C)) /*!< Port A Interrupt Flag */ #define P2IV (HWREG16(0x40004C1E)) /*!< Port 2 Interrupt Vector Register */ #define PBIN (HWREG16(0x40004C20)) /*!< Port B Input */ #define PBOUT (HWREG16(0x40004C22)) /*!< Port B Output */ #define PBDIR (HWREG16(0x40004C24)) /*!< Port B Direction */ #define PBREN (HWREG16(0x40004C26)) /*!< Port B Resistor Enable */ #define PBDS (HWREG16(0x40004C28)) /*!< Port B Drive Strength */ #define PBSEL0 (HWREG16(0x40004C2A)) /*!< Port B Select 0 */ #define PBSEL1 (HWREG16(0x40004C2C)) /*!< Port B Select 1 */ #define P3IV (HWREG16(0x40004C2E)) /*!< Port 3 Interrupt Vector Register */ #define PBSELC (HWREG16(0x40004C36)) /*!< Port B Complement Select */ #define PBIES (HWREG16(0x40004C38)) /*!< Port B Interrupt Edge Select */ #define PBIE (HWREG16(0x40004C3A)) /*!< Port B Interrupt Enable */ #define PBIFG (HWREG16(0x40004C3C)) /*!< Port B Interrupt Flag */ #define P4IV (HWREG16(0x40004C3E)) /*!< Port 4 Interrupt Vector Register */ #define PCIN (HWREG16(0x40004C40)) /*!< Port C Input */ #define PCOUT (HWREG16(0x40004C42)) /*!< Port C Output */ #define PCDIR (HWREG16(0x40004C44)) /*!< Port C Direction */ #define PCREN (HWREG16(0x40004C46)) /*!< Port C Resistor Enable */ #define PCDS (HWREG16(0x40004C48)) /*!< Port C Drive Strength */ #define PCSEL0 (HWREG16(0x40004C4A)) /*!< Port C Select 0 */ #define PCSEL1 (HWREG16(0x40004C4C)) /*!< Port C Select 1 */ #define P5IV (HWREG16(0x40004C4E)) /*!< Port 5 Interrupt Vector Register */ #define PCSELC (HWREG16(0x40004C56)) /*!< Port C Complement Select */ #define PCIES (HWREG16(0x40004C58)) /*!< Port C Interrupt Edge Select */ #define PCIE (HWREG16(0x40004C5A)) /*!< Port C Interrupt Enable */ #define PCIFG (HWREG16(0x40004C5C)) /*!< Port C Interrupt Flag */ #define P6IV (HWREG16(0x40004C5E)) /*!< Port 6 Interrupt Vector Register */ #define PDIN (HWREG16(0x40004C60)) /*!< Port D Input */ #define PDOUT (HWREG16(0x40004C62)) /*!< Port D Output */ #define PDDIR (HWREG16(0x40004C64)) /*!< Port D Direction */ #define PDREN (HWREG16(0x40004C66)) /*!< Port D Resistor Enable */ #define PDDS (HWREG16(0x40004C68)) /*!< Port D Drive Strength */ #define PDSEL0 (HWREG16(0x40004C6A)) /*!< Port D Select 0 */ #define PDSEL1 (HWREG16(0x40004C6C)) /*!< Port D Select 1 */ #define P7IV (HWREG16(0x40004C6E)) /*!< Port 7 Interrupt Vector Register */ #define PDSELC (HWREG16(0x40004C76)) /*!< Port D Complement Select */ #define PDIES (HWREG16(0x40004C78)) /*!< Port D Interrupt Edge Select */ #define PDIE (HWREG16(0x40004C7A)) /*!< Port D Interrupt Enable */ #define PDIFG (HWREG16(0x40004C7C)) /*!< Port D Interrupt Flag */ #define P8IV (HWREG16(0x40004C7E)) /*!< Port 8 Interrupt Vector Register */ #define PEIN (HWREG16(0x40004C80)) /*!< Port E Input */ #define PEOUT (HWREG16(0x40004C82)) /*!< Port E Output */ #define PEDIR (HWREG16(0x40004C84)) /*!< Port E Direction */ #define PEREN (HWREG16(0x40004C86)) /*!< Port E Resistor Enable */ #define PEDS (HWREG16(0x40004C88)) /*!< Port E Drive Strength */ #define PESEL0 (HWREG16(0x40004C8A)) /*!< Port E Select 0 */ #define PESEL1 (HWREG16(0x40004C8C)) /*!< Port E Select 1 */ #define P9IV (HWREG16(0x40004C8E)) /*!< Port 9 Interrupt Vector Register */ #define PESELC (HWREG16(0x40004C96)) /*!< Port E Complement Select */ #define PEIES (HWREG16(0x40004C98)) /*!< Port E Interrupt Edge Select */ #define PEIE (HWREG16(0x40004C9A)) /*!< Port E Interrupt Enable */ #define PEIFG (HWREG16(0x40004C9C)) /*!< Port E Interrupt Flag */ #define P10IV (HWREG16(0x40004C9E)) /*!< Port 10 Interrupt Vector Register */ #define PJIN (HWREG16(0x40004D20)) /*!< Port J Input */ #define PJOUT (HWREG16(0x40004D22)) /*!< Port J Output */ #define PJDIR (HWREG16(0x40004D24)) /*!< Port J Direction */ #define PJREN (HWREG16(0x40004D26)) /*!< Port J Resistor Enable */ #define PJDS (HWREG16(0x40004D28)) /*!< Port J Drive Strength */ #define PJSEL0 (HWREG16(0x40004D2A)) /*!< Port J Select 0 */ #define PJSEL1 (HWREG16(0x40004D2C)) /*!< Port J Select 1 */ #define PJSELC (HWREG16(0x40004D36)) /*!< Port J Complement Select */ #define P1IN (HWREG8(0x40004C00)) /*!< Port 1 Input */ #define P2IN (HWREG8(0x40004C01)) /*!< Port 2 Input */ #define P2OUT (HWREG8(0x40004C03)) /*!< Port 2 Output */ #define P1OUT (HWREG8(0x40004C02)) /*!< Port 1 Output */ #define P1DIR (HWREG8(0x40004C04)) /*!< Port 1 Direction */ #define P2DIR (HWREG8(0x40004C05)) /*!< Port 2 Direction */ #define P1REN (HWREG8(0x40004C06)) /*!< Port 1 Resistor Enable */ #define P2REN (HWREG8(0x40004C07)) /*!< Port 2 Resistor Enable */ #define P1DS (HWREG8(0x40004C08)) /*!< Port 1 Drive Strength */ #define P2DS (HWREG8(0x40004C09)) /*!< Port 2 Drive Strength */ #define P1SEL0 (HWREG8(0x40004C0A)) /*!< Port 1 Select 0 */ #define P2SEL0 (HWREG8(0x40004C0B)) /*!< Port 2 Select 0 */ #define P1SEL1 (HWREG8(0x40004C0C)) /*!< Port 1 Select 1 */ #define P2SEL1 (HWREG8(0x40004C0D)) /*!< Port 2 Select 1 */ #define P1SELC (HWREG8(0x40004C16)) /*!< Port 1 Complement Select */ #define P2SELC (HWREG8(0x40004C17)) /*!< Port 2 Complement Select */ #define P1IES (HWREG8(0x40004C18)) /*!< Port 1 Interrupt Edge Select */ #define P2IES (HWREG8(0x40004C19)) /*!< Port 2 Interrupt Edge Select */ #define P1IE (HWREG8(0x40004C1A)) /*!< Port 1 Interrupt Enable */ #define P2IE (HWREG8(0x40004C1B)) /*!< Port 2 Interrupt Enable */ #define P1IFG (HWREG8(0x40004C1C)) /*!< Port 1 Interrupt Flag */ #define P2IFG (HWREG8(0x40004C1D)) /*!< Port 2 Interrupt Flag */ #define P3IN (HWREG8(0x40004C20)) /*!< Port 3 Input */ #define P4IN (HWREG8(0x40004C21)) /*!< Port 4 Input */ #define P3OUT (HWREG8(0x40004C22)) /*!< Port 3 Output */ #define P4OUT (HWREG8(0x40004C23)) /*!< Port 4 Output */ #define P3DIR (HWREG8(0x40004C24)) /*!< Port 3 Direction */ #define P4DIR (HWREG8(0x40004C25)) /*!< Port 4 Direction */ #define P3REN (HWREG8(0x40004C26)) /*!< Port 3 Resistor Enable */ #define P4REN (HWREG8(0x40004C27)) /*!< Port 4 Resistor Enable */ #define P3DS (HWREG8(0x40004C28)) /*!< Port 3 Drive Strength */ #define P4DS (HWREG8(0x40004C29)) /*!< Port 4 Drive Strength */ #define P4SEL0 (HWREG8(0x40004C2B)) /*!< Port 4 Select 0 */ #define P3SEL0 (HWREG8(0x40004C2A)) /*!< Port 3 Select 0 */ #define P3SEL1 (HWREG8(0x40004C2C)) /*!< Port 3 Select 1 */ #define P4SEL1 (HWREG8(0x40004C2D)) /*!< Port 4 Select 1 */ #define P3SELC (HWREG8(0x40004C36)) /*!< Port 3 Complement Select */ #define P4SELC (HWREG8(0x40004C37)) /*!< Port 4 Complement Select */ #define P3IES (HWREG8(0x40004C38)) /*!< Port 3 Interrupt Edge Select */ #define P4IES (HWREG8(0x40004C39)) /*!< Port 4 Interrupt Edge Select */ #define P3IE (HWREG8(0x40004C3A)) /*!< Port 3 Interrupt Enable */ #define P4IE (HWREG8(0x40004C3B)) /*!< Port 4 Interrupt Enable */ #define P3IFG (HWREG8(0x40004C3C)) /*!< Port 3 Interrupt Flag */ #define P4IFG (HWREG8(0x40004C3D)) /*!< Port 4 Interrupt Flag */ #define P5IN (HWREG8(0x40004C40)) /*!< Port 5 Input */ #define P6IN (HWREG8(0x40004C41)) /*!< Port 6 Input */ #define P5OUT (HWREG8(0x40004C42)) /*!< Port 5 Output */ #define P6OUT (HWREG8(0x40004C43)) /*!< Port 6 Output */ #define P5DIR (HWREG8(0x40004C44)) /*!< Port 5 Direction */ #define P6DIR (HWREG8(0x40004C45)) /*!< Port 6 Direction */ #define P5REN (HWREG8(0x40004C46)) /*!< Port 5 Resistor Enable */ #define P6REN (HWREG8(0x40004C47)) /*!< Port 6 Resistor Enable */ #define P5DS (HWREG8(0x40004C48)) /*!< Port 5 Drive Strength */ #define P6DS (HWREG8(0x40004C49)) /*!< Port 6 Drive Strength */ #define P5SEL0 (HWREG8(0x40004C4A)) /*!< Port 5 Select 0 */ #define P6SEL0 (HWREG8(0x40004C4B)) /*!< Port 6 Select 0 */ #define P5SEL1 (HWREG8(0x40004C4C)) /*!< Port 5 Select 1 */ #define P6SEL1 (HWREG8(0x40004C4D)) /*!< Port 6 Select 1 */ #define P5SELC (HWREG8(0x40004C56)) /*!< Port 5 Complement Select */ #define P6SELC (HWREG8(0x40004C57)) /*!< Port 6 Complement Select */ #define P5IES (HWREG8(0x40004C58)) /*!< Port 5 Interrupt Edge Select */ #define P6IES (HWREG8(0x40004C59)) /*!< Port 6 Interrupt Edge Select */ #define P5IE (HWREG8(0x40004C5A)) /*!< Port 5 Interrupt Enable */ #define P6IE (HWREG8(0x40004C5B)) /*!< Port 6 Interrupt Enable */ #define P5IFG (HWREG8(0x40004C5C)) /*!< Port 5 Interrupt Flag */ #define P6IFG (HWREG8(0x40004C5D)) /*!< Port 6 Interrupt Flag */ #define P7IN (HWREG8(0x40004C60)) /*!< Port 7 Input */ #define P8IN (HWREG8(0x40004C61)) /*!< Port 8 Input */ #define P7OUT (HWREG8(0x40004C62)) /*!< Port 7 Output */ #define P8OUT (HWREG8(0x40004C63)) /*!< Port 8 Output */ #define P7DIR (HWREG8(0x40004C64)) /*!< Port 7 Direction */ #define P8DIR (HWREG8(0x40004C65)) /*!< Port 8 Direction */ #define P7REN (HWREG8(0x40004C66)) /*!< Port 7 Resistor Enable */ #define P8REN (HWREG8(0x40004C67)) /*!< Port 8 Resistor Enable */ #define P7DS (HWREG8(0x40004C68)) /*!< Port 7 Drive Strength */ #define P8DS (HWREG8(0x40004C69)) /*!< Port 8 Drive Strength */ #define P7SEL0 (HWREG8(0x40004C6A)) /*!< Port 7 Select 0 */ #define P8SEL0 (HWREG8(0x40004C6B)) /*!< Port 8 Select 0 */ #define P7SEL1 (HWREG8(0x40004C6C)) /*!< Port 7 Select 1 */ #define P8SEL1 (HWREG8(0x40004C6D)) /*!< Port 8 Select 1 */ #define P7SELC (HWREG8(0x40004C76)) /*!< Port 7 Complement Select */ #define P8SELC (HWREG8(0x40004C77)) /*!< Port 8 Complement Select */ #define P7IES (HWREG8(0x40004C78)) /*!< Port 7 Interrupt Edge Select */ #define P8IES (HWREG8(0x40004C79)) /*!< Port 8 Interrupt Edge Select */ #define P7IE (HWREG8(0x40004C7A)) /*!< Port 7 Interrupt Enable */ #define P8IE (HWREG8(0x40004C7B)) /*!< Port 8 Interrupt Enable */ #define P7IFG (HWREG8(0x40004C7C)) /*!< Port 7 Interrupt Flag */ #define P8IFG (HWREG8(0x40004C7D)) /*!< Port 8 Interrupt Flag */ #define P9IN (HWREG8(0x40004C80)) /*!< Port 9 Input */ #define P10IN (HWREG8(0x40004C81)) /*!< Port 10 Input */ #define P9OUT (HWREG8(0x40004C82)) /*!< Port 9 Output */ #define P10OUT (HWREG8(0x40004C83)) /*!< Port 10 Output */ #define P9DIR (HWREG8(0x40004C84)) /*!< Port 9 Direction */ #define P10DIR (HWREG8(0x40004C85)) /*!< Port 10 Direction */ #define P9REN (HWREG8(0x40004C86)) /*!< Port 9 Resistor Enable */ #define P10REN (HWREG8(0x40004C87)) /*!< Port 10 Resistor Enable */ #define P9DS (HWREG8(0x40004C88)) /*!< Port 9 Drive Strength */ #define P10DS (HWREG8(0x40004C89)) /*!< Port 10 Drive Strength */ #define P9SEL0 (HWREG8(0x40004C8A)) /*!< Port 9 Select 0 */ #define P10SEL0 (HWREG8(0x40004C8B)) /*!< Port 10 Select 0 */ #define P9SEL1 (HWREG8(0x40004C8C)) /*!< Port 9 Select 1 */ #define P10SEL1 (HWREG8(0x40004C8D)) /*!< Port 10 Select 1 */ #define P9SELC (HWREG8(0x40004C96)) /*!< Port 9 Complement Select */ #define P10SELC (HWREG8(0x40004C97)) /*!< Port 10 Complement Select */ #define P9IES (HWREG8(0x40004C98)) /*!< Port 9 Interrupt Edge Select */ #define P10IES (HWREG8(0x40004C99)) /*!< Port 10 Interrupt Edge Select */ #define P9IE (HWREG8(0x40004C9A)) /*!< Port 9 Interrupt Enable */ #define P10IE (HWREG8(0x40004C9B)) /*!< Port 10 Interrupt Enable */ #define P9IFG (HWREG8(0x40004C9C)) /*!< Port 9 Interrupt Flag */ #define P10IFG (HWREG8(0x40004C9D)) /*!< Port 10 Interrupt Flag */ /* Register offsets from DIO_BASE address */ #define OFS_PAIN (0x0000) /*!< Port A Input */ #define OFS_PAOUT (0x0002) /*!< Port A Output */ #define OFS_PADIR (0x0004) /*!< Port A Direction */ #define OFS_PAREN (0x0006) /*!< Port A Resistor Enable */ #define OFS_PADS (0x0008) /*!< Port A Drive Strength */ #define OFS_PASEL0 (0x000A) /*!< Port A Select 0 */ #define OFS_PASEL1 (0x000C) /*!< Port A Select 1 */ #define OFS_P1IV (0x000E) /*!< Port 1 Interrupt Vector Register */ #define OFS_PASELC (0x0016) /*!< Port A Complement Select */ #define OFS_PAIES (0x0018) /*!< Port A Interrupt Edge Select */ #define OFS_PAIE (0x001A) /*!< Port A Interrupt Enable */ #define OFS_PAIFG (0x001C) /*!< Port A Interrupt Flag */ #define OFS_P2IV (0x001E) /*!< Port 2 Interrupt Vector Register */ #define OFS_PBIN (0x0020) /*!< Port B Input */ #define OFS_PBOUT (0x0022) /*!< Port B Output */ #define OFS_PBDIR (0x0024) /*!< Port B Direction */ #define OFS_PBREN (0x0026) /*!< Port B Resistor Enable */ #define OFS_PBDS (0x0028) /*!< Port B Drive Strength */ #define OFS_PBSEL0 (0x002A) /*!< Port B Select 0 */ #define OFS_PBSEL1 (0x002C) /*!< Port B Select 1 */ #define OFS_P3IV (0x002E) /*!< Port 3 Interrupt Vector Register */ #define OFS_PBSELC (0x0036) /*!< Port B Complement Select */ #define OFS_PBIES (0x0038) /*!< Port B Interrupt Edge Select */ #define OFS_PBIE (0x003A) /*!< Port B Interrupt Enable */ #define OFS_PBIFG (0x003C) /*!< Port B Interrupt Flag */ #define OFS_P4IV (0x003E) /*!< Port 4 Interrupt Vector Register */ #define OFS_PCIN (0x0040) /*!< Port C Input */ #define OFS_PCOUT (0x0042) /*!< Port C Output */ #define OFS_PCDIR (0x0044) /*!< Port C Direction */ #define OFS_PCREN (0x0046) /*!< Port C Resistor Enable */ #define OFS_PCDS (0x0048) /*!< Port C Drive Strength */ #define OFS_PCSEL0 (0x004A) /*!< Port C Select 0 */ #define OFS_PCSEL1 (0x004C) /*!< Port C Select 1 */ #define OFS_P5IV (0x004E) /*!< Port 5 Interrupt Vector Register */ #define OFS_PCSELC (0x0056) /*!< Port C Complement Select */ #define OFS_PCIES (0x0058) /*!< Port C Interrupt Edge Select */ #define OFS_PCIE (0x005A) /*!< Port C Interrupt Enable */ #define OFS_PCIFG (0x005C) /*!< Port C Interrupt Flag */ #define OFS_P6IV (0x005E) /*!< Port 6 Interrupt Vector Register */ #define OFS_PDIN (0x0060) /*!< Port D Input */ #define OFS_PDOUT (0x0062) /*!< Port D Output */ #define OFS_PDDIR (0x0064) /*!< Port D Direction */ #define OFS_PDREN (0x0066) /*!< Port D Resistor Enable */ #define OFS_PDDS (0x0068) /*!< Port D Drive Strength */ #define OFS_PDSEL0 (0x006A) /*!< Port D Select 0 */ #define OFS_PDSEL1 (0x006C) /*!< Port D Select 1 */ #define OFS_P7IV (0x006E) /*!< Port 7 Interrupt Vector Register */ #define OFS_PDSELC (0x0076) /*!< Port D Complement Select */ #define OFS_PDIES (0x0078) /*!< Port D Interrupt Edge Select */ #define OFS_PDIE (0x007A) /*!< Port D Interrupt Enable */ #define OFS_PDIFG (0x007C) /*!< Port D Interrupt Flag */ #define OFS_P8IV (0x007E) /*!< Port 8 Interrupt Vector Register */ #define OFS_PEIN (0x0080) /*!< Port E Input */ #define OFS_PEOUT (0x0082) /*!< Port E Output */ #define OFS_PEDIR (0x0084) /*!< Port E Direction */ #define OFS_PEREN (0x0086) /*!< Port E Resistor Enable */ #define OFS_PEDS (0x0088) /*!< Port E Drive Strength */ #define OFS_PESEL0 (0x008A) /*!< Port E Select 0 */ #define OFS_PESEL1 (0x008C) /*!< Port E Select 1 */ #define OFS_P9IV (0x008E) /*!< Port 9 Interrupt Vector Register */ #define OFS_PESELC (0x0096) /*!< Port E Complement Select */ #define OFS_PEIES (0x0098) /*!< Port E Interrupt Edge Select */ #define OFS_PEIE (0x009A) /*!< Port E Interrupt Enable */ #define OFS_PEIFG (0x009C) /*!< Port E Interrupt Flag */ #define OFS_P10IV (0x009E) /*!< Port 10 Interrupt Vector Register */ #define OFS_PJIN (0x0120) /*!< Port J Input */ #define OFS_PJOUT (0x0122) /*!< Port J Output */ #define OFS_PJDIR (0x0124) /*!< Port J Direction */ #define OFS_PJREN (0x0126) /*!< Port J Resistor Enable */ #define OFS_PJDS (0x0128) /*!< Port J Drive Strength */ #define OFS_PJSEL0 (0x012A) /*!< Port J Select 0 */ #define OFS_PJSEL1 (0x012C) /*!< Port J Select 1 */ #define OFS_PJSELC (0x0136) /*!< Port J Complement Select */ #define OFS_P1IN (0x0000) /*!< Port 1 Input */ #define OFS_P2IN (0x0001) /*!< Port 2 Input */ #define OFS_P2OUT (0x0003) /*!< Port 2 Output */ #define OFS_P1OUT (0x0002) /*!< Port 1 Output */ #define OFS_P1DIR (0x0004) /*!< Port 1 Direction */ #define OFS_P2DIR (0x0005) /*!< Port 2 Direction */ #define OFS_P1REN (0x0006) /*!< Port 1 Resistor Enable */ #define OFS_P2REN (0x0007) /*!< Port 2 Resistor Enable */ #define OFS_P1DS (0x0008) /*!< Port 1 Drive Strength */ #define OFS_P2DS (0x0009) /*!< Port 2 Drive Strength */ #define OFS_P1SEL0 (0x000A) /*!< Port 1 Select 0 */ #define OFS_P2SEL0 (0x000B) /*!< Port 2 Select 0 */ #define OFS_P1SEL1 (0x000C) /*!< Port 1 Select 1 */ #define OFS_P2SEL1 (0x000D) /*!< Port 2 Select 1 */ #define OFS_P1SELC (0x0016) /*!< Port 1 Complement Select */ #define OFS_P2SELC (0x0017) /*!< Port 2 Complement Select */ #define OFS_P1IES (0x0018) /*!< Port 1 Interrupt Edge Select */ #define OFS_P2IES (0x0019) /*!< Port 2 Interrupt Edge Select */ #define OFS_P1IE (0x001A) /*!< Port 1 Interrupt Enable */ #define OFS_P2IE (0x001B) /*!< Port 2 Interrupt Enable */ #define OFS_P1IFG (0x001C) /*!< Port 1 Interrupt Flag */ #define OFS_P2IFG (0x001D) /*!< Port 2 Interrupt Flag */ #define OFS_P3IN (0x0020) /*!< Port 3 Input */ #define OFS_P4IN (0x0021) /*!< Port 4 Input */ #define OFS_P3OUT (0x0022) /*!< Port 3 Output */ #define OFS_P4OUT (0x0023) /*!< Port 4 Output */ #define OFS_P3DIR (0x0024) /*!< Port 3 Direction */ #define OFS_P4DIR (0x0025) /*!< Port 4 Direction */ #define OFS_P3REN (0x0026) /*!< Port 3 Resistor Enable */ #define OFS_P4REN (0x0027) /*!< Port 4 Resistor Enable */ #define OFS_P3DS (0x0028) /*!< Port 3 Drive Strength */ #define OFS_P4DS (0x0029) /*!< Port 4 Drive Strength */ #define OFS_P4SEL0 (0x002B) /*!< Port 4 Select 0 */ #define OFS_P3SEL0 (0x002A) /*!< Port 3 Select 0 */ #define OFS_P3SEL1 (0x002C) /*!< Port 3 Select 1 */ #define OFS_P4SEL1 (0x002D) /*!< Port 4 Select 1 */ #define OFS_P3SELC (0x0036) /*!< Port 3 Complement Select */ #define OFS_P4SELC (0x0037) /*!< Port 4 Complement Select */ #define OFS_P3IES (0x0038) /*!< Port 3 Interrupt Edge Select */ #define OFS_P4IES (0x0039) /*!< Port 4 Interrupt Edge Select */ #define OFS_P3IE (0x003A) /*!< Port 3 Interrupt Enable */ #define OFS_P4IE (0x003B) /*!< Port 4 Interrupt Enable */ #define OFS_P3IFG (0x003C) /*!< Port 3 Interrupt Flag */ #define OFS_P4IFG (0x003D) /*!< Port 4 Interrupt Flag */ #define OFS_P5IN (0x0040) /*!< Port 5 Input */ #define OFS_P6IN (0x0041) /*!< Port 6 Input */ #define OFS_P5OUT (0x0042) /*!< Port 5 Output */ #define OFS_P6OUT (0x0043) /*!< Port 6 Output */ #define OFS_P5DIR (0x0044) /*!< Port 5 Direction */ #define OFS_P6DIR (0x0045) /*!< Port 6 Direction */ #define OFS_P5REN (0x0046) /*!< Port 5 Resistor Enable */ #define OFS_P6REN (0x0047) /*!< Port 6 Resistor Enable */ #define OFS_P5DS (0x0048) /*!< Port 5 Drive Strength */ #define OFS_P6DS (0x0049) /*!< Port 6 Drive Strength */ #define OFS_P5SEL0 (0x004A) /*!< Port 5 Select 0 */ #define OFS_P6SEL0 (0x004B) /*!< Port 6 Select 0 */ #define OFS_P5SEL1 (0x004C) /*!< Port 5 Select 1 */ #define OFS_P6SEL1 (0x004D) /*!< Port 6 Select 1 */ #define OFS_P5SELC (0x0056) /*!< Port 5 Complement Select */ #define OFS_P6SELC (0x0057) /*!< Port 6 Complement Select */ #define OFS_P5IES (0x0058) /*!< Port 5 Interrupt Edge Select */ #define OFS_P6IES (0x0059) /*!< Port 6 Interrupt Edge Select */ #define OFS_P5IE (0x005A) /*!< Port 5 Interrupt Enable */ #define OFS_P6IE (0x005B) /*!< Port 6 Interrupt Enable */ #define OFS_P5IFG (0x005C) /*!< Port 5 Interrupt Flag */ #define OFS_P6IFG (0x005D) /*!< Port 6 Interrupt Flag */ #define OFS_P7IN (0x0060) /*!< Port 7 Input */ #define OFS_P8IN (0x0061) /*!< Port 8 Input */ #define OFS_P7OUT (0x0062) /*!< Port 7 Output */ #define OFS_P8OUT (0x0063) /*!< Port 8 Output */ #define OFS_P7DIR (0x0064) /*!< Port 7 Direction */ #define OFS_P8DIR (0x0065) /*!< Port 8 Direction */ #define OFS_P7REN (0x0066) /*!< Port 7 Resistor Enable */ #define OFS_P8REN (0x0067) /*!< Port 8 Resistor Enable */ #define OFS_P7DS (0x0068) /*!< Port 7 Drive Strength */ #define OFS_P8DS (0x0069) /*!< Port 8 Drive Strength */ #define OFS_P7SEL0 (0x006A) /*!< Port 7 Select 0 */ #define OFS_P8SEL0 (0x006B) /*!< Port 8 Select 0 */ #define OFS_P7SEL1 (0x006C) /*!< Port 7 Select 1 */ #define OFS_P8SEL1 (0x006D) /*!< Port 8 Select 1 */ #define OFS_P7SELC (0x0076) /*!< Port 7 Complement Select */ #define OFS_P8SELC (0x0077) /*!< Port 8 Complement Select */ #define OFS_P7IES (0x0078) /*!< Port 7 Interrupt Edge Select */ #define OFS_P8IES (0x0079) /*!< Port 8 Interrupt Edge Select */ #define OFS_P7IE (0x007A) /*!< Port 7 Interrupt Enable */ #define OFS_P8IE (0x007B) /*!< Port 8 Interrupt Enable */ #define OFS_P7IFG (0x007C) /*!< Port 7 Interrupt Flag */ #define OFS_P8IFG (0x007D) /*!< Port 8 Interrupt Flag */ #define OFS_P9IN (0x0080) /*!< Port 9 Input */ #define OFS_P10IN (0x0081) /*!< Port 10 Input */ #define OFS_P9OUT (0x0082) /*!< Port 9 Output */ #define OFS_P10OUT (0x0083) /*!< Port 10 Output */ #define OFS_P9DIR (0x0084) /*!< Port 9 Direction */ #define OFS_P10DIR (0x0085) /*!< Port 10 Direction */ #define OFS_P9REN (0x0086) /*!< Port 9 Resistor Enable */ #define OFS_P10REN (0x0087) /*!< Port 10 Resistor Enable */ #define OFS_P9DS (0x0088) /*!< Port 9 Drive Strength */ #define OFS_P10DS (0x0089) /*!< Port 10 Drive Strength */ #define OFS_P9SEL0 (0x008A) /*!< Port 9 Select 0 */ #define OFS_P10SEL0 (0x008B) /*!< Port 10 Select 0 */ #define OFS_P9SEL1 (0x008C) /*!< Port 9 Select 1 */ #define OFS_P10SEL1 (0x008D) /*!< Port 10 Select 1 */ #define OFS_P9SELC (0x0096) /*!< Port 9 Complement Select */ #define OFS_P10SELC (0x0097) /*!< Port 10 Complement Select */ #define OFS_P9IES (0x0098) /*!< Port 9 Interrupt Edge Select */ #define OFS_P10IES (0x0099) /*!< Port 10 Interrupt Edge Select */ #define OFS_P9IE (0x009A) /*!< Port 9 Interrupt Enable */ #define OFS_P10IE (0x009B) /*!< Port 10 Interrupt Enable */ #define OFS_P9IFG (0x009C) /*!< Port 9 Interrupt Flag */ #define OFS_P10IFG (0x009D) /*!< Port 10 Interrupt Flag */ /****************************************************************************** * EUSCI_A0 Registers ******************************************************************************/ #define UCA0CTLW0 (HWREG16(0x40001000)) /*!< eUSCI_Ax Control Word Register 0 */ #define UCA0CTLW0_SPI (HWREG16(0x40001000)) #define UCA0CTLW1 (HWREG16(0x40001002)) /*!< eUSCI_Ax Control Word Register 1 */ #define UCA0BRW (HWREG16(0x40001006)) /*!< eUSCI_Ax Baud Rate Control Word Register */ #define UCA0BRW_SPI (HWREG16(0x40001006)) #define UCA0MCTLW (HWREG16(0x40001008)) /*!< eUSCI_Ax Modulation Control Word Register */ #define UCA0STATW (HWREG16(0x4000100A)) /*!< eUSCI_Ax Status Register */ #define UCA0STATW_SPI (HWREG16(0x4000100A)) #define UCA0RXBUF (HWREG16(0x4000100C)) /*!< eUSCI_Ax Receive Buffer Register */ #define UCA0RXBUF_SPI (HWREG16(0x4000100C)) #define UCA0TXBUF (HWREG16(0x4000100E)) /*!< eUSCI_Ax Transmit Buffer Register */ #define UCA0TXBUF_SPI (HWREG16(0x4000100E)) #define UCA0ABCTL (HWREG16(0x40001010)) /*!< eUSCI_Ax Auto Baud Rate Control Register */ #define UCA0IRCTL (HWREG16(0x40001012)) /*!< eUSCI_Ax IrDA Control Word Register */ #define UCA0IE (HWREG16(0x4000101A)) /*!< eUSCI_Ax Interrupt Enable Register */ #define UCA0IE_SPI (HWREG16(0x4000101A)) #define UCA0IFG (HWREG16(0x4000101C)) /*!< eUSCI_Ax Interrupt Flag Register */ #define UCA0IFG_SPI (HWREG16(0x4000101C)) #define UCA0IV (HWREG16(0x4000101E)) /*!< eUSCI_Ax Interrupt Vector Register */ #define UCA0IV_SPI (HWREG16(0x4000101E)) /* Register offsets from EUSCI_A0_BASE address */ #define OFS_UCA0CTLW0 (0x0000) /*!< eUSCI_Ax Control Word Register 0 */ #define OFS_UCA0CTLW0_SPI (0x0000) #define OFS_UCA0CTLW1 (0x0002) /*!< eUSCI_Ax Control Word Register 1 */ #define OFS_UCA0BRW (0x0006) /*!< eUSCI_Ax Baud Rate Control Word Register */ #define OFS_UCA0BRW_SPI (0x0006) #define OFS_UCA0MCTLW (0x0008) /*!< eUSCI_Ax Modulation Control Word Register */ #define OFS_UCA0STATW (0x000A) /*!< eUSCI_Ax Status Register */ #define OFS_UCA0STATW_SPI (0x000A) #define OFS_UCA0RXBUF (0x000C) /*!< eUSCI_Ax Receive Buffer Register */ #define OFS_UCA0RXBUF_SPI (0x000C) #define OFS_UCA0TXBUF (0x000E) /*!< eUSCI_Ax Transmit Buffer Register */ #define OFS_UCA0TXBUF_SPI (0x000E) #define OFS_UCA0ABCTL (0x0010) /*!< eUSCI_Ax Auto Baud Rate Control Register */ #define OFS_UCA0IRCTL (0x0012) /*!< eUSCI_Ax IrDA Control Word Register */ #define OFS_UCA0IE (0x001A) /*!< eUSCI_Ax Interrupt Enable Register */ #define OFS_UCA0IE_SPI (0x001A) #define OFS_UCA0IFG (0x001C) /*!< eUSCI_Ax Interrupt Flag Register */ #define OFS_UCA0IFG_SPI (0x001C) #define OFS_UCA0IV (0x001E) /*!< eUSCI_Ax Interrupt Vector Register */ #define OFS_UCA0IV_SPI (0x001E) #define UCA0CTL0 (HWREG8_L(UCA0CTLW0)) /* eUSCI_Ax Control 0 */ #define UCA0CTL1 (HWREG8_H(UCA0CTLW0)) /* eUSCI_Ax Control 1 */ #define UCA0BR0 (HWREG8_L(UCA0BRW)) /* eUSCI_Ax Baud Rate Control 0 */ #define UCA0BR1 (HWREG8_H(UCA0BRW)) /* eUSCI_Ax Baud Rate Control 1 */ #define UCA0IRTCTL (HWREG8_L(UCA0IRCTL)) /* eUSCI_Ax IrDA Transmit Control */ #define UCA0IRRCTL (HWREG8_H(UCA0IRCTL)) /* eUSCI_Ax IrDA Receive Control */ /****************************************************************************** * EUSCI_A1 Registers ******************************************************************************/ #define UCA1CTLW0 (HWREG16(0x40001400)) /*!< eUSCI_Ax Control Word Register 0 */ #define UCA1CTLW0_SPI (HWREG16(0x40001400)) #define UCA1CTLW1 (HWREG16(0x40001402)) /*!< eUSCI_Ax Control Word Register 1 */ #define UCA1BRW (HWREG16(0x40001406)) /*!< eUSCI_Ax Baud Rate Control Word Register */ #define UCA1BRW_SPI (HWREG16(0x40001406)) #define UCA1MCTLW (HWREG16(0x40001408)) /*!< eUSCI_Ax Modulation Control Word Register */ #define UCA1STATW (HWREG16(0x4000140A)) /*!< eUSCI_Ax Status Register */ #define UCA1STATW_SPI (HWREG16(0x4000140A)) #define UCA1RXBUF (HWREG16(0x4000140C)) /*!< eUSCI_Ax Receive Buffer Register */ #define UCA1RXBUF_SPI (HWREG16(0x4000140C)) #define UCA1TXBUF (HWREG16(0x4000140E)) /*!< eUSCI_Ax Transmit Buffer Register */ #define UCA1TXBUF_SPI (HWREG16(0x4000140E)) #define UCA1ABCTL (HWREG16(0x40001410)) /*!< eUSCI_Ax Auto Baud Rate Control Register */ #define UCA1IRCTL (HWREG16(0x40001412)) /*!< eUSCI_Ax IrDA Control Word Register */ #define UCA1IE (HWREG16(0x4000141A)) /*!< eUSCI_Ax Interrupt Enable Register */ #define UCA1IE_SPI (HWREG16(0x4000141A)) #define UCA1IFG (HWREG16(0x4000141C)) /*!< eUSCI_Ax Interrupt Flag Register */ #define UCA1IFG_SPI (HWREG16(0x4000141C)) #define UCA1IV (HWREG16(0x4000141E)) /*!< eUSCI_Ax Interrupt Vector Register */ #define UCA1IV_SPI (HWREG16(0x4000141E)) /* Register offsets from EUSCI_A1_BASE address */ #define OFS_UCA1CTLW0 (0x0000) /*!< eUSCI_Ax Control Word Register 0 */ #define OFS_UCA1CTLW0_SPI (0x0000) #define OFS_UCA1CTLW1 (0x0002) /*!< eUSCI_Ax Control Word Register 1 */ #define OFS_UCA1BRW (0x0006) /*!< eUSCI_Ax Baud Rate Control Word Register */ #define OFS_UCA1BRW_SPI (0x0006) #define OFS_UCA1MCTLW (0x0008) /*!< eUSCI_Ax Modulation Control Word Register */ #define OFS_UCA1STATW (0x000A) /*!< eUSCI_Ax Status Register */ #define OFS_UCA1STATW_SPI (0x000A) #define OFS_UCA1RXBUF (0x000C) /*!< eUSCI_Ax Receive Buffer Register */ #define OFS_UCA1RXBUF_SPI (0x000C) #define OFS_UCA1TXBUF (0x000E) /*!< eUSCI_Ax Transmit Buffer Register */ #define OFS_UCA1TXBUF_SPI (0x000E) #define OFS_UCA1ABCTL (0x0010) /*!< eUSCI_Ax Auto Baud Rate Control Register */ #define OFS_UCA1IRCTL (0x0012) /*!< eUSCI_Ax IrDA Control Word Register */ #define OFS_UCA1IE (0x001A) /*!< eUSCI_Ax Interrupt Enable Register */ #define OFS_UCA1IE_SPI (0x001A) #define OFS_UCA1IFG (0x001C) /*!< eUSCI_Ax Interrupt Flag Register */ #define OFS_UCA1IFG_SPI (0x001C) #define OFS_UCA1IV (0x001E) /*!< eUSCI_Ax Interrupt Vector Register */ #define OFS_UCA1IV_SPI (0x001E) #define UCA1CTL0 (HWREG8_L(UCA1CTLW0)) /* eUSCI_Ax Control 0 */ #define UCA1CTL1 (HWREG8_H(UCA1CTLW0)) /* eUSCI_Ax Control 1 */ #define UCA1BR0 (HWREG8_L(UCA1BRW)) /* eUSCI_Ax Baud Rate Control 0 */ #define UCA1BR1 (HWREG8_H(UCA1BRW)) /* eUSCI_Ax Baud Rate Control 1 */ #define UCA1IRTCTL (HWREG8_L(UCA1IRCTL)) /* eUSCI_Ax IrDA Transmit Control */ #define UCA1IRRCTL (HWREG8_H(UCA1IRCTL)) /* eUSCI_Ax IrDA Receive Control */ /****************************************************************************** * EUSCI_A2 Registers ******************************************************************************/ #define UCA2CTLW0 (HWREG16(0x40001800)) /*!< eUSCI_Ax Control Word Register 0 */ #define UCA2CTLW0_SPI (HWREG16(0x40001800)) #define UCA2CTLW1 (HWREG16(0x40001802)) /*!< eUSCI_Ax Control Word Register 1 */ #define UCA2BRW (HWREG16(0x40001806)) /*!< eUSCI_Ax Baud Rate Control Word Register */ #define UCA2BRW_SPI (HWREG16(0x40001806)) #define UCA2MCTLW (HWREG16(0x40001808)) /*!< eUSCI_Ax Modulation Control Word Register */ #define UCA2STATW (HWREG16(0x4000180A)) /*!< eUSCI_Ax Status Register */ #define UCA2STATW_SPI (HWREG16(0x4000180A)) #define UCA2RXBUF (HWREG16(0x4000180C)) /*!< eUSCI_Ax Receive Buffer Register */ #define UCA2RXBUF_SPI (HWREG16(0x4000180C)) #define UCA2TXBUF (HWREG16(0x4000180E)) /*!< eUSCI_Ax Transmit Buffer Register */ #define UCA2TXBUF_SPI (HWREG16(0x4000180E)) #define UCA2ABCTL (HWREG16(0x40001810)) /*!< eUSCI_Ax Auto Baud Rate Control Register */ #define UCA2IRCTL (HWREG16(0x40001812)) /*!< eUSCI_Ax IrDA Control Word Register */ #define UCA2IE (HWREG16(0x4000181A)) /*!< eUSCI_Ax Interrupt Enable Register */ #define UCA2IE_SPI (HWREG16(0x4000181A)) #define UCA2IFG (HWREG16(0x4000181C)) /*!< eUSCI_Ax Interrupt Flag Register */ #define UCA2IFG_SPI (HWREG16(0x4000181C)) #define UCA2IV (HWREG16(0x4000181E)) /*!< eUSCI_Ax Interrupt Vector Register */ #define UCA2IV_SPI (HWREG16(0x4000181E)) /* Register offsets from EUSCI_A2_BASE address */ #define OFS_UCA2CTLW0 (0x0000) /*!< eUSCI_Ax Control Word Register 0 */ #define OFS_UCA2CTLW0_SPI (0x0000) #define OFS_UCA2CTLW1 (0x0002) /*!< eUSCI_Ax Control Word Register 1 */ #define OFS_UCA2BRW (0x0006) /*!< eUSCI_Ax Baud Rate Control Word Register */ #define OFS_UCA2BRW_SPI (0x0006) #define OFS_UCA2MCTLW (0x0008) /*!< eUSCI_Ax Modulation Control Word Register */ #define OFS_UCA2STATW (0x000A) /*!< eUSCI_Ax Status Register */ #define OFS_UCA2STATW_SPI (0x000A) #define OFS_UCA2RXBUF (0x000C) /*!< eUSCI_Ax Receive Buffer Register */ #define OFS_UCA2RXBUF_SPI (0x000C) #define OFS_UCA2TXBUF (0x000E) /*!< eUSCI_Ax Transmit Buffer Register */ #define OFS_UCA2TXBUF_SPI (0x000E) #define OFS_UCA2ABCTL (0x0010) /*!< eUSCI_Ax Auto Baud Rate Control Register */ #define OFS_UCA2IRCTL (0x0012) /*!< eUSCI_Ax IrDA Control Word Register */ #define OFS_UCA2IE (0x001A) /*!< eUSCI_Ax Interrupt Enable Register */ #define OFS_UCA2IE_SPI (0x001A) #define OFS_UCA2IFG (0x001C) /*!< eUSCI_Ax Interrupt Flag Register */ #define OFS_UCA2IFG_SPI (0x001C) #define OFS_UCA2IV (0x001E) /*!< eUSCI_Ax Interrupt Vector Register */ #define OFS_UCA2IV_SPI (0x001E) #define UCA2CTL0 (HWREG8_L(UCA2CTLW0)) /* eUSCI_Ax Control 0 */ #define UCA2CTL1 (HWREG8_H(UCA2CTLW0)) /* eUSCI_Ax Control 1 */ #define UCA2BR0 (HWREG8_L(UCA2BRW)) /* eUSCI_Ax Baud Rate Control 0 */ #define UCA2BR1 (HWREG8_H(UCA2BRW)) /* eUSCI_Ax Baud Rate Control 1 */ #define UCA2IRTCTL (HWREG8_L(UCA2IRCTL)) /* eUSCI_Ax IrDA Transmit Control */ #define UCA2IRRCTL (HWREG8_H(UCA2IRCTL)) /* eUSCI_Ax IrDA Receive Control */ /****************************************************************************** * EUSCI_A3 Registers ******************************************************************************/ #define UCA3CTLW0 (HWREG16(0x40001C00)) /*!< eUSCI_Ax Control Word Register 0 */ #define UCA3CTLW0_SPI (HWREG16(0x40001C00)) #define UCA3CTLW1 (HWREG16(0x40001C02)) /*!< eUSCI_Ax Control Word Register 1 */ #define UCA3BRW (HWREG16(0x40001C06)) /*!< eUSCI_Ax Baud Rate Control Word Register */ #define UCA3BRW_SPI (HWREG16(0x40001C06)) #define UCA3MCTLW (HWREG16(0x40001C08)) /*!< eUSCI_Ax Modulation Control Word Register */ #define UCA3STATW (HWREG16(0x40001C0A)) /*!< eUSCI_Ax Status Register */ #define UCA3STATW_SPI (HWREG16(0x40001C0A)) #define UCA3RXBUF (HWREG16(0x40001C0C)) /*!< eUSCI_Ax Receive Buffer Register */ #define UCA3RXBUF_SPI (HWREG16(0x40001C0C)) #define UCA3TXBUF (HWREG16(0x40001C0E)) /*!< eUSCI_Ax Transmit Buffer Register */ #define UCA3TXBUF_SPI (HWREG16(0x40001C0E)) #define UCA3ABCTL (HWREG16(0x40001C10)) /*!< eUSCI_Ax Auto Baud Rate Control Register */ #define UCA3IRCTL (HWREG16(0x40001C12)) /*!< eUSCI_Ax IrDA Control Word Register */ #define UCA3IE (HWREG16(0x40001C1A)) /*!< eUSCI_Ax Interrupt Enable Register */ #define UCA3IE_SPI (HWREG16(0x40001C1A)) #define UCA3IFG (HWREG16(0x40001C1C)) /*!< eUSCI_Ax Interrupt Flag Register */ #define UCA3IFG_SPI (HWREG16(0x40001C1C)) #define UCA3IV (HWREG16(0x40001C1E)) /*!< eUSCI_Ax Interrupt Vector Register */ #define UCA3IV_SPI (HWREG16(0x40001C1E)) /* Register offsets from EUSCI_A3_BASE address */ #define OFS_UCA3CTLW0 (0x0000) /*!< eUSCI_Ax Control Word Register 0 */ #define OFS_UCA3CTLW0_SPI (0x0000) #define OFS_UCA3CTLW1 (0x0002) /*!< eUSCI_Ax Control Word Register 1 */ #define OFS_UCA3BRW (0x0006) /*!< eUSCI_Ax Baud Rate Control Word Register */ #define OFS_UCA3BRW_SPI (0x0006) #define OFS_UCA3MCTLW (0x0008) /*!< eUSCI_Ax Modulation Control Word Register */ #define OFS_UCA3STATW (0x000A) /*!< eUSCI_Ax Status Register */ #define OFS_UCA3STATW_SPI (0x000A) #define OFS_UCA3RXBUF (0x000C) /*!< eUSCI_Ax Receive Buffer Register */ #define OFS_UCA3RXBUF_SPI (0x000C) #define OFS_UCA3TXBUF (0x000E) /*!< eUSCI_Ax Transmit Buffer Register */ #define OFS_UCA3TXBUF_SPI (0x000E) #define OFS_UCA3ABCTL (0x0010) /*!< eUSCI_Ax Auto Baud Rate Control Register */ #define OFS_UCA3IRCTL (0x0012) /*!< eUSCI_Ax IrDA Control Word Register */ #define OFS_UCA3IE (0x001A) /*!< eUSCI_Ax Interrupt Enable Register */ #define OFS_UCA3IE_SPI (0x001A) #define OFS_UCA3IFG (0x001C) /*!< eUSCI_Ax Interrupt Flag Register */ #define OFS_UCA3IFG_SPI (0x001C) #define OFS_UCA3IV (0x001E) /*!< eUSCI_Ax Interrupt Vector Register */ #define OFS_UCA3IV_SPI (0x001E) #define UCA3CTL0 (HWREG8_L(UCA3CTLW0)) /* eUSCI_Ax Control 0 */ #define UCA3CTL1 (HWREG8_H(UCA3CTLW0)) /* eUSCI_Ax Control 1 */ #define UCA3BR0 (HWREG8_L(UCA3BRW)) /* eUSCI_Ax Baud Rate Control 0 */ #define UCA3BR1 (HWREG8_H(UCA3BRW)) /* eUSCI_Ax Baud Rate Control 1 */ #define UCA3IRTCTL (HWREG8_L(UCA3IRCTL)) /* eUSCI_Ax IrDA Transmit Control */ #define UCA3IRRCTL (HWREG8_H(UCA3IRCTL)) /* eUSCI_Ax IrDA Receive Control */ /****************************************************************************** * EUSCI_B0 Registers ******************************************************************************/ #define UCB0CTLW0 (HWREG16(0x40002000)) /*!< eUSCI_Bx Control Word Register 0 */ #define UCB0CTLW0_SPI (HWREG16(0x40002000)) #define UCB0CTLW1 (HWREG16(0x40002002)) /*!< eUSCI_Bx Control Word Register 1 */ #define UCB0BRW (HWREG16(0x40002006)) /*!< eUSCI_Bx Baud Rate Control Word Register */ #define UCB0BRW_SPI (HWREG16(0x40002006)) #define UCB0STATW (HWREG16(0x40002008)) /*!< eUSCI_Bx Status Register */ #define UCB0STATW_SPI (HWREG16(0x40002008)) #define UCB0TBCNT (HWREG16(0x4000200A)) /*!< eUSCI_Bx Byte Counter Threshold Register */ #define UCB0RXBUF (HWREG16(0x4000200C)) /*!< eUSCI_Bx Receive Buffer Register */ #define UCB0RXBUF_SPI (HWREG16(0x4000200C)) #define UCB0TXBUF (HWREG16(0x4000200E)) /*!< eUSCI_Bx Transmit Buffer Register */ #define UCB0TXBUF_SPI (HWREG16(0x4000200E)) #define UCB0I2COA0 (HWREG16(0x40002014)) /*!< eUSCI_Bx I2C Own Address 0 Register */ #define UCB0I2COA1 (HWREG16(0x40002016)) /*!< eUSCI_Bx I2C Own Address 1 Register */ #define UCB0I2COA2 (HWREG16(0x40002018)) /*!< eUSCI_Bx I2C Own Address 2 Register */ #define UCB0I2COA3 (HWREG16(0x4000201A)) /*!< eUSCI_Bx I2C Own Address 3 Register */ #define UCB0ADDRX (HWREG16(0x4000201C)) /*!< eUSCI_Bx I2C Received Address Register */ #define UCB0ADDMASK (HWREG16(0x4000201E)) /*!< eUSCI_Bx I2C Address Mask Register */ #define UCB0I2CSA (HWREG16(0x40002020)) /*!< eUSCI_Bx I2C Slave Address Register */ #define UCB0IE (HWREG16(0x4000202A)) /*!< eUSCI_Bx Interrupt Enable Register */ #define UCB0IE_SPI (HWREG16(0x4000202A)) #define UCB0IFG (HWREG16(0x4000202C)) /*!< eUSCI_Bx Interrupt Flag Register */ #define UCB0IFG_SPI (HWREG16(0x4000202C)) #define UCB0IV (HWREG16(0x4000202E)) /*!< eUSCI_Bx Interrupt Vector Register */ #define UCB0IV_SPI (HWREG16(0x4000202E)) /* Register offsets from EUSCI_B0_BASE address */ #define OFS_UCB0CTLW0 (0x0000) /*!< eUSCI_Bx Control Word Register 0 */ #define OFS_UCB0CTLW0_SPI (0x0000) #define OFS_UCB0CTLW1 (0x0002) /*!< eUSCI_Bx Control Word Register 1 */ #define OFS_UCB0BRW (0x0006) /*!< eUSCI_Bx Baud Rate Control Word Register */ #define OFS_UCB0BRW_SPI (0x0006) #define OFS_UCB0STATW (0x0008) /*!< eUSCI_Bx Status Register */ #define OFS_UCB0STATW_SPI (0x0008) #define OFS_UCB0TBCNT (0x000A) /*!< eUSCI_Bx Byte Counter Threshold Register */ #define OFS_UCB0RXBUF (0x000C) /*!< eUSCI_Bx Receive Buffer Register */ #define OFS_UCB0RXBUF_SPI (0x000C) #define OFS_UCB0TXBUF (0x000E) /*!< eUSCI_Bx Transmit Buffer Register */ #define OFS_UCB0TXBUF_SPI (0x000E) #define OFS_UCB0I2COA0 (0x0014) /*!< eUSCI_Bx I2C Own Address 0 Register */ #define OFS_UCB0I2COA1 (0x0016) /*!< eUSCI_Bx I2C Own Address 1 Register */ #define OFS_UCB0I2COA2 (0x0018) /*!< eUSCI_Bx I2C Own Address 2 Register */ #define OFS_UCB0I2COA3 (0x001A) /*!< eUSCI_Bx I2C Own Address 3 Register */ #define OFS_UCB0ADDRX (0x001C) /*!< eUSCI_Bx I2C Received Address Register */ #define OFS_UCB0ADDMASK (0x001E) /*!< eUSCI_Bx I2C Address Mask Register */ #define OFS_UCB0I2CSA (0x0020) /*!< eUSCI_Bx I2C Slave Address Register */ #define OFS_UCB0IE (0x002A) /*!< eUSCI_Bx Interrupt Enable Register */ #define OFS_UCB0IE_SPI (0x002A) #define OFS_UCB0IFG (0x002C) /*!< eUSCI_Bx Interrupt Flag Register */ #define OFS_UCB0IFG_SPI (0x002C) #define OFS_UCB0IV (0x002E) /*!< eUSCI_Bx Interrupt Vector Register */ #define OFS_UCB0IV_SPI (0x002E) #define UCB0CTL0 (HWREG8_L(UCB0CTLW0)) /* eUSCI_Bx Control 1 */ #define UCB0CTL1 (HWREG8_H(UCB0CTLW0)) /* eUSCI_Bx Control 0 */ #define UCB0BR0 (HWREG8_L(UCB0BRW)) /* eUSCI_Bx Bit Rate Control 0 */ #define UCB0BR1 (HWREG8_H(UCB0BRW)) /* eUSCI_Bx Bit Rate Control 1 */ #define UCB0STAT (HWREG8_L(UCB0STATW)) /* eUSCI_Bx Status */ #define UCB0BCNT (HWREG8_H(UCB0STATW)) /* eUSCI_Bx Byte Counter Register */ /****************************************************************************** * EUSCI_B1 Registers ******************************************************************************/ #define UCB1CTLW0 (HWREG16(0x40002400)) /*!< eUSCI_Bx Control Word Register 0 */ #define UCB1CTLW0_SPI (HWREG16(0x40002400)) #define UCB1CTLW1 (HWREG16(0x40002402)) /*!< eUSCI_Bx Control Word Register 1 */ #define UCB1BRW (HWREG16(0x40002406)) /*!< eUSCI_Bx Baud Rate Control Word Register */ #define UCB1BRW_SPI (HWREG16(0x40002406)) #define UCB1STATW (HWREG16(0x40002408)) /*!< eUSCI_Bx Status Register */ #define UCB1STATW_SPI (HWREG16(0x40002408)) #define UCB1TBCNT (HWREG16(0x4000240A)) /*!< eUSCI_Bx Byte Counter Threshold Register */ #define UCB1RXBUF (HWREG16(0x4000240C)) /*!< eUSCI_Bx Receive Buffer Register */ #define UCB1RXBUF_SPI (HWREG16(0x4000240C)) #define UCB1TXBUF (HWREG16(0x4000240E)) /*!< eUSCI_Bx Transmit Buffer Register */ #define UCB1TXBUF_SPI (HWREG16(0x4000240E)) #define UCB1I2COA0 (HWREG16(0x40002414)) /*!< eUSCI_Bx I2C Own Address 0 Register */ #define UCB1I2COA1 (HWREG16(0x40002416)) /*!< eUSCI_Bx I2C Own Address 1 Register */ #define UCB1I2COA2 (HWREG16(0x40002418)) /*!< eUSCI_Bx I2C Own Address 2 Register */ #define UCB1I2COA3 (HWREG16(0x4000241A)) /*!< eUSCI_Bx I2C Own Address 3 Register */ #define UCB1ADDRX (HWREG16(0x4000241C)) /*!< eUSCI_Bx I2C Received Address Register */ #define UCB1ADDMASK (HWREG16(0x4000241E)) /*!< eUSCI_Bx I2C Address Mask Register */ #define UCB1I2CSA (HWREG16(0x40002420)) /*!< eUSCI_Bx I2C Slave Address Register */ #define UCB1IE (HWREG16(0x4000242A)) /*!< eUSCI_Bx Interrupt Enable Register */ #define UCB1IE_SPI (HWREG16(0x4000242A)) #define UCB1IFG (HWREG16(0x4000242C)) /*!< eUSCI_Bx Interrupt Flag Register */ #define UCB1IFG_SPI (HWREG16(0x4000242C)) #define UCB1IV (HWREG16(0x4000242E)) /*!< eUSCI_Bx Interrupt Vector Register */ #define UCB1IV_SPI (HWREG16(0x4000242E)) /* Register offsets from EUSCI_B1_BASE address */ #define OFS_UCB1CTLW0 (0x0000) /*!< eUSCI_Bx Control Word Register 0 */ #define OFS_UCB1CTLW0_SPI (0x0000) #define OFS_UCB1CTLW1 (0x0002) /*!< eUSCI_Bx Control Word Register 1 */ #define OFS_UCB1BRW (0x0006) /*!< eUSCI_Bx Baud Rate Control Word Register */ #define OFS_UCB1BRW_SPI (0x0006) #define OFS_UCB1STATW (0x0008) /*!< eUSCI_Bx Status Register */ #define OFS_UCB1STATW_SPI (0x0008) #define OFS_UCB1TBCNT (0x000A) /*!< eUSCI_Bx Byte Counter Threshold Register */ #define OFS_UCB1RXBUF (0x000C) /*!< eUSCI_Bx Receive Buffer Register */ #define OFS_UCB1RXBUF_SPI (0x000C) #define OFS_UCB1TXBUF (0x000E) /*!< eUSCI_Bx Transmit Buffer Register */ #define OFS_UCB1TXBUF_SPI (0x000E) #define OFS_UCB1I2COA0 (0x0014) /*!< eUSCI_Bx I2C Own Address 0 Register */ #define OFS_UCB1I2COA1 (0x0016) /*!< eUSCI_Bx I2C Own Address 1 Register */ #define OFS_UCB1I2COA2 (0x0018) /*!< eUSCI_Bx I2C Own Address 2 Register */ #define OFS_UCB1I2COA3 (0x001A) /*!< eUSCI_Bx I2C Own Address 3 Register */ #define OFS_UCB1ADDRX (0x001C) /*!< eUSCI_Bx I2C Received Address Register */ #define OFS_UCB1ADDMASK (0x001E) /*!< eUSCI_Bx I2C Address Mask Register */ #define OFS_UCB1I2CSA (0x0020) /*!< eUSCI_Bx I2C Slave Address Register */ #define OFS_UCB1IE (0x002A) /*!< eUSCI_Bx Interrupt Enable Register */ #define OFS_UCB1IE_SPI (0x002A) #define OFS_UCB1IFG (0x002C) /*!< eUSCI_Bx Interrupt Flag Register */ #define OFS_UCB1IFG_SPI (0x002C) #define OFS_UCB1IV (0x002E) /*!< eUSCI_Bx Interrupt Vector Register */ #define OFS_UCB1IV_SPI (0x002E) #define UCB1CTL0 (HWREG8_L(UCB1CTLW0)) /* eUSCI_Bx Control 1 */ #define UCB1CTL1 (HWREG8_H(UCB1CTLW0)) /* eUSCI_Bx Control 0 */ #define UCB1BR0 (HWREG8_L(UCB1BRW)) /* eUSCI_Bx Bit Rate Control 0 */ #define UCB1BR1 (HWREG8_H(UCB1BRW)) /* eUSCI_Bx Bit Rate Control 1 */ #define UCB1STAT (HWREG8_L(UCB1STATW)) /* eUSCI_Bx Status */ #define UCB1BCNT (HWREG8_H(UCB1STATW)) /* eUSCI_Bx Byte Counter Register */ /****************************************************************************** * EUSCI_B2 Registers ******************************************************************************/ #define UCB2CTLW0 (HWREG16(0x40002800)) /*!< eUSCI_Bx Control Word Register 0 */ #define UCB2CTLW0_SPI (HWREG16(0x40002800)) #define UCB2CTLW1 (HWREG16(0x40002802)) /*!< eUSCI_Bx Control Word Register 1 */ #define UCB2BRW (HWREG16(0x40002806)) /*!< eUSCI_Bx Baud Rate Control Word Register */ #define UCB2BRW_SPI (HWREG16(0x40002806)) #define UCB2STATW (HWREG16(0x40002808)) /*!< eUSCI_Bx Status Register */ #define UCB2STATW_SPI (HWREG16(0x40002808)) #define UCB2TBCNT (HWREG16(0x4000280A)) /*!< eUSCI_Bx Byte Counter Threshold Register */ #define UCB2RXBUF (HWREG16(0x4000280C)) /*!< eUSCI_Bx Receive Buffer Register */ #define UCB2RXBUF_SPI (HWREG16(0x4000280C)) #define UCB2TXBUF (HWREG16(0x4000280E)) /*!< eUSCI_Bx Transmit Buffer Register */ #define UCB2TXBUF_SPI (HWREG16(0x4000280E)) #define UCB2I2COA0 (HWREG16(0x40002814)) /*!< eUSCI_Bx I2C Own Address 0 Register */ #define UCB2I2COA1 (HWREG16(0x40002816)) /*!< eUSCI_Bx I2C Own Address 1 Register */ #define UCB2I2COA2 (HWREG16(0x40002818)) /*!< eUSCI_Bx I2C Own Address 2 Register */ #define UCB2I2COA3 (HWREG16(0x4000281A)) /*!< eUSCI_Bx I2C Own Address 3 Register */ #define UCB2ADDRX (HWREG16(0x4000281C)) /*!< eUSCI_Bx I2C Received Address Register */ #define UCB2ADDMASK (HWREG16(0x4000281E)) /*!< eUSCI_Bx I2C Address Mask Register */ #define UCB2I2CSA (HWREG16(0x40002820)) /*!< eUSCI_Bx I2C Slave Address Register */ #define UCB2IE (HWREG16(0x4000282A)) /*!< eUSCI_Bx Interrupt Enable Register */ #define UCB2IE_SPI (HWREG16(0x4000282A)) #define UCB2IFG (HWREG16(0x4000282C)) /*!< eUSCI_Bx Interrupt Flag Register */ #define UCB2IFG_SPI (HWREG16(0x4000282C)) #define UCB2IV (HWREG16(0x4000282E)) /*!< eUSCI_Bx Interrupt Vector Register */ #define UCB2IV_SPI (HWREG16(0x4000282E)) /* Register offsets from EUSCI_B2_BASE address */ #define OFS_UCB2CTLW0 (0x0000) /*!< eUSCI_Bx Control Word Register 0 */ #define OFS_UCB2CTLW0_SPI (0x0000) #define OFS_UCB2CTLW1 (0x0002) /*!< eUSCI_Bx Control Word Register 1 */ #define OFS_UCB2BRW (0x0006) /*!< eUSCI_Bx Baud Rate Control Word Register */ #define OFS_UCB2BRW_SPI (0x0006) #define OFS_UCB2STATW (0x0008) /*!< eUSCI_Bx Status Register */ #define OFS_UCB2STATW_SPI (0x0008) #define OFS_UCB2TBCNT (0x000A) /*!< eUSCI_Bx Byte Counter Threshold Register */ #define OFS_UCB2RXBUF (0x000C) /*!< eUSCI_Bx Receive Buffer Register */ #define OFS_UCB2RXBUF_SPI (0x000C) #define OFS_UCB2TXBUF (0x000E) /*!< eUSCI_Bx Transmit Buffer Register */ #define OFS_UCB2TXBUF_SPI (0x000E) #define OFS_UCB2I2COA0 (0x0014) /*!< eUSCI_Bx I2C Own Address 0 Register */ #define OFS_UCB2I2COA1 (0x0016) /*!< eUSCI_Bx I2C Own Address 1 Register */ #define OFS_UCB2I2COA2 (0x0018) /*!< eUSCI_Bx I2C Own Address 2 Register */ #define OFS_UCB2I2COA3 (0x001A) /*!< eUSCI_Bx I2C Own Address 3 Register */ #define OFS_UCB2ADDRX (0x001C) /*!< eUSCI_Bx I2C Received Address Register */ #define OFS_UCB2ADDMASK (0x001E) /*!< eUSCI_Bx I2C Address Mask Register */ #define OFS_UCB2I2CSA (0x0020) /*!< eUSCI_Bx I2C Slave Address Register */ #define OFS_UCB2IE (0x002A) /*!< eUSCI_Bx Interrupt Enable Register */ #define OFS_UCB2IE_SPI (0x002A) #define OFS_UCB2IFG (0x002C) /*!< eUSCI_Bx Interrupt Flag Register */ #define OFS_UCB2IFG_SPI (0x002C) #define OFS_UCB2IV (0x002E) /*!< eUSCI_Bx Interrupt Vector Register */ #define OFS_UCB2IV_SPI (0x002E) #define UCB2CTL0 (HWREG8_L(UCB2CTLW0)) /* eUSCI_Bx Control 1 */ #define UCB2CTL1 (HWREG8_H(UCB2CTLW0)) /* eUSCI_Bx Control 0 */ #define UCB2BR0 (HWREG8_L(UCB2BRW)) /* eUSCI_Bx Bit Rate Control 0 */ #define UCB2BR1 (HWREG8_H(UCB2BRW)) /* eUSCI_Bx Bit Rate Control 1 */ #define UCB2STAT (HWREG8_L(UCB2STATW)) /* eUSCI_Bx Status */ #define UCB2BCNT (HWREG8_H(UCB2STATW)) /* eUSCI_Bx Byte Counter Register */ /****************************************************************************** * EUSCI_B3 Registers ******************************************************************************/ #define UCB3CTLW0 (HWREG16(0x40002C00)) /*!< eUSCI_Bx Control Word Register 0 */ #define UCB3CTLW0_SPI (HWREG16(0x40002C00)) #define UCB3CTLW1 (HWREG16(0x40002C02)) /*!< eUSCI_Bx Control Word Register 1 */ #define UCB3BRW (HWREG16(0x40002C06)) /*!< eUSCI_Bx Baud Rate Control Word Register */ #define UCB3BRW_SPI (HWREG16(0x40002C06)) #define UCB3STATW (HWREG16(0x40002C08)) /*!< eUSCI_Bx Status Register */ #define UCB3STATW_SPI (HWREG16(0x40002C08)) #define UCB3TBCNT (HWREG16(0x40002C0A)) /*!< eUSCI_Bx Byte Counter Threshold Register */ #define UCB3RXBUF (HWREG16(0x40002C0C)) /*!< eUSCI_Bx Receive Buffer Register */ #define UCB3RXBUF_SPI (HWREG16(0x40002C0C)) #define UCB3TXBUF (HWREG16(0x40002C0E)) /*!< eUSCI_Bx Transmit Buffer Register */ #define UCB3TXBUF_SPI (HWREG16(0x40002C0E)) #define UCB3I2COA0 (HWREG16(0x40002C14)) /*!< eUSCI_Bx I2C Own Address 0 Register */ #define UCB3I2COA1 (HWREG16(0x40002C16)) /*!< eUSCI_Bx I2C Own Address 1 Register */ #define UCB3I2COA2 (HWREG16(0x40002C18)) /*!< eUSCI_Bx I2C Own Address 2 Register */ #define UCB3I2COA3 (HWREG16(0x40002C1A)) /*!< eUSCI_Bx I2C Own Address 3 Register */ #define UCB3ADDRX (HWREG16(0x40002C1C)) /*!< eUSCI_Bx I2C Received Address Register */ #define UCB3ADDMASK (HWREG16(0x40002C1E)) /*!< eUSCI_Bx I2C Address Mask Register */ #define UCB3I2CSA (HWREG16(0x40002C20)) /*!< eUSCI_Bx I2C Slave Address Register */ #define UCB3IE (HWREG16(0x40002C2A)) /*!< eUSCI_Bx Interrupt Enable Register */ #define UCB3IE_SPI (HWREG16(0x40002C2A)) #define UCB3IFG (HWREG16(0x40002C2C)) /*!< eUSCI_Bx Interrupt Flag Register */ #define UCB3IFG_SPI (HWREG16(0x40002C2C)) #define UCB3IV (HWREG16(0x40002C2E)) /*!< eUSCI_Bx Interrupt Vector Register */ #define UCB3IV_SPI (HWREG16(0x40002C2E)) /* Register offsets from EUSCI_B3_BASE address */ #define OFS_UCB3CTLW0 (0x0000) /*!< eUSCI_Bx Control Word Register 0 */ #define OFS_UCB3CTLW0_SPI (0x0000) #define OFS_UCB3CTLW1 (0x0002) /*!< eUSCI_Bx Control Word Register 1 */ #define OFS_UCB3BRW (0x0006) /*!< eUSCI_Bx Baud Rate Control Word Register */ #define OFS_UCB3BRW_SPI (0x0006) #define OFS_UCB3STATW (0x0008) /*!< eUSCI_Bx Status Register */ #define OFS_UCB3STATW_SPI (0x0008) #define OFS_UCB3TBCNT (0x000A) /*!< eUSCI_Bx Byte Counter Threshold Register */ #define OFS_UCB3RXBUF (0x000C) /*!< eUSCI_Bx Receive Buffer Register */ #define OFS_UCB3RXBUF_SPI (0x000C) #define OFS_UCB3TXBUF (0x000E) /*!< eUSCI_Bx Transmit Buffer Register */ #define OFS_UCB3TXBUF_SPI (0x000E) #define OFS_UCB3I2COA0 (0x0014) /*!< eUSCI_Bx I2C Own Address 0 Register */ #define OFS_UCB3I2COA1 (0x0016) /*!< eUSCI_Bx I2C Own Address 1 Register */ #define OFS_UCB3I2COA2 (0x0018) /*!< eUSCI_Bx I2C Own Address 2 Register */ #define OFS_UCB3I2COA3 (0x001A) /*!< eUSCI_Bx I2C Own Address 3 Register */ #define OFS_UCB3ADDRX (0x001C) /*!< eUSCI_Bx I2C Received Address Register */ #define OFS_UCB3ADDMASK (0x001E) /*!< eUSCI_Bx I2C Address Mask Register */ #define OFS_UCB3I2CSA (0x0020) /*!< eUSCI_Bx I2C Slave Address Register */ #define OFS_UCB3IE (0x002A) /*!< eUSCI_Bx Interrupt Enable Register */ #define OFS_UCB3IE_SPI (0x002A) #define OFS_UCB3IFG (0x002C) /*!< eUSCI_Bx Interrupt Flag Register */ #define OFS_UCB3IFG_SPI (0x002C) #define OFS_UCB3IV (0x002E) /*!< eUSCI_Bx Interrupt Vector Register */ #define OFS_UCB3IV_SPI (0x002E) #define UCB3CTL0 (HWREG8_L(UCB3CTLW0)) /* eUSCI_Bx Control 1 */ #define UCB3CTL1 (HWREG8_H(UCB3CTLW0)) /* eUSCI_Bx Control 0 */ #define UCB3BR0 (HWREG8_L(UCB3BRW)) /* eUSCI_Bx Bit Rate Control 0 */ #define UCB3BR1 (HWREG8_H(UCB3BRW)) /* eUSCI_Bx Bit Rate Control 1 */ #define UCB3STAT (HWREG8_L(UCB3STATW)) /* eUSCI_Bx Status */ #define UCB3BCNT (HWREG8_H(UCB3STATW)) /* eUSCI_Bx Byte Counter Register */ /****************************************************************************** * PMAP Registers ******************************************************************************/ #define PMAPKEYID (HWREG16(0x40005000)) /*!< Port Mapping Key Register */ #define PMAPCTL (HWREG16(0x40005002)) /*!< Port Mapping Control Register */ #define P1MAP01 (HWREG16(0x40005008)) /*!< Port mapping register, P1.0 and P1.1 */ #define P1MAP23 (HWREG16(0x4000500A)) /*!< Port mapping register, P1.2 and P1.3 */ #define P1MAP45 (HWREG16(0x4000500C)) /*!< Port mapping register, P1.4 and P1.5 */ #define P1MAP67 (HWREG16(0x4000500E)) /*!< Port mapping register, P1.6 and P1.7 */ #define P2MAP01 (HWREG16(0x40005010)) /*!< Port mapping register, P2.0 and P2.1 */ #define P2MAP23 (HWREG16(0x40005012)) /*!< Port mapping register, P2.2 and P2.3 */ #define P2MAP45 (HWREG16(0x40005014)) /*!< Port mapping register, P2.4 and P2.5 */ #define P2MAP67 (HWREG16(0x40005016)) /*!< Port mapping register, P2.6 and P2.7 */ #define P3MAP01 (HWREG16(0x40005018)) /*!< Port mapping register, P3.0 and P3.1 */ #define P3MAP23 (HWREG16(0x4000501A)) /*!< Port mapping register, P3.2 and P3.3 */ #define P3MAP45 (HWREG16(0x4000501C)) /*!< Port mapping register, P3.4 and P3.5 */ #define P3MAP67 (HWREG16(0x4000501E)) /*!< Port mapping register, P3.6 and P3.7 */ #define P4MAP01 (HWREG16(0x40005020)) /*!< Port mapping register, P4.0 and P4.1 */ #define P4MAP23 (HWREG16(0x40005022)) /*!< Port mapping register, P4.2 and P4.3 */ #define P4MAP45 (HWREG16(0x40005024)) /*!< Port mapping register, P4.4 and P4.5 */ #define P4MAP67 (HWREG16(0x40005026)) /*!< Port mapping register, P4.6 and P4.7 */ #define P5MAP01 (HWREG16(0x40005028)) /*!< Port mapping register, P5.0 and P5.1 */ #define P5MAP23 (HWREG16(0x4000502A)) /*!< Port mapping register, P5.2 and P5.3 */ #define P5MAP45 (HWREG16(0x4000502C)) /*!< Port mapping register, P5.4 and P5.5 */ #define P5MAP67 (HWREG16(0x4000502E)) /*!< Port mapping register, P5.6 and P5.7 */ #define P6MAP01 (HWREG16(0x40005030)) /*!< Port mapping register, P6.0 and P6.1 */ #define P6MAP23 (HWREG16(0x40005032)) /*!< Port mapping register, P6.2 and P6.3 */ #define P6MAP45 (HWREG16(0x40005034)) /*!< Port mapping register, P6.4 and P6.5 */ #define P6MAP67 (HWREG16(0x40005036)) /*!< Port mapping register, P6.6 and P6.7 */ #define P7MAP01 (HWREG16(0x40005038)) /*!< Port mapping register, P7.0 and P7.1 */ #define P7MAP23 (HWREG16(0x4000503A)) /*!< Port mapping register, P7.2 and P7.3 */ #define P7MAP45 (HWREG16(0x4000503C)) /*!< Port mapping register, P7.4 and P7.5 */ #define P7MAP67 (HWREG16(0x4000503E)) /*!< Port mapping register, P7.6 and P7.7 */ /* Register offsets from PMAP_BASE address */ #define OFS_PMAPKEYID (0x0000) /*!< Port Mapping Key Register */ #define OFS_PMAPCTL (0x0002) /*!< Port Mapping Control Register */ #define OFS_P1MAP01 (0x0008) /*!< Port mapping register, P1.0 and P1.1 */ #define OFS_P1MAP23 (0x000A) /*!< Port mapping register, P1.2 and P1.3 */ #define OFS_P1MAP45 (0x000C) /*!< Port mapping register, P1.4 and P1.5 */ #define OFS_P1MAP67 (0x000E) /*!< Port mapping register, P1.6 and P1.7 */ #define OFS_P2MAP01 (0x0010) /*!< Port mapping register, P2.0 and P2.1 */ #define OFS_P2MAP23 (0x0012) /*!< Port mapping register, P2.2 and P2.3 */ #define OFS_P2MAP45 (0x0014) /*!< Port mapping register, P2.4 and P2.5 */ #define OFS_P2MAP67 (0x0016) /*!< Port mapping register, P2.6 and P2.7 */ #define OFS_P3MAP01 (0x0018) /*!< Port mapping register, P3.0 and P3.1 */ #define OFS_P3MAP23 (0x001A) /*!< Port mapping register, P3.2 and P3.3 */ #define OFS_P3MAP45 (0x001C) /*!< Port mapping register, P3.4 and P3.5 */ #define OFS_P3MAP67 (0x001E) /*!< Port mapping register, P3.6 and P3.7 */ #define OFS_P4MAP01 (0x0020) /*!< Port mapping register, P4.0 and P4.1 */ #define OFS_P4MAP23 (0x0022) /*!< Port mapping register, P4.2 and P4.3 */ #define OFS_P4MAP45 (0x0024) /*!< Port mapping register, P4.4 and P4.5 */ #define OFS_P4MAP67 (0x0026) /*!< Port mapping register, P4.6 and P4.7 */ #define OFS_P5MAP01 (0x0028) /*!< Port mapping register, P5.0 and P5.1 */ #define OFS_P5MAP23 (0x002A) /*!< Port mapping register, P5.2 and P5.3 */ #define OFS_P5MAP45 (0x002C) /*!< Port mapping register, P5.4 and P5.5 */ #define OFS_P5MAP67 (0x002E) /*!< Port mapping register, P5.6 and P5.7 */ #define OFS_P6MAP01 (0x0030) /*!< Port mapping register, P6.0 and P6.1 */ #define OFS_P6MAP23 (0x0032) /*!< Port mapping register, P6.2 and P6.3 */ #define OFS_P6MAP45 (0x0034) /*!< Port mapping register, P6.4 and P6.5 */ #define OFS_P6MAP67 (0x0036) /*!< Port mapping register, P6.6 and P6.7 */ #define OFS_P7MAP01 (0x0038) /*!< Port mapping register, P7.0 and P7.1 */ #define OFS_P7MAP23 (0x003A) /*!< Port mapping register, P7.2 and P7.3 */ #define OFS_P7MAP45 (0x003C) /*!< Port mapping register, P7.4 and P7.5 */ #define OFS_P7MAP67 (0x003E) /*!< Port mapping register, P7.6 and P7.7 */ /****************************************************************************** * REF_A Registers ******************************************************************************/ #define REFCTL0 (HWREG16(0x40003000)) /*!< REF Control Register 0 */ /* Register offsets from REF_A_BASE address */ #define OFS_REFCTL0 (0x0000) /*!< REF Control Register 0 */ #define REFCTL0_L (HWREG8_L(REFCTL0)) /* REF Control Register 0 */ #define REFCTL0_H (HWREG8_H(REFCTL0)) /* REF Control Register 0 */ /****************************************************************************** * RTC_C Registers ******************************************************************************/ #define RTCCTL0 (HWREG16(0x40004400)) /*!< RTCCTL0 Register */ #define RTCCTL13 (HWREG16(0x40004402)) /*!< RTCCTL13 Register */ #define RTCOCAL (HWREG16(0x40004404)) /*!< RTCOCAL Register */ #define RTCTCMP (HWREG16(0x40004406)) /*!< RTCTCMP Register */ #define RTCPS0CTL (HWREG16(0x40004408)) /*!< Real-Time Clock Prescale Timer 0 Control Register */ #define RTCPS1CTL (HWREG16(0x4000440A)) /*!< Real-Time Clock Prescale Timer 1 Control Register */ #define RTCPS (HWREG16(0x4000440C)) /*!< Real-Time Clock Prescale Timer Counter Register */ #define RTCIV (HWREG16(0x4000440E)) /*!< Real-Time Clock Interrupt Vector Register */ #define RTCTIM0 (HWREG16(0x40004410)) /*!< RTCTIM0 Register Hexadecimal Format */ #define RTCTIM0_BCD (HWREG16(0x40004410)) #define RTCTIM1 (HWREG16(0x40004412)) /*!< Real-Time Clock Hour, Day of Week */ #define RTCTIM1_BCD (HWREG16(0x40004412)) #define RTCDATE (HWREG16(0x40004414)) /*!< RTCDATE - Hexadecimal Format */ #define RTCDATE_BCD (HWREG16(0x40004414)) #define RTCYEAR (HWREG16(0x40004416)) /*!< RTCYEAR Register Hexadecimal Format */ #define RTCYEAR_BCD (HWREG16(0x40004416)) #define RTCAMINHR (HWREG16(0x40004418)) /*!< RTCMINHR - Hexadecimal Format */ #define RTCAMINHR_BCD (HWREG16(0x40004418)) #define RTCADOWDAY (HWREG16(0x4000441A)) /*!< RTCADOWDAY - Hexadecimal Format */ #define RTCADOWDAY_BCD (HWREG16(0x4000441A)) #define RTCBIN2BCD (HWREG16(0x4000441C)) /*!< Binary-to-BCD Conversion Register */ #define RTCBCD2BIN (HWREG16(0x4000441E)) /*!< BCD-to-Binary Conversion Register */ /* Register offsets from RTC_C_BASE address */ #define OFS_RTCCTL0 (0x0000) /*!< RTCCTL0 Register */ #define OFS_RTCCTL13 (0x0002) /*!< RTCCTL13 Register */ #define OFS_RTCOCAL (0x0004) /*!< RTCOCAL Register */ #define OFS_RTCTCMP (0x0006) /*!< RTCTCMP Register */ #define OFS_RTCPS0CTL (0x0008) /*!< Real-Time Clock Prescale Timer 0 Control Register */ #define OFS_RTCPS1CTL (0x000A) /*!< Real-Time Clock Prescale Timer 1 Control Register */ #define OFS_RTCPS (0x000C) /*!< Real-Time Clock Prescale Timer Counter Register */ #define OFS_RTCIV (0x000E) /*!< Real-Time Clock Interrupt Vector Register */ #define OFS_RTCTIM0 (0x0010) /*!< RTCTIM0 Register Hexadecimal Format */ #define OFS_RTCTIM0_BCD (0x0010) #define OFS_RTCTIM1 (0x0012) /*!< Real-Time Clock Hour, Day of Week */ #define OFS_RTCTIM1_BCD (0x0012) #define OFS_RTCDATE (0x0014) /*!< RTCDATE - Hexadecimal Format */ #define OFS_RTCDATE_BCD (0x0014) #define OFS_RTCYEAR (0x0016) /*!< RTCYEAR Register Hexadecimal Format */ #define OFS_RTCYEAR_BCD (0x0016) #define OFS_RTCAMINHR (0x0018) /*!< RTCMINHR - Hexadecimal Format */ #define OFS_RTCAMINHR_BCD (0x0018) #define OFS_RTCADOWDAY (0x001A) /*!< RTCADOWDAY - Hexadecimal Format */ #define OFS_RTCADOWDAY_BCD (0x001A) #define OFS_RTCBIN2BCD (0x001C) /*!< Binary-to-BCD Conversion Register */ #define OFS_RTCBCD2BIN (0x001E) /*!< BCD-to-Binary Conversion Register */ #define RTCCTL0_L (HWREG8_L(RTCCTL0)) /* RTCCTL0 Register */ #define RTCCTL0_H (HWREG8_H(RTCCTL0)) /* RTCCTL0 Register */ #define RTCCTL1 (HWREG8_L(RTCCTL13)) /* RTCCTL13 Register */ #define RTCCTL13_L (HWREG8_L(RTCCTL13)) /* RTCCTL13 Register */ #define RTCCTL3 (HWREG8_H(RTCCTL13)) /* RTCCTL13 Register */ #define RTCCTL13_H (HWREG8_H(RTCCTL13)) /* RTCCTL13 Register */ #define RTCOCAL_L (HWREG8_L(RTCOCAL)) /* RTCOCAL Register */ #define RTCOCAL_H (HWREG8_H(RTCOCAL)) /* RTCOCAL Register */ #define RTCTCMP_L (HWREG8_L(RTCTCMP)) /* RTCTCMP Register */ #define RTCTCMP_H (HWREG8_H(RTCTCMP)) /* RTCTCMP Register */ #define RTCPS0CTL_L (HWREG8_L(RTCPS0CTL)) /* Real-Time Clock Prescale Timer 0 Control Register */ #define RTCPS0CTL_H (HWREG8_H(RTCPS0CTL)) /* Real-Time Clock Prescale Timer 0 Control Register */ #define RTCPS1CTL_L (HWREG8_L(RTCPS1CTL)) /* Real-Time Clock Prescale Timer 1 Control Register */ #define RTCPS1CTL_H (HWREG8_H(RTCPS1CTL)) /* Real-Time Clock Prescale Timer 1 Control Register */ #define RTCPS0 (HWREG8_L(RTCPS)) /* Real-Time Clock Prescale Timer Counter Register */ #define RTCPS_L (HWREG8_L(RTCPS)) /* Real-Time Clock Prescale Timer Counter Register */ #define RTCPS1 (HWREG8_H(RTCPS)) /* Real-Time Clock Prescale Timer Counter Register */ #define RTCPS_H (HWREG8_H(RTCPS)) /* Real-Time Clock Prescale Timer Counter Register */ #define RTCSEC (HWREG8_L(RTCTIM0)) /* Real-Time Clock Seconds */ #define RTCTIM0_L (HWREG8_L(RTCTIM0)) /* Real-Time Clock Seconds */ #define RTCMIN (HWREG8_H(RTCTIM0)) /* Real-Time Clock Minutes */ #define RTCTIM0_H (HWREG8_H(RTCTIM0)) /* Real-Time Clock Minutes */ #define RTCHOUR (HWREG8_L(RTCTIM1)) /* Real-Time Clock Hour */ #define RTCTIM1_L (HWREG8_L(RTCTIM1)) /* Real-Time Clock Hour */ #define RTCDOW (HWREG8_H(RTCTIM1)) /* Real-Time Clock Day of Week */ #define RTCTIM1_H (HWREG8_H(RTCTIM1)) /* Real-Time Clock Day of Week */ #define RTCDAY (HWREG8_L(RTCDATE)) /* Real-Time Clock Day of Month */ #define RTCDATE_L (HWREG8_L(RTCDATE)) /* Real-Time Clock Day of Month */ #define RTCMON (HWREG8_H(RTCDATE)) /* Real-Time Clock Month */ #define RTCDATE_H (HWREG8_H(RTCDATE)) /* Real-Time Clock Month */ #define RTCAMIN (HWREG8_L(RTCAMINHR)) /* Real-Time Clock Minutes Alarm */ #define RTCAMINHR_L (HWREG8_L(RTCAMINHR)) /* Real-Time Clock Minutes Alarm */ #define RTCAHOUR (HWREG8_H(RTCAMINHR)) /* Real-Time Clock Hours Alarm */ #define RTCAMINHR_H (HWREG8_H(RTCAMINHR)) /* Real-Time Clock Hours Alarm */ #define RTCADOW (HWREG8_L(RTCADOWDAY))/* Real-Time Clock Day of Week Alarm */ #define RTCADOWDAY_L (HWREG8_L(RTCADOWDAY))/* Real-Time Clock Day of Week Alarm */ #define RTCADAY (HWREG8_H(RTCADOWDAY))/* Real-Time Clock Day of Month Alarm */ #define RTCADOWDAY_H (HWREG8_H(RTCADOWDAY))/* Real-Time Clock Day of Month Alarm */ /****************************************************************************** * TIMER_A0 Registers ******************************************************************************/ #define TA0CTL (HWREG16(0x40000000)) /*!< TimerAx Control Register */ #define TA0CCTL0 (HWREG16(0x40000002)) /*!< Timer_A Capture/Compare Control Register */ #define TA0CCTL1 (HWREG16(0x40000004)) /*!< Timer_A Capture/Compare Control Register */ #define TA0CCTL2 (HWREG16(0x40000006)) /*!< Timer_A Capture/Compare Control Register */ #define TA0CCTL3 (HWREG16(0x40000008)) /*!< Timer_A Capture/Compare Control Register */ #define TA0CCTL4 (HWREG16(0x4000000A)) /*!< Timer_A Capture/Compare Control Register */ #define TA0R (HWREG16(0x40000010)) /*!< TimerA register */ #define TA0CCR0 (HWREG16(0x40000012)) /*!< Timer_A Capture/Compare Register */ #define TA0CCR1 (HWREG16(0x40000014)) /*!< Timer_A Capture/Compare Register */ #define TA0CCR2 (HWREG16(0x40000016)) /*!< Timer_A Capture/Compare Register */ #define TA0CCR3 (HWREG16(0x40000018)) /*!< Timer_A Capture/Compare Register */ #define TA0CCR4 (HWREG16(0x4000001A)) /*!< Timer_A Capture/Compare Register */ #define TA0EX0 (HWREG16(0x40000020)) /*!< TimerAx Expansion 0 Register */ #define TA0IV (HWREG16(0x4000002E)) /*!< TimerAx Interrupt Vector Register */ /* Register offsets from TIMER_A0_BASE address */ #define OFS_TA0CTL (0x0000) /*!< TimerAx Control Register */ #define OFS_TA0CCTL0 (0x0002) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA0CCTL1 (0x0004) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA0CCTL2 (0x0006) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA0CCTL3 (0x0008) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA0CCTL4 (0x000A) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA0R (0x0010) /*!< TimerA register */ #define OFS_TA0CCR0 (0x0012) /*!< Timer_A Capture/Compare Register */ #define OFS_TA0CCR1 (0x0014) /*!< Timer_A Capture/Compare Register */ #define OFS_TA0CCR2 (0x0016) /*!< Timer_A Capture/Compare Register */ #define OFS_TA0CCR3 (0x0018) /*!< Timer_A Capture/Compare Register */ #define OFS_TA0CCR4 (0x001A) /*!< Timer_A Capture/Compare Register */ #define OFS_TA0EX0 (0x0020) /*!< TimerAx Expansion 0 Register */ #define OFS_TA0IV (0x002E) /*!< TimerAx Interrupt Vector Register */ /****************************************************************************** * TIMER_A1 Registers ******************************************************************************/ #define TA1CTL (HWREG16(0x40000400)) /*!< TimerAx Control Register */ #define TA1CCTL0 (HWREG16(0x40000402)) /*!< Timer_A Capture/Compare Control Register */ #define TA1CCTL1 (HWREG16(0x40000404)) /*!< Timer_A Capture/Compare Control Register */ #define TA1CCTL2 (HWREG16(0x40000406)) /*!< Timer_A Capture/Compare Control Register */ #define TA1CCTL3 (HWREG16(0x40000408)) /*!< Timer_A Capture/Compare Control Register */ #define TA1CCTL4 (HWREG16(0x4000040A)) /*!< Timer_A Capture/Compare Control Register */ #define TA1R (HWREG16(0x40000410)) /*!< TimerA register */ #define TA1CCR0 (HWREG16(0x40000412)) /*!< Timer_A Capture/Compare Register */ #define TA1CCR1 (HWREG16(0x40000414)) /*!< Timer_A Capture/Compare Register */ #define TA1CCR2 (HWREG16(0x40000416)) /*!< Timer_A Capture/Compare Register */ #define TA1CCR3 (HWREG16(0x40000418)) /*!< Timer_A Capture/Compare Register */ #define TA1CCR4 (HWREG16(0x4000041A)) /*!< Timer_A Capture/Compare Register */ #define TA1EX0 (HWREG16(0x40000420)) /*!< TimerAx Expansion 0 Register */ #define TA1IV (HWREG16(0x4000042E)) /*!< TimerAx Interrupt Vector Register */ /* Register offsets from TIMER_A1_BASE address */ #define OFS_TA1CTL (0x0000) /*!< TimerAx Control Register */ #define OFS_TA1CCTL0 (0x0002) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA1CCTL1 (0x0004) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA1CCTL2 (0x0006) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA1CCTL3 (0x0008) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA1CCTL4 (0x000A) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA1R (0x0010) /*!< TimerA register */ #define OFS_TA1CCR0 (0x0012) /*!< Timer_A Capture/Compare Register */ #define OFS_TA1CCR1 (0x0014) /*!< Timer_A Capture/Compare Register */ #define OFS_TA1CCR2 (0x0016) /*!< Timer_A Capture/Compare Register */ #define OFS_TA1CCR3 (0x0018) /*!< Timer_A Capture/Compare Register */ #define OFS_TA1CCR4 (0x001A) /*!< Timer_A Capture/Compare Register */ #define OFS_TA1EX0 (0x0020) /*!< TimerAx Expansion 0 Register */ #define OFS_TA1IV (0x002E) /*!< TimerAx Interrupt Vector Register */ /****************************************************************************** * TIMER_A2 Registers ******************************************************************************/ #define TA2CTL (HWREG16(0x40000800)) /*!< TimerAx Control Register */ #define TA2CCTL0 (HWREG16(0x40000802)) /*!< Timer_A Capture/Compare Control Register */ #define TA2CCTL1 (HWREG16(0x40000804)) /*!< Timer_A Capture/Compare Control Register */ #define TA2CCTL2 (HWREG16(0x40000806)) /*!< Timer_A Capture/Compare Control Register */ #define TA2CCTL3 (HWREG16(0x40000808)) /*!< Timer_A Capture/Compare Control Register */ #define TA2CCTL4 (HWREG16(0x4000080A)) /*!< Timer_A Capture/Compare Control Register */ #define TA2R (HWREG16(0x40000810)) /*!< TimerA register */ #define TA2CCR0 (HWREG16(0x40000812)) /*!< Timer_A Capture/Compare Register */ #define TA2CCR1 (HWREG16(0x40000814)) /*!< Timer_A Capture/Compare Register */ #define TA2CCR2 (HWREG16(0x40000816)) /*!< Timer_A Capture/Compare Register */ #define TA2CCR3 (HWREG16(0x40000818)) /*!< Timer_A Capture/Compare Register */ #define TA2CCR4 (HWREG16(0x4000081A)) /*!< Timer_A Capture/Compare Register */ #define TA2EX0 (HWREG16(0x40000820)) /*!< TimerAx Expansion 0 Register */ #define TA2IV (HWREG16(0x4000082E)) /*!< TimerAx Interrupt Vector Register */ /* Register offsets from TIMER_A2_BASE address */ #define OFS_TA2CTL (0x0000) /*!< TimerAx Control Register */ #define OFS_TA2CCTL0 (0x0002) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA2CCTL1 (0x0004) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA2CCTL2 (0x0006) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA2CCTL3 (0x0008) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA2CCTL4 (0x000A) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA2R (0x0010) /*!< TimerA register */ #define OFS_TA2CCR0 (0x0012) /*!< Timer_A Capture/Compare Register */ #define OFS_TA2CCR1 (0x0014) /*!< Timer_A Capture/Compare Register */ #define OFS_TA2CCR2 (0x0016) /*!< Timer_A Capture/Compare Register */ #define OFS_TA2CCR3 (0x0018) /*!< Timer_A Capture/Compare Register */ #define OFS_TA2CCR4 (0x001A) /*!< Timer_A Capture/Compare Register */ #define OFS_TA2EX0 (0x0020) /*!< TimerAx Expansion 0 Register */ #define OFS_TA2IV (0x002E) /*!< TimerAx Interrupt Vector Register */ /****************************************************************************** * TIMER_A3 Registers ******************************************************************************/ #define TA3CTL (HWREG16(0x40000C00)) /*!< TimerAx Control Register */ #define TA3CCTL0 (HWREG16(0x40000C02)) /*!< Timer_A Capture/Compare Control Register */ #define TA3CCTL1 (HWREG16(0x40000C04)) /*!< Timer_A Capture/Compare Control Register */ #define TA3CCTL2 (HWREG16(0x40000C06)) /*!< Timer_A Capture/Compare Control Register */ #define TA3CCTL3 (HWREG16(0x40000C08)) /*!< Timer_A Capture/Compare Control Register */ #define TA3CCTL4 (HWREG16(0x40000C0A)) /*!< Timer_A Capture/Compare Control Register */ #define TA3R (HWREG16(0x40000C10)) /*!< TimerA register */ #define TA3CCR0 (HWREG16(0x40000C12)) /*!< Timer_A Capture/Compare Register */ #define TA3CCR1 (HWREG16(0x40000C14)) /*!< Timer_A Capture/Compare Register */ #define TA3CCR2 (HWREG16(0x40000C16)) /*!< Timer_A Capture/Compare Register */ #define TA3CCR3 (HWREG16(0x40000C18)) /*!< Timer_A Capture/Compare Register */ #define TA3CCR4 (HWREG16(0x40000C1A)) /*!< Timer_A Capture/Compare Register */ #define TA3EX0 (HWREG16(0x40000C20)) /*!< TimerAx Expansion 0 Register */ #define TA3IV (HWREG16(0x40000C2E)) /*!< TimerAx Interrupt Vector Register */ /* Register offsets from TIMER_A3_BASE address */ #define OFS_TA3CTL (0x0000) /*!< TimerAx Control Register */ #define OFS_TA3CCTL0 (0x0002) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA3CCTL1 (0x0004) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA3CCTL2 (0x0006) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA3CCTL3 (0x0008) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA3CCTL4 (0x000A) /*!< Timer_A Capture/Compare Control Register */ #define OFS_TA3R (0x0010) /*!< TimerA register */ #define OFS_TA3CCR0 (0x0012) /*!< Timer_A Capture/Compare Register */ #define OFS_TA3CCR1 (0x0014) /*!< Timer_A Capture/Compare Register */ #define OFS_TA3CCR2 (0x0016) /*!< Timer_A Capture/Compare Register */ #define OFS_TA3CCR3 (0x0018) /*!< Timer_A Capture/Compare Register */ #define OFS_TA3CCR4 (0x001A) /*!< Timer_A Capture/Compare Register */ #define OFS_TA3EX0 (0x0020) /*!< TimerAx Expansion 0 Register */ #define OFS_TA3IV (0x002E) /*!< TimerAx Interrupt Vector Register */ /****************************************************************************** * WDT_A Registers ******************************************************************************/ #define WDTCTL (HWREG16(0x4000480C)) /*!< Watchdog Timer Control Register */ /* Register offsets from WDT_A_BASE address */ #define OFS_WDTCTL (0x000C) /*!< Watchdog Timer Control Register */ /****************************************************************************** * Peripheral register control bits (legacy section) * ******************************************************************************/ /****************************************************************************** * AES256 Bits (legacy section) ******************************************************************************/ /* AESACTL0[AESOP] Bits */ #define AESOP_OFS AES256_CTL0_OP_OFS /*!< AESOP Offset */ #define AESOP_M AES256_CTL0_OP_MASK /*!< AES operation */ #define AESOP0 AES256_CTL0_OP0 /*!< AESOP Bit 0 */ #define AESOP1 AES256_CTL0_OP1 /*!< AESOP Bit 1 */ #define AESOP_0 AES256_CTL0_OP_0 /*!< Encryption */ #define AESOP_1 AES256_CTL0_OP_1 /*!< Decryption. The provided key is the same key used for encryption */ #define AESOP_2 AES256_CTL0_OP_2 /*!< Generate first round key required for decryption */ #define AESOP_3 AES256_CTL0_OP_3 /*!< Decryption. The provided key is the first round key required for decryption */ /* AESACTL0[AESKL] Bits */ #define AESKL_OFS AES256_CTL0_KL_OFS /*!< AESKL Offset */ #define AESKL_M AES256_CTL0_KL_MASK /*!< AES key length */ #define AESKL0 AES256_CTL0_KL0 /*!< AESKL Bit 0 */ #define AESKL1 AES256_CTL0_KL1 /*!< AESKL Bit 1 */ #define AESKL_0 AES256_CTL0_KL_0 /*!< AES128. The key size is 128 bit */ #define AESKL_1 AES256_CTL0_KL_1 /*!< AES192. The key size is 192 bit. */ #define AESKL_2 AES256_CTL0_KL_2 /*!< AES256. The key size is 256 bit */ #define AESKL__128BIT AES256_CTL0_KL__128BIT /*!< AES128. The key size is 128 bit */ #define AESKL__192BIT AES256_CTL0_KL__192BIT /*!< AES192. The key size is 192 bit. */ #define AESKL__256BIT AES256_CTL0_KL__256BIT /*!< AES256. The key size is 256 bit */ /* AESACTL0[AESCM] Bits */ #define AESCM_OFS AES256_CTL0_CM_OFS /*!< AESCM Offset */ #define AESCM_M AES256_CTL0_CM_MASK /*!< AES cipher mode select */ #define AESCM0 AES256_CTL0_CM0 /*!< AESCM Bit 0 */ #define AESCM1 AES256_CTL0_CM1 /*!< AESCM Bit 1 */ #define AESCM_0 AES256_CTL0_CM_0 /*!< ECB */ #define AESCM_1 AES256_CTL0_CM_1 /*!< CBC */ #define AESCM_2 AES256_CTL0_CM_2 /*!< OFB */ #define AESCM_3 AES256_CTL0_CM_3 /*!< CFB */ #define AESCM__ECB AES256_CTL0_CM__ECB /*!< ECB */ #define AESCM__CBC AES256_CTL0_CM__CBC /*!< CBC */ #define AESCM__OFB AES256_CTL0_CM__OFB /*!< OFB */ #define AESCM__CFB AES256_CTL0_CM__CFB /*!< CFB */ /* AESACTL0[AESSWRST] Bits */ #define AESSWRST_OFS AES256_CTL0_SWRST_OFS /*!< AESSWRST Offset */ #define AESSWRST AES256_CTL0_SWRST /*!< AES software reset */ /* AESACTL0[AESRDYIFG] Bits */ #define AESRDYIFG_OFS AES256_CTL0_RDYIFG_OFS /*!< AESRDYIFG Offset */ #define AESRDYIFG AES256_CTL0_RDYIFG /*!< AES ready interrupt flag */ /* AESACTL0[AESERRFG] Bits */ #define AESERRFG_OFS AES256_CTL0_ERRFG_OFS /*!< AESERRFG Offset */ #define AESERRFG AES256_CTL0_ERRFG /*!< AES error flag */ /* AESACTL0[AESRDYIE] Bits */ #define AESRDYIE_OFS AES256_CTL0_RDYIE_OFS /*!< AESRDYIE Offset */ #define AESRDYIE AES256_CTL0_RDYIE /*!< AES ready interrupt enable */ /* AESACTL0[AESCMEN] Bits */ #define AESCMEN_OFS AES256_CTL0_CMEN_OFS /*!< AESCMEN Offset */ #define AESCMEN AES256_CTL0_CMEN /*!< AES cipher mode enable */ /* AESACTL1[AESBLKCNT] Bits */ #define AESBLKCNT_OFS AES256_CTL1_BLKCNT_OFS /*!< AESBLKCNT Offset */ #define AESBLKCNT_M AES256_CTL1_BLKCNT_MASK /*!< Cipher Block Counter */ #define AESBLKCNT0 AES256_CTL1_BLKCNT0 /*!< AESBLKCNT Bit 0 */ #define AESBLKCNT1 AES256_CTL1_BLKCNT1 /*!< AESBLKCNT Bit 1 */ #define AESBLKCNT2 AES256_CTL1_BLKCNT2 /*!< AESBLKCNT Bit 2 */ #define AESBLKCNT3 AES256_CTL1_BLKCNT3 /*!< AESBLKCNT Bit 3 */ #define AESBLKCNT4 AES256_CTL1_BLKCNT4 /*!< AESBLKCNT Bit 4 */ #define AESBLKCNT5 AES256_CTL1_BLKCNT5 /*!< AESBLKCNT Bit 5 */ #define AESBLKCNT6 AES256_CTL1_BLKCNT6 /*!< AESBLKCNT Bit 6 */ #define AESBLKCNT7 AES256_CTL1_BLKCNT7 /*!< AESBLKCNT Bit 7 */ /* AESASTAT[AESBUSY] Bits */ #define AESBUSY_OFS AES256_STAT_BUSY_OFS /*!< AESBUSY Offset */ #define AESBUSY AES256_STAT_BUSY /*!< AES accelerator module busy */ /* AESASTAT[AESKEYWR] Bits */ #define AESKEYWR_OFS AES256_STAT_KEYWR_OFS /*!< AESKEYWR Offset */ #define AESKEYWR AES256_STAT_KEYWR /*!< All 16 bytes written to AESAKEY */ /* AESASTAT[AESDINWR] Bits */ #define AESDINWR_OFS AES256_STAT_DINWR_OFS /*!< AESDINWR Offset */ #define AESDINWR AES256_STAT_DINWR /*!< All 16 bytes written to AESADIN, AESAXDIN or AESAXIN */ /* AESASTAT[AESDOUTRD] Bits */ #define AESDOUTRD_OFS AES256_STAT_DOUTRD_OFS /*!< AESDOUTRD Offset */ #define AESDOUTRD AES256_STAT_DOUTRD /*!< All 16 bytes read from AESADOUT */ /* AESASTAT[AESKEYCNT] Bits */ #define AESKEYCNT_OFS AES256_STAT_KEYCNT_OFS /*!< AESKEYCNT Offset */ #define AESKEYCNT_M AES256_STAT_KEYCNT_MASK /*!< Bytes written via AESAKEY for AESKLx=00, half-words written via AESAKEY */ #define AESKEYCNT0 AES256_STAT_KEYCNT0 /*!< AESKEYCNT Bit 0 */ #define AESKEYCNT1 AES256_STAT_KEYCNT1 /*!< AESKEYCNT Bit 1 */ #define AESKEYCNT2 AES256_STAT_KEYCNT2 /*!< AESKEYCNT Bit 2 */ #define AESKEYCNT3 AES256_STAT_KEYCNT3 /*!< AESKEYCNT Bit 3 */ /* AESASTAT[AESDINCNT] Bits */ #define AESDINCNT_OFS AES256_STAT_DINCNT_OFS /*!< AESDINCNT Offset */ #define AESDINCNT_M AES256_STAT_DINCNT_MASK /*!< Bytes written via AESADIN, AESAXDIN or AESAXIN */ #define AESDINCNT0 AES256_STAT_DINCNT0 /*!< AESDINCNT Bit 0 */ #define AESDINCNT1 AES256_STAT_DINCNT1 /*!< AESDINCNT Bit 1 */ #define AESDINCNT2 AES256_STAT_DINCNT2 /*!< AESDINCNT Bit 2 */ #define AESDINCNT3 AES256_STAT_DINCNT3 /*!< AESDINCNT Bit 3 */ /* AESASTAT[AESDOUTCNT] Bits */ #define AESDOUTCNT_OFS AES256_STAT_DOUTCNT_OFS /*!< AESDOUTCNT Offset */ #define AESDOUTCNT_M AES256_STAT_DOUTCNT_MASK /*!< Bytes read via AESADOUT */ #define AESDOUTCNT0 AES256_STAT_DOUTCNT0 /*!< AESDOUTCNT Bit 0 */ #define AESDOUTCNT1 AES256_STAT_DOUTCNT1 /*!< AESDOUTCNT Bit 1 */ #define AESDOUTCNT2 AES256_STAT_DOUTCNT2 /*!< AESDOUTCNT Bit 2 */ #define AESDOUTCNT3 AES256_STAT_DOUTCNT3 /*!< AESDOUTCNT Bit 3 */ /* AESAKEY[AESKEY0] Bits */ #define AESKEY0_OFS AES256_KEY_KEY0_OFS /*!< AESKEY0 Offset */ #define AESKEY0_M AES256_KEY_KEY0_MASK /*!< AES key byte n when AESAKEY is written as half-word */ #define AESKEY00 AES256_KEY_KEY00 /*!< AESKEY0 Bit 0 */ #define AESKEY01 AES256_KEY_KEY01 /*!< AESKEY0 Bit 1 */ #define AESKEY02 AES256_KEY_KEY02 /*!< AESKEY0 Bit 2 */ #define AESKEY03 AES256_KEY_KEY03 /*!< AESKEY0 Bit 3 */ #define AESKEY04 AES256_KEY_KEY04 /*!< AESKEY0 Bit 4 */ #define AESKEY05 AES256_KEY_KEY05 /*!< AESKEY0 Bit 5 */ #define AESKEY06 AES256_KEY_KEY06 /*!< AESKEY0 Bit 6 */ #define AESKEY07 AES256_KEY_KEY07 /*!< AESKEY0 Bit 7 */ /* AESAKEY[AESKEY1] Bits */ #define AESKEY1_OFS AES256_KEY_KEY1_OFS /*!< AESKEY1 Offset */ #define AESKEY1_M AES256_KEY_KEY1_MASK /*!< AES key byte n+1 when AESAKEY is written as half-word */ #define AESKEY10 AES256_KEY_KEY10 /*!< AESKEY1 Bit 0 */ #define AESKEY11 AES256_KEY_KEY11 /*!< AESKEY1 Bit 1 */ #define AESKEY12 AES256_KEY_KEY12 /*!< AESKEY1 Bit 2 */ #define AESKEY13 AES256_KEY_KEY13 /*!< AESKEY1 Bit 3 */ #define AESKEY14 AES256_KEY_KEY14 /*!< AESKEY1 Bit 4 */ #define AESKEY15 AES256_KEY_KEY15 /*!< AESKEY1 Bit 5 */ #define AESKEY16 AES256_KEY_KEY16 /*!< AESKEY1 Bit 6 */ #define AESKEY17 AES256_KEY_KEY17 /*!< AESKEY1 Bit 7 */ /* AESADIN[AESDIN0] Bits */ #define AESDIN0_OFS AES256_DIN_DIN0_OFS /*!< AESDIN0 Offset */ #define AESDIN0_M AES256_DIN_DIN0_MASK /*!< AES data in byte n when AESADIN is written as half-word */ #define AESDIN00 AES256_DIN_DIN00 /*!< AESDIN0 Bit 0 */ #define AESDIN01 AES256_DIN_DIN01 /*!< AESDIN0 Bit 1 */ #define AESDIN02 AES256_DIN_DIN02 /*!< AESDIN0 Bit 2 */ #define AESDIN03 AES256_DIN_DIN03 /*!< AESDIN0 Bit 3 */ #define AESDIN04 AES256_DIN_DIN04 /*!< AESDIN0 Bit 4 */ #define AESDIN05 AES256_DIN_DIN05 /*!< AESDIN0 Bit 5 */ #define AESDIN06 AES256_DIN_DIN06 /*!< AESDIN0 Bit 6 */ #define AESDIN07 AES256_DIN_DIN07 /*!< AESDIN0 Bit 7 */ /* AESADIN[AESDIN1] Bits */ #define AESDIN1_OFS AES256_DIN_DIN1_OFS /*!< AESDIN1 Offset */ #define AESDIN1_M AES256_DIN_DIN1_MASK /*!< AES data in byte n+1 when AESADIN is written as half-word */ #define AESDIN10 AES256_DIN_DIN10 /*!< AESDIN1 Bit 0 */ #define AESDIN11 AES256_DIN_DIN11 /*!< AESDIN1 Bit 1 */ #define AESDIN12 AES256_DIN_DIN12 /*!< AESDIN1 Bit 2 */ #define AESDIN13 AES256_DIN_DIN13 /*!< AESDIN1 Bit 3 */ #define AESDIN14 AES256_DIN_DIN14 /*!< AESDIN1 Bit 4 */ #define AESDIN15 AES256_DIN_DIN15 /*!< AESDIN1 Bit 5 */ #define AESDIN16 AES256_DIN_DIN16 /*!< AESDIN1 Bit 6 */ #define AESDIN17 AES256_DIN_DIN17 /*!< AESDIN1 Bit 7 */ /* AESADOUT[AESDOUT0] Bits */ #define AESDOUT0_OFS AES256_DOUT_DOUT0_OFS /*!< AESDOUT0 Offset */ #define AESDOUT0_M AES256_DOUT_DOUT0_MASK /*!< AES data out byte n when AESADOUT is read as half-word */ #define AESDOUT00 AES256_DOUT_DOUT00 /*!< AESDOUT0 Bit 0 */ #define AESDOUT01 AES256_DOUT_DOUT01 /*!< AESDOUT0 Bit 1 */ #define AESDOUT02 AES256_DOUT_DOUT02 /*!< AESDOUT0 Bit 2 */ #define AESDOUT03 AES256_DOUT_DOUT03 /*!< AESDOUT0 Bit 3 */ #define AESDOUT04 AES256_DOUT_DOUT04 /*!< AESDOUT0 Bit 4 */ #define AESDOUT05 AES256_DOUT_DOUT05 /*!< AESDOUT0 Bit 5 */ #define AESDOUT06 AES256_DOUT_DOUT06 /*!< AESDOUT0 Bit 6 */ #define AESDOUT07 AES256_DOUT_DOUT07 /*!< AESDOUT0 Bit 7 */ /* AESADOUT[AESDOUT1] Bits */ #define AESDOUT1_OFS AES256_DOUT_DOUT1_OFS /*!< AESDOUT1 Offset */ #define AESDOUT1_M AES256_DOUT_DOUT1_MASK /*!< AES data out byte n+1 when AESADOUT is read as half-word */ #define AESDOUT10 AES256_DOUT_DOUT10 /*!< AESDOUT1 Bit 0 */ #define AESDOUT11 AES256_DOUT_DOUT11 /*!< AESDOUT1 Bit 1 */ #define AESDOUT12 AES256_DOUT_DOUT12 /*!< AESDOUT1 Bit 2 */ #define AESDOUT13 AES256_DOUT_DOUT13 /*!< AESDOUT1 Bit 3 */ #define AESDOUT14 AES256_DOUT_DOUT14 /*!< AESDOUT1 Bit 4 */ #define AESDOUT15 AES256_DOUT_DOUT15 /*!< AESDOUT1 Bit 5 */ #define AESDOUT16 AES256_DOUT_DOUT16 /*!< AESDOUT1 Bit 6 */ #define AESDOUT17 AES256_DOUT_DOUT17 /*!< AESDOUT1 Bit 7 */ /* AESAXDIN[AESXDIN0] Bits */ #define AESXDIN0_OFS AES256_XDIN_XDIN0_OFS /*!< AESXDIN0 Offset */ #define AESXDIN0_M AES256_XDIN_XDIN0_MASK /*!< AES data in byte n when AESAXDIN is written as half-word */ #define AESXDIN00 AES256_XDIN_XDIN00 /*!< AESXDIN0 Bit 0 */ #define AESXDIN01 AES256_XDIN_XDIN01 /*!< AESXDIN0 Bit 1 */ #define AESXDIN02 AES256_XDIN_XDIN02 /*!< AESXDIN0 Bit 2 */ #define AESXDIN03 AES256_XDIN_XDIN03 /*!< AESXDIN0 Bit 3 */ #define AESXDIN04 AES256_XDIN_XDIN04 /*!< AESXDIN0 Bit 4 */ #define AESXDIN05 AES256_XDIN_XDIN05 /*!< AESXDIN0 Bit 5 */ #define AESXDIN06 AES256_XDIN_XDIN06 /*!< AESXDIN0 Bit 6 */ #define AESXDIN07 AES256_XDIN_XDIN07 /*!< AESXDIN0 Bit 7 */ /* AESAXDIN[AESXDIN1] Bits */ #define AESXDIN1_OFS AES256_XDIN_XDIN1_OFS /*!< AESXDIN1 Offset */ #define AESXDIN1_M AES256_XDIN_XDIN1_MASK /*!< AES data in byte n+1 when AESAXDIN is written as half-word */ #define AESXDIN10 AES256_XDIN_XDIN10 /*!< AESXDIN1 Bit 0 */ #define AESXDIN11 AES256_XDIN_XDIN11 /*!< AESXDIN1 Bit 1 */ #define AESXDIN12 AES256_XDIN_XDIN12 /*!< AESXDIN1 Bit 2 */ #define AESXDIN13 AES256_XDIN_XDIN13 /*!< AESXDIN1 Bit 3 */ #define AESXDIN14 AES256_XDIN_XDIN14 /*!< AESXDIN1 Bit 4 */ #define AESXDIN15 AES256_XDIN_XDIN15 /*!< AESXDIN1 Bit 5 */ #define AESXDIN16 AES256_XDIN_XDIN16 /*!< AESXDIN1 Bit 6 */ #define AESXDIN17 AES256_XDIN_XDIN17 /*!< AESXDIN1 Bit 7 */ /* AESAXIN[AESXIN0] Bits */ #define AESXIN0_OFS AES256_XIN_XIN0_OFS /*!< AESXIN0 Offset */ #define AESXIN0_M AES256_XIN_XIN0_MASK /*!< AES data in byte n when AESAXIN is written as half-word */ #define AESXIN00 AES256_XIN_XIN00 /*!< AESXIN0 Bit 0 */ #define AESXIN01 AES256_XIN_XIN01 /*!< AESXIN0 Bit 1 */ #define AESXIN02 AES256_XIN_XIN02 /*!< AESXIN0 Bit 2 */ #define AESXIN03 AES256_XIN_XIN03 /*!< AESXIN0 Bit 3 */ #define AESXIN04 AES256_XIN_XIN04 /*!< AESXIN0 Bit 4 */ #define AESXIN05 AES256_XIN_XIN05 /*!< AESXIN0 Bit 5 */ #define AESXIN06 AES256_XIN_XIN06 /*!< AESXIN0 Bit 6 */ #define AESXIN07 AES256_XIN_XIN07 /*!< AESXIN0 Bit 7 */ /* AESAXIN[AESXIN1] Bits */ #define AESXIN1_OFS AES256_XIN_XIN1_OFS /*!< AESXIN1 Offset */ #define AESXIN1_M AES256_XIN_XIN1_MASK /*!< AES data in byte n+1 when AESAXIN is written as half-word */ #define AESXIN10 AES256_XIN_XIN10 /*!< AESXIN1 Bit 0 */ #define AESXIN11 AES256_XIN_XIN11 /*!< AESXIN1 Bit 1 */ #define AESXIN12 AES256_XIN_XIN12 /*!< AESXIN1 Bit 2 */ #define AESXIN13 AES256_XIN_XIN13 /*!< AESXIN1 Bit 3 */ #define AESXIN14 AES256_XIN_XIN14 /*!< AESXIN1 Bit 4 */ #define AESXIN15 AES256_XIN_XIN15 /*!< AESXIN1 Bit 5 */ #define AESXIN16 AES256_XIN_XIN16 /*!< AESXIN1 Bit 6 */ #define AESXIN17 AES256_XIN_XIN17 /*!< AESXIN1 Bit 7 */ /****************************************************************************** * CAPTIO Bits (legacy section) ******************************************************************************/ /* CAPTIO0CTL[CAPTIOPISEL] Bits */ #define CAPTIOPISEL_OFS CAPTIO_CTL_PISEL_OFS /*!< CAPTIOPISEL Offset */ #define CAPTIOPISEL_M CAPTIO_CTL_PISEL_MASK /*!< Capacitive Touch IO pin select */ #define CAPTIOPISEL0 CAPTIO_CTL_PISEL0 /*!< CAPTIOPISEL Bit 0 */ #define CAPTIOPISEL1 CAPTIO_CTL_PISEL1 /*!< CAPTIOPISEL Bit 1 */ #define CAPTIOPISEL2 CAPTIO_CTL_PISEL2 /*!< CAPTIOPISEL Bit 2 */ #define CAPTIOPISEL_0 CAPTIO_CTL_PISEL_0 /*!< Px.0 */ #define CAPTIOPISEL_1 CAPTIO_CTL_PISEL_1 /*!< Px.1 */ #define CAPTIOPISEL_2 CAPTIO_CTL_PISEL_2 /*!< Px.2 */ #define CAPTIOPISEL_3 CAPTIO_CTL_PISEL_3 /*!< Px.3 */ #define CAPTIOPISEL_4 CAPTIO_CTL_PISEL_4 /*!< Px.4 */ #define CAPTIOPISEL_5 CAPTIO_CTL_PISEL_5 /*!< Px.5 */ #define CAPTIOPISEL_6 CAPTIO_CTL_PISEL_6 /*!< Px.6 */ #define CAPTIOPISEL_7 CAPTIO_CTL_PISEL_7 /*!< Px.7 */ /* CAPTIO0CTL[CAPTIOPOSEL] Bits */ #define CAPTIOPOSEL_OFS CAPTIO_CTL_POSEL_OFS /*!< CAPTIOPOSEL Offset */ #define CAPTIOPOSEL_M CAPTIO_CTL_POSEL_MASK /*!< Capacitive Touch IO port select */ #define CAPTIOPOSEL0 CAPTIO_CTL_POSEL0 /*!< CAPTIOPOSEL Bit 0 */ #define CAPTIOPOSEL1 CAPTIO_CTL_POSEL1 /*!< CAPTIOPOSEL Bit 1 */ #define CAPTIOPOSEL2 CAPTIO_CTL_POSEL2 /*!< CAPTIOPOSEL Bit 2 */ #define CAPTIOPOSEL3 CAPTIO_CTL_POSEL3 /*!< CAPTIOPOSEL Bit 3 */ #define CAPTIOPOSEL_0 CAPTIO_CTL_POSEL_0 /*!< Px = PJ */ #define CAPTIOPOSEL_1 CAPTIO_CTL_POSEL_1 /*!< Px = P1 */ #define CAPTIOPOSEL_2 CAPTIO_CTL_POSEL_2 /*!< Px = P2 */ #define CAPTIOPOSEL_3 CAPTIO_CTL_POSEL_3 /*!< Px = P3 */ #define CAPTIOPOSEL_4 CAPTIO_CTL_POSEL_4 /*!< Px = P4 */ #define CAPTIOPOSEL_5 CAPTIO_CTL_POSEL_5 /*!< Px = P5 */ #define CAPTIOPOSEL_6 CAPTIO_CTL_POSEL_6 /*!< Px = P6 */ #define CAPTIOPOSEL_7 CAPTIO_CTL_POSEL_7 /*!< Px = P7 */ #define CAPTIOPOSEL_8 CAPTIO_CTL_POSEL_8 /*!< Px = P8 */ #define CAPTIOPOSEL_9 CAPTIO_CTL_POSEL_9 /*!< Px = P9 */ #define CAPTIOPOSEL_10 CAPTIO_CTL_POSEL_10 /*!< Px = P10 */ #define CAPTIOPOSEL_11 CAPTIO_CTL_POSEL_11 /*!< Px = P11 */ #define CAPTIOPOSEL_12 CAPTIO_CTL_POSEL_12 /*!< Px = P12 */ #define CAPTIOPOSEL_13 CAPTIO_CTL_POSEL_13 /*!< Px = P13 */ #define CAPTIOPOSEL_14 CAPTIO_CTL_POSEL_14 /*!< Px = P14 */ #define CAPTIOPOSEL_15 CAPTIO_CTL_POSEL_15 /*!< Px = P15 */ #define CAPTIOPOSEL__PJ CAPTIO_CTL_POSEL__PJ /*!< Px = PJ */ #define CAPTIOPOSEL__P1 CAPTIO_CTL_POSEL__P1 /*!< Px = P1 */ #define CAPTIOPOSEL__P2 CAPTIO_CTL_POSEL__P2 /*!< Px = P2 */ #define CAPTIOPOSEL__P3 CAPTIO_CTL_POSEL__P3 /*!< Px = P3 */ #define CAPTIOPOSEL__P4 CAPTIO_CTL_POSEL__P4 /*!< Px = P4 */ #define CAPTIOPOSEL__P5 CAPTIO_CTL_POSEL__P5 /*!< Px = P5 */ #define CAPTIOPOSEL__P6 CAPTIO_CTL_POSEL__P6 /*!< Px = P6 */ #define CAPTIOPOSEL__P7 CAPTIO_CTL_POSEL__P7 /*!< Px = P7 */ #define CAPTIOPOSEL__P8 CAPTIO_CTL_POSEL__P8 /*!< Px = P8 */ #define CAPTIOPOSEL__P9 CAPTIO_CTL_POSEL__P9 /*!< Px = P9 */ #define CAPTIOPOSEL__P10 CAPTIO_CTL_POSEL__P10 /*!< Px = P10 */ #define CAPTIOPOSEL__P11 CAPTIO_CTL_POSEL__P11 /*!< Px = P11 */ #define CAPTIOPOSEL__P12 CAPTIO_CTL_POSEL__P12 /*!< Px = P12 */ #define CAPTIOPOSEL__P13 CAPTIO_CTL_POSEL__P13 /*!< Px = P13 */ #define CAPTIOPOSEL__P14 CAPTIO_CTL_POSEL__P14 /*!< Px = P14 */ #define CAPTIOPOSEL__P15 CAPTIO_CTL_POSEL__P15 /*!< Px = P15 */ /* CAPTIO0CTL[CAPTIOEN] Bits */ #define CAPTIOEN_OFS CAPTIO_CTL_EN_OFS /*!< CAPTIOEN Offset */ #define CAPTIOEN CAPTIO_CTL_EN /*!< Capacitive Touch IO enable */ /* CAPTIO0CTL[CAPTIOSTATE] Bits */ #define CAPTIOSTATE_OFS CAPTIO_CTL_STATE_OFS /*!< CAPTIOSTATE Offset */ #define CAPTIOSTATE CAPTIO_CTL_STATE /*!< Capacitive Touch IO state */ /****************************************************************************** * COMP_E Bits (legacy section) ******************************************************************************/ /* CE0CTL0[CEIPSEL] Bits */ #define CEIPSEL_OFS COMP_E_CTL0_IPSEL_OFS /*!< CEIPSEL Offset */ #define CEIPSEL_M COMP_E_CTL0_IPSEL_MASK /*!< Channel input selected for the V+ terminal */ #define CEIPSEL0 COMP_E_CTL0_IPSEL0 /*!< CEIPSEL Bit 0 */ #define CEIPSEL1 COMP_E_CTL0_IPSEL1 /*!< CEIPSEL Bit 1 */ #define CEIPSEL2 COMP_E_CTL0_IPSEL2 /*!< CEIPSEL Bit 2 */ #define CEIPSEL3 COMP_E_CTL0_IPSEL3 /*!< CEIPSEL Bit 3 */ #define CEIPSEL_0 COMP_E_CTL0_IPSEL_0 /*!< Channel 0 selected */ #define CEIPSEL_1 COMP_E_CTL0_IPSEL_1 /*!< Channel 1 selected */ #define CEIPSEL_2 COMP_E_CTL0_IPSEL_2 /*!< Channel 2 selected */ #define CEIPSEL_3 COMP_E_CTL0_IPSEL_3 /*!< Channel 3 selected */ #define CEIPSEL_4 COMP_E_CTL0_IPSEL_4 /*!< Channel 4 selected */ #define CEIPSEL_5 COMP_E_CTL0_IPSEL_5 /*!< Channel 5 selected */ #define CEIPSEL_6 COMP_E_CTL0_IPSEL_6 /*!< Channel 6 selected */ #define CEIPSEL_7 COMP_E_CTL0_IPSEL_7 /*!< Channel 7 selected */ #define CEIPSEL_8 COMP_E_CTL0_IPSEL_8 /*!< Channel 8 selected */ #define CEIPSEL_9 COMP_E_CTL0_IPSEL_9 /*!< Channel 9 selected */ #define CEIPSEL_10 COMP_E_CTL0_IPSEL_10 /*!< Channel 10 selected */ #define CEIPSEL_11 COMP_E_CTL0_IPSEL_11 /*!< Channel 11 selected */ #define CEIPSEL_12 COMP_E_CTL0_IPSEL_12 /*!< Channel 12 selected */ #define CEIPSEL_13 COMP_E_CTL0_IPSEL_13 /*!< Channel 13 selected */ #define CEIPSEL_14 COMP_E_CTL0_IPSEL_14 /*!< Channel 14 selected */ #define CEIPSEL_15 COMP_E_CTL0_IPSEL_15 /*!< Channel 15 selected */ /* CE0CTL0[CEIPEN] Bits */ #define CEIPEN_OFS COMP_E_CTL0_IPEN_OFS /*!< CEIPEN Offset */ #define CEIPEN COMP_E_CTL0_IPEN /*!< Channel input enable for the V+ terminal */ /* CE0CTL0[CEIMSEL] Bits */ #define CEIMSEL_OFS COMP_E_CTL0_IMSEL_OFS /*!< CEIMSEL Offset */ #define CEIMSEL_M COMP_E_CTL0_IMSEL_MASK /*!< Channel input selected for the - terminal */ #define CEIMSEL0 COMP_E_CTL0_IMSEL0 /*!< CEIMSEL Bit 0 */ #define CEIMSEL1 COMP_E_CTL0_IMSEL1 /*!< CEIMSEL Bit 1 */ #define CEIMSEL2 COMP_E_CTL0_IMSEL2 /*!< CEIMSEL Bit 2 */ #define CEIMSEL3 COMP_E_CTL0_IMSEL3 /*!< CEIMSEL Bit 3 */ #define CEIMSEL_0 COMP_E_CTL0_IMSEL_0 /*!< Channel 0 selected */ #define CEIMSEL_1 COMP_E_CTL0_IMSEL_1 /*!< Channel 1 selected */ #define CEIMSEL_2 COMP_E_CTL0_IMSEL_2 /*!< Channel 2 selected */ #define CEIMSEL_3 COMP_E_CTL0_IMSEL_3 /*!< Channel 3 selected */ #define CEIMSEL_4 COMP_E_CTL0_IMSEL_4 /*!< Channel 4 selected */ #define CEIMSEL_5 COMP_E_CTL0_IMSEL_5 /*!< Channel 5 selected */ #define CEIMSEL_6 COMP_E_CTL0_IMSEL_6 /*!< Channel 6 selected */ #define CEIMSEL_7 COMP_E_CTL0_IMSEL_7 /*!< Channel 7 selected */ #define CEIMSEL_8 COMP_E_CTL0_IMSEL_8 /*!< Channel 8 selected */ #define CEIMSEL_9 COMP_E_CTL0_IMSEL_9 /*!< Channel 9 selected */ #define CEIMSEL_10 COMP_E_CTL0_IMSEL_10 /*!< Channel 10 selected */ #define CEIMSEL_11 COMP_E_CTL0_IMSEL_11 /*!< Channel 11 selected */ #define CEIMSEL_12 COMP_E_CTL0_IMSEL_12 /*!< Channel 12 selected */ #define CEIMSEL_13 COMP_E_CTL0_IMSEL_13 /*!< Channel 13 selected */ #define CEIMSEL_14 COMP_E_CTL0_IMSEL_14 /*!< Channel 14 selected */ #define CEIMSEL_15 COMP_E_CTL0_IMSEL_15 /*!< Channel 15 selected */ /* CE0CTL0[CEIMEN] Bits */ #define CEIMEN_OFS COMP_E_CTL0_IMEN_OFS /*!< CEIMEN Offset */ #define CEIMEN COMP_E_CTL0_IMEN /*!< Channel input enable for the - terminal */ /* CE0CTL1[CEOUT] Bits */ #define CEOUT_OFS COMP_E_CTL1_OUT_OFS /*!< CEOUT Offset */ #define CEOUT COMP_E_CTL1_OUT /*!< Comparator output value */ /* CE0CTL1[CEOUTPOL] Bits */ #define CEOUTPOL_OFS COMP_E_CTL1_OUTPOL_OFS /*!< CEOUTPOL Offset */ #define CEOUTPOL COMP_E_CTL1_OUTPOL /*!< Comparator output polarity */ /* CE0CTL1[CEF] Bits */ #define CEF_OFS COMP_E_CTL1_F_OFS /*!< CEF Offset */ #define CEF COMP_E_CTL1_F /*!< Comparator output filter */ /* CE0CTL1[CEIES] Bits */ #define CEIES_OFS COMP_E_CTL1_IES_OFS /*!< CEIES Offset */ #define CEIES COMP_E_CTL1_IES /*!< Interrupt edge select for CEIIFG and CEIFG */ /* CE0CTL1[CESHORT] Bits */ #define CESHORT_OFS COMP_E_CTL1_SHORT_OFS /*!< CESHORT Offset */ #define CESHORT COMP_E_CTL1_SHORT /*!< Input short */ /* CE0CTL1[CEEX] Bits */ #define CEEX_OFS COMP_E_CTL1_EX_OFS /*!< CEEX Offset */ #define CEEX COMP_E_CTL1_EX /*!< Exchange */ /* CE0CTL1[CEFDLY] Bits */ #define CEFDLY_OFS COMP_E_CTL1_FDLY_OFS /*!< CEFDLY Offset */ #define CEFDLY_M COMP_E_CTL1_FDLY_MASK /*!< Filter delay */ #define CEFDLY0 COMP_E_CTL1_FDLY0 /*!< CEFDLY Bit 0 */ #define CEFDLY1 COMP_E_CTL1_FDLY1 /*!< CEFDLY Bit 1 */ #define CEFDLY_0 COMP_E_CTL1_FDLY_0 /*!< Typical filter delay of TBD (450) ns */ #define CEFDLY_1 COMP_E_CTL1_FDLY_1 /*!< Typical filter delay of TBD (900) ns */ #define CEFDLY_2 COMP_E_CTL1_FDLY_2 /*!< Typical filter delay of TBD (1800) ns */ #define CEFDLY_3 COMP_E_CTL1_FDLY_3 /*!< Typical filter delay of TBD (3600) ns */ /* CE0CTL1[CEPWRMD] Bits */ #define CEPWRMD_OFS COMP_E_CTL1_PWRMD_OFS /*!< CEPWRMD Offset */ #define CEPWRMD_M COMP_E_CTL1_PWRMD_MASK /*!< Power Mode */ #define CEPWRMD0 COMP_E_CTL1_PWRMD0 /*!< CEPWRMD Bit 0 */ #define CEPWRMD1 COMP_E_CTL1_PWRMD1 /*!< CEPWRMD Bit 1 */ #define CEPWRMD_0 COMP_E_CTL1_PWRMD_0 /*!< High-speed mode */ #define CEPWRMD_1 COMP_E_CTL1_PWRMD_1 /*!< Normal mode */ #define CEPWRMD_2 COMP_E_CTL1_PWRMD_2 /*!< Ultra-low power mode */ /* CE0CTL1[CEON] Bits */ #define CEON_OFS COMP_E_CTL1_ON_OFS /*!< CEON Offset */ #define CEON COMP_E_CTL1_ON /*!< Comparator On */ /* CE0CTL1[CEMRVL] Bits */ #define CEMRVL_OFS COMP_E_CTL1_MRVL_OFS /*!< CEMRVL Offset */ #define CEMRVL COMP_E_CTL1_MRVL /*!< This bit is valid of CEMRVS is set to 1 */ /* CE0CTL1[CEMRVS] Bits */ #define CEMRVS_OFS COMP_E_CTL1_MRVS_OFS /*!< CEMRVS Offset */ #define CEMRVS COMP_E_CTL1_MRVS /* CE0CTL2[CEREF0] Bits */ #define CEREF0_OFS COMP_E_CTL2_REF0_OFS /*!< CEREF0 Offset */ #define CEREF0_M COMP_E_CTL2_REF0_MASK /*!< Reference resistor tap 0 */ #define CEREF00 COMP_E_CTL2_REF00 /*!< CEREF0 Bit 0 */ #define CEREF01 COMP_E_CTL2_REF01 /*!< CEREF0 Bit 1 */ #define CEREF02 COMP_E_CTL2_REF02 /*!< CEREF0 Bit 2 */ #define CEREF03 COMP_E_CTL2_REF03 /*!< CEREF0 Bit 3 */ #define CEREF04 COMP_E_CTL2_REF04 /*!< CEREF0 Bit 4 */ #define CEREF0_0 COMP_E_CTL2_REF0_0 /*!< Reference resistor tap for setting 0. */ #define CEREF0_1 COMP_E_CTL2_REF0_1 /*!< Reference resistor tap for setting 1. */ #define CEREF0_2 COMP_E_CTL2_REF0_2 /*!< Reference resistor tap for setting 2. */ #define CEREF0_3 COMP_E_CTL2_REF0_3 /*!< Reference resistor tap for setting 3. */ #define CEREF0_4 COMP_E_CTL2_REF0_4 /*!< Reference resistor tap for setting 4. */ #define CEREF0_5 COMP_E_CTL2_REF0_5 /*!< Reference resistor tap for setting 5. */ #define CEREF0_6 COMP_E_CTL2_REF0_6 /*!< Reference resistor tap for setting 6. */ #define CEREF0_7 COMP_E_CTL2_REF0_7 /*!< Reference resistor tap for setting 7. */ #define CEREF0_8 COMP_E_CTL2_REF0_8 /*!< Reference resistor tap for setting 8. */ #define CEREF0_9 COMP_E_CTL2_REF0_9 /*!< Reference resistor tap for setting 9. */ #define CEREF0_10 COMP_E_CTL2_REF0_10 /*!< Reference resistor tap for setting 10. */ #define CEREF0_11 COMP_E_CTL2_REF0_11 /*!< Reference resistor tap for setting 11. */ #define CEREF0_12 COMP_E_CTL2_REF0_12 /*!< Reference resistor tap for setting 12. */ #define CEREF0_13 COMP_E_CTL2_REF0_13 /*!< Reference resistor tap for setting 13. */ #define CEREF0_14 COMP_E_CTL2_REF0_14 /*!< Reference resistor tap for setting 14. */ #define CEREF0_15 COMP_E_CTL2_REF0_15 /*!< Reference resistor tap for setting 15. */ #define CEREF0_16 COMP_E_CTL2_REF0_16 /*!< Reference resistor tap for setting 16. */ #define CEREF0_17 COMP_E_CTL2_REF0_17 /*!< Reference resistor tap for setting 17. */ #define CEREF0_18 COMP_E_CTL2_REF0_18 /*!< Reference resistor tap for setting 18. */ #define CEREF0_19 COMP_E_CTL2_REF0_19 /*!< Reference resistor tap for setting 19. */ #define CEREF0_20 COMP_E_CTL2_REF0_20 /*!< Reference resistor tap for setting 20. */ #define CEREF0_21 COMP_E_CTL2_REF0_21 /*!< Reference resistor tap for setting 21. */ #define CEREF0_22 COMP_E_CTL2_REF0_22 /*!< Reference resistor tap for setting 22. */ #define CEREF0_23 COMP_E_CTL2_REF0_23 /*!< Reference resistor tap for setting 23. */ #define CEREF0_24 COMP_E_CTL2_REF0_24 /*!< Reference resistor tap for setting 24. */ #define CEREF0_25 COMP_E_CTL2_REF0_25 /*!< Reference resistor tap for setting 25. */ #define CEREF0_26 COMP_E_CTL2_REF0_26 /*!< Reference resistor tap for setting 26. */ #define CEREF0_27 COMP_E_CTL2_REF0_27 /*!< Reference resistor tap for setting 27. */ #define CEREF0_28 COMP_E_CTL2_REF0_28 /*!< Reference resistor tap for setting 28. */ #define CEREF0_29 COMP_E_CTL2_REF0_29 /*!< Reference resistor tap for setting 29. */ #define CEREF0_30 COMP_E_CTL2_REF0_30 /*!< Reference resistor tap for setting 30. */ #define CEREF0_31 COMP_E_CTL2_REF0_31 /*!< Reference resistor tap for setting 31. */ /* CE0CTL2[CERSEL] Bits */ #define CERSEL_OFS COMP_E_CTL2_RSEL_OFS /*!< CERSEL Offset */ #define CERSEL COMP_E_CTL2_RSEL /*!< Reference select */ /* CE0CTL2[CERS] Bits */ #define CERS_OFS COMP_E_CTL2_RS_OFS /*!< CERS Offset */ #define CERS_M COMP_E_CTL2_RS_MASK /*!< Reference source */ #define CERS0 COMP_E_CTL2_RS0 /*!< CERS Bit 0 */ #define CERS1 COMP_E_CTL2_RS1 /*!< CERS Bit 1 */ #define CERS_0 COMP_E_CTL2_RS_0 /*!< No current is drawn by the reference circuitry */ #define CERS_1 COMP_E_CTL2_RS_1 /*!< VCC applied to the resistor ladder */ #define CERS_2 COMP_E_CTL2_RS_2 /*!< Shared reference voltage applied to the resistor ladder */ #define CERS_3 COMP_E_CTL2_RS_3 /*!< Shared reference voltage supplied to V(CREF). Resistor ladder is off */ /* CE0CTL2[CEREF1] Bits */ #define CEREF1_OFS COMP_E_CTL2_REF1_OFS /*!< CEREF1 Offset */ #define CEREF1_M COMP_E_CTL2_REF1_MASK /*!< Reference resistor tap 1 */ #define CEREF10 COMP_E_CTL2_REF10 /*!< CEREF1 Bit 0 */ #define CEREF11 COMP_E_CTL2_REF11 /*!< CEREF1 Bit 1 */ #define CEREF12 COMP_E_CTL2_REF12 /*!< CEREF1 Bit 2 */ #define CEREF13 COMP_E_CTL2_REF13 /*!< CEREF1 Bit 3 */ #define CEREF14 COMP_E_CTL2_REF14 /*!< CEREF1 Bit 4 */ #define CEREF1_0 COMP_E_CTL2_REF1_0 /*!< Reference resistor tap for setting 0. */ #define CEREF1_1 COMP_E_CTL2_REF1_1 /*!< Reference resistor tap for setting 1. */ #define CEREF1_2 COMP_E_CTL2_REF1_2 /*!< Reference resistor tap for setting 2. */ #define CEREF1_3 COMP_E_CTL2_REF1_3 /*!< Reference resistor tap for setting 3. */ #define CEREF1_4 COMP_E_CTL2_REF1_4 /*!< Reference resistor tap for setting 4. */ #define CEREF1_5 COMP_E_CTL2_REF1_5 /*!< Reference resistor tap for setting 5. */ #define CEREF1_6 COMP_E_CTL2_REF1_6 /*!< Reference resistor tap for setting 6. */ #define CEREF1_7 COMP_E_CTL2_REF1_7 /*!< Reference resistor tap for setting 7. */ #define CEREF1_8 COMP_E_CTL2_REF1_8 /*!< Reference resistor tap for setting 8. */ #define CEREF1_9 COMP_E_CTL2_REF1_9 /*!< Reference resistor tap for setting 9. */ #define CEREF1_10 COMP_E_CTL2_REF1_10 /*!< Reference resistor tap for setting 10. */ #define CEREF1_11 COMP_E_CTL2_REF1_11 /*!< Reference resistor tap for setting 11. */ #define CEREF1_12 COMP_E_CTL2_REF1_12 /*!< Reference resistor tap for setting 12. */ #define CEREF1_13 COMP_E_CTL2_REF1_13 /*!< Reference resistor tap for setting 13. */ #define CEREF1_14 COMP_E_CTL2_REF1_14 /*!< Reference resistor tap for setting 14. */ #define CEREF1_15 COMP_E_CTL2_REF1_15 /*!< Reference resistor tap for setting 15. */ #define CEREF1_16 COMP_E_CTL2_REF1_16 /*!< Reference resistor tap for setting 16. */ #define CEREF1_17 COMP_E_CTL2_REF1_17 /*!< Reference resistor tap for setting 17. */ #define CEREF1_18 COMP_E_CTL2_REF1_18 /*!< Reference resistor tap for setting 18. */ #define CEREF1_19 COMP_E_CTL2_REF1_19 /*!< Reference resistor tap for setting 19. */ #define CEREF1_20 COMP_E_CTL2_REF1_20 /*!< Reference resistor tap for setting 20. */ #define CEREF1_21 COMP_E_CTL2_REF1_21 /*!< Reference resistor tap for setting 21. */ #define CEREF1_22 COMP_E_CTL2_REF1_22 /*!< Reference resistor tap for setting 22. */ #define CEREF1_23 COMP_E_CTL2_REF1_23 /*!< Reference resistor tap for setting 23. */ #define CEREF1_24 COMP_E_CTL2_REF1_24 /*!< Reference resistor tap for setting 24. */ #define CEREF1_25 COMP_E_CTL2_REF1_25 /*!< Reference resistor tap for setting 25. */ #define CEREF1_26 COMP_E_CTL2_REF1_26 /*!< Reference resistor tap for setting 26. */ #define CEREF1_27 COMP_E_CTL2_REF1_27 /*!< Reference resistor tap for setting 27. */ #define CEREF1_28 COMP_E_CTL2_REF1_28 /*!< Reference resistor tap for setting 28. */ #define CEREF1_29 COMP_E_CTL2_REF1_29 /*!< Reference resistor tap for setting 29. */ #define CEREF1_30 COMP_E_CTL2_REF1_30 /*!< Reference resistor tap for setting 30. */ #define CEREF1_31 COMP_E_CTL2_REF1_31 /*!< Reference resistor tap for setting 31. */ /* CE0CTL2[CEREFL] Bits */ #define CEREFL_OFS COMP_E_CTL2_REFL_OFS /*!< CEREFL Offset */ #define CEREFL_M COMP_E_CTL2_REFL_MASK /*!< Reference voltage level */ #define CEREFL0 COMP_E_CTL2_REFL0 /*!< CEREFL Bit 0 */ #define CEREFL1 COMP_E_CTL2_REFL1 /*!< CEREFL Bit 1 */ #define CEREFL_0 COMP_E_CTL2_CEREFL_0 /*!< Reference amplifier is disabled. No reference voltage is requested */ #define CEREFL_1 COMP_E_CTL2_CEREFL_1 /*!< 1.2 V is selected as shared reference voltage input */ #define CEREFL_2 COMP_E_CTL2_CEREFL_2 /*!< 2.0 V is selected as shared reference voltage input */ #define CEREFL_3 COMP_E_CTL2_CEREFL_3 /*!< 2.5 V is selected as shared reference voltage input */ #define CEREFL__OFF COMP_E_CTL2_REFL__OFF /*!< Reference amplifier is disabled. No reference voltage is requested */ #define CEREFL__1P2V COMP_E_CTL2_REFL__1P2V /*!< 1.2 V is selected as shared reference voltage input */ #define CEREFL__2P0V COMP_E_CTL2_REFL__2P0V /*!< 2.0 V is selected as shared reference voltage input */ #define CEREFL__2P5V COMP_E_CTL2_REFL__2P5V /*!< 2.5 V is selected as shared reference voltage input */ /* CE0CTL2[CEREFACC] Bits */ #define CEREFACC_OFS COMP_E_CTL2_REFACC_OFS /*!< CEREFACC Offset */ #define CEREFACC COMP_E_CTL2_REFACC /*!< Reference accuracy */ /* CE0CTL3[CEPD0] Bits */ #define CEPD0_OFS COMP_E_CTL3_PD0_OFS /*!< CEPD0 Offset */ #define CEPD0 COMP_E_CTL3_PD0 /*!< Port disable */ /* CE0CTL3[CEPD1] Bits */ #define CEPD1_OFS COMP_E_CTL3_PD1_OFS /*!< CEPD1 Offset */ #define CEPD1 COMP_E_CTL3_PD1 /*!< Port disable */ /* CE0CTL3[CEPD2] Bits */ #define CEPD2_OFS COMP_E_CTL3_PD2_OFS /*!< CEPD2 Offset */ #define CEPD2 COMP_E_CTL3_PD2 /*!< Port disable */ /* CE0CTL3[CEPD3] Bits */ #define CEPD3_OFS COMP_E_CTL3_PD3_OFS /*!< CEPD3 Offset */ #define CEPD3 COMP_E_CTL3_PD3 /*!< Port disable */ /* CE0CTL3[CEPD4] Bits */ #define CEPD4_OFS COMP_E_CTL3_PD4_OFS /*!< CEPD4 Offset */ #define CEPD4 COMP_E_CTL3_PD4 /*!< Port disable */ /* CE0CTL3[CEPD5] Bits */ #define CEPD5_OFS COMP_E_CTL3_PD5_OFS /*!< CEPD5 Offset */ #define CEPD5 COMP_E_CTL3_PD5 /*!< Port disable */ /* CE0CTL3[CEPD6] Bits */ #define CEPD6_OFS COMP_E_CTL3_PD6_OFS /*!< CEPD6 Offset */ #define CEPD6 COMP_E_CTL3_PD6 /*!< Port disable */ /* CE0CTL3[CEPD7] Bits */ #define CEPD7_OFS COMP_E_CTL3_PD7_OFS /*!< CEPD7 Offset */ #define CEPD7 COMP_E_CTL3_PD7 /*!< Port disable */ /* CE0CTL3[CEPD8] Bits */ #define CEPD8_OFS COMP_E_CTL3_PD8_OFS /*!< CEPD8 Offset */ #define CEPD8 COMP_E_CTL3_PD8 /*!< Port disable */ /* CE0CTL3[CEPD9] Bits */ #define CEPD9_OFS COMP_E_CTL3_PD9_OFS /*!< CEPD9 Offset */ #define CEPD9 COMP_E_CTL3_PD9 /*!< Port disable */ /* CE0CTL3[CEPD10] Bits */ #define CEPD10_OFS COMP_E_CTL3_PD10_OFS /*!< CEPD10 Offset */ #define CEPD10 COMP_E_CTL3_PD10 /*!< Port disable */ /* CE0CTL3[CEPD11] Bits */ #define CEPD11_OFS COMP_E_CTL3_PD11_OFS /*!< CEPD11 Offset */ #define CEPD11 COMP_E_CTL3_PD11 /*!< Port disable */ /* CE0CTL3[CEPD12] Bits */ #define CEPD12_OFS COMP_E_CTL3_PD12_OFS /*!< CEPD12 Offset */ #define CEPD12 COMP_E_CTL3_PD12 /*!< Port disable */ /* CE0CTL3[CEPD13] Bits */ #define CEPD13_OFS COMP_E_CTL3_PD13_OFS /*!< CEPD13 Offset */ #define CEPD13 COMP_E_CTL3_PD13 /*!< Port disable */ /* CE0CTL3[CEPD14] Bits */ #define CEPD14_OFS COMP_E_CTL3_PD14_OFS /*!< CEPD14 Offset */ #define CEPD14 COMP_E_CTL3_PD14 /*!< Port disable */ /* CE0CTL3[CEPD15] Bits */ #define CEPD15_OFS COMP_E_CTL3_PD15_OFS /*!< CEPD15 Offset */ #define CEPD15 COMP_E_CTL3_PD15 /*!< Port disable */ /* CE0INT[CEIFG] Bits */ #define CEIFG_OFS COMP_E_INT_IFG_OFS /*!< CEIFG Offset */ #define CEIFG COMP_E_INT_IFG /*!< Comparator output interrupt flag */ /* CE0INT[CEIIFG] Bits */ #define CEIIFG_OFS COMP_E_INT_IIFG_OFS /*!< CEIIFG Offset */ #define CEIIFG COMP_E_INT_IIFG /*!< Comparator output inverted interrupt flag */ /* CE0INT[CERDYIFG] Bits */ #define CERDYIFG_OFS COMP_E_INT_RDYIFG_OFS /*!< CERDYIFG Offset */ #define CERDYIFG COMP_E_INT_RDYIFG /*!< Comparator ready interrupt flag */ /* CE0INT[CEIE] Bits */ #define CEIE_OFS COMP_E_INT_IE_OFS /*!< CEIE Offset */ #define CEIE COMP_E_INT_IE /*!< Comparator output interrupt enable */ /* CE0INT[CEIIE] Bits */ #define CEIIE_OFS COMP_E_INT_IIE_OFS /*!< CEIIE Offset */ #define CEIIE COMP_E_INT_IIE /*!< Comparator output interrupt enable inverted polarity */ /* CE0INT[CERDYIE] Bits */ #define CERDYIE_OFS COMP_E_INT_RDYIE_OFS /*!< CERDYIE Offset */ #define CERDYIE COMP_E_INT_RDYIE /*!< Comparator ready interrupt enable */ /****************************************************************************** * CRC32 Bits (legacy section) ******************************************************************************/ /* DIO_PAIN[P1IN] Bits */ #define P1IN_OFS ( 0) /*!< P1IN Offset */ #define P1IN_M (0x00ff) /*!< Port 1 Input */ /* DIO_PAIN[P2IN] Bits */ #define P2IN_OFS ( 8) /*!< P2IN Offset */ #define P2IN_M (0xff00) /*!< Port 2 Input */ /* DIO_PAOUT[P2OUT] Bits */ #define P2OUT_OFS ( 8) /*!< P2OUT Offset */ #define P2OUT_M (0xff00) /*!< Port 2 Output */ /* DIO_PAOUT[P1OUT] Bits */ #define P1OUT_OFS ( 0) /*!< P1OUT Offset */ #define P1OUT_M (0x00ff) /*!< Port 1 Output */ /* DIO_PADIR[P1DIR] Bits */ #define P1DIR_OFS ( 0) /*!< P1DIR Offset */ #define P1DIR_M (0x00ff) /*!< Port 1 Direction */ /* DIO_PADIR[P2DIR] Bits */ #define P2DIR_OFS ( 8) /*!< P2DIR Offset */ #define P2DIR_M (0xff00) /*!< Port 2 Direction */ /* DIO_PAREN[P1REN] Bits */ #define P1REN_OFS ( 0) /*!< P1REN Offset */ #define P1REN_M (0x00ff) /*!< Port 1 Resistor Enable */ /* DIO_PAREN[P2REN] Bits */ #define P2REN_OFS ( 8) /*!< P2REN Offset */ #define P2REN_M (0xff00) /*!< Port 2 Resistor Enable */ /* DIO_PADS[P1DS] Bits */ #define P1DS_OFS ( 0) /*!< P1DS Offset */ #define P1DS_M (0x00ff) /*!< Port 1 Drive Strength */ /* DIO_PADS[P2DS] Bits */ #define P2DS_OFS ( 8) /*!< P2DS Offset */ #define P2DS_M (0xff00) /*!< Port 2 Drive Strength */ /* DIO_PASEL0[P1SEL0] Bits */ #define P1SEL0_OFS ( 0) /*!< P1SEL0 Offset */ #define P1SEL0_M (0x00ff) /*!< Port 1 Select 0 */ /* DIO_PASEL0[P2SEL0] Bits */ #define P2SEL0_OFS ( 8) /*!< P2SEL0 Offset */ #define P2SEL0_M (0xff00) /*!< Port 2 Select 0 */ /* DIO_PASEL1[P1SEL1] Bits */ #define P1SEL1_OFS ( 0) /*!< P1SEL1 Offset */ #define P1SEL1_M (0x00ff) /*!< Port 1 Select 1 */ /* DIO_PASEL1[P2SEL1] Bits */ #define P2SEL1_OFS ( 8) /*!< P2SEL1 Offset */ #define P2SEL1_M (0xff00) /*!< Port 2 Select 1 */ /* DIO_P1IV[P1IV] Bits */ #define P1IV_OFS ( 0) /*!< P1IV Offset */ #define P1IV_M (0x001f) /*!< Port 1 interrupt vector value */ #define P1IV0 (0x0001) /*!< Port 1 interrupt vector value */ #define P1IV1 (0x0002) /*!< Port 1 interrupt vector value */ #define P1IV2 (0x0004) /*!< Port 1 interrupt vector value */ #define P1IV3 (0x0008) /*!< Port 1 interrupt vector value */ #define P1IV4 (0x0010) /*!< Port 1 interrupt vector value */ #define P1IV_0 (0x0000) /*!< No interrupt pending */ #define P1IV_2 (0x0002) /*!< Interrupt Source: Port 1.0 interrupt; Interrupt Flag: P1IFG0; Interrupt Priority: Highest */ #define P1IV_4 (0x0004) /*!< Interrupt Source: Port 1.1 interrupt; Interrupt Flag: P1IFG1 */ #define P1IV_6 (0x0006) /*!< Interrupt Source: Port 1.2 interrupt; Interrupt Flag: P1IFG2 */ #define P1IV_8 (0x0008) /*!< Interrupt Source: Port 1.3 interrupt; Interrupt Flag: P1IFG3 */ #define P1IV_10 (0x000a) /*!< Interrupt Source: Port 1.4 interrupt; Interrupt Flag: P1IFG4 */ #define P1IV_12 (0x000c) /*!< Interrupt Source: Port 1.5 interrupt; Interrupt Flag: P1IFG5 */ #define P1IV_14 (0x000e) /*!< Interrupt Source: Port 1.6 interrupt; Interrupt Flag: P1IFG6 */ #define P1IV_16 (0x0010) /*!< Interrupt Source: Port 1.7 interrupt; Interrupt Flag: P1IFG7; Interrupt Priority: Lowest */ #define P1IV__NONE (0x0000) /*!< No interrupt pending */ #define P1IV__P1IFG0 (0x0002) /*!< Interrupt Source: Port 1.0 interrupt; Interrupt Flag: P1IFG0; Interrupt Priority: Highest */ #define P1IV__P1IFG1 (0x0004) /*!< Interrupt Source: Port 1.1 interrupt; Interrupt Flag: P1IFG1 */ #define P1IV__P1IFG2 (0x0006) /*!< Interrupt Source: Port 1.2 interrupt; Interrupt Flag: P1IFG2 */ #define P1IV__P1IFG3 (0x0008) /*!< Interrupt Source: Port 1.3 interrupt; Interrupt Flag: P1IFG3 */ #define P1IV__P1IFG4 (0x000a) /*!< Interrupt Source: Port 1.4 interrupt; Interrupt Flag: P1IFG4 */ #define P1IV__P1IFG5 (0x000c) /*!< Interrupt Source: Port 1.5 interrupt; Interrupt Flag: P1IFG5 */ #define P1IV__P1IFG6 (0x000e) /*!< Interrupt Source: Port 1.6 interrupt; Interrupt Flag: P1IFG6 */ #define P1IV__P1IFG7 (0x0010) /*!< Interrupt Source: Port 1.7 interrupt; Interrupt Flag: P1IFG7; Interrupt Priority: Lowest */ /* DIO_PASELC[P1SELC] Bits */ #define P1SELC_OFS ( 0) /*!< P1SELC Offset */ #define P1SELC_M (0x00ff) /*!< Port 1 Complement Select */ /* DIO_PASELC[P2SELC] Bits */ #define P2SELC_OFS ( 8) /*!< P2SELC Offset */ #define P2SELC_M (0xff00) /*!< Port 2 Complement Select */ /* DIO_PAIES[P1IES] Bits */ #define P1IES_OFS ( 0) /*!< P1IES Offset */ #define P1IES_M (0x00ff) /*!< Port 1 Interrupt Edge Select */ /* DIO_PAIES[P2IES] Bits */ #define P2IES_OFS ( 8) /*!< P2IES Offset */ #define P2IES_M (0xff00) /*!< Port 2 Interrupt Edge Select */ /* DIO_PAIE[P1IE] Bits */ #define P1IE_OFS ( 0) /*!< P1IE Offset */ #define P1IE_M (0x00ff) /*!< Port 1 Interrupt Enable */ /* DIO_PAIE[P2IE] Bits */ #define P2IE_OFS ( 8) /*!< P2IE Offset */ #define P2IE_M (0xff00) /*!< Port 2 Interrupt Enable */ /* DIO_PAIFG[P1IFG] Bits */ #define P1IFG_OFS ( 0) /*!< P1IFG Offset */ #define P1IFG_M (0x00ff) /*!< Port 1 Interrupt Flag */ /* DIO_PAIFG[P2IFG] Bits */ #define P2IFG_OFS ( 8) /*!< P2IFG Offset */ #define P2IFG_M (0xff00) /*!< Port 2 Interrupt Flag */ /* DIO_P2IV[P2IV] Bits */ #define P2IV_OFS ( 0) /*!< P2IV Offset */ #define P2IV_M (0x001f) /*!< Port 2 interrupt vector value */ #define P2IV0 (0x0001) /*!< Port 2 interrupt vector value */ #define P2IV1 (0x0002) /*!< Port 2 interrupt vector value */ #define P2IV2 (0x0004) /*!< Port 2 interrupt vector value */ #define P2IV3 (0x0008) /*!< Port 2 interrupt vector value */ #define P2IV4 (0x0010) /*!< Port 2 interrupt vector value */ #define P2IV_0 (0x0000) /*!< No interrupt pending */ #define P2IV_2 (0x0002) /*!< Interrupt Source: Port 2.0 interrupt; Interrupt Flag: P2IFG0; Interrupt Priority: Highest */ #define P2IV_4 (0x0004) /*!< Interrupt Source: Port 2.1 interrupt; Interrupt Flag: P2IFG1 */ #define P2IV_6 (0x0006) /*!< Interrupt Source: Port 2.2 interrupt; Interrupt Flag: P2IFG2 */ #define P2IV_8 (0x0008) /*!< Interrupt Source: Port 2.3 interrupt; Interrupt Flag: P2IFG3 */ #define P2IV_10 (0x000a) /*!< Interrupt Source: Port 2.4 interrupt; Interrupt Flag: P2IFG4 */ #define P2IV_12 (0x000c) /*!< Interrupt Source: Port 2.5 interrupt; Interrupt Flag: P2IFG5 */ #define P2IV_14 (0x000e) /*!< Interrupt Source: Port 2.6 interrupt; Interrupt Flag: P2IFG6 */ #define P2IV_16 (0x0010) /*!< Interrupt Source: Port 2.7 interrupt; Interrupt Flag: P2IFG7; Interrupt Priority: Lowest */ #define P2IV__NONE (0x0000) /*!< No interrupt pending */ #define P2IV__P2IFG0 (0x0002) /*!< Interrupt Source: Port 2.0 interrupt; Interrupt Flag: P2IFG0; Interrupt Priority: Highest */ #define P2IV__P2IFG1 (0x0004) /*!< Interrupt Source: Port 2.1 interrupt; Interrupt Flag: P2IFG1 */ #define P2IV__P2IFG2 (0x0006) /*!< Interrupt Source: Port 2.2 interrupt; Interrupt Flag: P2IFG2 */ #define P2IV__P2IFG3 (0x0008) /*!< Interrupt Source: Port 2.3 interrupt; Interrupt Flag: P2IFG3 */ #define P2IV__P2IFG4 (0x000a) /*!< Interrupt Source: Port 2.4 interrupt; Interrupt Flag: P2IFG4 */ #define P2IV__P2IFG5 (0x000c) /*!< Interrupt Source: Port 2.5 interrupt; Interrupt Flag: P2IFG5 */ #define P2IV__P2IFG6 (0x000e) /*!< Interrupt Source: Port 2.6 interrupt; Interrupt Flag: P2IFG6 */ #define P2IV__P2IFG7 (0x0010) /*!< Interrupt Source: Port 2.7 interrupt; Interrupt Flag: P2IFG7; Interrupt Priority: Lowest */ /* DIO_PBIN[P3IN] Bits */ #define P3IN_OFS ( 0) /*!< P3IN Offset */ #define P3IN_M (0x00ff) /*!< Port 3 Input */ /* DIO_PBIN[P4IN] Bits */ #define P4IN_OFS ( 8) /*!< P4IN Offset */ #define P4IN_M (0xff00) /*!< Port 4 Input */ /* DIO_PBOUT[P3OUT] Bits */ #define P3OUT_OFS ( 0) /*!< P3OUT Offset */ #define P3OUT_M (0x00ff) /*!< Port 3 Output */ /* DIO_PBOUT[P4OUT] Bits */ #define P4OUT_OFS ( 8) /*!< P4OUT Offset */ #define P4OUT_M (0xff00) /*!< Port 4 Output */ /* DIO_PBDIR[P3DIR] Bits */ #define P3DIR_OFS ( 0) /*!< P3DIR Offset */ #define P3DIR_M (0x00ff) /*!< Port 3 Direction */ /* DIO_PBDIR[P4DIR] Bits */ #define P4DIR_OFS ( 8) /*!< P4DIR Offset */ #define P4DIR_M (0xff00) /*!< Port 4 Direction */ /* DIO_PBREN[P3REN] Bits */ #define P3REN_OFS ( 0) /*!< P3REN Offset */ #define P3REN_M (0x00ff) /*!< Port 3 Resistor Enable */ /* DIO_PBREN[P4REN] Bits */ #define P4REN_OFS ( 8) /*!< P4REN Offset */ #define P4REN_M (0xff00) /*!< Port 4 Resistor Enable */ /* DIO_PBDS[P3DS] Bits */ #define P3DS_OFS ( 0) /*!< P3DS Offset */ #define P3DS_M (0x00ff) /*!< Port 3 Drive Strength */ /* DIO_PBDS[P4DS] Bits */ #define P4DS_OFS ( 8) /*!< P4DS Offset */ #define P4DS_M (0xff00) /*!< Port 4 Drive Strength */ /* DIO_PBSEL0[P4SEL0] Bits */ #define P4SEL0_OFS ( 8) /*!< P4SEL0 Offset */ #define P4SEL0_M (0xff00) /*!< Port 4 Select 0 */ /* DIO_PBSEL0[P3SEL0] Bits */ #define P3SEL0_OFS ( 0) /*!< P3SEL0 Offset */ #define P3SEL0_M (0x00ff) /*!< Port 3 Select 0 */ /* DIO_PBSEL1[P3SEL1] Bits */ #define P3SEL1_OFS ( 0) /*!< P3SEL1 Offset */ #define P3SEL1_M (0x00ff) /*!< Port 3 Select 1 */ /* DIO_PBSEL1[P4SEL1] Bits */ #define P4SEL1_OFS ( 8) /*!< P4SEL1 Offset */ #define P4SEL1_M (0xff00) /*!< Port 4 Select 1 */ /* DIO_P3IV[P3IV] Bits */ #define P3IV_OFS ( 0) /*!< P3IV Offset */ #define P3IV_M (0x001f) /*!< Port 3 interrupt vector value */ #define P3IV0 (0x0001) /*!< Port 3 interrupt vector value */ #define P3IV1 (0x0002) /*!< Port 3 interrupt vector value */ #define P3IV2 (0x0004) /*!< Port 3 interrupt vector value */ #define P3IV3 (0x0008) /*!< Port 3 interrupt vector value */ #define P3IV4 (0x0010) /*!< Port 3 interrupt vector value */ #define P3IV_0 (0x0000) /*!< No interrupt pending */ #define P3IV_2 (0x0002) /*!< Interrupt Source: Port 3.0 interrupt; Interrupt Flag: P3IFG0; Interrupt Priority: Highest */ #define P3IV_4 (0x0004) /*!< Interrupt Source: Port 3.1 interrupt; Interrupt Flag: P3IFG1 */ #define P3IV_6 (0x0006) /*!< Interrupt Source: Port 3.2 interrupt; Interrupt Flag: P3IFG2 */ #define P3IV_8 (0x0008) /*!< Interrupt Source: Port 3.3 interrupt; Interrupt Flag: P3IFG3 */ #define P3IV_10 (0x000a) /*!< Interrupt Source: Port 3.4 interrupt; Interrupt Flag: P3IFG4 */ #define P3IV_12 (0x000c) /*!< Interrupt Source: Port 3.5 interrupt; Interrupt Flag: P3IFG5 */ #define P3IV_14 (0x000e) /*!< Interrupt Source: Port 3.6 interrupt; Interrupt Flag: P3IFG6 */ #define P3IV_16 (0x0010) /*!< Interrupt Source: Port 3.7 interrupt; Interrupt Flag: P3IFG7; Interrupt Priority: Lowest */ #define P3IV__NONE (0x0000) /*!< No interrupt pending */ #define P3IV__P3IFG0 (0x0002) /*!< Interrupt Source: Port 3.0 interrupt; Interrupt Flag: P3IFG0; Interrupt Priority: Highest */ #define P3IV__P3IFG1 (0x0004) /*!< Interrupt Source: Port 3.1 interrupt; Interrupt Flag: P3IFG1 */ #define P3IV__P3IFG2 (0x0006) /*!< Interrupt Source: Port 3.2 interrupt; Interrupt Flag: P3IFG2 */ #define P3IV__P3IFG3 (0x0008) /*!< Interrupt Source: Port 3.3 interrupt; Interrupt Flag: P3IFG3 */ #define P3IV__P3IFG4 (0x000a) /*!< Interrupt Source: Port 3.4 interrupt; Interrupt Flag: P3IFG4 */ #define P3IV__P3IFG5 (0x000c) /*!< Interrupt Source: Port 3.5 interrupt; Interrupt Flag: P3IFG5 */ #define P3IV__P3IFG6 (0x000e) /*!< Interrupt Source: Port 3.6 interrupt; Interrupt Flag: P3IFG6 */ #define P3IV__P3IFG7 (0x0010) /*!< Interrupt Source: Port 3.7 interrupt; Interrupt Flag: P3IFG7; Interrupt Priority: Lowest */ /* DIO_PBSELC[P3SELC] Bits */ #define P3SELC_OFS ( 0) /*!< P3SELC Offset */ #define P3SELC_M (0x00ff) /*!< Port 3 Complement Select */ /* DIO_PBSELC[P4SELC] Bits */ #define P4SELC_OFS ( 8) /*!< P4SELC Offset */ #define P4SELC_M (0xff00) /*!< Port 4 Complement Select */ /* DIO_PBIES[P3IES] Bits */ #define P3IES_OFS ( 0) /*!< P3IES Offset */ #define P3IES_M (0x00ff) /*!< Port 3 Interrupt Edge Select */ /* DIO_PBIES[P4IES] Bits */ #define P4IES_OFS ( 8) /*!< P4IES Offset */ #define P4IES_M (0xff00) /*!< Port 4 Interrupt Edge Select */ /* DIO_PBIE[P3IE] Bits */ #define P3IE_OFS ( 0) /*!< P3IE Offset */ #define P3IE_M (0x00ff) /*!< Port 3 Interrupt Enable */ /* DIO_PBIE[P4IE] Bits */ #define P4IE_OFS ( 8) /*!< P4IE Offset */ #define P4IE_M (0xff00) /*!< Port 4 Interrupt Enable */ /* DIO_PBIFG[P3IFG] Bits */ #define P3IFG_OFS ( 0) /*!< P3IFG Offset */ #define P3IFG_M (0x00ff) /*!< Port 3 Interrupt Flag */ /* DIO_PBIFG[P4IFG] Bits */ #define P4IFG_OFS ( 8) /*!< P4IFG Offset */ #define P4IFG_M (0xff00) /*!< Port 4 Interrupt Flag */ /* DIO_P4IV[P4IV] Bits */ #define P4IV_OFS ( 0) /*!< P4IV Offset */ #define P4IV_M (0x001f) /*!< Port 4 interrupt vector value */ #define P4IV0 (0x0001) /*!< Port 4 interrupt vector value */ #define P4IV1 (0x0002) /*!< Port 4 interrupt vector value */ #define P4IV2 (0x0004) /*!< Port 4 interrupt vector value */ #define P4IV3 (0x0008) /*!< Port 4 interrupt vector value */ #define P4IV4 (0x0010) /*!< Port 4 interrupt vector value */ #define P4IV_0 (0x0000) /*!< No interrupt pending */ #define P4IV_2 (0x0002) /*!< Interrupt Source: Port 4.0 interrupt; Interrupt Flag: P4IFG0; Interrupt Priority: Highest */ #define P4IV_4 (0x0004) /*!< Interrupt Source: Port 4.1 interrupt; Interrupt Flag: P4IFG1 */ #define P4IV_6 (0x0006) /*!< Interrupt Source: Port 4.2 interrupt; Interrupt Flag: P4IFG2 */ #define P4IV_8 (0x0008) /*!< Interrupt Source: Port 4.3 interrupt; Interrupt Flag: P4IFG3 */ #define P4IV_10 (0x000a) /*!< Interrupt Source: Port 4.4 interrupt; Interrupt Flag: P4IFG4 */ #define P4IV_12 (0x000c) /*!< Interrupt Source: Port 4.5 interrupt; Interrupt Flag: P4IFG5 */ #define P4IV_14 (0x000e) /*!< Interrupt Source: Port 4.6 interrupt; Interrupt Flag: P4IFG6 */ #define P4IV_16 (0x0010) /*!< Interrupt Source: Port 4.7 interrupt; Interrupt Flag: P4IFG7; Interrupt Priority: Lowest */ #define P4IV__NONE (0x0000) /*!< No interrupt pending */ #define P4IV__P4IFG0 (0x0002) /*!< Interrupt Source: Port 4.0 interrupt; Interrupt Flag: P4IFG0; Interrupt Priority: Highest */ #define P4IV__P4IFG1 (0x0004) /*!< Interrupt Source: Port 4.1 interrupt; Interrupt Flag: P4IFG1 */ #define P4IV__P4IFG2 (0x0006) /*!< Interrupt Source: Port 4.2 interrupt; Interrupt Flag: P4IFG2 */ #define P4IV__P4IFG3 (0x0008) /*!< Interrupt Source: Port 4.3 interrupt; Interrupt Flag: P4IFG3 */ #define P4IV__P4IFG4 (0x000a) /*!< Interrupt Source: Port 4.4 interrupt; Interrupt Flag: P4IFG4 */ #define P4IV__P4IFG5 (0x000c) /*!< Interrupt Source: Port 4.5 interrupt; Interrupt Flag: P4IFG5 */ #define P4IV__P4IFG6 (0x000e) /*!< Interrupt Source: Port 4.6 interrupt; Interrupt Flag: P4IFG6 */ #define P4IV__P4IFG7 (0x0010) /*!< Interrupt Source: Port 4.7 interrupt; Interrupt Flag: P4IFG7; Interrupt Priority: Lowest */ /* DIO_PCIN[P5IN] Bits */ #define P5IN_OFS ( 0) /*!< P5IN Offset */ #define P5IN_M (0x00ff) /*!< Port 5 Input */ /* DIO_PCIN[P6IN] Bits */ #define P6IN_OFS ( 8) /*!< P6IN Offset */ #define P6IN_M (0xff00) /*!< Port 6 Input */ /* DIO_PCOUT[P5OUT] Bits */ #define P5OUT_OFS ( 0) /*!< P5OUT Offset */ #define P5OUT_M (0x00ff) /*!< Port 5 Output */ /* DIO_PCOUT[P6OUT] Bits */ #define P6OUT_OFS ( 8) /*!< P6OUT Offset */ #define P6OUT_M (0xff00) /*!< Port 6 Output */ /* DIO_PCDIR[P5DIR] Bits */ #define P5DIR_OFS ( 0) /*!< P5DIR Offset */ #define P5DIR_M (0x00ff) /*!< Port 5 Direction */ /* DIO_PCDIR[P6DIR] Bits */ #define P6DIR_OFS ( 8) /*!< P6DIR Offset */ #define P6DIR_M (0xff00) /*!< Port 6 Direction */ /* DIO_PCREN[P5REN] Bits */ #define P5REN_OFS ( 0) /*!< P5REN Offset */ #define P5REN_M (0x00ff) /*!< Port 5 Resistor Enable */ /* DIO_PCREN[P6REN] Bits */ #define P6REN_OFS ( 8) /*!< P6REN Offset */ #define P6REN_M (0xff00) /*!< Port 6 Resistor Enable */ /* DIO_PCDS[P5DS] Bits */ #define P5DS_OFS ( 0) /*!< P5DS Offset */ #define P5DS_M (0x00ff) /*!< Port 5 Drive Strength */ /* DIO_PCDS[P6DS] Bits */ #define P6DS_OFS ( 8) /*!< P6DS Offset */ #define P6DS_M (0xff00) /*!< Port 6 Drive Strength */ /* DIO_PCSEL0[P5SEL0] Bits */ #define P5SEL0_OFS ( 0) /*!< P5SEL0 Offset */ #define P5SEL0_M (0x00ff) /*!< Port 5 Select 0 */ /* DIO_PCSEL0[P6SEL0] Bits */ #define P6SEL0_OFS ( 8) /*!< P6SEL0 Offset */ #define P6SEL0_M (0xff00) /*!< Port 6 Select 0 */ /* DIO_PCSEL1[P5SEL1] Bits */ #define P5SEL1_OFS ( 0) /*!< P5SEL1 Offset */ #define P5SEL1_M (0x00ff) /*!< Port 5 Select 1 */ /* DIO_PCSEL1[P6SEL1] Bits */ #define P6SEL1_OFS ( 8) /*!< P6SEL1 Offset */ #define P6SEL1_M (0xff00) /*!< Port 6 Select 1 */ /* DIO_P5IV[P5IV] Bits */ #define P5IV_OFS ( 0) /*!< P5IV Offset */ #define P5IV_M (0x001f) /*!< Port 5 interrupt vector value */ #define P5IV0 (0x0001) /*!< Port 5 interrupt vector value */ #define P5IV1 (0x0002) /*!< Port 5 interrupt vector value */ #define P5IV2 (0x0004) /*!< Port 5 interrupt vector value */ #define P5IV3 (0x0008) /*!< Port 5 interrupt vector value */ #define P5IV4 (0x0010) /*!< Port 5 interrupt vector value */ #define P5IV_0 (0x0000) /*!< No interrupt pending */ #define P5IV_2 (0x0002) /*!< Interrupt Source: Port 5.0 interrupt; Interrupt Flag: P5IFG0; Interrupt Priority: Highest */ #define P5IV_4 (0x0004) /*!< Interrupt Source: Port 5.1 interrupt; Interrupt Flag: P5IFG1 */ #define P5IV_6 (0x0006) /*!< Interrupt Source: Port 5.2 interrupt; Interrupt Flag: P5IFG2 */ #define P5IV_8 (0x0008) /*!< Interrupt Source: Port 5.3 interrupt; Interrupt Flag: P5IFG3 */ #define P5IV_10 (0x000a) /*!< Interrupt Source: Port 5.4 interrupt; Interrupt Flag: P5IFG4 */ #define P5IV_12 (0x000c) /*!< Interrupt Source: Port 5.5 interrupt; Interrupt Flag: P5IFG5 */ #define P5IV_14 (0x000e) /*!< Interrupt Source: Port 5.6 interrupt; Interrupt Flag: P5IFG6 */ #define P5IV_16 (0x0010) /*!< Interrupt Source: Port 5.7 interrupt; Interrupt Flag: P5IFG7; Interrupt Priority: Lowest */ #define P5IV__NONE (0x0000) /*!< No interrupt pending */ #define P5IV__P5IFG0 (0x0002) /*!< Interrupt Source: Port 5.0 interrupt; Interrupt Flag: P5IFG0; Interrupt Priority: Highest */ #define P5IV__P5IFG1 (0x0004) /*!< Interrupt Source: Port 5.1 interrupt; Interrupt Flag: P5IFG1 */ #define P5IV__P5IFG2 (0x0006) /*!< Interrupt Source: Port 5.2 interrupt; Interrupt Flag: P5IFG2 */ #define P5IV__P5IFG3 (0x0008) /*!< Interrupt Source: Port 5.3 interrupt; Interrupt Flag: P5IFG3 */ #define P5IV__P5IFG4 (0x000a) /*!< Interrupt Source: Port 5.4 interrupt; Interrupt Flag: P5IFG4 */ #define P5IV__P5IFG5 (0x000c) /*!< Interrupt Source: Port 5.5 interrupt; Interrupt Flag: P5IFG5 */ #define P5IV__P5IFG6 (0x000e) /*!< Interrupt Source: Port 5.6 interrupt; Interrupt Flag: P5IFG6 */ #define P5IV__P5IFG7 (0x0010) /*!< Interrupt Source: Port 5.7 interrupt; Interrupt Flag: P5IFG7; Interrupt Priority: Lowest */ /* DIO_PCSELC[P5SELC] Bits */ #define P5SELC_OFS ( 0) /*!< P5SELC Offset */ #define P5SELC_M (0x00ff) /*!< Port 5 Complement Select */ /* DIO_PCSELC[P6SELC] Bits */ #define P6SELC_OFS ( 8) /*!< P6SELC Offset */ #define P6SELC_M (0xff00) /*!< Port 6 Complement Select */ /* DIO_PCIES[P5IES] Bits */ #define P5IES_OFS ( 0) /*!< P5IES Offset */ #define P5IES_M (0x00ff) /*!< Port 5 Interrupt Edge Select */ /* DIO_PCIES[P6IES] Bits */ #define P6IES_OFS ( 8) /*!< P6IES Offset */ #define P6IES_M (0xff00) /*!< Port 6 Interrupt Edge Select */ /* DIO_PCIE[P5IE] Bits */ #define P5IE_OFS ( 0) /*!< P5IE Offset */ #define P5IE_M (0x00ff) /*!< Port 5 Interrupt Enable */ /* DIO_PCIE[P6IE] Bits */ #define P6IE_OFS ( 8) /*!< P6IE Offset */ #define P6IE_M (0xff00) /*!< Port 6 Interrupt Enable */ /* DIO_PCIFG[P5IFG] Bits */ #define P5IFG_OFS ( 0) /*!< P5IFG Offset */ #define P5IFG_M (0x00ff) /*!< Port 5 Interrupt Flag */ /* DIO_PCIFG[P6IFG] Bits */ #define P6IFG_OFS ( 8) /*!< P6IFG Offset */ #define P6IFG_M (0xff00) /*!< Port 6 Interrupt Flag */ /* DIO_P6IV[P6IV] Bits */ #define P6IV_OFS ( 0) /*!< P6IV Offset */ #define P6IV_M (0x001f) /*!< Port 6 interrupt vector value */ #define P6IV0 (0x0001) /*!< Port 6 interrupt vector value */ #define P6IV1 (0x0002) /*!< Port 6 interrupt vector value */ #define P6IV2 (0x0004) /*!< Port 6 interrupt vector value */ #define P6IV3 (0x0008) /*!< Port 6 interrupt vector value */ #define P6IV4 (0x0010) /*!< Port 6 interrupt vector value */ #define P6IV_0 (0x0000) /*!< No interrupt pending */ #define P6IV_2 (0x0002) /*!< Interrupt Source: Port 6.0 interrupt; Interrupt Flag: P6IFG0; Interrupt Priority: Highest */ #define P6IV_4 (0x0004) /*!< Interrupt Source: Port 6.1 interrupt; Interrupt Flag: P6IFG1 */ #define P6IV_6 (0x0006) /*!< Interrupt Source: Port 6.2 interrupt; Interrupt Flag: P6IFG2 */ #define P6IV_8 (0x0008) /*!< Interrupt Source: Port 6.3 interrupt; Interrupt Flag: P6IFG3 */ #define P6IV_10 (0x000a) /*!< Interrupt Source: Port 6.4 interrupt; Interrupt Flag: P6IFG4 */ #define P6IV_12 (0x000c) /*!< Interrupt Source: Port 6.5 interrupt; Interrupt Flag: P6IFG5 */ #define P6IV_14 (0x000e) /*!< Interrupt Source: Port 6.6 interrupt; Interrupt Flag: P6IFG6 */ #define P6IV_16 (0x0010) /*!< Interrupt Source: Port 6.7 interrupt; Interrupt Flag: P6IFG7; Interrupt Priority: Lowest */ #define P6IV__NONE (0x0000) /*!< No interrupt pending */ #define P6IV__P6IFG0 (0x0002) /*!< Interrupt Source: Port 6.0 interrupt; Interrupt Flag: P6IFG0; Interrupt Priority: Highest */ #define P6IV__P6IFG1 (0x0004) /*!< Interrupt Source: Port 6.1 interrupt; Interrupt Flag: P6IFG1 */ #define P6IV__P6IFG2 (0x0006) /*!< Interrupt Source: Port 6.2 interrupt; Interrupt Flag: P6IFG2 */ #define P6IV__P6IFG3 (0x0008) /*!< Interrupt Source: Port 6.3 interrupt; Interrupt Flag: P6IFG3 */ #define P6IV__P6IFG4 (0x000a) /*!< Interrupt Source: Port 6.4 interrupt; Interrupt Flag: P6IFG4 */ #define P6IV__P6IFG5 (0x000c) /*!< Interrupt Source: Port 6.5 interrupt; Interrupt Flag: P6IFG5 */ #define P6IV__P6IFG6 (0x000e) /*!< Interrupt Source: Port 6.6 interrupt; Interrupt Flag: P6IFG6 */ #define P6IV__P6IFG7 (0x0010) /*!< Interrupt Source: Port 6.7 interrupt; Interrupt Flag: P6IFG7; Interrupt Priority: Lowest */ /* DIO_PDIN[P7IN] Bits */ #define P7IN_OFS ( 0) /*!< P7IN Offset */ #define P7IN_M (0x00ff) /*!< Port 7 Input */ /* DIO_PDIN[P8IN] Bits */ #define P8IN_OFS ( 8) /*!< P8IN Offset */ #define P8IN_M (0xff00) /*!< Port 8 Input */ /* DIO_PDOUT[P7OUT] Bits */ #define P7OUT_OFS ( 0) /*!< P7OUT Offset */ #define P7OUT_M (0x00ff) /*!< Port 7 Output */ /* DIO_PDOUT[P8OUT] Bits */ #define P8OUT_OFS ( 8) /*!< P8OUT Offset */ #define P8OUT_M (0xff00) /*!< Port 8 Output */ /* DIO_PDDIR[P7DIR] Bits */ #define P7DIR_OFS ( 0) /*!< P7DIR Offset */ #define P7DIR_M (0x00ff) /*!< Port 7 Direction */ /* DIO_PDDIR[P8DIR] Bits */ #define P8DIR_OFS ( 8) /*!< P8DIR Offset */ #define P8DIR_M (0xff00) /*!< Port 8 Direction */ /* DIO_PDREN[P7REN] Bits */ #define P7REN_OFS ( 0) /*!< P7REN Offset */ #define P7REN_M (0x00ff) /*!< Port 7 Resistor Enable */ /* DIO_PDREN[P8REN] Bits */ #define P8REN_OFS ( 8) /*!< P8REN Offset */ #define P8REN_M (0xff00) /*!< Port 8 Resistor Enable */ /* DIO_PDDS[P7DS] Bits */ #define P7DS_OFS ( 0) /*!< P7DS Offset */ #define P7DS_M (0x00ff) /*!< Port 7 Drive Strength */ /* DIO_PDDS[P8DS] Bits */ #define P8DS_OFS ( 8) /*!< P8DS Offset */ #define P8DS_M (0xff00) /*!< Port 8 Drive Strength */ /* DIO_PDSEL0[P7SEL0] Bits */ #define P7SEL0_OFS ( 0) /*!< P7SEL0 Offset */ #define P7SEL0_M (0x00ff) /*!< Port 7 Select 0 */ /* DIO_PDSEL0[P8SEL0] Bits */ #define P8SEL0_OFS ( 8) /*!< P8SEL0 Offset */ #define P8SEL0_M (0xff00) /*!< Port 8 Select 0 */ /* DIO_PDSEL1[P7SEL1] Bits */ #define P7SEL1_OFS ( 0) /*!< P7SEL1 Offset */ #define P7SEL1_M (0x00ff) /*!< Port 7 Select 1 */ /* DIO_PDSEL1[P8SEL1] Bits */ #define P8SEL1_OFS ( 8) /*!< P8SEL1 Offset */ #define P8SEL1_M (0xff00) /*!< Port 8 Select 1 */ /* DIO_P7IV[P7IV] Bits */ #define P7IV_OFS ( 0) /*!< P7IV Offset */ #define P7IV_M (0x001f) /*!< Port 7 interrupt vector value */ #define P7IV0 (0x0001) /*!< Port 7 interrupt vector value */ #define P7IV1 (0x0002) /*!< Port 7 interrupt vector value */ #define P7IV2 (0x0004) /*!< Port 7 interrupt vector value */ #define P7IV3 (0x0008) /*!< Port 7 interrupt vector value */ #define P7IV4 (0x0010) /*!< Port 7 interrupt vector value */ #define P7IV_0 (0x0000) /*!< No interrupt pending */ #define P7IV_2 (0x0002) /*!< Interrupt Source: Port 7.0 interrupt; Interrupt Flag: P7IFG0; Interrupt Priority: Highest */ #define P7IV_4 (0x0004) /*!< Interrupt Source: Port 7.1 interrupt; Interrupt Flag: P7IFG1 */ #define P7IV_6 (0x0006) /*!< Interrupt Source: Port 7.2 interrupt; Interrupt Flag: P7IFG2 */ #define P7IV_8 (0x0008) /*!< Interrupt Source: Port 7.3 interrupt; Interrupt Flag: P7IFG3 */ #define P7IV_10 (0x000a) /*!< Interrupt Source: Port 7.4 interrupt; Interrupt Flag: P7IFG4 */ #define P7IV_12 (0x000c) /*!< Interrupt Source: Port 7.5 interrupt; Interrupt Flag: P7IFG5 */ #define P7IV_14 (0x000e) /*!< Interrupt Source: Port 7.6 interrupt; Interrupt Flag: P7IFG6 */ #define P7IV_16 (0x0010) /*!< Interrupt Source: Port 7.7 interrupt; Interrupt Flag: P7IFG7; Interrupt Priority: Lowest */ #define P7IV__NONE (0x0000) /*!< No interrupt pending */ #define P7IV__P7IFG0 (0x0002) /*!< Interrupt Source: Port 7.0 interrupt; Interrupt Flag: P7IFG0; Interrupt Priority: Highest */ #define P7IV__P7IFG1 (0x0004) /*!< Interrupt Source: Port 7.1 interrupt; Interrupt Flag: P7IFG1 */ #define P7IV__P7IFG2 (0x0006) /*!< Interrupt Source: Port 7.2 interrupt; Interrupt Flag: P7IFG2 */ #define P7IV__P7IFG3 (0x0008) /*!< Interrupt Source: Port 7.3 interrupt; Interrupt Flag: P7IFG3 */ #define P7IV__P7IFG4 (0x000a) /*!< Interrupt Source: Port 7.4 interrupt; Interrupt Flag: P7IFG4 */ #define P7IV__P7IFG5 (0x000c) /*!< Interrupt Source: Port 7.5 interrupt; Interrupt Flag: P7IFG5 */ #define P7IV__P7IFG6 (0x000e) /*!< Interrupt Source: Port 7.6 interrupt; Interrupt Flag: P7IFG6 */ #define P7IV__P7IFG7 (0x0010) /*!< Interrupt Source: Port 7.7 interrupt; Interrupt Flag: P7IFG7; Interrupt Priority: Lowest */ /* DIO_PDSELC[P7SELC] Bits */ #define P7SELC_OFS ( 0) /*!< P7SELC Offset */ #define P7SELC_M (0x00ff) /*!< Port 7 Complement Select */ /* DIO_PDSELC[P8SELC] Bits */ #define P8SELC_OFS ( 8) /*!< P8SELC Offset */ #define P8SELC_M (0xff00) /*!< Port 8 Complement Select */ /* DIO_PDIES[P7IES] Bits */ #define P7IES_OFS ( 0) /*!< P7IES Offset */ #define P7IES_M (0x00ff) /*!< Port 7 Interrupt Edge Select */ /* DIO_PDIES[P8IES] Bits */ #define P8IES_OFS ( 8) /*!< P8IES Offset */ #define P8IES_M (0xff00) /*!< Port 8 Interrupt Edge Select */ /* DIO_PDIE[P7IE] Bits */ #define P7IE_OFS ( 0) /*!< P7IE Offset */ #define P7IE_M (0x00ff) /*!< Port 7 Interrupt Enable */ /* DIO_PDIE[P8IE] Bits */ #define P8IE_OFS ( 8) /*!< P8IE Offset */ #define P8IE_M (0xff00) /*!< Port 8 Interrupt Enable */ /* DIO_PDIFG[P7IFG] Bits */ #define P7IFG_OFS ( 0) /*!< P7IFG Offset */ #define P7IFG_M (0x00ff) /*!< Port 7 Interrupt Flag */ /* DIO_PDIFG[P8IFG] Bits */ #define P8IFG_OFS ( 8) /*!< P8IFG Offset */ #define P8IFG_M (0xff00) /*!< Port 8 Interrupt Flag */ /* DIO_P8IV[P8IV] Bits */ #define P8IV_OFS ( 0) /*!< P8IV Offset */ #define P8IV_M (0x001f) /*!< Port 8 interrupt vector value */ #define P8IV0 (0x0001) /*!< Port 8 interrupt vector value */ #define P8IV1 (0x0002) /*!< Port 8 interrupt vector value */ #define P8IV2 (0x0004) /*!< Port 8 interrupt vector value */ #define P8IV3 (0x0008) /*!< Port 8 interrupt vector value */ #define P8IV4 (0x0010) /*!< Port 8 interrupt vector value */ #define P8IV_0 (0x0000) /*!< No interrupt pending */ #define P8IV_2 (0x0002) /*!< Interrupt Source: Port 8.0 interrupt; Interrupt Flag: P8IFG0; Interrupt Priority: Highest */ #define P8IV_4 (0x0004) /*!< Interrupt Source: Port 8.1 interrupt; Interrupt Flag: P8IFG1 */ #define P8IV_6 (0x0006) /*!< Interrupt Source: Port 8.2 interrupt; Interrupt Flag: P8IFG2 */ #define P8IV_8 (0x0008) /*!< Interrupt Source: Port 8.3 interrupt; Interrupt Flag: P8IFG3 */ #define P8IV_10 (0x000a) /*!< Interrupt Source: Port 8.4 interrupt; Interrupt Flag: P8IFG4 */ #define P8IV_12 (0x000c) /*!< Interrupt Source: Port 8.5 interrupt; Interrupt Flag: P8IFG5 */ #define P8IV_14 (0x000e) /*!< Interrupt Source: Port 8.6 interrupt; Interrupt Flag: P8IFG6 */ #define P8IV_16 (0x0010) /*!< Interrupt Source: Port 8.7 interrupt; Interrupt Flag: P8IFG7; Interrupt Priority: Lowest */ #define P8IV__NONE (0x0000) /*!< No interrupt pending */ #define P8IV__P8IFG0 (0x0002) /*!< Interrupt Source: Port 8.0 interrupt; Interrupt Flag: P8IFG0; Interrupt Priority: Highest */ #define P8IV__P8IFG1 (0x0004) /*!< Interrupt Source: Port 8.1 interrupt; Interrupt Flag: P8IFG1 */ #define P8IV__P8IFG2 (0x0006) /*!< Interrupt Source: Port 8.2 interrupt; Interrupt Flag: P8IFG2 */ #define P8IV__P8IFG3 (0x0008) /*!< Interrupt Source: Port 8.3 interrupt; Interrupt Flag: P8IFG3 */ #define P8IV__P8IFG4 (0x000a) /*!< Interrupt Source: Port 8.4 interrupt; Interrupt Flag: P8IFG4 */ #define P8IV__P8IFG5 (0x000c) /*!< Interrupt Source: Port 8.5 interrupt; Interrupt Flag: P8IFG5 */ #define P8IV__P8IFG6 (0x000e) /*!< Interrupt Source: Port 8.6 interrupt; Interrupt Flag: P8IFG6 */ #define P8IV__P8IFG7 (0x0010) /*!< Interrupt Source: Port 8.7 interrupt; Interrupt Flag: P8IFG7; Interrupt Priority: Lowest */ /* DIO_PEIN[P9IN] Bits */ #define P9IN_OFS ( 0) /*!< P9IN Offset */ #define P9IN_M (0x00ff) /*!< Port 9 Input */ /* DIO_PEIN[P10IN] Bits */ #define P10IN_OFS ( 8) /*!< P10IN Offset */ #define P10IN_M (0xff00) /*!< Port 10 Input */ /* DIO_PEOUT[P9OUT] Bits */ #define P9OUT_OFS ( 0) /*!< P9OUT Offset */ #define P9OUT_M (0x00ff) /*!< Port 9 Output */ /* DIO_PEOUT[P10OUT] Bits */ #define P10OUT_OFS ( 8) /*!< P10OUT Offset */ #define P10OUT_M (0xff00) /*!< Port 10 Output */ /* DIO_PEDIR[P9DIR] Bits */ #define P9DIR_OFS ( 0) /*!< P9DIR Offset */ #define P9DIR_M (0x00ff) /*!< Port 9 Direction */ /* DIO_PEDIR[P10DIR] Bits */ #define P10DIR_OFS ( 8) /*!< P10DIR Offset */ #define P10DIR_M (0xff00) /*!< Port 10 Direction */ /* DIO_PEREN[P9REN] Bits */ #define P9REN_OFS ( 0) /*!< P9REN Offset */ #define P9REN_M (0x00ff) /*!< Port 9 Resistor Enable */ /* DIO_PEREN[P10REN] Bits */ #define P10REN_OFS ( 8) /*!< P10REN Offset */ #define P10REN_M (0xff00) /*!< Port 10 Resistor Enable */ /* DIO_PEDS[P9DS] Bits */ #define P9DS_OFS ( 0) /*!< P9DS Offset */ #define P9DS_M (0x00ff) /*!< Port 9 Drive Strength */ /* DIO_PEDS[P10DS] Bits */ #define P10DS_OFS ( 8) /*!< P10DS Offset */ #define P10DS_M (0xff00) /*!< Port 10 Drive Strength */ /* DIO_PESEL0[P9SEL0] Bits */ #define P9SEL0_OFS ( 0) /*!< P9SEL0 Offset */ #define P9SEL0_M (0x00ff) /*!< Port 9 Select 0 */ /* DIO_PESEL0[P10SEL0] Bits */ #define P10SEL0_OFS ( 8) /*!< P10SEL0 Offset */ #define P10SEL0_M (0xff00) /*!< Port 10 Select 0 */ /* DIO_PESEL1[P9SEL1] Bits */ #define P9SEL1_OFS ( 0) /*!< P9SEL1 Offset */ #define P9SEL1_M (0x00ff) /*!< Port 9 Select 1 */ /* DIO_PESEL1[P10SEL1] Bits */ #define P10SEL1_OFS ( 8) /*!< P10SEL1 Offset */ #define P10SEL1_M (0xff00) /*!< Port 10 Select 1 */ /* DIO_P9IV[P9IV] Bits */ #define P9IV_OFS ( 0) /*!< P9IV Offset */ #define P9IV_M (0x001f) /*!< Port 9 interrupt vector value */ #define P9IV0 (0x0001) /*!< Port 9 interrupt vector value */ #define P9IV1 (0x0002) /*!< Port 9 interrupt vector value */ #define P9IV2 (0x0004) /*!< Port 9 interrupt vector value */ #define P9IV3 (0x0008) /*!< Port 9 interrupt vector value */ #define P9IV4 (0x0010) /*!< Port 9 interrupt vector value */ #define P9IV_0 (0x0000) /*!< No interrupt pending */ #define P9IV_2 (0x0002) /*!< Interrupt Source: Port 9.0 interrupt; Interrupt Flag: P9IFG0; Interrupt Priority: Highest */ #define P9IV_4 (0x0004) /*!< Interrupt Source: Port 9.1 interrupt; Interrupt Flag: P9IFG1 */ #define P9IV_6 (0x0006) /*!< Interrupt Source: Port 9.2 interrupt; Interrupt Flag: P9IFG2 */ #define P9IV_8 (0x0008) /*!< Interrupt Source: Port 9.3 interrupt; Interrupt Flag: P9IFG3 */ #define P9IV_10 (0x000a) /*!< Interrupt Source: Port 9.4 interrupt; Interrupt Flag: P9IFG4 */ #define P9IV_12 (0x000c) /*!< Interrupt Source: Port 9.5 interrupt; Interrupt Flag: P9IFG5 */ #define P9IV_14 (0x000e) /*!< Interrupt Source: Port 9.6 interrupt; Interrupt Flag: P9IFG6 */ #define P9IV_16 (0x0010) /*!< Interrupt Source: Port 9.7 interrupt; Interrupt Flag: P9IFG7; Interrupt Priority: Lowest */ #define P9IV__NONE (0x0000) /*!< No interrupt pending */ #define P9IV__P9IFG0 (0x0002) /*!< Interrupt Source: Port 9.0 interrupt; Interrupt Flag: P9IFG0; Interrupt Priority: Highest */ #define P9IV__P9IFG1 (0x0004) /*!< Interrupt Source: Port 9.1 interrupt; Interrupt Flag: P9IFG1 */ #define P9IV__P9IFG2 (0x0006) /*!< Interrupt Source: Port 9.2 interrupt; Interrupt Flag: P9IFG2 */ #define P9IV__P9IFG3 (0x0008) /*!< Interrupt Source: Port 9.3 interrupt; Interrupt Flag: P9IFG3 */ #define P9IV__P9IFG4 (0x000a) /*!< Interrupt Source: Port 9.4 interrupt; Interrupt Flag: P9IFG4 */ #define P9IV__P9IFG5 (0x000c) /*!< Interrupt Source: Port 9.5 interrupt; Interrupt Flag: P9IFG5 */ #define P9IV__P9IFG6 (0x000e) /*!< Interrupt Source: Port 9.6 interrupt; Interrupt Flag: P9IFG6 */ #define P9IV__P9IFG7 (0x0010) /*!< Interrupt Source: Port 9.7 interrupt; Interrupt Flag: P9IFG7; Interrupt Priority: Lowest */ /* DIO_PESELC[P9SELC] Bits */ #define P9SELC_OFS ( 0) /*!< P9SELC Offset */ #define P9SELC_M (0x00ff) /*!< Port 9 Complement Select */ /* DIO_PESELC[P10SELC] Bits */ #define P10SELC_OFS ( 8) /*!< P10SELC Offset */ #define P10SELC_M (0xff00) /*!< Port 10 Complement Select */ /* DIO_PEIES[P9IES] Bits */ #define P9IES_OFS ( 0) /*!< P9IES Offset */ #define P9IES_M (0x00ff) /*!< Port 9 Interrupt Edge Select */ /* DIO_PEIES[P10IES] Bits */ #define P10IES_OFS ( 8) /*!< P10IES Offset */ #define P10IES_M (0xff00) /*!< Port 10 Interrupt Edge Select */ /* DIO_PEIE[P9IE] Bits */ #define P9IE_OFS ( 0) /*!< P9IE Offset */ #define P9IE_M (0x00ff) /*!< Port 9 Interrupt Enable */ /* DIO_PEIE[P10IE] Bits */ #define P10IE_OFS ( 8) /*!< P10IE Offset */ #define P10IE_M (0xff00) /*!< Port 10 Interrupt Enable */ /* DIO_PEIFG[P9IFG] Bits */ #define P9IFG_OFS ( 0) /*!< P9IFG Offset */ #define P9IFG_M (0x00ff) /*!< Port 9 Interrupt Flag */ /* DIO_PEIFG[P10IFG] Bits */ #define P10IFG_OFS ( 8) /*!< P10IFG Offset */ #define P10IFG_M (0xff00) /*!< Port 10 Interrupt Flag */ /* DIO_P10IV[P10IV] Bits */ #define P10IV_OFS ( 0) /*!< P10IV Offset */ #define P10IV_M (0x001f) /*!< Port 10 interrupt vector value */ #define P10IV0 (0x0001) /*!< Port 10 interrupt vector value */ #define P10IV1 (0x0002) /*!< Port 10 interrupt vector value */ #define P10IV2 (0x0004) /*!< Port 10 interrupt vector value */ #define P10IV3 (0x0008) /*!< Port 10 interrupt vector value */ #define P10IV4 (0x0010) /*!< Port 10 interrupt vector value */ #define P10IV_0 (0x0000) /*!< No interrupt pending */ #define P10IV_2 (0x0002) /*!< Interrupt Source: Port 10.0 interrupt; Interrupt Flag: P10IFG0; Interrupt Priority: Highest */ #define P10IV_4 (0x0004) /*!< Interrupt Source: Port 10.1 interrupt; Interrupt Flag: P10IFG1 */ #define P10IV_6 (0x0006) /*!< Interrupt Source: Port 10.2 interrupt; Interrupt Flag: P10IFG2 */ #define P10IV_8 (0x0008) /*!< Interrupt Source: Port 10.3 interrupt; Interrupt Flag: P10IFG3 */ #define P10IV_10 (0x000a) /*!< Interrupt Source: Port 10.4 interrupt; Interrupt Flag: P10IFG4 */ #define P10IV_12 (0x000c) /*!< Interrupt Source: Port 10.5 interrupt; Interrupt Flag: P10IFG5 */ #define P10IV_14 (0x000e) /*!< Interrupt Source: Port 10.6 interrupt; Interrupt Flag: P10IFG6 */ #define P10IV_16 (0x0010) /*!< Interrupt Source: Port 10.7 interrupt; Interrupt Flag: P10IFG7; Interrupt Priority: Lowest */ #define P10IV__NONE (0x0000) /*!< No interrupt pending */ #define P10IV__P10IFG0 (0x0002) /*!< Interrupt Source: Port 10.0 interrupt; Interrupt Flag: P10IFG0; Interrupt Priority: Highest */ #define P10IV__P10IFG1 (0x0004) /*!< Interrupt Source: Port 10.1 interrupt; Interrupt Flag: P10IFG1 */ #define P10IV__P10IFG2 (0x0006) /*!< Interrupt Source: Port 10.2 interrupt; Interrupt Flag: P10IFG2 */ #define P10IV__P10IFG3 (0x0008) /*!< Interrupt Source: Port 10.3 interrupt; Interrupt Flag: P10IFG3 */ #define P10IV__P10IFG4 (0x000a) /*!< Interrupt Source: Port 10.4 interrupt; Interrupt Flag: P10IFG4 */ #define P10IV__P10IFG5 (0x000c) /*!< Interrupt Source: Port 10.5 interrupt; Interrupt Flag: P10IFG5 */ #define P10IV__P10IFG6 (0x000e) /*!< Interrupt Source: Port 10.6 interrupt; Interrupt Flag: P10IFG6 */ #define P10IV__P10IFG7 (0x0010) /*!< Interrupt Source: Port 10.7 interrupt; Interrupt Flag: P10IFG7; Interrupt Priority: Lowest */ /****************************************************************************** * EUSCI_A Bits (legacy section) ******************************************************************************/ /* UCA0CTLW0[UCSWRST] Bits */ #define UCSWRST_OFS EUSCI_A_CTLW0_SWRST_OFS /*!< UCSWRST Offset */ #define UCSWRST EUSCI_A_CTLW0_SWRST /*!< Software reset enable */ /* UCA0CTLW0[UCTXBRK] Bits */ #define UCTXBRK_OFS EUSCI_A_CTLW0_TXBRK_OFS /*!< UCTXBRK Offset */ #define UCTXBRK EUSCI_A_CTLW0_TXBRK /*!< Transmit break */ /* UCA0CTLW0[UCTXADDR] Bits */ #define UCTXADDR_OFS EUSCI_A_CTLW0_TXADDR_OFS /*!< UCTXADDR Offset */ #define UCTXADDR EUSCI_A_CTLW0_TXADDR /*!< Transmit address */ /* UCA0CTLW0[UCDORM] Bits */ #define UCDORM_OFS EUSCI_A_CTLW0_DORM_OFS /*!< UCDORM Offset */ #define UCDORM EUSCI_A_CTLW0_DORM /*!< Dormant */ /* UCA0CTLW0[UCBRKIE] Bits */ #define UCBRKIE_OFS EUSCI_A_CTLW0_BRKIE_OFS /*!< UCBRKIE Offset */ #define UCBRKIE EUSCI_A_CTLW0_BRKIE /*!< Receive break character interrupt enable */ /* UCA0CTLW0[UCRXEIE] Bits */ #define UCRXEIE_OFS EUSCI_A_CTLW0_RXEIE_OFS /*!< UCRXEIE Offset */ #define UCRXEIE EUSCI_A_CTLW0_RXEIE /*!< Receive erroneous-character interrupt enable */ /* UCA0CTLW0[UCSSEL] Bits */ #define UCSSEL_OFS EUSCI_A_CTLW0_SSEL_OFS /*!< UCSSEL Offset */ #define UCSSEL_M EUSCI_A_CTLW0_SSEL_MASK /*!< eUSCI_A clock source select */ #define UCSSEL0 EUSCI_A_CTLW0_SSEL0 /*!< UCSSEL Bit 0 */ #define UCSSEL1 EUSCI_A_CTLW0_SSEL1 /*!< UCSSEL Bit 1 */ #define UCSSEL_0 EUSCI_A_CTLW0_UCSSEL_0 /*!< UCLK */ #define UCSSEL_1 EUSCI_A_CTLW0_UCSSEL_1 /*!< ACLK */ #define UCSSEL_2 EUSCI_A_CTLW0_UCSSEL_2 /*!< SMCLK */ #define UCSSEL__UCLK EUSCI_A_CTLW0_SSEL__UCLK /*!< UCLK */ #define UCSSEL__ACLK EUSCI_A_CTLW0_SSEL__ACLK /*!< ACLK */ #define UCSSEL__SMCLK EUSCI_A_CTLW0_SSEL__SMCLK /*!< SMCLK */ /* UCA0CTLW0[UCSYNC] Bits */ #define UCSYNC_OFS EUSCI_A_CTLW0_SYNC_OFS /*!< UCSYNC Offset */ #define UCSYNC EUSCI_A_CTLW0_SYNC /*!< Synchronous mode enable */ /* UCA0CTLW0[UCMODE] Bits */ #define UCMODE_OFS EUSCI_A_CTLW0_MODE_OFS /*!< UCMODE Offset */ #define UCMODE_M EUSCI_A_CTLW0_MODE_MASK /*!< eUSCI_A mode */ #define UCMODE0 EUSCI_A_CTLW0_MODE0 /*!< UCMODE Bit 0 */ #define UCMODE1 EUSCI_A_CTLW0_MODE1 /*!< UCMODE Bit 1 */ #define UCMODE_0 EUSCI_A_CTLW0_MODE_0 /*!< UART mode */ #define UCMODE_1 EUSCI_A_CTLW0_MODE_1 /*!< Idle-line multiprocessor mode */ #define UCMODE_2 EUSCI_A_CTLW0_MODE_2 /*!< Address-bit multiprocessor mode */ #define UCMODE_3 EUSCI_A_CTLW0_MODE_3 /*!< UART mode with automatic baud-rate detection */ /* UCA0CTLW0[UCSPB] Bits */ #define UCSPB_OFS EUSCI_A_CTLW0_SPB_OFS /*!< UCSPB Offset */ #define UCSPB EUSCI_A_CTLW0_SPB /*!< Stop bit select */ /* UCA0CTLW0[UC7BIT] Bits */ #define UC7BIT_OFS EUSCI_A_CTLW0_SEVENBIT_OFS /*!< UC7BIT Offset */ #define UC7BIT EUSCI_A_CTLW0_SEVENBIT /*!< Character length */ /* UCA0CTLW0[UCMSB] Bits */ #define UCMSB_OFS EUSCI_A_CTLW0_MSB_OFS /*!< UCMSB Offset */ #define UCMSB EUSCI_A_CTLW0_MSB /*!< MSB first select */ /* UCA0CTLW0[UCPAR] Bits */ #define UCPAR_OFS EUSCI_A_CTLW0_PAR_OFS /*!< UCPAR Offset */ #define UCPAR EUSCI_A_CTLW0_PAR /*!< Parity select */ /* UCA0CTLW0[UCPEN] Bits */ #define UCPEN_OFS EUSCI_A_CTLW0_PEN_OFS /*!< UCPEN Offset */ #define UCPEN EUSCI_A_CTLW0_PEN /*!< Parity enable */ /* UCA0CTLW0_SPI[UCSWRST] Bits */ //#define UCSWRST_OFS EUSCI_A_CTLW0_SWRST_OFS /*!< UCSWRST Offset */ //#define UCSWRST EUSCI_A_CTLW0_SWRST /*!< Software reset enable */ /* UCA0CTLW0_SPI[UCSTEM] Bits */ #define UCSTEM_OFS EUSCI_A_CTLW0_STEM_OFS /*!< UCSTEM Offset */ #define UCSTEM EUSCI_A_CTLW0_STEM /*!< STE mode select in master mode. */ /* UCA0CTLW0_SPI[UCSSEL] Bits */ //#define UCSSEL_OFS EUSCI_A_CTLW0_SSEL_OFS /*!< UCSSEL Offset */ //#define UCSSEL_M EUSCI_A_CTLW0_SSEL_MASK /*!< eUSCI_A clock source select */ //#define UCSSEL0 EUSCI_A_CTLW0_SSEL0 /*!< UCSSEL Bit 0 */ //#define UCSSEL1 EUSCI_A_CTLW0_SSEL1 /*!< UCSSEL Bit 1 */ //#define UCSSEL_0 EUSCI_A_CTLW0_UCSSEL_0 /*!< Reserved */ //#define UCSSEL_1 EUSCI_A_CTLW0_UCSSEL_1 /*!< ACLK */ //#define UCSSEL_2 EUSCI_A_CTLW0_UCSSEL_2 /*!< SMCLK */ //#define UCSSEL__ACLK EUSCI_A_CTLW0_SSEL__ACLK /*!< ACLK */ //#define UCSSEL__SMCLK EUSCI_A_CTLW0_SSEL__SMCLK /*!< SMCLK */ /* UCA0CTLW0_SPI[UCSYNC] Bits */ //#define UCSYNC_OFS EUSCI_A_CTLW0_SYNC_OFS /*!< UCSYNC Offset */ //#define UCSYNC EUSCI_A_CTLW0_SYNC /*!< Synchronous mode enable */ /* UCA0CTLW0_SPI[UCMODE] Bits */ //#define UCMODE_OFS EUSCI_A_CTLW0_MODE_OFS /*!< UCMODE Offset */ //#define UCMODE_M EUSCI_A_CTLW0_MODE_MASK /*!< eUSCI mode */ //#define UCMODE0 EUSCI_A_CTLW0_MODE0 /*!< UCMODE Bit 0 */ //#define UCMODE1 EUSCI_A_CTLW0_MODE1 /*!< UCMODE Bit 1 */ //#define UCMODE_0 EUSCI_A_CTLW0_MODE_0 /*!< 3-pin SPI */ //#define UCMODE_1 EUSCI_A_CTLW0_MODE_1 /*!< 4-pin SPI with UCxSTE active high: Slave enabled when UCxSTE = 1 */ //#define UCMODE_2 EUSCI_A_CTLW0_MODE_2 /*!< 4-pin SPI with UCxSTE active low: Slave enabled when UCxSTE = 0 */ /* UCA0CTLW0_SPI[UCMST] Bits */ #define UCMST_OFS EUSCI_A_CTLW0_MST_OFS /*!< UCMST Offset */ #define UCMST EUSCI_A_CTLW0_MST /*!< Master mode select */ /* UCA0CTLW0_SPI[UC7BIT] Bits */ //#define UC7BIT_OFS EUSCI_A_CTLW0_SEVENBIT_OFS /*!< UC7BIT Offset */ //#define UC7BIT EUSCI_A_CTLW0_SEVENBIT /*!< Character length */ /* UCA0CTLW0_SPI[UCMSB] Bits */ //#define UCMSB_OFS EUSCI_A_CTLW0_MSB_OFS /*!< UCMSB Offset */ //#define UCMSB EUSCI_A_CTLW0_MSB /*!< MSB first select */ /* UCA0CTLW0_SPI[UCCKPL] Bits */ #define UCCKPL_OFS EUSCI_A_CTLW0_CKPL_OFS /*!< UCCKPL Offset */ #define UCCKPL EUSCI_A_CTLW0_CKPL /*!< Clock polarity select */ /* UCA0CTLW0_SPI[UCCKPH] Bits */ #define UCCKPH_OFS EUSCI_A_CTLW0_CKPH_OFS /*!< UCCKPH Offset */ #define UCCKPH EUSCI_A_CTLW0_CKPH /*!< Clock phase select */ /* UCA0CTLW1[UCGLIT] Bits */ #define UCGLIT_OFS EUSCI_A_CTLW1_GLIT_OFS /*!< UCGLIT Offset */ #define UCGLIT_M EUSCI_A_CTLW1_GLIT_MASK /*!< Deglitch time */ #define UCGLIT0 EUSCI_A_CTLW1_GLIT0 /*!< UCGLIT Bit 0 */ #define UCGLIT1 EUSCI_A_CTLW1_GLIT1 /*!< UCGLIT Bit 1 */ #define UCGLIT_0 EUSCI_A_CTLW1_GLIT_0 /*!< Approximately 2 ns (equivalent of 1 delay element) */ #define UCGLIT_1 EUSCI_A_CTLW1_GLIT_1 /*!< Approximately 50 ns */ #define UCGLIT_2 EUSCI_A_CTLW1_GLIT_2 /*!< Approximately 100 ns */ #define UCGLIT_3 EUSCI_A_CTLW1_GLIT_3 /*!< Approximately 200 ns */ /* UCA0MCTLW[UCOS16] Bits */ #define UCOS16_OFS EUSCI_A_MCTLW_OS16_OFS /*!< UCOS16 Offset */ #define UCOS16 EUSCI_A_MCTLW_OS16 /*!< Oversampling mode enabled */ /* UCA0MCTLW[UCBRF] Bits */ #define UCBRF_OFS EUSCI_A_MCTLW_BRF_OFS /*!< UCBRF Offset */ #define UCBRF_M EUSCI_A_MCTLW_BRF_MASK /*!< First modulation stage select */ /* UCA0MCTLW[UCBRS] Bits */ #define UCBRS_OFS EUSCI_A_MCTLW_BRS_OFS /*!< UCBRS Offset */ #define UCBRS_M EUSCI_A_MCTLW_BRS_MASK /*!< Second modulation stage select */ /* UCA0STATW[UCBUSY] Bits */ #define UCBUSY_OFS EUSCI_A_STATW_BUSY_OFS /*!< UCBUSY Offset */ #define UCBUSY EUSCI_A_STATW_BUSY /*!< eUSCI_A busy */ /* UCA0STATW[UCADDR_UCIDLE] Bits */ #define UCADDR_UCIDLE_OFS EUSCI_A_STATW_ADDR_IDLE_OFS /*!< UCADDR_UCIDLE Offset */ #define UCADDR_UCIDLE EUSCI_A_STATW_ADDR_IDLE /*!< Address received / Idle line detected */ /* UCA0STATW[UCRXERR] Bits */ #define UCRXERR_OFS EUSCI_A_STATW_RXERR_OFS /*!< UCRXERR Offset */ #define UCRXERR EUSCI_A_STATW_RXERR /*!< Receive error flag */ /* UCA0STATW[UCBRK] Bits */ #define UCBRK_OFS EUSCI_A_STATW_BRK_OFS /*!< UCBRK Offset */ #define UCBRK EUSCI_A_STATW_BRK /*!< Break detect flag */ /* UCA0STATW[UCPE] Bits */ #define UCPE_OFS EUSCI_A_STATW_PE_OFS /*!< UCPE Offset */ #define UCPE EUSCI_A_STATW_PE /* UCA0STATW[UCOE] Bits */ #define UCOE_OFS EUSCI_A_STATW_OE_OFS /*!< UCOE Offset */ #define UCOE EUSCI_A_STATW_OE /*!< Overrun error flag */ /* UCA0STATW[UCFE] Bits */ #define UCFE_OFS EUSCI_A_STATW_FE_OFS /*!< UCFE Offset */ #define UCFE EUSCI_A_STATW_FE /*!< Framing error flag */ /* UCA0STATW[UCLISTEN] Bits */ #define UCLISTEN_OFS EUSCI_A_STATW_LISTEN_OFS /*!< UCLISTEN Offset */ #define UCLISTEN EUSCI_A_STATW_LISTEN /*!< Listen enable */ /* UCA0STATW_SPI[UCBUSY] Bits */ //#define UCBUSY_OFS EUSCI_A_STATW_SPI_BUSY_OFS /*!< UCBUSY Offset */ //#define UCBUSY EUSCI_A_STATW_SPI_BUSY /*!< eUSCI_A busy */ /* UCA0STATW_SPI[UCOE] Bits */ //#define UCOE_OFS EUSCI_A_STATW_OE_OFS /*!< UCOE Offset */ //#define UCOE EUSCI_A_STATW_OE /*!< Overrun error flag */ /* UCA0STATW_SPI[UCFE] Bits */ //#define UCFE_OFS EUSCI_A_STATW_FE_OFS /*!< UCFE Offset */ //#define UCFE EUSCI_A_STATW_FE /*!< Framing error flag */ /* UCA0STATW_SPI[UCLISTEN] Bits */ //#define UCLISTEN_OFS EUSCI_A_STATW_LISTEN_OFS /*!< UCLISTEN Offset */ //#define UCLISTEN EUSCI_A_STATW_LISTEN /*!< Listen enable */ /* UCA0RXBUF[UCRXBUF] Bits */ #define UCRXBUF_OFS EUSCI_A_RXBUF_RXBUF_OFS /*!< UCRXBUF Offset */ #define UCRXBUF_M EUSCI_A_RXBUF_RXBUF_MASK /*!< Receive data buffer */ /* UCA0RXBUF_SPI[UCRXBUF] Bits */ //#define UCRXBUF_OFS EUSCI_A_RXBUF_RXBUF_OFS /*!< UCRXBUF Offset */ //#define UCRXBUF_M EUSCI_A_RXBUF_RXBUF_MASK /*!< Receive data buffer */ /* UCA0TXBUF[UCTXBUF] Bits */ #define UCTXBUF_OFS EUSCI_A_TXBUF_TXBUF_OFS /*!< UCTXBUF Offset */ #define UCTXBUF_M EUSCI_A_TXBUF_TXBUF_MASK /*!< Transmit data buffer */ /* UCA0TXBUF_SPI[UCTXBUF] Bits */ //#define UCTXBUF_OFS EUSCI_A_TXBUF_TXBUF_OFS /*!< UCTXBUF Offset */ //#define UCTXBUF_M EUSCI_A_TXBUF_TXBUF_MASK /*!< Transmit data buffer */ /* UCA0ABCTL[UCABDEN] Bits */ #define UCABDEN_OFS EUSCI_A_ABCTL_ABDEN_OFS /*!< UCABDEN Offset */ #define UCABDEN EUSCI_A_ABCTL_ABDEN /*!< Automatic baud-rate detect enable */ /* UCA0ABCTL[UCBTOE] Bits */ #define UCBTOE_OFS EUSCI_A_ABCTL_BTOE_OFS /*!< UCBTOE Offset */ #define UCBTOE EUSCI_A_ABCTL_BTOE /*!< Break time out error */ /* UCA0ABCTL[UCSTOE] Bits */ #define UCSTOE_OFS EUSCI_A_ABCTL_STOE_OFS /*!< UCSTOE Offset */ #define UCSTOE EUSCI_A_ABCTL_STOE /*!< Synch field time out error */ /* UCA0ABCTL[UCDELIM] Bits */ #define UCDELIM_OFS EUSCI_A_ABCTL_DELIM_OFS /*!< UCDELIM Offset */ #define UCDELIM_M EUSCI_A_ABCTL_DELIM_MASK /*!< Break/synch delimiter length */ #define UCDELIM0 EUSCI_A_ABCTL_DELIM0 /*!< UCDELIM Bit 0 */ #define UCDELIM1 EUSCI_A_ABCTL_DELIM1 /*!< UCDELIM Bit 1 */ #define UCDELIM_0 EUSCI_A_ABCTL_DELIM_0 /*!< 1 bit time */ #define UCDELIM_1 EUSCI_A_ABCTL_DELIM_1 /*!< 2 bit times */ #define UCDELIM_2 EUSCI_A_ABCTL_DELIM_2 /*!< 3 bit times */ #define UCDELIM_3 EUSCI_A_ABCTL_DELIM_3 /*!< 4 bit times */ /* UCA0IRCTL[UCIREN] Bits */ #define UCIREN_OFS EUSCI_A_IRCTL_IREN_OFS /*!< UCIREN Offset */ #define UCIREN EUSCI_A_IRCTL_IREN /*!< IrDA encoder/decoder enable */ /* UCA0IRCTL[UCIRTXCLK] Bits */ #define UCIRTXCLK_OFS EUSCI_A_IRCTL_IRTXCLK_OFS /*!< UCIRTXCLK Offset */ #define UCIRTXCLK EUSCI_A_IRCTL_IRTXCLK /*!< IrDA transmit pulse clock select */ /* UCA0IRCTL[UCIRTXPL] Bits */ #define UCIRTXPL_OFS EUSCI_A_IRCTL_IRTXPL_OFS /*!< UCIRTXPL Offset */ #define UCIRTXPL_M EUSCI_A_IRCTL_IRTXPL_MASK /*!< Transmit pulse length */ /* UCA0IRCTL[UCIRRXFE] Bits */ #define UCIRRXFE_OFS EUSCI_A_IRCTL_IRRXFE_OFS /*!< UCIRRXFE Offset */ #define UCIRRXFE EUSCI_A_IRCTL_IRRXFE /*!< IrDA receive filter enabled */ /* UCA0IRCTL[UCIRRXPL] Bits */ #define UCIRRXPL_OFS EUSCI_A_IRCTL_IRRXPL_OFS /*!< UCIRRXPL Offset */ #define UCIRRXPL EUSCI_A_IRCTL_IRRXPL /*!< IrDA receive input UCAxRXD polarity */ /* UCA0IRCTL[UCIRRXFL] Bits */ #define UCIRRXFL_OFS EUSCI_A_IRCTL_IRRXFL_OFS /*!< UCIRRXFL Offset */ #define UCIRRXFL_M EUSCI_A_IRCTL_IRRXFL_MASK /*!< Receive filter length */ /* UCA0IE[UCRXIE] Bits */ #define UCRXIE_OFS EUSCI_A_IE_RXIE_OFS /*!< UCRXIE Offset */ #define UCRXIE EUSCI_A_IE_RXIE /*!< Receive interrupt enable */ /* UCA0IE[UCTXIE] Bits */ #define UCTXIE_OFS EUSCI_A_IE_TXIE_OFS /*!< UCTXIE Offset */ #define UCTXIE EUSCI_A_IE_TXIE /*!< Transmit interrupt enable */ /* UCA0IE[UCSTTIE] Bits */ #define UCSTTIE_OFS EUSCI_A_IE_STTIE_OFS /*!< UCSTTIE Offset */ #define UCSTTIE EUSCI_A_IE_STTIE /*!< Start bit interrupt enable */ /* UCA0IE[UCTXCPTIE] Bits */ #define UCTXCPTIE_OFS EUSCI_A_IE_TXCPTIE_OFS /*!< UCTXCPTIE Offset */ #define UCTXCPTIE EUSCI_A_IE_TXCPTIE /*!< Transmit complete interrupt enable */ /* UCA0IE_SPI[UCRXIE] Bits */ //#define UCRXIE_OFS EUSCI_A_IE_RXIE_OFS /*!< UCRXIE Offset */ //#define UCRXIE EUSCI_A_IE_RXIE /*!< Receive interrupt enable */ /* UCA0IE_SPI[UCTXIE] Bits */ //#define UCTXIE_OFS EUSCI_A_IE_TXIE_OFS /*!< UCTXIE Offset */ //#define UCTXIE EUSCI_A_IE_TXIE /*!< Transmit interrupt enable */ /* UCA0IFG[UCRXIFG] Bits */ #define UCRXIFG_OFS EUSCI_A_IFG_RXIFG_OFS /*!< UCRXIFG Offset */ #define UCRXIFG EUSCI_A_IFG_RXIFG /*!< Receive interrupt flag */ /* UCA0IFG[UCTXIFG] Bits */ #define UCTXIFG_OFS EUSCI_A_IFG_TXIFG_OFS /*!< UCTXIFG Offset */ #define UCTXIFG EUSCI_A_IFG_TXIFG /*!< Transmit interrupt flag */ /* UCA0IFG[UCSTTIFG] Bits */ #define UCSTTIFG_OFS EUSCI_A_IFG_STTIFG_OFS /*!< UCSTTIFG Offset */ #define UCSTTIFG EUSCI_A_IFG_STTIFG /*!< Start bit interrupt flag */ /* UCA0IFG[UCTXCPTIFG] Bits */ #define UCTXCPTIFG_OFS EUSCI_A_IFG_TXCPTIFG_OFS /*!< UCTXCPTIFG Offset */ #define UCTXCPTIFG EUSCI_A_IFG_TXCPTIFG /*!< Transmit ready interrupt enable */ /* UCA0IFG_SPI[UCRXIFG] Bits */ //#define UCRXIFG_OFS EUSCI_A_IFG_RXIFG_OFS /*!< UCRXIFG Offset */ //#define UCRXIFG EUSCI_A_IFG_RXIFG /*!< Receive interrupt flag */ /* UCA0IFG_SPI[UCTXIFG] Bits */ //#define UCTXIFG_OFS EUSCI_A_IFG_TXIFG_OFS /*!< UCTXIFG Offset */ //#define UCTXIFG EUSCI_A_IFG_TXIFG /*!< Transmit interrupt flag */ /****************************************************************************** * EUSCI_B Bits (legacy section) ******************************************************************************/ /* UCB0CTLW0[UCSWRST] Bits */ //#define UCSWRST_OFS EUSCI_B_CTLW0_SWRST_OFS /*!< UCSWRST Offset */ //#define UCSWRST EUSCI_B_CTLW0_SWRST /*!< Software reset enable */ /* UCB0CTLW0[UCTXSTT] Bits */ #define UCTXSTT_OFS EUSCI_B_CTLW0_TXSTT_OFS /*!< UCTXSTT Offset */ #define UCTXSTT EUSCI_B_CTLW0_TXSTT /*!< Transmit START condition in master mode */ /* UCB0CTLW0[UCTXSTP] Bits */ #define UCTXSTP_OFS EUSCI_B_CTLW0_TXSTP_OFS /*!< UCTXSTP Offset */ #define UCTXSTP EUSCI_B_CTLW0_TXSTP /*!< Transmit STOP condition in master mode */ /* UCB0CTLW0[UCTXNACK] Bits */ #define UCTXNACK_OFS EUSCI_B_CTLW0_TXNACK_OFS /*!< UCTXNACK Offset */ #define UCTXNACK EUSCI_B_CTLW0_TXNACK /*!< Transmit a NACK */ /* UCB0CTLW0[UCTR] Bits */ #define UCTR_OFS EUSCI_B_CTLW0_TR_OFS /*!< UCTR Offset */ #define UCTR EUSCI_B_CTLW0_TR /*!< Transmitter/receiver */ /* UCB0CTLW0[UCTXACK] Bits */ #define UCTXACK_OFS EUSCI_B_CTLW0_TXACK_OFS /*!< UCTXACK Offset */ #define UCTXACK EUSCI_B_CTLW0_TXACK /*!< Transmit ACK condition in slave mode */ /* UCB0CTLW0[UCSSEL] Bits */ //#define UCSSEL_OFS EUSCI_B_CTLW0_SSEL_OFS /*!< UCSSEL Offset */ //#define UCSSEL_M EUSCI_B_CTLW0_SSEL_MASK /*!< eUSCI_B clock source select */ //#define UCSSEL0 EUSCI_B_CTLW0_SSEL0 /*!< UCSSEL Bit 0 */ //#define UCSSEL1 EUSCI_B_CTLW0_SSEL1 /*!< UCSSEL Bit 1 */ //#define UCSSEL_0 EUSCI_B_CTLW0_UCSSEL_0 /*!< UCLKI */ //#define UCSSEL_1 EUSCI_B_CTLW0_UCSSEL_1 /*!< ACLK */ //#define UCSSEL_2 EUSCI_B_CTLW0_UCSSEL_2 /*!< SMCLK */ #define UCSSEL_3 EUSCI_B_CTLW0_UCSSEL_3 /*!< SMCLK */ #define UCSSEL__UCLKI EUSCI_B_CTLW0_SSEL__UCLKI /*!< UCLKI */ //#define UCSSEL__ACLK EUSCI_B_CTLW0_SSEL__ACLK /*!< ACLK */ //#define UCSSEL__SMCLK EUSCI_B_CTLW0_SSEL__SMCLK /*!< SMCLK */ /* UCB0CTLW0[UCSYNC] Bits */ //#define UCSYNC_OFS EUSCI_B_CTLW0_SYNC_OFS /*!< UCSYNC Offset */ //#define UCSYNC EUSCI_B_CTLW0_SYNC /*!< Synchronous mode enable */ /* UCB0CTLW0[UCMODE] Bits */ //#define UCMODE_OFS EUSCI_B_CTLW0_MODE_OFS /*!< UCMODE Offset */ //#define UCMODE_M EUSCI_B_CTLW0_MODE_MASK /*!< eUSCI_B mode */ //#define UCMODE0 EUSCI_B_CTLW0_MODE0 /*!< UCMODE Bit 0 */ //#define UCMODE1 EUSCI_B_CTLW0_MODE1 /*!< UCMODE Bit 1 */ //#define UCMODE_0 EUSCI_B_CTLW0_MODE_0 /*!< 3-pin SPI */ //#define UCMODE_1 EUSCI_B_CTLW0_MODE_1 /*!< 4-pin SPI (master or slave enabled if STE = 1) */ //#define UCMODE_2 EUSCI_B_CTLW0_MODE_2 /*!< 4-pin SPI (master or slave enabled if STE = 0) */ //#define UCMODE_3 EUSCI_B_CTLW0_MODE_3 /*!< I2C mode */ /* UCB0CTLW0[UCMST] Bits */ //#define UCMST_OFS EUSCI_B_CTLW0_MST_OFS /*!< UCMST Offset */ //#define UCMST EUSCI_B_CTLW0_MST /*!< Master mode select */ /* UCB0CTLW0[UCMM] Bits */ #define UCMM_OFS EUSCI_B_CTLW0_MM_OFS /*!< UCMM Offset */ #define UCMM EUSCI_B_CTLW0_MM /*!< Multi-master environment select */ /* UCB0CTLW0[UCSLA10] Bits */ #define UCSLA10_OFS EUSCI_B_CTLW0_SLA10_OFS /*!< UCSLA10 Offset */ #define UCSLA10 EUSCI_B_CTLW0_SLA10 /*!< Slave addressing mode select */ /* UCB0CTLW0[UCA10] Bits */ #define UCA10_OFS EUSCI_B_CTLW0_A10_OFS /*!< UCA10 Offset */ #define UCA10 EUSCI_B_CTLW0_A10 /*!< Own addressing mode select */ /* UCB0CTLW0_SPI[UCSWRST] Bits */ //#define UCSWRST_OFS EUSCI_B_CTLW0_SWRST_OFS /*!< UCSWRST Offset */ //#define UCSWRST EUSCI_B_CTLW0_SWRST /*!< Software reset enable */ /* UCB0CTLW0_SPI[UCSTEM] Bits */ //#define UCSTEM_OFS EUSCI_B_CTLW0_STEM_OFS /*!< UCSTEM Offset */ //#define UCSTEM EUSCI_B_CTLW0_STEM /*!< STE mode select in master mode. */ /* UCB0CTLW0_SPI[UCSSEL] Bits */ //#define UCSSEL_OFS EUSCI_B_CTLW0_SSEL_OFS /*!< UCSSEL Offset */ //#define UCSSEL_M EUSCI_B_CTLW0_SSEL_MASK /*!< eUSCI_B clock source select */ //#define UCSSEL0 EUSCI_B_CTLW0_SSEL0 /*!< UCSSEL Bit 0 */ //#define UCSSEL1 EUSCI_B_CTLW0_SSEL1 /*!< UCSSEL Bit 1 */ //#define UCSSEL_0 EUSCI_B_CTLW0_UCSSEL_0 /*!< Reserved */ //#define UCSSEL_1 EUSCI_B_CTLW0_UCSSEL_1 /*!< ACLK */ //#define UCSSEL_2 EUSCI_B_CTLW0_UCSSEL_2 /*!< SMCLK */ //#define UCSSEL_3 EUSCI_B_CTLW0_UCSSEL_3 /*!< SMCLK */ //#define UCSSEL__ACLK EUSCI_B_CTLW0_SSEL__ACLK /*!< ACLK */ //#define UCSSEL__SMCLK EUSCI_B_CTLW0_SSEL__SMCLK /*!< SMCLK */ /* UCB0CTLW0_SPI[UCSYNC] Bits */ //#define UCSYNC_OFS EUSCI_B_CTLW0_SYNC_OFS /*!< UCSYNC Offset */ //#define UCSYNC EUSCI_B_CTLW0_SYNC /*!< Synchronous mode enable */ /* UCB0CTLW0_SPI[UCMODE] Bits */ //#define UCMODE_OFS EUSCI_B_CTLW0_MODE_OFS /*!< UCMODE Offset */ //#define UCMODE_M EUSCI_B_CTLW0_MODE_MASK /*!< eUSCI mode */ //#define UCMODE0 EUSCI_B_CTLW0_MODE0 /*!< UCMODE Bit 0 */ //#define UCMODE1 EUSCI_B_CTLW0_MODE1 /*!< UCMODE Bit 1 */ //#define UCMODE_0 EUSCI_B_CTLW0_MODE_0 /*!< 3-pin SPI */ //#define UCMODE_1 EUSCI_B_CTLW0_MODE_1 /*!< 4-pin SPI with UCxSTE active high: Slave enabled when UCxSTE = 1 */ //#define UCMODE_2 EUSCI_B_CTLW0_MODE_2 /*!< 4-pin SPI with UCxSTE active low: Slave enabled when UCxSTE = 0 */ //#define UCMODE_3 EUSCI_B_CTLW0_MODE_3 /*!< I2C mode */ /* UCB0CTLW0_SPI[UCMST] Bits */ //#define UCMST_OFS EUSCI_B_CTLW0_MST_OFS /*!< UCMST Offset */ //#define UCMST EUSCI_B_CTLW0_MST /*!< Master mode select */ /* UCB0CTLW0_SPI[UC7BIT] Bits */ //#define UC7BIT_OFS EUSCI_B_CTLW0_SEVENBIT_OFS /*!< UC7BIT Offset */ //#define UC7BIT EUSCI_B_CTLW0_SEVENBIT /*!< Character length */ /* UCB0CTLW0_SPI[UCMSB] Bits */ //#define UCMSB_OFS EUSCI_B_CTLW0_MSB_OFS /*!< UCMSB Offset */ //#define UCMSB EUSCI_B_CTLW0_MSB /*!< MSB first select */ /* UCB0CTLW0_SPI[UCCKPL] Bits */ //#define UCCKPL_OFS EUSCI_B_CTLW0_CKPL_OFS /*!< UCCKPL Offset */ //#define UCCKPL EUSCI_B_CTLW0_CKPL /*!< Clock polarity select */ /* UCB0CTLW0_SPI[UCCKPH] Bits */ //#define UCCKPH_OFS EUSCI_B_CTLW0_CKPH_OFS /*!< UCCKPH Offset */ //#define UCCKPH EUSCI_B_CTLW0_CKPH /*!< Clock phase select */ /* UCB0CTLW1[UCGLIT] Bits */ //#define UCGLIT_OFS EUSCI_B_CTLW1_GLIT_OFS /*!< UCGLIT Offset */ //#define UCGLIT_M EUSCI_B_CTLW1_GLIT_MASK /*!< Deglitch time */ //#define UCGLIT0 EUSCI_B_CTLW1_GLIT0 /*!< UCGLIT Bit 0 */ //#define UCGLIT1 EUSCI_B_CTLW1_GLIT1 /*!< UCGLIT Bit 1 */ //#define UCGLIT_0 EUSCI_B_CTLW1_GLIT_0 /*!< 50 ns */ //#define UCGLIT_1 EUSCI_B_CTLW1_GLIT_1 /*!< 25 ns */ //#define UCGLIT_2 EUSCI_B_CTLW1_GLIT_2 /*!< 12.5 ns */ //#define UCGLIT_3 EUSCI_B_CTLW1_GLIT_3 /*!< 6.25 ns */ /* UCB0CTLW1[UCASTP] Bits */ #define UCASTP_OFS EUSCI_B_CTLW1_ASTP_OFS /*!< UCASTP Offset */ #define UCASTP_M EUSCI_B_CTLW1_ASTP_MASK /*!< Automatic STOP condition generation */ #define UCASTP0 EUSCI_B_CTLW1_ASTP0 /*!< UCASTP Bit 0 */ #define UCASTP1 EUSCI_B_CTLW1_ASTP1 /*!< UCASTP Bit 1 */ #define UCASTP_0 EUSCI_B_CTLW1_ASTP_0 /*!< No automatic STOP generation. The STOP condition is generated after the user */ /* sets the UCTXSTP bit. The value in UCBxTBCNT is a don't care. */ #define UCASTP_1 EUSCI_B_CTLW1_ASTP_1 /*!< UCBCNTIFG is set with the byte counter reaches the threshold defined in */ /* UCBxTBCNT */ #define UCASTP_2 EUSCI_B_CTLW1_ASTP_2 /*!< A STOP condition is generated automatically after the byte counter value */ /* reached UCBxTBCNT. UCBCNTIFG is set with the byte counter reaching the */ /* threshold */ /* UCB0CTLW1[UCSWACK] Bits */ #define UCSWACK_OFS EUSCI_B_CTLW1_SWACK_OFS /*!< UCSWACK Offset */ #define UCSWACK EUSCI_B_CTLW1_SWACK /*!< SW or HW ACK control */ /* UCB0CTLW1[UCSTPNACK] Bits */ #define UCSTPNACK_OFS EUSCI_B_CTLW1_STPNACK_OFS /*!< UCSTPNACK Offset */ #define UCSTPNACK EUSCI_B_CTLW1_STPNACK /*!< ACK all master bytes */ /* UCB0CTLW1[UCCLTO] Bits */ #define UCCLTO_OFS EUSCI_B_CTLW1_CLTO_OFS /*!< UCCLTO Offset */ #define UCCLTO_M EUSCI_B_CTLW1_CLTO_MASK /*!< Clock low timeout select */ #define UCCLTO0 EUSCI_B_CTLW1_CLTO0 /*!< UCCLTO Bit 0 */ #define UCCLTO1 EUSCI_B_CTLW1_CLTO1 /*!< UCCLTO Bit 1 */ #define UCCLTO_0 EUSCI_B_CTLW1_CLTO_0 /*!< Disable clock low timeout counter */ #define UCCLTO_1 EUSCI_B_CTLW1_CLTO_1 /*!< 135 000 SYSCLK cycles (approximately 28 ms) */ #define UCCLTO_2 EUSCI_B_CTLW1_CLTO_2 /*!< 150 000 SYSCLK cycles (approximately 31 ms) */ #define UCCLTO_3 EUSCI_B_CTLW1_CLTO_3 /*!< 165 000 SYSCLK cycles (approximately 34 ms) */ /* UCB0CTLW1[UCETXINT] Bits */ #define UCETXINT_OFS EUSCI_B_CTLW1_ETXINT_OFS /*!< UCETXINT Offset */ #define UCETXINT EUSCI_B_CTLW1_ETXINT /*!< Early UCTXIFG0 */ /* UCB0STATW[UCBBUSY] Bits */ #define UCBBUSY_OFS EUSCI_B_STATW_BBUSY_OFS /*!< UCBBUSY Offset */ #define UCBBUSY EUSCI_B_STATW_BBUSY /*!< Bus busy */ /* UCB0STATW[UCGC] Bits */ #define UCGC_OFS EUSCI_B_STATW_GC_OFS /*!< UCGC Offset */ #define UCGC EUSCI_B_STATW_GC /*!< General call address received */ /* UCB0STATW[UCSCLLOW] Bits */ #define UCSCLLOW_OFS EUSCI_B_STATW_SCLLOW_OFS /*!< UCSCLLOW Offset */ #define UCSCLLOW EUSCI_B_STATW_SCLLOW /*!< SCL low */ /* UCB0STATW[UCBCNT] Bits */ #define UCBCNT_OFS EUSCI_B_STATW_BCNT_OFS /*!< UCBCNT Offset */ #define UCBCNT_M EUSCI_B_STATW_BCNT_MASK /*!< Hardware byte counter value */ /* UCB0STATW_SPI[UCBUSY] Bits */ //#define UCBUSY_OFS EUSCI_B_STATW_SPI_BUSY_OFS /*!< UCBUSY Offset */ //#define UCBUSY EUSCI_B_STATW_SPI_BUSY /*!< eUSCI_B busy */ /* UCB0STATW_SPI[UCOE] Bits */ //#define UCOE_OFS EUSCI_B_STATW_OE_OFS /*!< UCOE Offset */ //#define UCOE EUSCI_B_STATW_OE /*!< Overrun error flag */ /* UCB0STATW_SPI[UCFE] Bits */ //#define UCFE_OFS EUSCI_B_STATW_FE_OFS /*!< UCFE Offset */ //#define UCFE EUSCI_B_STATW_FE /*!< Framing error flag */ /* UCB0STATW_SPI[UCLISTEN] Bits */ //#define UCLISTEN_OFS EUSCI_B_STATW_LISTEN_OFS /*!< UCLISTEN Offset */ //#define UCLISTEN EUSCI_B_STATW_LISTEN /*!< Listen enable */ /* UCB0TBCNT[UCTBCNT] Bits */ #define UCTBCNT_OFS EUSCI_B_TBCNT_TBCNT_OFS /*!< UCTBCNT Offset */ #define UCTBCNT_M EUSCI_B_TBCNT_TBCNT_MASK /*!< Byte counter threshold value */ /* UCB0RXBUF[UCRXBUF] Bits */ //#define UCRXBUF_OFS EUSCI_B_RXBUF_RXBUF_OFS /*!< UCRXBUF Offset */ //#define UCRXBUF_M EUSCI_B_RXBUF_RXBUF_MASK /*!< Receive data buffer */ /* UCB0RXBUF_SPI[UCRXBUF] Bits */ //#define UCRXBUF_OFS EUSCI_B_RXBUF_RXBUF_OFS /*!< UCRXBUF Offset */ //#define UCRXBUF_M EUSCI_B_RXBUF_RXBUF_MASK /*!< Receive data buffer */ /* UCB0TXBUF[UCTXBUF] Bits */ //#define UCTXBUF_OFS EUSCI_B_TXBUF_TXBUF_OFS /*!< UCTXBUF Offset */ //#define UCTXBUF_M EUSCI_B_TXBUF_TXBUF_MASK /*!< Transmit data buffer */ /* UCB0TXBUF_SPI[UCTXBUF] Bits */ //#define UCTXBUF_OFS EUSCI_B_TXBUF_TXBUF_OFS /*!< UCTXBUF Offset */ //#define UCTXBUF_M EUSCI_B_TXBUF_TXBUF_MASK /*!< Transmit data buffer */ /* UCB0I2COA0[I2COA0] Bits */ #define I2COA0_OFS EUSCI_B_I2COA0_I2COA0_OFS /*!< I2COA0 Offset */ #define I2COA0_M EUSCI_B_I2COA0_I2COA0_MASK /*!< I2C own address */ /* UCB0I2COA0[UCOAEN] Bits */ #define UCOAEN_OFS EUSCI_B_I2COA0_OAEN_OFS /*!< UCOAEN Offset */ #define UCOAEN EUSCI_B_I2COA0_OAEN /*!< Own Address enable register */ /* UCB0I2COA0[UCGCEN] Bits */ #define UCGCEN_OFS EUSCI_B_I2COA0_GCEN_OFS /*!< UCGCEN Offset */ #define UCGCEN EUSCI_B_I2COA0_GCEN /*!< General call response enable */ /* UCB0I2COA1[I2COA1] Bits */ #define I2COA1_OFS EUSCI_B_I2COA1_I2COA1_OFS /*!< I2COA1 Offset */ #define I2COA1_M EUSCI_B_I2COA1_I2COA1_MASK /*!< I2C own address */ /* UCB0I2COA1[UCOAEN] Bits */ //#define UCOAEN_OFS EUSCI_B_I2COA1_OAEN_OFS /*!< UCOAEN Offset */ //#define UCOAEN EUSCI_B_I2COA1_OAEN /*!< Own Address enable register */ /* UCB0I2COA2[I2COA2] Bits */ #define I2COA2_OFS EUSCI_B_I2COA2_I2COA2_OFS /*!< I2COA2 Offset */ #define I2COA2_M EUSCI_B_I2COA2_I2COA2_MASK /*!< I2C own address */ /* UCB0I2COA2[UCOAEN] Bits */ //#define UCOAEN_OFS EUSCI_B_I2COA2_OAEN_OFS /*!< UCOAEN Offset */ //#define UCOAEN EUSCI_B_I2COA2_OAEN /*!< Own Address enable register */ /* UCB0I2COA3[I2COA3] Bits */ #define I2COA3_OFS EUSCI_B_I2COA3_I2COA3_OFS /*!< I2COA3 Offset */ #define I2COA3_M EUSCI_B_I2COA3_I2COA3_MASK /*!< I2C own address */ /* UCB0I2COA3[UCOAEN] Bits */ //#define UCOAEN_OFS EUSCI_B_I2COA3_OAEN_OFS /*!< UCOAEN Offset */ //#define UCOAEN EUSCI_B_I2COA3_OAEN /*!< Own Address enable register */ /* UCB0ADDRX[ADDRX] Bits */ #define ADDRX_OFS EUSCI_B_ADDRX_ADDRX_OFS /*!< ADDRX Offset */ #define ADDRX_M EUSCI_B_ADDRX_ADDRX_MASK /*!< Received Address Register */ #define ADDRX0 EUSCI_B_ADDRX_ADDRX0 /*!< ADDRX Bit 0 */ #define ADDRX1 EUSCI_B_ADDRX_ADDRX1 /*!< ADDRX Bit 1 */ #define ADDRX2 EUSCI_B_ADDRX_ADDRX2 /*!< ADDRX Bit 2 */ #define ADDRX3 EUSCI_B_ADDRX_ADDRX3 /*!< ADDRX Bit 3 */ #define ADDRX4 EUSCI_B_ADDRX_ADDRX4 /*!< ADDRX Bit 4 */ #define ADDRX5 EUSCI_B_ADDRX_ADDRX5 /*!< ADDRX Bit 5 */ #define ADDRX6 EUSCI_B_ADDRX_ADDRX6 /*!< ADDRX Bit 6 */ #define ADDRX7 EUSCI_B_ADDRX_ADDRX7 /*!< ADDRX Bit 7 */ #define ADDRX8 EUSCI_B_ADDRX_ADDRX8 /*!< ADDRX Bit 8 */ #define ADDRX9 EUSCI_B_ADDRX_ADDRX9 /*!< ADDRX Bit 9 */ /* UCB0ADDMASK[ADDMASK] Bits */ #define ADDMASK_OFS EUSCI_B_ADDMASK_ADDMASK_OFS /*!< ADDMASK Offset */ #define ADDMASK_M EUSCI_B_ADDMASK_ADDMASK_MASK /* UCB0I2CSA[I2CSA] Bits */ #define I2CSA_OFS EUSCI_B_I2CSA_I2CSA_OFS /*!< I2CSA Offset */ #define I2CSA_M EUSCI_B_I2CSA_I2CSA_MASK /*!< I2C slave address */ /* UCB0IE[UCRXIE0] Bits */ #define UCRXIE0_OFS EUSCI_B_IE_RXIE0_OFS /*!< UCRXIE0 Offset */ #define UCRXIE0 EUSCI_B_IE_RXIE0 /*!< Receive interrupt enable 0 */ /* UCB0IE[UCTXIE0] Bits */ #define UCTXIE0_OFS EUSCI_B_IE_TXIE0_OFS /*!< UCTXIE0 Offset */ #define UCTXIE0 EUSCI_B_IE_TXIE0 /*!< Transmit interrupt enable 0 */ /* UCB0IE[UCSTTIE] Bits */ //#define UCSTTIE_OFS EUSCI_B_IE_STTIE_OFS /*!< UCSTTIE Offset */ //#define UCSTTIE EUSCI_B_IE_STTIE /*!< START condition interrupt enable */ /* UCB0IE[UCSTPIE] Bits */ #define UCSTPIE_OFS EUSCI_B_IE_STPIE_OFS /*!< UCSTPIE Offset */ #define UCSTPIE EUSCI_B_IE_STPIE /*!< STOP condition interrupt enable */ /* UCB0IE[UCALIE] Bits */ #define UCALIE_OFS EUSCI_B_IE_ALIE_OFS /*!< UCALIE Offset */ #define UCALIE EUSCI_B_IE_ALIE /*!< Arbitration lost interrupt enable */ /* UCB0IE[UCNACKIE] Bits */ #define UCNACKIE_OFS EUSCI_B_IE_NACKIE_OFS /*!< UCNACKIE Offset */ #define UCNACKIE EUSCI_B_IE_NACKIE /*!< Not-acknowledge interrupt enable */ /* UCB0IE[UCBCNTIE] Bits */ #define UCBCNTIE_OFS EUSCI_B_IE_BCNTIE_OFS /*!< UCBCNTIE Offset */ #define UCBCNTIE EUSCI_B_IE_BCNTIE /*!< Byte counter interrupt enable */ /* UCB0IE[UCCLTOIE] Bits */ #define UCCLTOIE_OFS EUSCI_B_IE_CLTOIE_OFS /*!< UCCLTOIE Offset */ #define UCCLTOIE EUSCI_B_IE_CLTOIE /*!< Clock low timeout interrupt enable */ /* UCB0IE[UCRXIE1] Bits */ #define UCRXIE1_OFS EUSCI_B_IE_RXIE1_OFS /*!< UCRXIE1 Offset */ #define UCRXIE1 EUSCI_B_IE_RXIE1 /*!< Receive interrupt enable 1 */ /* UCB0IE[UCTXIE1] Bits */ #define UCTXIE1_OFS EUSCI_B_IE_TXIE1_OFS /*!< UCTXIE1 Offset */ #define UCTXIE1 EUSCI_B_IE_TXIE1 /*!< Transmit interrupt enable 1 */ /* UCB0IE[UCRXIE2] Bits */ #define UCRXIE2_OFS EUSCI_B_IE_RXIE2_OFS /*!< UCRXIE2 Offset */ #define UCRXIE2 EUSCI_B_IE_RXIE2 /*!< Receive interrupt enable 2 */ /* UCB0IE[UCTXIE2] Bits */ #define UCTXIE2_OFS EUSCI_B_IE_TXIE2_OFS /*!< UCTXIE2 Offset */ #define UCTXIE2 EUSCI_B_IE_TXIE2 /*!< Transmit interrupt enable 2 */ /* UCB0IE[UCRXIE3] Bits */ #define UCRXIE3_OFS EUSCI_B_IE_RXIE3_OFS /*!< UCRXIE3 Offset */ #define UCRXIE3 EUSCI_B_IE_RXIE3 /*!< Receive interrupt enable 3 */ /* UCB0IE[UCTXIE3] Bits */ #define UCTXIE3_OFS EUSCI_B_IE_TXIE3_OFS /*!< UCTXIE3 Offset */ #define UCTXIE3 EUSCI_B_IE_TXIE3 /*!< Transmit interrupt enable 3 */ /* UCB0IE[UCBIT9IE] Bits */ #define UCBIT9IE_OFS EUSCI_B_IE_BIT9IE_OFS /*!< UCBIT9IE Offset */ #define UCBIT9IE EUSCI_B_IE_BIT9IE /*!< Bit position 9 interrupt enable */ /* UCB0IE_SPI[UCRXIE] Bits */ //#define UCRXIE_OFS EUSCI_B_IE_RXIE_OFS /*!< UCRXIE Offset */ //#define UCRXIE EUSCI_B_IE_RXIE /*!< Receive interrupt enable */ /* UCB0IE_SPI[UCTXIE] Bits */ //#define UCTXIE_OFS EUSCI_B_IE_TXIE_OFS /*!< UCTXIE Offset */ //#define UCTXIE EUSCI_B_IE_TXIE /*!< Transmit interrupt enable */ /* UCB0IFG[UCRXIFG0] Bits */ #define UCRXIFG0_OFS EUSCI_B_IFG_RXIFG0_OFS /*!< UCRXIFG0 Offset */ #define UCRXIFG0 EUSCI_B_IFG_RXIFG0 /*!< eUSCI_B receive interrupt flag 0 */ /* UCB0IFG[UCTXIFG0] Bits */ #define UCTXIFG0_OFS EUSCI_B_IFG_TXIFG0_OFS /*!< UCTXIFG0 Offset */ #define UCTXIFG0 EUSCI_B_IFG_TXIFG0 /*!< eUSCI_B transmit interrupt flag 0 */ /* UCB0IFG[UCSTTIFG] Bits */ //#define UCSTTIFG_OFS EUSCI_B_IFG_STTIFG_OFS /*!< UCSTTIFG Offset */ //#define UCSTTIFG EUSCI_B_IFG_STTIFG /*!< START condition interrupt flag */ /* UCB0IFG[UCSTPIFG] Bits */ #define UCSTPIFG_OFS EUSCI_B_IFG_STPIFG_OFS /*!< UCSTPIFG Offset */ #define UCSTPIFG EUSCI_B_IFG_STPIFG /*!< STOP condition interrupt flag */ /* UCB0IFG[UCALIFG] Bits */ #define UCALIFG_OFS EUSCI_B_IFG_ALIFG_OFS /*!< UCALIFG Offset */ #define UCALIFG EUSCI_B_IFG_ALIFG /*!< Arbitration lost interrupt flag */ /* UCB0IFG[UCNACKIFG] Bits */ #define UCNACKIFG_OFS EUSCI_B_IFG_NACKIFG_OFS /*!< UCNACKIFG Offset */ #define UCNACKIFG EUSCI_B_IFG_NACKIFG /*!< Not-acknowledge received interrupt flag */ /* UCB0IFG[UCBCNTIFG] Bits */ #define UCBCNTIFG_OFS EUSCI_B_IFG_BCNTIFG_OFS /*!< UCBCNTIFG Offset */ #define UCBCNTIFG EUSCI_B_IFG_BCNTIFG /*!< Byte counter interrupt flag */ /* UCB0IFG[UCCLTOIFG] Bits */ #define UCCLTOIFG_OFS EUSCI_B_IFG_CLTOIFG_OFS /*!< UCCLTOIFG Offset */ #define UCCLTOIFG EUSCI_B_IFG_CLTOIFG /*!< Clock low timeout interrupt flag */ /* UCB0IFG[UCRXIFG1] Bits */ #define UCRXIFG1_OFS EUSCI_B_IFG_RXIFG1_OFS /*!< UCRXIFG1 Offset */ #define UCRXIFG1 EUSCI_B_IFG_RXIFG1 /*!< eUSCI_B receive interrupt flag 1 */ /* UCB0IFG[UCTXIFG1] Bits */ #define UCTXIFG1_OFS EUSCI_B_IFG_TXIFG1_OFS /*!< UCTXIFG1 Offset */ #define UCTXIFG1 EUSCI_B_IFG_TXIFG1 /*!< eUSCI_B transmit interrupt flag 1 */ /* UCB0IFG[UCRXIFG2] Bits */ #define UCRXIFG2_OFS EUSCI_B_IFG_RXIFG2_OFS /*!< UCRXIFG2 Offset */ #define UCRXIFG2 EUSCI_B_IFG_RXIFG2 /*!< eUSCI_B receive interrupt flag 2 */ /* UCB0IFG[UCTXIFG2] Bits */ #define UCTXIFG2_OFS EUSCI_B_IFG_TXIFG2_OFS /*!< UCTXIFG2 Offset */ #define UCTXIFG2 EUSCI_B_IFG_TXIFG2 /*!< eUSCI_B transmit interrupt flag 2 */ /* UCB0IFG[UCRXIFG3] Bits */ #define UCRXIFG3_OFS EUSCI_B_IFG_RXIFG3_OFS /*!< UCRXIFG3 Offset */ #define UCRXIFG3 EUSCI_B_IFG_RXIFG3 /*!< eUSCI_B receive interrupt flag 3 */ /* UCB0IFG[UCTXIFG3] Bits */ #define UCTXIFG3_OFS EUSCI_B_IFG_TXIFG3_OFS /*!< UCTXIFG3 Offset */ #define UCTXIFG3 EUSCI_B_IFG_TXIFG3 /*!< eUSCI_B transmit interrupt flag 3 */ /* UCB0IFG[UCBIT9IFG] Bits */ #define UCBIT9IFG_OFS EUSCI_B_IFG_BIT9IFG_OFS /*!< UCBIT9IFG Offset */ #define UCBIT9IFG EUSCI_B_IFG_BIT9IFG /*!< Bit position 9 interrupt flag */ /* UCB0IFG_SPI[UCRXIFG] Bits */ //#define UCRXIFG_OFS EUSCI_B_IFG_RXIFG_OFS /*!< UCRXIFG Offset */ //#define UCRXIFG EUSCI_B_IFG_RXIFG /*!< Receive interrupt flag */ /* UCB0IFG_SPI[UCTXIFG] Bits */ //#define UCTXIFG_OFS EUSCI_B_IFG_TXIFG_OFS /*!< UCTXIFG Offset */ //#define UCTXIFG EUSCI_B_IFG_TXIFG /*!< Transmit interrupt flag */ /****************************************************************************** * PMAP Bits (legacy section) ******************************************************************************/ /* PMAPCTL[PMAPLOCKED] Bits */ #define PMAPLOCKED_OFS PMAP_CTL_LOCKED_OFS /*!< PMAPLOCKED Offset */ #define PMAPLOCKED PMAP_CTL_LOCKED /*!< Port mapping lock bit */ /* PMAPCTL[PMAPRECFG] Bits */ #define PMAPRECFG_OFS PMAP_CTL_PRECFG_OFS /*!< PMAPRECFG Offset */ #define PMAPRECFG PMAP_CTL_PRECFG /*!< Port mapping reconfiguration control bit */ /* Pre-defined bitfield values */ /* PMAP_PMAPCTL[PMAPLOCKED] Bits */ #define PMAPLOCKED_OFS PMAP_CTL_LOCKED_OFS /*!< PMAPLOCKED Offset */ #define PMAPLOCKED PMAP_CTL_LOCKED /*!< Port mapping lock bit */ /* PMAP_PMAPCTL[PMAPRECFG] Bits */ #define PMAPRECFG_OFS PMAP_CTL_PRECFG_OFS /*!< PMAPRECFG Offset */ #define PMAPRECFG PMAP_CTL_PRECFG /*!< Port mapping reconfiguration control bit */ #define PM_NONE PMAP_NONE #define PM_UCA0CLK PMAP_UCA0CLK #define PM_UCA0RXD PMAP_UCA0RXD #define PM_UCA0SOMI PMAP_UCA0SOMI #define PM_UCA0TXD PMAP_UCA0TXD #define PM_UCA0SIMO PMAP_UCA0SIMO #define PM_UCB0CLK PMAP_UCB0CLK #define PM_UCB0SDA PMAP_UCB0SDA #define PM_UCB0SIMO PMAP_UCB0SIMO #define PM_UCB0SCL PMAP_UCB0SCL #define PM_UCB0SOMI PMAP_UCB0SOMI #define PM_UCA1STE PMAP_UCA1STE #define PM_UCA1CLK PMAP_UCA1CLK #define PM_UCA1RXD PMAP_UCA1RXD #define PM_UCA1SOMI PMAP_UCA1SOMI #define PM_UCA1TXD PMAP_UCA1TXD #define PM_UCA1SIMO PMAP_UCA1SIMO #define PM_UCA2STE PMAP_UCA2STE #define PM_UCA2CLK PMAP_UCA2CLK #define PM_UCA2RXD PMAP_UCA2RXD #define PM_UCA2SOMI PMAP_UCA2SOMI #define PM_UCA2TXD PMAP_UCA2TXD #define PM_UCA2SIMO PMAP_UCA2SIMO #define PM_UCB2STE PMAP_UCB2STE #define PM_UCB2CLK PMAP_UCB2CLK #define PM_UCB2SDA PMAP_UCB2SDA #define PM_UCB2SIMO PMAP_UCB2SIMO #define PM_UCB2SCL PMAP_UCB2SCL #define PM_UCB2SOMI PMAP_UCB2SOMI #define PM_TA0CCR0A PMAP_TA0CCR0A #define PM_TA0CCR1A PMAP_TA0CCR1A #define PM_TA0CCR2A PMAP_TA0CCR2A #define PM_TA0CCR3A PMAP_TA0CCR3A #define PM_TA0CCR4A PMAP_TA0CCR4A #define PM_TA1CCR1A PMAP_TA1CCR1A #define PM_TA1CCR2A PMAP_TA1CCR2A #define PM_TA1CCR3A PMAP_TA1CCR3A #define PM_TA1CCR4A PMAP_TA1CCR4A #define PM_TA0CLK PMAP_TA0CLK #define PM_CE0OUT PMAP_CE0OUT #define PM_TA1CLK PMAP_TA1CLK #define PM_CE1OUT PMAP_CE1OUT #define PM_DMAE0 PMAP_DMAE0 #define PM_SMCLK PMAP_SMCLK #define PM_ANALOG PMAP_ANALOG #define PMAPKEY PMAP_KEYID_VAL /*!< Port Mapping Key */ #define PMAPPWD PMAP_KEYID_VAL /*!< Legacy Definition: Mapping Key register */ #define PMAPPW PMAP_KEYID_VAL /*!< Legacy Definition: Port Mapping Password */ /****************************************************************************** * REF_A Bits (legacy section) ******************************************************************************/ /* REFCTL0[REFON] Bits */ #define REFON_OFS REF_A_CTL0_ON_OFS /*!< REFON Offset */ #define REFON REF_A_CTL0_ON /*!< Reference enable */ /* REFCTL0[REFOUT] Bits */ #define REFOUT_OFS REF_A_CTL0_OUT_OFS /*!< REFOUT Offset */ #define REFOUT REF_A_CTL0_OUT /*!< Reference output buffer */ /* REFCTL0[REFTCOFF] Bits */ #define REFTCOFF_OFS REF_A_CTL0_TCOFF_OFS /*!< REFTCOFF Offset */ #define REFTCOFF REF_A_CTL0_TCOFF /*!< Temperature sensor disabled */ /* REFCTL0[REFVSEL] Bits */ #define REFVSEL_OFS REF_A_CTL0_VSEL_OFS /*!< REFVSEL Offset */ #define REFVSEL_M REF_A_CTL0_VSEL_MASK /*!< Reference voltage level select */ #define REFVSEL0 REF_A_CTL0_VSEL0 /*!< REFVSEL Bit 0 */ #define REFVSEL1 REF_A_CTL0_VSEL1 /*!< REFVSEL Bit 1 */ #define REFVSEL_0 REF_A_CTL0_VSEL_0 /*!< 1.2 V available when reference requested or REFON = 1 */ #define REFVSEL_1 REF_A_CTL0_VSEL_1 /*!< 1.45 V available when reference requested or REFON = 1 */ #define REFVSEL_3 REF_A_CTL0_VSEL_3 /*!< 2.5 V available when reference requested or REFON = 1 */ /* REFCTL0[REFGENOT] Bits */ #define REFGENOT_OFS REF_A_CTL0_GENOT_OFS /*!< REFGENOT Offset */ #define REFGENOT REF_A_CTL0_GENOT /*!< Reference generator one-time trigger */ /* REFCTL0[REFBGOT] Bits */ #define REFBGOT_OFS REF_A_CTL0_BGOT_OFS /*!< REFBGOT Offset */ #define REFBGOT REF_A_CTL0_BGOT /*!< Bandgap and bandgap buffer one-time trigger */ /* REFCTL0[REFGENACT] Bits */ #define REFGENACT_OFS REF_A_CTL0_GENACT_OFS /*!< REFGENACT Offset */ #define REFGENACT REF_A_CTL0_GENACT /*!< Reference generator active */ /* REFCTL0[REFBGACT] Bits */ #define REFBGACT_OFS REF_A_CTL0_BGACT_OFS /*!< REFBGACT Offset */ #define REFBGACT REF_A_CTL0_BGACT /*!< Reference bandgap active */ /* REFCTL0[REFGENBUSY] Bits */ #define REFGENBUSY_OFS REF_A_CTL0_GENBUSY_OFS /*!< REFGENBUSY Offset */ #define REFGENBUSY REF_A_CTL0_GENBUSY /*!< Reference generator busy */ /* REFCTL0[BGMODE] Bits */ #define BGMODE_OFS REF_A_CTL0_BGMODE_OFS /*!< BGMODE Offset */ #define BGMODE REF_A_CTL0_BGMODE /*!< Bandgap mode */ /* REFCTL0[REFGENRDY] Bits */ #define REFGENRDY_OFS REF_A_CTL0_GENRDY_OFS /*!< REFGENRDY Offset */ #define REFGENRDY REF_A_CTL0_GENRDY /*!< Variable reference voltage ready status */ /* REFCTL0[REFBGRDY] Bits */ #define REFBGRDY_OFS REF_A_CTL0_BGRDY_OFS /*!< REFBGRDY Offset */ #define REFBGRDY REF_A_CTL0_BGRDY /*!< Buffered bandgap voltage ready status */ /****************************************************************************** * RTC_C Bits (legacy section) ******************************************************************************/ /* RTCCTL0[RTCRDYIFG] Bits */ #define RTCRDYIFG_OFS RTC_C_CTL0_RDYIFG_OFS /*!< RTCRDYIFG Offset */ #define RTCRDYIFG RTC_C_CTL0_RDYIFG /*!< Real-time clock ready interrupt flag */ /* RTCCTL0[RTCAIFG] Bits */ #define RTCAIFG_OFS RTC_C_CTL0_AIFG_OFS /*!< RTCAIFG Offset */ #define RTCAIFG RTC_C_CTL0_AIFG /*!< Real-time clock alarm interrupt flag */ /* RTCCTL0[RTCTEVIFG] Bits */ #define RTCTEVIFG_OFS RTC_C_CTL0_TEVIFG_OFS /*!< RTCTEVIFG Offset */ #define RTCTEVIFG RTC_C_CTL0_TEVIFG /*!< Real-time clock time event interrupt flag */ /* RTCCTL0[RTCOFIFG] Bits */ #define RTCOFIFG_OFS RTC_C_CTL0_OFIFG_OFS /*!< RTCOFIFG Offset */ #define RTCOFIFG RTC_C_CTL0_OFIFG /*!< 32-kHz crystal oscillator fault interrupt flag */ /* RTCCTL0[RTCRDYIE] Bits */ #define RTCRDYIE_OFS RTC_C_CTL0_RDYIE_OFS /*!< RTCRDYIE Offset */ #define RTCRDYIE RTC_C_CTL0_RDYIE /*!< Real-time clock ready interrupt enable */ /* RTCCTL0[RTCAIE] Bits */ #define RTCAIE_OFS RTC_C_CTL0_AIE_OFS /*!< RTCAIE Offset */ #define RTCAIE RTC_C_CTL0_AIE /*!< Real-time clock alarm interrupt enable */ /* RTCCTL0[RTCTEVIE] Bits */ #define RTCTEVIE_OFS RTC_C_CTL0_TEVIE_OFS /*!< RTCTEVIE Offset */ #define RTCTEVIE RTC_C_CTL0_TEVIE /*!< Real-time clock time event interrupt enable */ /* RTCCTL0[RTCOFIE] Bits */ #define RTCOFIE_OFS RTC_C_CTL0_OFIE_OFS /*!< RTCOFIE Offset */ #define RTCOFIE RTC_C_CTL0_OFIE /*!< 32-kHz crystal oscillator fault interrupt enable */ /* RTCCTL0[RTCKEY] Bits */ #define RTCKEY_OFS RTC_C_CTL0_KEY_OFS /*!< RTCKEY Offset */ #define RTCKEY_M RTC_C_CTL0_KEY_MASK /*!< Real-time clock key */ /* RTCCTL13[RTCTEV] Bits */ #define RTCTEV_OFS RTC_C_CTL13_TEV_OFS /*!< RTCTEV Offset */ #define RTCTEV_M RTC_C_CTL13_TEV_MASK /*!< Real-time clock time event */ #define RTCTEV0 RTC_C_CTL13_TEV0 /*!< RTCTEV Bit 0 */ #define RTCTEV1 RTC_C_CTL13_TEV1 /*!< RTCTEV Bit 1 */ #define RTCTEV_0 RTC_C_CTL13_TEV_0 /*!< Minute changed */ #define RTCTEV_1 RTC_C_CTL13_TEV_1 /*!< Hour changed */ #define RTCTEV_2 RTC_C_CTL13_TEV_2 /*!< Every day at midnight (00:00) */ #define RTCTEV_3 RTC_C_CTL13_TEV_3 /*!< Every day at noon (12:00) */ /* RTCCTL13[RTCSSEL] Bits */ #define RTCSSEL_OFS RTC_C_CTL13_SSEL_OFS /*!< RTCSSEL Offset */ #define RTCSSEL_M RTC_C_CTL13_SSEL_MASK /*!< Real-time clock source select */ #define RTCSSEL0 RTC_C_CTL13_SSEL0 /*!< RTCSSEL Bit 0 */ #define RTCSSEL1 RTC_C_CTL13_SSEL1 /*!< RTCSSEL Bit 1 */ #define RTCSSEL_0 RTC_C_CTL13_SSEL_0 /*!< BCLK */ #define RTCSSEL__BCLK RTC_C_CTL13_SSEL__BCLK /*!< BCLK */ /* RTCCTL13[RTCRDY] Bits */ #define RTCRDY_OFS RTC_C_CTL13_RDY_OFS /*!< RTCRDY Offset */ #define RTCRDY RTC_C_CTL13_RDY /*!< Real-time clock ready */ /* RTCCTL13[RTCMODE] Bits */ #define RTCMODE_OFS RTC_C_CTL13_MODE_OFS /*!< RTCMODE Offset */ #define RTCMODE RTC_C_CTL13_MODE /* RTCCTL13[RTCHOLD] Bits */ #define RTCHOLD_OFS RTC_C_CTL13_HOLD_OFS /*!< RTCHOLD Offset */ #define RTCHOLD RTC_C_CTL13_HOLD /*!< Real-time clock hold */ /* RTCCTL13[RTCBCD] Bits */ #define RTCBCD_OFS RTC_C_CTL13_BCD_OFS /*!< RTCBCD Offset */ #define RTCBCD RTC_C_CTL13_BCD /*!< Real-time clock BCD select */ /* RTCCTL13[RTCCALF] Bits */ #define RTCCALF_OFS RTC_C_CTL13_CALF_OFS /*!< RTCCALF Offset */ #define RTCCALF_M RTC_C_CTL13_CALF_MASK /*!< Real-time clock calibration frequency */ #define RTCCALF0 RTC_C_CTL13_CALF0 /*!< RTCCALF Bit 0 */ #define RTCCALF1 RTC_C_CTL13_CALF1 /*!< RTCCALF Bit 1 */ #define RTCCALF_0 RTC_C_CTL13_CALF_0 /*!< No frequency output to RTCCLK pin */ #define RTCCALF_1 RTC_C_CTL13_CALF_1 /*!< 512 Hz */ #define RTCCALF_2 RTC_C_CTL13_CALF_2 /*!< 256 Hz */ #define RTCCALF_3 RTC_C_CTL13_CALF_3 /*!< 1 Hz */ #define RTCCALF__NONE RTC_C_CTL13_CALF__NONE /*!< No frequency output to RTCCLK pin */ #define RTCCALF__512 RTC_C_CTL13_CALF__512 /*!< 512 Hz */ #define RTCCALF__256 RTC_C_CTL13_CALF__256 /*!< 256 Hz */ #define RTCCALF__1 RTC_C_CTL13_CALF__1 /*!< 1 Hz */ /* RTCOCAL[RTCOCAL] Bits */ #define RTCOCAL_OFS RTC_C_OCAL_OCAL_OFS /*!< RTCOCAL Offset */ #define RTCOCAL_M RTC_C_OCAL_OCAL_MASK /*!< Real-time clock offset error calibration */ /* RTCOCAL[RTCOCALS] Bits */ #define RTCOCALS_OFS RTC_C_OCAL_OCALS_OFS /*!< RTCOCALS Offset */ #define RTCOCALS RTC_C_OCAL_OCALS /*!< Real-time clock offset error calibration sign */ /* RTCTCMP[RTCTCMP] Bits */ #define RTCTCMP_OFS RTC_C_TCMP_TCMPX_OFS /*!< RTCTCMP Offset */ #define RTCTCMP_M RTC_C_TCMP_TCMPX_MASK /*!< Real-time clock temperature compensation */ /* RTCTCMP[RTCTCOK] Bits */ #define RTCTCOK_OFS RTC_C_TCMP_TCOK_OFS /*!< RTCTCOK Offset */ #define RTCTCOK RTC_C_TCMP_TCOK /*!< Real-time clock temperature compensation write OK */ /* RTCTCMP[RTCTCRDY] Bits */ #define RTCTCRDY_OFS RTC_C_TCMP_TCRDY_OFS /*!< RTCTCRDY Offset */ #define RTCTCRDY RTC_C_TCMP_TCRDY /*!< Real-time clock temperature compensation ready */ /* RTCTCMP[RTCTCMPS] Bits */ #define RTCTCMPS_OFS RTC_C_TCMP_TCMPS_OFS /*!< RTCTCMPS Offset */ #define RTCTCMPS RTC_C_TCMP_TCMPS /*!< Real-time clock temperature compensation sign */ /* RTCPS0CTL[RT0PSIFG] Bits */ #define RT0PSIFG_OFS RTC_C_PS0CTL_RT0PSIFG_OFS /*!< RT0PSIFG Offset */ #define RT0PSIFG RTC_C_PS0CTL_RT0PSIFG /*!< Prescale timer 0 interrupt flag */ /* RTCPS0CTL[RT0PSIE] Bits */ #define RT0PSIE_OFS RTC_C_PS0CTL_RT0PSIE_OFS /*!< RT0PSIE Offset */ #define RT0PSIE RTC_C_PS0CTL_RT0PSIE /*!< Prescale timer 0 interrupt enable */ /* RTCPS0CTL[RT0IP] Bits */ #define RT0IP_OFS RTC_C_PS0CTL_RT0IP_OFS /*!< RT0IP Offset */ #define RT0IP_M RTC_C_PS0CTL_RT0IP_MASK /*!< Prescale timer 0 interrupt interval */ #define RT0IP0 RTC_C_PS0CTL_RT0IP0 /*!< RT0IP Bit 0 */ #define RT0IP1 RTC_C_PS0CTL_RT0IP1 /*!< RT0IP Bit 1 */ #define RT0IP2 RTC_C_PS0CTL_RT0IP2 /*!< RT0IP Bit 2 */ #define RT0IP_0 RTC_C_PS0CTL_RT0IP_0 /*!< Divide by 2 */ #define RT0IP_1 RTC_C_PS0CTL_RT0IP_1 /*!< Divide by 4 */ #define RT0IP_2 RTC_C_PS0CTL_RT0IP_2 /*!< Divide by 8 */ #define RT0IP_3 RTC_C_PS0CTL_RT0IP_3 /*!< Divide by 16 */ #define RT0IP_4 RTC_C_PS0CTL_RT0IP_4 /*!< Divide by 32 */ #define RT0IP_5 RTC_C_PS0CTL_RT0IP_5 /*!< Divide by 64 */ #define RT0IP_6 RTC_C_PS0CTL_RT0IP_6 /*!< Divide by 128 */ #define RT0IP_7 RTC_C_PS0CTL_RT0IP_7 /*!< Divide by 256 */ #define RT0IP__2 RTC_C_PS0CTL_RT0IP__2 /*!< Divide by 2 */ #define RT0IP__4 RTC_C_PS0CTL_RT0IP__4 /*!< Divide by 4 */ #define RT0IP__8 RTC_C_PS0CTL_RT0IP__8 /*!< Divide by 8 */ #define RT0IP__16 RTC_C_PS0CTL_RT0IP__16 /*!< Divide by 16 */ #define RT0IP__32 RTC_C_PS0CTL_RT0IP__32 /*!< Divide by 32 */ #define RT0IP__64 RTC_C_PS0CTL_RT0IP__64 /*!< Divide by 64 */ #define RT0IP__128 RTC_C_PS0CTL_RT0IP__128 /*!< Divide by 128 */ #define RT0IP__256 RTC_C_PS0CTL_RT0IP__256 /*!< Divide by 256 */ /* RTCPS1CTL[RT1PSIFG] Bits */ #define RT1PSIFG_OFS RTC_C_PS1CTL_RT1PSIFG_OFS /*!< RT1PSIFG Offset */ #define RT1PSIFG RTC_C_PS1CTL_RT1PSIFG /*!< Prescale timer 1 interrupt flag */ /* RTCPS1CTL[RT1PSIE] Bits */ #define RT1PSIE_OFS RTC_C_PS1CTL_RT1PSIE_OFS /*!< RT1PSIE Offset */ #define RT1PSIE RTC_C_PS1CTL_RT1PSIE /*!< Prescale timer 1 interrupt enable */ /* RTCPS1CTL[RT1IP] Bits */ #define RT1IP_OFS RTC_C_PS1CTL_RT1IP_OFS /*!< RT1IP Offset */ #define RT1IP_M RTC_C_PS1CTL_RT1IP_MASK /*!< Prescale timer 1 interrupt interval */ #define RT1IP0 RTC_C_PS1CTL_RT1IP0 /*!< RT1IP Bit 0 */ #define RT1IP1 RTC_C_PS1CTL_RT1IP1 /*!< RT1IP Bit 1 */ #define RT1IP2 RTC_C_PS1CTL_RT1IP2 /*!< RT1IP Bit 2 */ #define RT1IP_0 RTC_C_PS1CTL_RT1IP_0 /*!< Divide by 2 */ #define RT1IP_1 RTC_C_PS1CTL_RT1IP_1 /*!< Divide by 4 */ #define RT1IP_2 RTC_C_PS1CTL_RT1IP_2 /*!< Divide by 8 */ #define RT1IP_3 RTC_C_PS1CTL_RT1IP_3 /*!< Divide by 16 */ #define RT1IP_4 RTC_C_PS1CTL_RT1IP_4 /*!< Divide by 32 */ #define RT1IP_5 RTC_C_PS1CTL_RT1IP_5 /*!< Divide by 64 */ #define RT1IP_6 RTC_C_PS1CTL_RT1IP_6 /*!< Divide by 128 */ #define RT1IP_7 RTC_C_PS1CTL_RT1IP_7 /*!< Divide by 256 */ #define RT1IP__2 RTC_C_PS1CTL_RT1IP__2 /*!< Divide by 2 */ #define RT1IP__4 RTC_C_PS1CTL_RT1IP__4 /*!< Divide by 4 */ #define RT1IP__8 RTC_C_PS1CTL_RT1IP__8 /*!< Divide by 8 */ #define RT1IP__16 RTC_C_PS1CTL_RT1IP__16 /*!< Divide by 16 */ #define RT1IP__32 RTC_C_PS1CTL_RT1IP__32 /*!< Divide by 32 */ #define RT1IP__64 RTC_C_PS1CTL_RT1IP__64 /*!< Divide by 64 */ #define RT1IP__128 RTC_C_PS1CTL_RT1IP__128 /*!< Divide by 128 */ #define RT1IP__256 RTC_C_PS1CTL_RT1IP__256 /*!< Divide by 256 */ /* RTCPS[RT0PS] Bits */ #define RT0PS_OFS RTC_C_PS_RT0PS_OFS /*!< RT0PS Offset */ #define RT0PS_M RTC_C_PS_RT0PS_MASK /*!< Prescale timer 0 counter value */ /* RTCPS[RT1PS] Bits */ #define RT1PS_OFS RTC_C_PS_RT1PS_OFS /*!< RT1PS Offset */ #define RT1PS_M RTC_C_PS_RT1PS_MASK /*!< Prescale timer 1 counter value */ /* RTCTIM0[SECONDS] Bits */ #define SECONDS_OFS RTC_C_TIM0_SEC_OFS /*!< Seconds Offset */ #define SECONDS_M RTC_C_TIM0_SEC_MASK /*!< Seconds (0 to 59) */ /* RTCTIM0[MINUTES] Bits */ #define MINUTES_OFS RTC_C_TIM0_MIN_OFS /*!< Minutes Offset */ #define MINUTES_M RTC_C_TIM0_MIN_MASK /*!< Minutes (0 to 59) */ /* RTCTIM0_BCD[SECONDSLOWDIGIT] Bits */ #define SECONDSLOWDIGIT_OFS RTC_C_TIM0_SEC_LD_OFS /*!< SecondsLowDigit Offset */ #define SECONDSLOWDIGIT_M RTC_C_TIM0_SEC_LD_MASK /*!< Seconds low digit (0 to 9) */ /* RTCTIM0_BCD[SECONDSHIGHDIGIT] Bits */ #define SECONDSHIGHDIGIT_OFS RTC_C_TIM0_SEC_HD_OFS /*!< SecondsHighDigit Offset */ #define SECONDSHIGHDIGIT_M RTC_C_TIM0_SEC_HD_MASK /*!< Seconds high digit (0 to 5) */ /* RTCTIM0_BCD[MINUTESLOWDIGIT] Bits */ #define MINUTESLOWDIGIT_OFS RTC_C_TIM0_MIN_LD_OFS /*!< MinutesLowDigit Offset */ #define MINUTESLOWDIGIT_M RTC_C_TIM0_MIN_LD_MASK /*!< Minutes low digit (0 to 9) */ /* RTCTIM0_BCD[MINUTESHIGHDIGIT] Bits */ #define MINUTESHIGHDIGIT_OFS RTC_C_TIM0_MIN_HD_OFS /*!< MinutesHighDigit Offset */ #define MINUTESHIGHDIGIT_M RTC_C_TIM0_MIN_HD_MASK /*!< Minutes high digit (0 to 5) */ /* RTCTIM1[HOURS] Bits */ #define HOURS_OFS RTC_C_TIM1_HOUR_OFS /*!< Hours Offset */ #define HOURS_M RTC_C_TIM1_HOUR_MASK /*!< Hours (0 to 23) */ /* RTCTIM1[DAYOFWEEK] Bits */ #define DAYOFWEEK_OFS RTC_C_TIM1_DOW_OFS /*!< DayofWeek Offset */ #define DAYOFWEEK_M RTC_C_TIM1_DOW_MASK /*!< Day of week (0 to 6) */ /* RTCTIM1_BCD[HOURSLOWDIGIT] Bits */ #define HOURSLOWDIGIT_OFS RTC_C_TIM1_HOUR_LD_OFS /*!< HoursLowDigit Offset */ #define HOURSLOWDIGIT_M RTC_C_TIM1_HOUR_LD_MASK /*!< Hours low digit (0 to 9) */ /* RTCTIM1_BCD[HOURSHIGHDIGIT] Bits */ #define HOURSHIGHDIGIT_OFS RTC_C_TIM1_HOUR_HD_OFS /*!< HoursHighDigit Offset */ #define HOURSHIGHDIGIT_M RTC_C_TIM1_HOUR_HD_MASK /*!< Hours high digit (0 to 2) */ /* RTCTIM1_BCD[DAYOFWEEK] Bits */ //#define DAYOFWEEK_OFS RTC_C_TIM1_DOW_OFS /*!< DayofWeek Offset */ //#define DAYOFWEEK_M RTC_C_TIM1_DOW_MASK /*!< Day of week (0 to 6) */ /* RTCDATE[DAY] Bits */ #define DAY_OFS RTC_C_DATE_DAY_OFS /*!< Day Offset */ #define DAY_M RTC_C_DATE_DAY_MASK /*!< Day of month (1 to 28, 29, 30, 31) */ /* RTCDATE[MONTH] Bits */ #define MONTH_OFS RTC_C_DATE_MON_OFS /*!< Month Offset */ #define MONTH_M RTC_C_DATE_MON_MASK /*!< Month (1 to 12) */ /* RTCDATE_BCD[DAYLOWDIGIT] Bits */ #define DAYLOWDIGIT_OFS RTC_C_DATE_DAY_LD_OFS /*!< DayLowDigit Offset */ #define DAYLOWDIGIT_M RTC_C_DATE_DAY_LD_MASK /*!< Day of month low digit (0 to 9) */ /* RTCDATE_BCD[DAYHIGHDIGIT] Bits */ #define DAYHIGHDIGIT_OFS RTC_C_DATE_DAY_HD_OFS /*!< DayHighDigit Offset */ #define DAYHIGHDIGIT_M RTC_C_DATE_DAY_HD_MASK /*!< Day of month high digit (0 to 3) */ /* RTCDATE_BCD[MONTHLOWDIGIT] Bits */ #define MONTHLOWDIGIT_OFS RTC_C_DATE_MON_LD_OFS /*!< MonthLowDigit Offset */ #define MONTHLOWDIGIT_M RTC_C_DATE_MON_LD_MASK /*!< Month low digit (0 to 9) */ /* RTCDATE_BCD[MONTHHIGHDIGIT] Bits */ #define MONTHHIGHDIGIT_OFS RTC_C_DATE_MON_HD_OFS /*!< MonthHighDigit Offset */ #define MONTHHIGHDIGIT RTC_C_DATE_MON_HD /*!< Month high digit (0 or 1) */ /* RTCYEAR[YEARLOWBYTE] Bits */ #define YEARLOWBYTE_OFS RTC_C_YEAR_YEAR_LB_OFS /*!< YearLowByte Offset */ #define YEARLOWBYTE_M RTC_C_YEAR_YEAR_LB_MASK /*!< Year low byte. Valid values for Year are 0 to 4095. */ /* RTCYEAR[YEARHIGHBYTE] Bits */ #define YEARHIGHBYTE_OFS RTC_C_YEAR_YEAR_HB_OFS /*!< YearHighByte Offset */ #define YEARHIGHBYTE_M RTC_C_YEAR_YEAR_HB_MASK /*!< Year high byte. Valid values for Year are 0 to 4095. */ /* RTCYEAR_BCD[YEAR] Bits */ #define YEAR_OFS RTC_C_YEAR_YEAR_OFS /*!< Year Offset */ #define YEAR_M RTC_C_YEAR_YEAR_MASK /*!< Year lowest digit (0 to 9) */ /* RTCYEAR_BCD[DECADE] Bits */ #define DECADE_OFS RTC_C_YEAR_DEC_OFS /*!< Decade Offset */ #define DECADE_M RTC_C_YEAR_DEC_MASK /*!< Decade (0 to 9) */ /* RTCYEAR_BCD[CENTURYLOWDIGIT] Bits */ #define CENTURYLOWDIGIT_OFS RTC_C_YEAR_CENT_LD_OFS /*!< CenturyLowDigit Offset */ #define CENTURYLOWDIGIT_M RTC_C_YEAR_CENT_LD_MASK /*!< Century low digit (0 to 9) */ /* RTCYEAR_BCD[CENTURYHIGHDIGIT] Bits */ #define CENTURYHIGHDIGIT_OFS RTC_C_YEAR_CENT_HD_OFS /*!< CenturyHighDigit Offset */ #define CENTURYHIGHDIGIT_M RTC_C_YEAR_CENT_HD_MASK /*!< Century high digit (0 to 4) */ /* RTCAMINHR[MINUTES] Bits */ //#define MINUTES_OFS RTC_C_AMINHR_MIN_OFS /*!< Minutes Offset */ //#define MINUTES_M RTC_C_AMINHR_MIN_MASK /*!< Minutes (0 to 59) */ /* RTCAMINHR[MINAE] Bits */ #define MINAE_OFS RTC_C_AMINHR_MINAE_OFS /*!< MINAE Offset */ #define MINAE RTC_C_AMINHR_MINAE /*!< Alarm enable */ /* RTCAMINHR[HOURS] Bits */ //#define HOURS_OFS RTC_C_AMINHR_HOUR_OFS /*!< Hours Offset */ //#define HOURS_M RTC_C_AMINHR_HOUR_MASK /*!< Hours (0 to 23) */ /* RTCAMINHR[HOURAE] Bits */ #define HOURAE_OFS RTC_C_AMINHR_HOURAE_OFS /*!< HOURAE Offset */ #define HOURAE RTC_C_AMINHR_HOURAE /*!< Alarm enable */ /* RTCAMINHR_BCD[MINUTESLOWDIGIT] Bits */ //#define MINUTESLOWDIGIT_OFS RTC_C_AMINHR_MIN_LD_OFS /*!< MinutesLowDigit Offset */ //#define MINUTESLOWDIGIT_M RTC_C_AMINHR_MIN_LD_MASK /*!< Minutes low digit (0 to 9) */ /* RTCAMINHR_BCD[MINUTESHIGHDIGIT] Bits */ //#define MINUTESHIGHDIGIT_OFS RTC_C_AMINHR_MIN_HD_OFS /*!< MinutesHighDigit Offset */ //#define MINUTESHIGHDIGIT_M RTC_C_AMINHR_MIN_HD_MASK /*!< Minutes high digit (0 to 5) */ /* RTCAMINHR_BCD[MINAE] Bits */ //#define MINAE_OFS RTC_C_AMINHR_MINAE_OFS /*!< MINAE Offset */ //#define MINAE RTC_C_AMINHR_MINAE /*!< Alarm enable */ /* RTCAMINHR_BCD[HOURSLOWDIGIT] Bits */ //#define HOURSLOWDIGIT_OFS RTC_C_AMINHR_HOUR_LD_OFS /*!< HoursLowDigit Offset */ //#define HOURSLOWDIGIT_M RTC_C_AMINHR_HOUR_LD_MASK /*!< Hours low digit (0 to 9) */ /* RTCAMINHR_BCD[HOURSHIGHDIGIT] Bits */ //#define HOURSHIGHDIGIT_OFS RTC_C_AMINHR_HOUR_HD_OFS /*!< HoursHighDigit Offset */ //#define HOURSHIGHDIGIT_M RTC_C_AMINHR_HOUR_HD_MASK /*!< Hours high digit (0 to 2) */ /* RTCAMINHR_BCD[HOURAE] Bits */ //#define HOURAE_OFS RTC_C_AMINHR_HOURAE_OFS /*!< HOURAE Offset */ //#define HOURAE RTC_C_AMINHR_HOURAE /*!< Alarm enable */ /* RTCADOWDAY[DAYOFWEEK] Bits */ //#define DAYOFWEEK_OFS RTC_C_ADOWDAY_DOW_OFS /*!< DayofWeek Offset */ //#define DAYOFWEEK_M RTC_C_ADOWDAY_DOW_MASK /*!< Day of week (0 to 6) */ /* RTCADOWDAY[DOWAE] Bits */ #define DOWAE_OFS RTC_C_ADOWDAY_DOWAE_OFS /*!< DOWAE Offset */ #define DOWAE RTC_C_ADOWDAY_DOWAE /*!< Alarm enable */ /* RTCADOWDAY[DAYOFMONTH] Bits */ #define DAYOFMONTH_OFS RTC_C_ADOWDAY_DAY_OFS /*!< DayofMonth Offset */ #define DAYOFMONTH_M RTC_C_ADOWDAY_DAY_MASK /*!< Day of month (1 to 28, 29, 30, 31) */ /* RTCADOWDAY[DAYAE] Bits */ #define DAYAE_OFS RTC_C_ADOWDAY_DAYAE_OFS /*!< DAYAE Offset */ #define DAYAE RTC_C_ADOWDAY_DAYAE /*!< Alarm enable */ /* RTCADOWDAY_BCD[DAYOFWEEK] Bits */ //#define DAYOFWEEK_OFS RTC_C_ADOWDAY_DOW_OFS /*!< DayofWeek Offset */ //#define DAYOFWEEK_M RTC_C_ADOWDAY_DOW_MASK /*!< Day of week (0 to 6) */ /* RTCADOWDAY_BCD[DOWAE] Bits */ //#define DOWAE_OFS RTC_C_ADOWDAY_DOWAE_OFS /*!< DOWAE Offset */ //#define DOWAE RTC_C_ADOWDAY_DOWAE /*!< Alarm enable */ /* RTCADOWDAY_BCD[DAYLOWDIGIT] Bits */ //#define DAYLOWDIGIT_OFS RTC_C_ADOWDAY_DAY_LD_OFS /*!< DayLowDigit Offset */ //#define DAYLOWDIGIT_M RTC_C_ADOWDAY_DAY_LD_MASK /*!< Day of month low digit (0 to 9) */ /* RTCADOWDAY_BCD[DAYHIGHDIGIT] Bits */ //#define DAYHIGHDIGIT_OFS RTC_C_ADOWDAY_DAY_HD_OFS /*!< DayHighDigit Offset */ //#define DAYHIGHDIGIT_M RTC_C_ADOWDAY_DAY_HD_MASK /*!< Day of month high digit (0 to 3) */ /* RTCADOWDAY_BCD[DAYAE] Bits */ //#define DAYAE_OFS RTC_C_ADOWDAY_DAYAE_OFS /*!< DAYAE Offset */ //#define DAYAE RTC_C_ADOWDAY_DAYAE /*!< Alarm enable */ /* Pre-defined bitfield values */ #define RTCKEY RTC_C_KEY /*!< RTC_C Key Value for RTC_C write access */ #define RTCKEY_H RTC_C_KEY_H /*!< RTC_C Key Value for RTC_C write access */ #define RTCKEY_VAL RTC_C_KEY_VAL /*!< RTC_C Key Value for RTC_C write access */ /****************************************************************************** * TIMER_A Bits (legacy section) ******************************************************************************/ /* TA0CTL[TAIFG] Bits */ #define TAIFG_OFS TIMER_A_CTL_IFG_OFS /*!< TAIFG Offset */ #define TAIFG TIMER_A_CTL_IFG /*!< TimerA interrupt flag */ /* TA0CTL[TAIE] Bits */ #define TAIE_OFS TIMER_A_CTL_IE_OFS /*!< TAIE Offset */ #define TAIE TIMER_A_CTL_IE /*!< TimerA interrupt enable */ /* TA0CTL[TACLR] Bits */ #define TACLR_OFS TIMER_A_CTL_CLR_OFS /*!< TACLR Offset */ #define TACLR TIMER_A_CTL_CLR /*!< TimerA clear */ /* TA0CTL[MC] Bits */ #define MC_OFS TIMER_A_CTL_MC_OFS /*!< MC Offset */ #define MC_M TIMER_A_CTL_MC_MASK /*!< Mode control */ #define MC0 TIMER_A_CTL_MC0 /*!< MC Bit 0 */ #define MC1 TIMER_A_CTL_MC1 /*!< MC Bit 1 */ #define MC_0 TIMER_A_CTL_MC_0 /*!< Stop mode: Timer is halted */ #define MC_1 TIMER_A_CTL_MC_1 /*!< Up mode: Timer counts up to TAxCCR0 */ #define MC_2 TIMER_A_CTL_MC_2 /*!< Continuous mode: Timer counts up to 0FFFFh */ #define MC_3 TIMER_A_CTL_MC_3 /*!< Up/down mode: Timer counts up to TAxCCR0 then down to 0000h */ #define MC__STOP TIMER_A_CTL_MC__STOP /*!< Stop mode: Timer is halted */ #define MC__UP TIMER_A_CTL_MC__UP /*!< Up mode: Timer counts up to TAxCCR0 */ #define MC__CONTINUOUS TIMER_A_CTL_MC__CONTINUOUS /*!< Continuous mode: Timer counts up to 0FFFFh */ #define MC__UPDOWN TIMER_A_CTL_MC__UPDOWN /*!< Up/down mode: Timer counts up to TAxCCR0 then down to 0000h */ /* TA0CTL[ID] Bits */ #define ID_OFS TIMER_A_CTL_ID_OFS /*!< ID Offset */ #define ID_M TIMER_A_CTL_ID_MASK /*!< Input divider */ #define ID0 TIMER_A_CTL_ID0 /*!< ID Bit 0 */ #define ID1 TIMER_A_CTL_ID1 /*!< ID Bit 1 */ #define ID_0 TIMER_A_CTL_ID_0 /*!< /1 */ #define ID_1 TIMER_A_CTL_ID_1 /*!< /2 */ #define ID_2 TIMER_A_CTL_ID_2 /*!< /4 */ #define ID_3 TIMER_A_CTL_ID_3 /*!< /8 */ #define ID__1 TIMER_A_CTL_ID__1 /*!< /1 */ #define ID__2 TIMER_A_CTL_ID__2 /*!< /2 */ #define ID__4 TIMER_A_CTL_ID__4 /*!< /4 */ #define ID__8 TIMER_A_CTL_ID__8 /*!< /8 */ /* TA0CTL[TASSEL] Bits */ #define TASSEL_OFS TIMER_A_CTL_SSEL_OFS /*!< TASSEL Offset */ #define TASSEL_M TIMER_A_CTL_SSEL_MASK /*!< TimerA clock source select */ #define TASSEL0 TIMER_A_CTL_SSEL0 /*!< TASSEL Bit 0 */ #define TASSEL1 TIMER_A_CTL_SSEL1 /*!< TASSEL Bit 1 */ #define TASSEL_0 TIMER_A_CTL_TASSEL_0 /*!< TAxCLK */ #define TASSEL_1 TIMER_A_CTL_TASSEL_1 /*!< ACLK */ #define TASSEL_2 TIMER_A_CTL_TASSEL_2 /*!< SMCLK */ #define TASSEL_3 TIMER_A_CTL_TASSEL_3 /*!< INCLK */ #define TASSEL__TACLK TIMER_A_CTL_SSEL__TACLK /*!< TAxCLK */ #define TASSEL__ACLK TIMER_A_CTL_SSEL__ACLK /*!< ACLK */ #define TASSEL__SMCLK TIMER_A_CTL_SSEL__SMCLK /*!< SMCLK */ #define TASSEL__INCLK TIMER_A_CTL_SSEL__INCLK /*!< INCLK */ /* TA0CCTLn[CCIFG] Bits */ #define CCIFG_OFS TIMER_A_CCTLN_CCIFG_OFS /*!< CCIFG Offset */ #define CCIFG TIMER_A_CCTLN_CCIFG /*!< Capture/compare interrupt flag */ /* TA0CCTLn[COV] Bits */ #define COV_OFS TIMER_A_CCTLN_COV_OFS /*!< COV Offset */ #define COV TIMER_A_CCTLN_COV /*!< Capture overflow */ /* TA0CCTLn[OUT] Bits */ #define OUT_OFS TIMER_A_CCTLN_OUT_OFS /*!< OUT Offset */ //#define OUT TIMER_A_CCTLN_OUT /*!< Output */ /* TA0CCTLn[CCI] Bits */ #define CCI_OFS TIMER_A_CCTLN_CCI_OFS /*!< CCI Offset */ #define CCI TIMER_A_CCTLN_CCI /*!< Capture/compare input */ /* TA0CCTLn[CCIE] Bits */ #define CCIE_OFS TIMER_A_CCTLN_CCIE_OFS /*!< CCIE Offset */ #define CCIE TIMER_A_CCTLN_CCIE /*!< Capture/compare interrupt enable */ /* TA0CCTLn[OUTMOD] Bits */ #define OUTMOD_OFS TIMER_A_CCTLN_OUTMOD_OFS /*!< OUTMOD Offset */ #define OUTMOD_M TIMER_A_CCTLN_OUTMOD_MASK /*!< Output mode */ #define OUTMOD0 TIMER_A_CCTLN_OUTMOD0 /*!< OUTMOD Bit 0 */ #define OUTMOD1 TIMER_A_CCTLN_OUTMOD1 /*!< OUTMOD Bit 1 */ #define OUTMOD2 TIMER_A_CCTLN_OUTMOD2 /*!< OUTMOD Bit 2 */ #define OUTMOD_0 TIMER_A_CCTLN_OUTMOD_0 /*!< OUT bit value */ #define OUTMOD_1 TIMER_A_CCTLN_OUTMOD_1 /*!< Set */ #define OUTMOD_2 TIMER_A_CCTLN_OUTMOD_2 /*!< Toggle/reset */ #define OUTMOD_3 TIMER_A_CCTLN_OUTMOD_3 /*!< Set/reset */ #define OUTMOD_4 TIMER_A_CCTLN_OUTMOD_4 /*!< Toggle */ #define OUTMOD_5 TIMER_A_CCTLN_OUTMOD_5 /*!< Reset */ #define OUTMOD_6 TIMER_A_CCTLN_OUTMOD_6 /*!< Toggle/set */ #define OUTMOD_7 TIMER_A_CCTLN_OUTMOD_7 /*!< Reset/set */ /* TA0CCTLn[CAP] Bits */ #define CAP_OFS TIMER_A_CCTLN_CAP_OFS /*!< CAP Offset */ #define CAP TIMER_A_CCTLN_CAP /*!< Capture mode */ /* TA0CCTLn[SCCI] Bits */ #define SCCI_OFS TIMER_A_CCTLN_SCCI_OFS /*!< SCCI Offset */ #define SCCI TIMER_A_CCTLN_SCCI /*!< Synchronized capture/compare input */ /* TA0CCTLn[SCS] Bits */ #define SCS_OFS TIMER_A_CCTLN_SCS_OFS /*!< SCS Offset */ #define SCS TIMER_A_CCTLN_SCS /*!< Synchronize capture source */ /* TA0CCTLn[CCIS] Bits */ #define CCIS_OFS TIMER_A_CCTLN_CCIS_OFS /*!< CCIS Offset */ #define CCIS_M TIMER_A_CCTLN_CCIS_MASK /*!< Capture/compare input select */ #define CCIS0 TIMER_A_CCTLN_CCIS0 /*!< CCIS Bit 0 */ #define CCIS1 TIMER_A_CCTLN_CCIS1 /*!< CCIS Bit 1 */ #define CCIS_0 TIMER_A_CCTLN_CCIS_0 /*!< CCIxA */ #define CCIS_1 TIMER_A_CCTLN_CCIS_1 /*!< CCIxB */ #define CCIS_2 TIMER_A_CCTLN_CCIS_2 /*!< GND */ #define CCIS_3 TIMER_A_CCTLN_CCIS_3 /*!< VCC */ #define CCIS__CCIA TIMER_A_CCTLN_CCIS__CCIA /*!< CCIxA */ #define CCIS__CCIB TIMER_A_CCTLN_CCIS__CCIB /*!< CCIxB */ #define CCIS__GND TIMER_A_CCTLN_CCIS__GND /*!< GND */ #define CCIS__VCC TIMER_A_CCTLN_CCIS__VCC /*!< VCC */ /* TA0CCTLn[CM] Bits */ #define CM_OFS TIMER_A_CCTLN_CM_OFS /*!< CM Offset */ #define CM_M TIMER_A_CCTLN_CM_MASK /*!< Capture mode */ #define CM0 TIMER_A_CCTLN_CM0 /*!< CM Bit 0 */ #define CM1 TIMER_A_CCTLN_CM1 /*!< CM Bit 1 */ #define CM_0 TIMER_A_CCTLN_CM_0 /*!< No capture */ #define CM_1 TIMER_A_CCTLN_CM_1 /*!< Capture on rising edge */ #define CM_2 TIMER_A_CCTLN_CM_2 /*!< Capture on falling edge */ #define CM_3 TIMER_A_CCTLN_CM_3 /*!< Capture on both rising and falling edges */ #define CM__NONE TIMER_A_CCTLN_CM__NONE /*!< No capture */ #define CM__RISING TIMER_A_CCTLN_CM__RISING /*!< Capture on rising edge */ #define CM__FALLING TIMER_A_CCTLN_CM__FALLING /*!< Capture on falling edge */ #define CM__BOTH TIMER_A_CCTLN_CM__BOTH /*!< Capture on both rising and falling edges */ /* TA0EX0[TAIDEX] Bits */ #define TAIDEX_OFS TIMER_A_EX0_IDEX_OFS /*!< TAIDEX Offset */ #define TAIDEX_M TIMER_A_EX0_IDEX_MASK /*!< Input divider expansion */ #define TAIDEX0 TIMER_A_EX0_IDEX0 /*!< TAIDEX Bit 0 */ #define TAIDEX1 TIMER_A_EX0_IDEX1 /*!< TAIDEX Bit 1 */ #define TAIDEX2 TIMER_A_EX0_IDEX2 /*!< TAIDEX Bit 2 */ #define TAIDEX_0 TIMER_A_EX0_TAIDEX_0 /*!< Divide by 1 */ #define TAIDEX_1 TIMER_A_EX0_TAIDEX_1 /*!< Divide by 2 */ #define TAIDEX_2 TIMER_A_EX0_TAIDEX_2 /*!< Divide by 3 */ #define TAIDEX_3 TIMER_A_EX0_TAIDEX_3 /*!< Divide by 4 */ #define TAIDEX_4 TIMER_A_EX0_TAIDEX_4 /*!< Divide by 5 */ #define TAIDEX_5 TIMER_A_EX0_TAIDEX_5 /*!< Divide by 6 */ #define TAIDEX_6 TIMER_A_EX0_TAIDEX_6 /*!< Divide by 7 */ #define TAIDEX_7 TIMER_A_EX0_TAIDEX_7 /*!< Divide by 8 */ #define TAIDEX__1 TIMER_A_EX0_IDEX__1 /*!< Divide by 1 */ #define TAIDEX__2 TIMER_A_EX0_IDEX__2 /*!< Divide by 2 */ #define TAIDEX__3 TIMER_A_EX0_IDEX__3 /*!< Divide by 3 */ #define TAIDEX__4 TIMER_A_EX0_IDEX__4 /*!< Divide by 4 */ #define TAIDEX__5 TIMER_A_EX0_IDEX__5 /*!< Divide by 5 */ #define TAIDEX__6 TIMER_A_EX0_IDEX__6 /*!< Divide by 6 */ #define TAIDEX__7 TIMER_A_EX0_IDEX__7 /*!< Divide by 7 */ #define TAIDEX__8 TIMER_A_EX0_IDEX__8 /*!< Divide by 8 */ /****************************************************************************** * WDT_A Bits (legacy section) ******************************************************************************/ /* WDTCTL[WDTIS] Bits */ #define WDTIS_OFS WDT_A_CTL_IS_OFS /*!< WDTIS Offset */ #define WDTIS_M WDT_A_CTL_IS_MASK /*!< Watchdog timer interval select */ #define WDTIS0 WDT_A_CTL_IS0 /*!< WDTIS Bit 0 */ #define WDTIS1 WDT_A_CTL_IS1 /*!< WDTIS Bit 1 */ #define WDTIS2 WDT_A_CTL_IS2 /*!< WDTIS Bit 2 */ #define WDTIS_0 WDT_A_CTL_IS_0 /*!< Watchdog clock source / (2^(31)) (18:12:16 at 32.768 kHz) */ #define WDTIS_1 WDT_A_CTL_IS_1 /*!< Watchdog clock source /(2^(27)) (01:08:16 at 32.768 kHz) */ #define WDTIS_2 WDT_A_CTL_IS_2 /*!< Watchdog clock source /(2^(23)) (00:04:16 at 32.768 kHz) */ #define WDTIS_3 WDT_A_CTL_IS_3 /*!< Watchdog clock source /(2^(19)) (00:00:16 at 32.768 kHz) */ #define WDTIS_4 WDT_A_CTL_IS_4 /*!< Watchdog clock source /(2^(15)) (1 s at 32.768 kHz) */ #define WDTIS_5 WDT_A_CTL_IS_5 /*!< Watchdog clock source / (2^(13)) (250 ms at 32.768 kHz) */ #define WDTIS_6 WDT_A_CTL_IS_6 /*!< Watchdog clock source / (2^(9)) (15.625 ms at 32.768 kHz) */ #define WDTIS_7 WDT_A_CTL_IS_7 /*!< Watchdog clock source / (2^(6)) (1.95 ms at 32.768 kHz) */ /* WDTCTL[WDTCNTCL] Bits */ #define WDTCNTCL_OFS WDT_A_CTL_CNTCL_OFS /*!< WDTCNTCL Offset */ #define WDTCNTCL WDT_A_CTL_CNTCL /*!< Watchdog timer counter clear */ /* WDTCTL[WDTTMSEL] Bits */ #define WDTTMSEL_OFS WDT_A_CTL_TMSEL_OFS /*!< WDTTMSEL Offset */ #define WDTTMSEL WDT_A_CTL_TMSEL /*!< Watchdog timer mode select */ /* WDTCTL[WDTSSEL] Bits */ #define WDTSSEL_OFS WDT_A_CTL_SSEL_OFS /*!< WDTSSEL Offset */ #define WDTSSEL_M WDT_A_CTL_SSEL_MASK /*!< Watchdog timer clock source select */ #define WDTSSEL0 WDT_A_CTL_SSEL0 /*!< WDTSSEL Bit 0 */ #define WDTSSEL1 WDT_A_CTL_SSEL1 /*!< WDTSSEL Bit 1 */ #define WDTSSEL_0 WDT_A_CTL_SSEL_0 /*!< SMCLK */ #define WDTSSEL_1 WDT_A_CTL_SSEL_1 /*!< ACLK */ #define WDTSSEL_2 WDT_A_CTL_SSEL_2 /*!< VLOCLK */ #define WDTSSEL_3 WDT_A_CTL_SSEL_3 /*!< BCLK */ #define WDTSSEL__SMCLK WDT_A_CTL_SSEL__SMCLK /*!< SMCLK */ #define WDTSSEL__ACLK WDT_A_CTL_SSEL__ACLK /*!< ACLK */ #define WDTSSEL__VLOCLK WDT_A_CTL_SSEL__VLOCLK /*!< VLOCLK */ #define WDTSSEL__BCLK WDT_A_CTL_SSEL__BCLK /*!< BCLK */ /* WDTCTL[WDTHOLD] Bits */ #define WDTHOLD_OFS WDT_A_CTL_HOLD_OFS /*!< WDTHOLD Offset */ #define WDTHOLD WDT_A_CTL_HOLD /*!< Watchdog timer hold */ /* WDTCTL[WDTPW] Bits */ #define WDTPW_OFS WDT_A_CTL_PW_OFS /*!< WDTPW Offset */ #define WDTPW_M WDT_A_CTL_PW_MASK /*!< Watchdog timer password */ /* Pre-defined bitfield values */ #define WDTPW WDT_A_CTL_PW /*!< WDT Key Value for WDT write access */ #ifdef __cplusplus } #endif #endif /* __MSP432P401R_CLASSIC_H__ */