/usr/msp430/include/msp430fg4616.h is in msp430mcu 20120406-2.
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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 | /* ============================================================================ */
/* Copyright (c) 2012, Texas Instruments Incorporated */
/* All rights reserved. */
/* */
/* 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. */
/* ============================================================================ */
/********************************************************************
*
* Standard register and bit definitions for the Texas Instruments
* MSP430 microcontroller.
*
* This file supports assembler and C development for
* MSP430xG46x devices.
*
* Texas Instruments, Version 1.7
*
* Rev. 1.0, Setup
* Rev. 1.1, Fixed Names for USCI an settings for DMA
* Rev. 1.2, Added VLD bits in SVS module
* Rev. 1.3, Removed definitions for BTRESET
* Fixed swapped definition of RTCxxx
* Rev. 1.4, Removed unused ME1 definition
* Rev. 1.5, added definitions for Interrupt Vectors xxIV
* Rev. 1.6, changed 'void __data20 * volatile' definition
* Rev. 1.6, added LFXT1DIG
*
*
********************************************************************/
#ifndef __msp430xG46x
#define __msp430xG46x
#define __MSP430_HEADER_VERSION__ 1064
#define __MSP430_TI_HEADERS__
#ifdef __cplusplus
extern "C" {
#endif
#include <iomacros.h>
/************************************************************
* STANDARD BITS
************************************************************/
#define BIT0 (0x0001)
#define BIT1 (0x0002)
#define BIT2 (0x0004)
#define BIT3 (0x0008)
#define BIT4 (0x0010)
#define BIT5 (0x0020)
#define BIT6 (0x0040)
#define BIT7 (0x0080)
#define BIT8 (0x0100)
#define BIT9 (0x0200)
#define BITA (0x0400)
#define BITB (0x0800)
#define BITC (0x1000)
#define BITD (0x2000)
#define BITE (0x4000)
#define BITF (0x8000)
/************************************************************
* STATUS REGISTER BITS
************************************************************/
#define C (0x0001)
#define Z (0x0002)
#define N (0x0004)
#define V (0x0100)
#define GIE (0x0008)
#define CPUOFF (0x0010)
#define OSCOFF (0x0020)
#define SCG0 (0x0040)
#define SCG1 (0x0080)
/* Low Power Modes coded with Bits 4-7 in SR */
#ifndef __STDC__ /* Begin #defines for assembler */
#define LPM0 (CPUOFF)
#define LPM1 (SCG0+CPUOFF)
#define LPM2 (SCG1+CPUOFF)
#define LPM3 (SCG1+SCG0+CPUOFF)
#define LPM4 (SCG1+SCG0+OSCOFF+CPUOFF)
/* End #defines for assembler */
#else /* Begin #defines for C */
#define LPM0_bits (CPUOFF)
#define LPM1_bits (SCG0+CPUOFF)
#define LPM2_bits (SCG1+CPUOFF)
#define LPM3_bits (SCG1+SCG0+CPUOFF)
#define LPM4_bits (SCG1+SCG0+OSCOFF+CPUOFF)
#include "in430.h"
#define LPM0 _BIS_SR(LPM0_bits) /* Enter Low Power Mode 0 */
#define LPM0_EXIT _BIC_SR_IRQ(LPM0_bits) /* Exit Low Power Mode 0 */
#define LPM1 _BIS_SR(LPM1_bits) /* Enter Low Power Mode 1 */
#define LPM1_EXIT _BIC_SR_IRQ(LPM1_bits) /* Exit Low Power Mode 1 */
#define LPM2 _BIS_SR(LPM2_bits) /* Enter Low Power Mode 2 */
#define LPM2_EXIT _BIC_SR_IRQ(LPM2_bits) /* Exit Low Power Mode 2 */
#define LPM3 _BIS_SR(LPM3_bits) /* Enter Low Power Mode 3 */
#define LPM3_EXIT _BIC_SR_IRQ(LPM3_bits) /* Exit Low Power Mode 3 */
#define LPM4 _BIS_SR(LPM4_bits) /* Enter Low Power Mode 4 */
#define LPM4_EXIT _BIC_SR_IRQ(LPM4_bits) /* Exit Low Power Mode 4 */
#endif /* End #defines for C */
/************************************************************
* CPU
************************************************************/
#define __MSP430_HAS_MSP430X_CPU__ /* Definition to show that it has MSP430X CPU */
/************************************************************
* PERIPHERAL FILE MAP
************************************************************/
/************************************************************
* SPECIAL FUNCTION REGISTER ADDRESSES + CONTROL BITS
************************************************************/
#define IE1_ 0x0000 /* Interrupt Enable 1 */
sfrb(IE1, IE1_);
#define WDTIE (0x01)
#define OFIE (0x02)
#define NMIIE (0x10)
#define ACCVIE (0x20)
#define IFG1_ 0x0002 /* Interrupt Flag 1 */
sfrb(IFG1, IFG1_);
#define WDTIFG (0x01)
#define OFIFG (0x02)
#define NMIIFG (0x10)
#define IE2_ 0x0001 /* Interrupt Enable 2 */
sfrb(IE2, IE2_);
#define U1IE IE2 /* UART1 Interrupt Enable Register */
#define UC0IE IE2
#define UCA0RXIE (0x01)
#define UCA0TXIE (0x02)
#define UCB0RXIE (0x04)
#define UCB0TXIE (0x08)
#define URXIE1 (0x10)
#define UTXIE1 (0x20)
#define BTIE (0x80)
#define IFG2_ 0x0003 /* Interrupt Flag 2 */
sfrb(IFG2, IFG2_);
#define U1IFG IFG2 /* UART1 Interrupt Flag Register */
#define UC0IFG IFG2
#define UCA0RXIFG (0x01)
#define UCA0TXIFG (0x02)
#define UCB0RXIFG (0x04)
#define UCB0TXIFG (0x08)
#define URXIFG1 (0x10)
#define UTXIFG1 (0x20)
#define BTIFG (0x80)
#define ME2_ 0x0005 /* Module Enable 2 */
sfrb(ME2, ME2_);
#define U1ME ME2 /* UART1 Module Enable Register */
#define URXE1 (0x10)
#define UTXE1 (0x20)
#define USPIE1 (0x10)
/************************************************************
* ADC12
************************************************************/
#define __MSP430_HAS_ADC12__ /* Definition to show that Module is available */
#define ADC12CTL0_ 0x01A0 /* ADC12 Control 0 */
sfrw(ADC12CTL0, ADC12CTL0_);
#define ADC12CTL1_ 0x01A2 /* ADC12 Control 1 */
sfrw(ADC12CTL1, ADC12CTL1_);
#define ADC12IFG_ 0x01A4 /* ADC12 Interrupt Flag */
sfrw(ADC12IFG, ADC12IFG_);
#define ADC12IE_ 0x01A6 /* ADC12 Interrupt Enable */
sfrw(ADC12IE, ADC12IE_);
#define ADC12IV_ 0x01A8 /* ADC12 Interrupt Vector Word */
sfrw(ADC12IV, ADC12IV_);
#define ADC12MEM_ (0x0140) /* ADC12 Conversion Memory */
#ifndef __STDC__
#define ADC12MEM (ADC12MEM_) /* ADC12 Conversion Memory (for assembler) */
#else
#define ADC12MEM ((volatile int*) ADC12MEM_) /* ADC12 Conversion Memory (for C) */
#endif
#define ADC12MEM0_ 0x0140 /* ADC12 Conversion Memory 0 */
sfrw(ADC12MEM0, ADC12MEM0_);
#define ADC12MEM1_ 0x0142 /* ADC12 Conversion Memory 1 */
sfrw(ADC12MEM1, ADC12MEM1_);
#define ADC12MEM2_ 0x0144 /* ADC12 Conversion Memory 2 */
sfrw(ADC12MEM2, ADC12MEM2_);
#define ADC12MEM3_ 0x0146 /* ADC12 Conversion Memory 3 */
sfrw(ADC12MEM3, ADC12MEM3_);
#define ADC12MEM4_ 0x0148 /* ADC12 Conversion Memory 4 */
sfrw(ADC12MEM4, ADC12MEM4_);
#define ADC12MEM5_ 0x014A /* ADC12 Conversion Memory 5 */
sfrw(ADC12MEM5, ADC12MEM5_);
#define ADC12MEM6_ 0x014C /* ADC12 Conversion Memory 6 */
sfrw(ADC12MEM6, ADC12MEM6_);
#define ADC12MEM7_ 0x014E /* ADC12 Conversion Memory 7 */
sfrw(ADC12MEM7, ADC12MEM7_);
#define ADC12MEM8_ 0x0150 /* ADC12 Conversion Memory 8 */
sfrw(ADC12MEM8, ADC12MEM8_);
#define ADC12MEM9_ 0x0152 /* ADC12 Conversion Memory 9 */
sfrw(ADC12MEM9, ADC12MEM9_);
#define ADC12MEM10_ 0x0154 /* ADC12 Conversion Memory 10 */
sfrw(ADC12MEM10, ADC12MEM10_);
#define ADC12MEM11_ 0x0156 /* ADC12 Conversion Memory 11 */
sfrw(ADC12MEM11, ADC12MEM11_);
#define ADC12MEM12_ 0x0158 /* ADC12 Conversion Memory 12 */
sfrw(ADC12MEM12, ADC12MEM12_);
#define ADC12MEM13_ 0x015A /* ADC12 Conversion Memory 13 */
sfrw(ADC12MEM13, ADC12MEM13_);
#define ADC12MEM14_ 0x015C /* ADC12 Conversion Memory 14 */
sfrw(ADC12MEM14, ADC12MEM14_);
#define ADC12MEM15_ 0x015E /* ADC12 Conversion Memory 15 */
sfrw(ADC12MEM15, ADC12MEM15_);
#define ADC12MCTL_ (0x0080) /* ADC12 Memory Control */
#ifndef __STDC__
#define ADC12MCTL (ADC12MCTL_) /* ADC12 Memory Control (for assembler) */
#else
#define ADC12MCTL ((volatile char*) ADC12MCTL_) /* ADC12 Memory Control (for C) */
#endif
#define ADC12MCTL0_ 0x0080 /* ADC12 Memory Control 0 */
sfrb(ADC12MCTL0, ADC12MCTL0_);
#define ADC12MCTL1_ 0x0081 /* ADC12 Memory Control 1 */
sfrb(ADC12MCTL1, ADC12MCTL1_);
#define ADC12MCTL2_ 0x0082 /* ADC12 Memory Control 2 */
sfrb(ADC12MCTL2, ADC12MCTL2_);
#define ADC12MCTL3_ 0x0083 /* ADC12 Memory Control 3 */
sfrb(ADC12MCTL3, ADC12MCTL3_);
#define ADC12MCTL4_ 0x0084 /* ADC12 Memory Control 4 */
sfrb(ADC12MCTL4, ADC12MCTL4_);
#define ADC12MCTL5_ 0x0085 /* ADC12 Memory Control 5 */
sfrb(ADC12MCTL5, ADC12MCTL5_);
#define ADC12MCTL6_ 0x0086 /* ADC12 Memory Control 6 */
sfrb(ADC12MCTL6, ADC12MCTL6_);
#define ADC12MCTL7_ 0x0087 /* ADC12 Memory Control 7 */
sfrb(ADC12MCTL7, ADC12MCTL7_);
#define ADC12MCTL8_ 0x0088 /* ADC12 Memory Control 8 */
sfrb(ADC12MCTL8, ADC12MCTL8_);
#define ADC12MCTL9_ 0x0089 /* ADC12 Memory Control 9 */
sfrb(ADC12MCTL9, ADC12MCTL9_);
#define ADC12MCTL10_ 0x008A /* ADC12 Memory Control 10 */
sfrb(ADC12MCTL10, ADC12MCTL10_);
#define ADC12MCTL11_ 0x008B /* ADC12 Memory Control 11 */
sfrb(ADC12MCTL11, ADC12MCTL11_);
#define ADC12MCTL12_ 0x008C /* ADC12 Memory Control 12 */
sfrb(ADC12MCTL12, ADC12MCTL12_);
#define ADC12MCTL13_ 0x008D /* ADC12 Memory Control 13 */
sfrb(ADC12MCTL13, ADC12MCTL13_);
#define ADC12MCTL14_ 0x008E /* ADC12 Memory Control 14 */
sfrb(ADC12MCTL14, ADC12MCTL14_);
#define ADC12MCTL15_ 0x008F /* ADC12 Memory Control 15 */
sfrb(ADC12MCTL15, ADC12MCTL15_);
/* ADC12CTL0 */
#define ADC12SC (0x001) /* ADC12 Start Conversion */
#define ENC (0x002) /* ADC12 Enable Conversion */
#define ADC12TOVIE (0x004) /* ADC12 Timer Overflow interrupt enable */
#define ADC12OVIE (0x008) /* ADC12 Overflow interrupt enable */
#define ADC12ON (0x010) /* ADC12 On/enable */
#define REFON (0x020) /* ADC12 Reference on */
#define REF2_5V (0x040) /* ADC12 Ref 0:1.5V / 1:2.5V */
#define MSC (0x080) /* ADC12 Multiple SampleConversion */
#define SHT00 (0x0100) /* ADC12 Sample Hold 0 Select 0 */
#define SHT01 (0x0200) /* ADC12 Sample Hold 0 Select 1 */
#define SHT02 (0x0400) /* ADC12 Sample Hold 0 Select 2 */
#define SHT03 (0x0800) /* ADC12 Sample Hold 0 Select 3 */
#define SHT10 (0x1000) /* ADC12 Sample Hold 0 Select 0 */
#define SHT11 (0x2000) /* ADC12 Sample Hold 1 Select 1 */
#define SHT12 (0x4000) /* ADC12 Sample Hold 2 Select 2 */
#define SHT13 (0x8000) /* ADC12 Sample Hold 3 Select 3 */
#define MSH (0x080)
#define SHT0_0 (0x0000) /* ADC12 Sample Hold 0 Select Bit: 0 */
#define SHT0_1 (0x0100) /* ADC12 Sample Hold 0 Select Bit: 1 */
#define SHT0_2 (0x0200) /* ADC12 Sample Hold 0 Select Bit: 2 */
#define SHT0_3 (0x0300) /* ADC12 Sample Hold 0 Select Bit: 3 */
#define SHT0_4 (0x0400) /* ADC12 Sample Hold 0 Select Bit: 4 */
#define SHT0_5 (0x0500) /* ADC12 Sample Hold 0 Select Bit: 5 */
#define SHT0_6 (0x0600) /* ADC12 Sample Hold 0 Select Bit: 6 */
#define SHT0_7 (0x0700) /* ADC12 Sample Hold 0 Select Bit: 7 */
#define SHT0_8 (0x0800) /* ADC12 Sample Hold 0 Select Bit: 8 */
#define SHT0_9 (0x0900) /* ADC12 Sample Hold 0 Select Bit: 9 */
#define SHT0_10 (0x0A00) /* ADC12 Sample Hold 0 Select Bit: 10 */
#define SHT0_11 (0x0B00) /* ADC12 Sample Hold 0 Select Bit: 11 */
#define SHT0_12 (0x0C00) /* ADC12 Sample Hold 0 Select Bit: 12 */
#define SHT0_13 (0x0D00) /* ADC12 Sample Hold 0 Select Bit: 13 */
#define SHT0_14 (0x0E00) /* ADC12 Sample Hold 0 Select Bit: 14 */
#define SHT0_15 (0x0F00) /* ADC12 Sample Hold 0 Select Bit: 15 */
#define SHT1_0 (0x0000) /* ADC12 Sample Hold 1 Select Bit: 0 */
#define SHT1_1 (0x1000) /* ADC12 Sample Hold 1 Select Bit: 1 */
#define SHT1_2 (0x2000) /* ADC12 Sample Hold 1 Select Bit: 2 */
#define SHT1_3 (0x3000) /* ADC12 Sample Hold 1 Select Bit: 3 */
#define SHT1_4 (0x4000) /* ADC12 Sample Hold 1 Select Bit: 4 */
#define SHT1_5 (0x5000) /* ADC12 Sample Hold 1 Select Bit: 5 */
#define SHT1_6 (0x6000) /* ADC12 Sample Hold 1 Select Bit: 6 */
#define SHT1_7 (0x7000) /* ADC12 Sample Hold 1 Select Bit: 7 */
#define SHT1_8 (0x8000) /* ADC12 Sample Hold 1 Select Bit: 8 */
#define SHT1_9 (0x9000) /* ADC12 Sample Hold 1 Select Bit: 9 */
#define SHT1_10 (0xA000) /* ADC12 Sample Hold 1 Select Bit: 10 */
#define SHT1_11 (0xB000) /* ADC12 Sample Hold 1 Select Bit: 11 */
#define SHT1_12 (0xC000) /* ADC12 Sample Hold 1 Select Bit: 12 */
#define SHT1_13 (0xD000) /* ADC12 Sample Hold 1 Select Bit: 13 */
#define SHT1_14 (0xE000) /* ADC12 Sample Hold 1 Select Bit: 14 */
#define SHT1_15 (0xF000) /* ADC12 Sample Hold 1 Select Bit: 15 */
/* ADC12CTL1 */
#define ADC12BUSY (0x0001) /* ADC12 Busy */
#define CONSEQ0 (0x0002) /* ADC12 Conversion Sequence Select 0 */
#define CONSEQ1 (0x0004) /* ADC12 Conversion Sequence Select 1 */
#define ADC12SSEL0 (0x0008) /* ADC12 Clock Source Select 0 */
#define ADC12SSEL1 (0x0010) /* ADC12 Clock Source Select 1 */
#define ADC12DIV0 (0x0020) /* ADC12 Clock Divider Select 0 */
#define ADC12DIV1 (0x0040) /* ADC12 Clock Divider Select 1 */
#define ADC12DIV2 (0x0080) /* ADC12 Clock Divider Select 2 */
#define ISSH (0x0100) /* ADC12 Invert Sample Hold Signal */
#define SHP (0x0200) /* ADC12 Sample/Hold Pulse Mode */
#define SHS0 (0x0400) /* ADC12 Sample/Hold Source 0 */
#define SHS1 (0x0800) /* ADC12 Sample/Hold Source 1 */
#define CSTARTADD0 (0x1000) /* ADC12 Conversion Start Address 0 */
#define CSTARTADD1 (0x2000) /* ADC12 Conversion Start Address 1 */
#define CSTARTADD2 (0x4000) /* ADC12 Conversion Start Address 2 */
#define CSTARTADD3 (0x8000) /* ADC12 Conversion Start Address 3 */
#define CONSEQ_0 (0x0000) /* ADC12 Conversion Sequence Select: 0 */
#define CONSEQ_1 (0x0002) /* ADC12 Conversion Sequence Select: 1 */
#define CONSEQ_2 (0x0004) /* ADC12 Conversion Sequence Select: 2 */
#define CONSEQ_3 (0x0006) /* ADC12 Conversion Sequence Select: 3 */
#define ADC12SSEL_0 (0x0000) /* ADC12 Clock Source Select: 0 */
#define ADC12SSEL_1 (0x0008) /* ADC12 Clock Source Select: 1 */
#define ADC12SSEL_2 (0x0010) /* ADC12 Clock Source Select: 2 */
#define ADC12SSEL_3 (0x0018) /* ADC12 Clock Source Select: 3 */
#define ADC12DIV_0 (0x0000) /* ADC12 Clock Divider Select: 0 */
#define ADC12DIV_1 (0x0020) /* ADC12 Clock Divider Select: 1 */
#define ADC12DIV_2 (0x0040) /* ADC12 Clock Divider Select: 2 */
#define ADC12DIV_3 (0x0060) /* ADC12 Clock Divider Select: 3 */
#define ADC12DIV_4 (0x0080) /* ADC12 Clock Divider Select: 4 */
#define ADC12DIV_5 (0x00A0) /* ADC12 Clock Divider Select: 5 */
#define ADC12DIV_6 (0x00C0) /* ADC12 Clock Divider Select: 6 */
#define ADC12DIV_7 (0x00E0) /* ADC12 Clock Divider Select: 7 */
#define SHS_0 (0x0000) /* ADC12 Sample/Hold Source: 0 */
#define SHS_1 (0x0400) /* ADC12 Sample/Hold Source: 1 */
#define SHS_2 (0x0800) /* ADC12 Sample/Hold Source: 2 */
#define SHS_3 (0x0C00) /* ADC12 Sample/Hold Source: 3 */
#define CSTARTADD_0 (0x0000) /* ADC12 Conversion Start Address: 0 */
#define CSTARTADD_1 (0x1000) /* ADC12 Conversion Start Address: 1 */
#define CSTARTADD_2 (0x2000) /* ADC12 Conversion Start Address: 2 */
#define CSTARTADD_3 (0x3000) /* ADC12 Conversion Start Address: 3 */
#define CSTARTADD_4 (0x4000) /* ADC12 Conversion Start Address: 4 */
#define CSTARTADD_5 (0x5000) /* ADC12 Conversion Start Address: 5 */
#define CSTARTADD_6 (0x6000) /* ADC12 Conversion Start Address: 6 */
#define CSTARTADD_7 (0x7000) /* ADC12 Conversion Start Address: 7 */
#define CSTARTADD_8 (0x8000) /* ADC12 Conversion Start Address: 8 */
#define CSTARTADD_9 (0x9000) /* ADC12 Conversion Start Address: 9 */
#define CSTARTADD_10 (0xA000) /* ADC12 Conversion Start Address: 10 */
#define CSTARTADD_11 (0xB000) /* ADC12 Conversion Start Address: 11 */
#define CSTARTADD_12 (0xC000) /* ADC12 Conversion Start Address: 12 */
#define CSTARTADD_13 (0xD000) /* ADC12 Conversion Start Address: 13 */
#define CSTARTADD_14 (0xE000) /* ADC12 Conversion Start Address: 14 */
#define CSTARTADD_15 (0xF000) /* ADC12 Conversion Start Address: 15 */
/* ADC12MCTLx */
#define INCH0 (0x0001) /* ADC12 Input Channel Select Bit 0 */
#define INCH1 (0x0002) /* ADC12 Input Channel Select Bit 1 */
#define INCH2 (0x0004) /* ADC12 Input Channel Select Bit 2 */
#define INCH3 (0x0008) /* ADC12 Input Channel Select Bit 3 */
#define SREF0 (0x0010) /* ADC12 Select Reference Bit 0 */
#define SREF1 (0x0020) /* ADC12 Select Reference Bit 1 */
#define SREF2 (0x0040) /* ADC12 Select Reference Bit 2 */
#define EOS (0x0080) /* ADC12 End of Sequence */
#define INCH_0 (0) /* ADC12 Input Channel 0 */
#define INCH_1 (1) /* ADC12 Input Channel 1 */
#define INCH_2 (2) /* ADC12 Input Channel 2 */
#define INCH_3 (3) /* ADC12 Input Channel 3 */
#define INCH_4 (4) /* ADC12 Input Channel 4 */
#define INCH_5 (5) /* ADC12 Input Channel 5 */
#define INCH_6 (6) /* ADC12 Input Channel 6 */
#define INCH_7 (7) /* ADC12 Input Channel 7 */
#define INCH_8 (8) /* ADC12 Input Channel 8 */
#define INCH_9 (9) /* ADC12 Input Channel 9 */
#define INCH_10 (10) /* ADC12 Input Channel 10 */
#define INCH_11 (11) /* ADC12 Input Channel 11 */
#define INCH_12 (12) /* ADC12 Input Channel 12 */
#define INCH_13 (13) /* ADC12 Input Channel 13 */
#define INCH_14 (14) /* ADC12 Input Channel 14 */
#define INCH_15 (15) /* ADC12 Input Channel 15 */
#define SREF_0 (0x0000) /* ADC12 Select Reference 0 */
#define SREF_1 (0x0010) /* ADC12 Select Reference 1 */
#define SREF_2 (0x0020) /* ADC12 Select Reference 2 */
#define SREF_3 (0x0030) /* ADC12 Select Reference 3 */
#define SREF_4 (0x0040) /* ADC12 Select Reference 4 */
#define SREF_5 (0x0050) /* ADC12 Select Reference 5 */
#define SREF_6 (0x0060) /* ADC12 Select Reference 6 */
#define SREF_7 (0x0070) /* ADC12 Select Reference 7 */
/* ADC12IV Definitions */
#define ADC12IV_NONE (0x0000) /* No Interrupt pending */
#define ADC12IV_ADC12OVIFG (0x0002) /* ADC12OVIFG */
#define ADC12IV_ADC12TOVIFG (0x0004) /* ADC12TOVIFG */
#define ADC12IV_ADC12IFG0 (0x0006) /* ADC12IFG0 */
#define ADC12IV_ADC12IFG1 (0x0008) /* ADC12IFG1 */
#define ADC12IV_ADC12IFG2 (0x000A) /* ADC12IFG2 */
#define ADC12IV_ADC12IFG3 (0x000C) /* ADC12IFG3 */
#define ADC12IV_ADC12IFG4 (0x000E) /* ADC12IFG4 */
#define ADC12IV_ADC12IFG5 (0x0010) /* ADC12IFG5 */
#define ADC12IV_ADC12IFG6 (0x0012) /* ADC12IFG6 */
#define ADC12IV_ADC12IFG7 (0x0014) /* ADC12IFG7 */
#define ADC12IV_ADC12IFG8 (0x0016) /* ADC12IFG8 */
#define ADC12IV_ADC12IFG9 (0x0018) /* ADC12IFG9 */
#define ADC12IV_ADC12IFG10 (0x001A) /* ADC12IFG10 */
#define ADC12IV_ADC12IFG11 (0x001C) /* ADC12IFG11 */
#define ADC12IV_ADC12IFG12 (0x001E) /* ADC12IFG12 */
#define ADC12IV_ADC12IFG13 (0x0020) /* ADC12IFG13 */
#define ADC12IV_ADC12IFG14 (0x0022) /* ADC12IFG14 */
#define ADC12IV_ADC12IFG15 (0x0024) /* ADC12IFG15 */
/************************************************************
* BASIC TIMER with Real Time Clock
************************************************************/
#define __MSP430_HAS_BT_RTC__ /* Definition to show that Module is available */
#define BTCTL_ 0x0040 /* Basic Timer Control */
sfrb(BTCTL, BTCTL_);
#define RTCCTL_ 0x0041 /* Real Time Clock Control */
sfrb(RTCCTL, RTCCTL_);
#define RTCNT1_ 0x0042 /* Real Time Counter 1 */
sfrb(RTCNT1, RTCNT1_);
#define RTCNT2_ 0x0043 /* Real Time Counter 2 */
sfrb(RTCNT2, RTCNT2_);
#define RTCNT3_ 0x0044 /* Real Time Counter 3 */
sfrb(RTCNT3, RTCNT3_);
#define RTCNT4_ 0x0045 /* Real Time Counter 4 */
sfrb(RTCNT4, RTCNT4_);
#define BTCNT1_ 0x0046 /* Basic Timer Count 1 */
sfrb(BTCNT1, BTCNT1_);
#define BTCNT2_ 0x0047 /* Basic Timer Count 2 */
sfrb(BTCNT2, BTCNT2_);
#define RTCDAY_ 0x004C /* Real Time Clock Day */
sfrb(RTCDAY, RTCDAY_);
#define RTCMON_ 0x004D /* Real Time Clock Month */
sfrb(RTCMON, RTCMON_);
#define RTCYEARL_ 0x004E /* Real Time Clock Year (Low Byte) */
sfrb(RTCYEARL, RTCYEARL_);
#define RTCYEARH_ 0x004F /* Real Time Clock Year (High Byte) */
sfrb(RTCYEARH, RTCYEARH_);
#define RTCSEC RTCNT1
#define RTCMIN RTCNT2
#define RTCHOUR RTCNT3
#define RTCDOW RTCNT4
#define RTCTL_ 0x0040 /* Basic/Real Timer Control */
sfrw(RTCTL, RTCTL_);
#define RTCTIM0_ 0x0042 /* Real Time Clock Time 0 */
sfrw(RTCTIM0, RTCTIM0_);
#define RTCTIM1_ 0x0044 /* Real Time Clock Time 1 */
sfrw(RTCTIM1, RTCTIM1_);
#define BTCNT12_ 0x0046 /* Basic Timer Count 1/2 */
sfrw(BTCNT12, BTCNT12_);
#define RTCDATE_ 0x004C /* Real Time Clock Date */
sfrw(RTCDATE, RTCDATE_);
#define RTCYEAR_ 0x004E /* Real Time Clock Year */
sfrw(RTCYEAR, RTCYEAR_);
#define RTCNT12 RTCTIM0
#define RTCNT34 RTCTIM1
#define BTSSEL (0x80) /* fBT = fMCLK (main clock) */
#define BTHOLD (0x40) /* BT1 is held if this bit is set */
#define BTDIV (0x20) /* fCLK2 = ACLK:256 */
//#define res (0x10)
//#define res (0x08)
#define BTIP2 (0x04)
#define BTIP1 (0x02)
#define BTIP0 (0x01)
#define RTCBCD (0x80) /* RTC BCD Select */
#define RTCHOLD (0x40) /* RTC Hold */
#define RTCMODE1 (0x20) /* RTC Mode 1 */
#define RTCMODE0 (0x10) /* RTC Mode 0 */
#define RTCTEV1 (0x08) /* RTC Time Event 1 */
#define RTCTEV0 (0x04) /* RTC Time Event 0 */
#define RTCIE (0x02) /* RTC Interrupt Enable */
#define RTCFG (0x01) /* RTC Event Flag */
#define RTCTEV_0 (0x00) /* RTC Time Event: 0 */
#define RTCTEV_1 (0x04) /* RTC Time Event: 1 */
#define RTCTEV_2 (0x08) /* RTC Time Event: 2 */
#define RTCTEV_3 (0x0C) /* RTC Time Event: 3 */
#define RTCMODE_0 (0x00) /* RTC Mode: 0 */
#define RTCMODE_1 (0x10) /* RTC Mode: 1 */
#define RTCMODE_2 (0x20) /* RTC Mode: 2 */
#define RTCMODE_3 (0x30) /* RTC Mode: 3 */
/* Frequency of the BTCNT2 coded with Bit 5 and 7 in BTCTL */
#define BT_fCLK2_ACLK (0x00)
#define BT_fCLK2_ACLK_DIV256 (BTDIV)
#define BT_fCLK2_MCLK (BTSSEL)
/* Interrupt interval time fINT coded with Bits 0-2 in BTCTL */
#define BT_fCLK2_DIV2 (0x00) /* fINT = fCLK2:2 (default) */
#define BT_fCLK2_DIV4 (BTIP0) /* fINT = fCLK2:4 */
#define BT_fCLK2_DIV8 (BTIP1) /* fINT = fCLK2:8 */
#define BT_fCLK2_DIV16 (BTIP1+BTIP0) /* fINT = fCLK2:16 */
#define BT_fCLK2_DIV32 (BTIP2) /* fINT = fCLK2:32 */
#define BT_fCLK2_DIV64 (BTIP2+BTIP0) /* fINT = fCLK2:64 */
#define BT_fCLK2_DIV128 (BTIP2+BTIP1) /* fINT = fCLK2:128 */
#define BT_fCLK2_DIV256 (BTIP2+BTIP1+BTIP0) /* fINT = fCLK2:256 */
/* with assumed vlues of fACLK=32KHz, fMCLK=1MHz */
/* fBT=fACLK is thought for longer interval times */
#define BT_ADLY_0_064 (0x00) /* 0.064ms interval (default) */
#define BT_ADLY_0_125 (BTIP0) /* 0.125ms " */
#define BT_ADLY_0_25 (BTIP1) /* 0.25ms " */
#define BT_ADLY_0_5 (BTIP1+BTIP0) /* 0.5ms " */
#define BT_ADLY_1 (BTIP2) /* 1ms " */
#define BT_ADLY_2 (BTIP2+BTIP0) /* 2ms " */
#define BT_ADLY_4 (BTIP2+BTIP1) /* 4ms " */
#define BT_ADLY_8 (BTIP2+BTIP1+BTIP0) /* 8ms " */
#define BT_ADLY_16 (BTDIV) /* 16ms " */
#define BT_ADLY_32 (BTDIV+BTIP0) /* 32ms " */
#define BT_ADLY_64 (BTDIV+BTIP1) /* 64ms " */
#define BT_ADLY_125 (BTDIV+BTIP1+BTIP0) /* 125ms " */
#define BT_ADLY_250 (BTDIV+BTIP2) /* 250ms " */
#define BT_ADLY_500 (BTDIV+BTIP2+BTIP0) /* 500ms " */
#define BT_ADLY_1000 (BTDIV+BTIP2+BTIP1) /* 1000ms " */
#define BT_ADLY_2000 (BTDIV+BTIP2+BTIP1+BTIP0) /* 2000ms " */
/* fCLK2=fMCLK (1MHz) is thought for short interval times */
/* the timing for short intervals is more precise than ACLK */
/* NOTE */
/* Be sure that the SCFQCTL-Register is set to 01Fh so that fMCLK=1MHz */
/* Too low interval time results in interrupts too frequent for the processor to handle! */
#define BT_MDLY_0_002 (BTSSEL) /* 0.002ms interval *** interval times */
#define BT_MDLY_0_004 (BTSSEL+BTIP0) /* 0.004ms " *** too short for */
#define BT_MDLY_0_008 (BTSSEL+BTIP1) /* 0.008ms " *** interrupt */
#define BT_MDLY_0_016 (BTSSEL+BTIP1+BTIP0) /* 0.016ms " *** handling */
#define BT_MDLY_0_032 (BTSSEL+BTIP2) /* 0.032ms " */
#define BT_MDLY_0_064 (BTSSEL+BTIP2+BTIP0) /* 0.064ms " */
#define BT_MDLY_0_125 (BTSSEL+BTIP2+BTIP1) /* 0.125ms " */
#define BT_MDLY_0_25 (BTSSEL+BTIP2+BTIP1+BTIP0)/* 0.25ms " */
/* Hold coded with Bits 6-7 in BT(1)CTL */
/* this is for BT */
#define BTHOLD_CNT1 (BTHOLD) /* BTCNT1 is held while BTHOLD is set */
#define BTHOLD_CNT1_2 (BTHOLD+BTDIV) /* BT1CNT1 .AND. BT1CNT2 are held while ~ is set */
/* INTERRUPT CONTROL BITS */
/* #define BTIE 0x80 */
/* #define BTIFG 0x80 */
/************************************************************
* Comparator A
************************************************************/
#define __MSP430_HAS_COMPA__ /* Definition to show that Module is available */
#define CACTL1_ 0x0059 /* Comparator A Control 1 */
sfrb(CACTL1, CACTL1_);
#define CACTL2_ 0x005A /* Comparator A Control 2 */
sfrb(CACTL2, CACTL2_);
#define CAPD_ 0x005B /* Comparator A Port Disable */
sfrb(CAPD, CAPD_);
#define CAIFG (0x01) /* Comp. A Interrupt Flag */
#define CAIE (0x02) /* Comp. A Interrupt Enable */
#define CAIES (0x04) /* Comp. A Int. Edge Select: 0:rising / 1:falling */
#define CAON (0x08) /* Comp. A enable */
#define CAREF0 (0x10) /* Comp. A Internal Reference Select 0 */
#define CAREF1 (0x20) /* Comp. A Internal Reference Select 1 */
#define CARSEL (0x40) /* Comp. A Internal Reference Enable */
#define CAEX (0x80) /* Comp. A Exchange Inputs */
#define CAREF_0 (0x00) /* Comp. A Int. Ref. Select 0 : Off */
#define CAREF_1 (0x10) /* Comp. A Int. Ref. Select 1 : 0.25*Vcc */
#define CAREF_2 (0x20) /* Comp. A Int. Ref. Select 2 : 0.5*Vcc */
#define CAREF_3 (0x30) /* Comp. A Int. Ref. Select 3 : Vt*/
#define CAOUT (0x01) /* Comp. A Output */
#define CAF (0x02) /* Comp. A Enable Output Filter */
#define P2CA0 (0x04) /* Comp. A Connect External Signal to CA0 : 1 */
#define P2CA1 (0x08) /* Comp. A Connect External Signal to CA1 : 1 */
#define CACTL24 (0x10)
#define CACTL25 (0x20)
#define CACTL26 (0x40)
#define CACTL27 (0x80)
#define CAPD0 (0x01) /* Comp. A Disable Input Buffer of Port Register .0 */
#define CAPD1 (0x02) /* Comp. A Disable Input Buffer of Port Register .1 */
#define CAPD2 (0x04) /* Comp. A Disable Input Buffer of Port Register .2 */
#define CAPD3 (0x08) /* Comp. A Disable Input Buffer of Port Register .3 */
#define CAPD4 (0x10) /* Comp. A Disable Input Buffer of Port Register .4 */
#define CAPD5 (0x20) /* Comp. A Disable Input Buffer of Port Register .5 */
#define CAPD6 (0x40) /* Comp. A Disable Input Buffer of Port Register .6 */
#define CAPD7 (0x80) /* Comp. A Disable Input Buffer of Port Register .7 */
/************************************************************
* DAC12
************************************************************/
#define __MSP430_HAS_DAC12_2__ /* Definition to show that Module is available */
#define DAC12_0CTL_ 0x01c0 /* DAC12_0 Control */
sfrw(DAC12_0CTL, DAC12_0CTL_);
#define DAC12_1CTL_ 0x01c2 /* DAC12_1 Control */
sfrw(DAC12_1CTL, DAC12_1CTL_);
#define DAC12GRP (0x0001) /* DAC12 group */
#define DAC12ENC (0x0002) /* DAC12 enable conversion */
#define DAC12IFG (0x0004) /* DAC12 interrupt flag */
#define DAC12IE (0x0008) /* DAC12 interrupt enable */
#define DAC12DF (0x0010) /* DAC12 data format */
#define DAC12AMP0 (0x0020) /* DAC12 amplifier bit 0 */
#define DAC12AMP1 (0x0040) /* DAC12 amplifier bit 1 */
#define DAC12AMP2 (0x0080) /* DAC12 amplifier bit 2 */
#define DAC12IR (0x0100) /* DAC12 input reference and output range */
#define DAC12CALON (0x0200) /* DAC12 calibration */
#define DAC12LSEL0 (0x0400) /* DAC12 load select bit 0 */
#define DAC12LSEL1 (0x0800) /* DAC12 load select bit 1 */
#define DAC12RES (0x1000) /* DAC12 resolution */
#define DAC12SREF0 (0x2000) /* DAC12 reference bit 0 */
#define DAC12SREF1 (0x4000) /* DAC12 reference bit 1 */
#define DAC12OPS (0x8000) /* DAC12 Operation Amp. */
#define DAC12AMP_0 (0x0000) /* DAC12 amplifier 0: off, 3-state */
#define DAC12AMP_1 (0x0020) /* DAC12 amplifier 1: off, off */
#define DAC12AMP_2 (0x0040) /* DAC12 amplifier 2: low, low */
#define DAC12AMP_3 (0x0060) /* DAC12 amplifier 3: low, medium */
#define DAC12AMP_4 (0x0080) /* DAC12 amplifier 4: low, high */
#define DAC12AMP_5 (0x00A0) /* DAC12 amplifier 5: medium, medium */
#define DAC12AMP_6 (0x00C0) /* DAC12 amplifier 6: medium, high */
#define DAC12AMP_7 (0x00E0) /* DAC12 amplifier 7: high, high */
#define DAC12LSEL_0 (0x0000) /* DAC12 load select 0: direct */
#define DAC12LSEL_1 (0x0400) /* DAC12 load select 1: latched with DAT */
#define DAC12LSEL_2 (0x0800) /* DAC12 load select 2: latched with pos. Timer_A3.OUT1 */
#define DAC12LSEL_3 (0x0C00) /* DAC12 load select 3: latched with pos. Timer_B7.OUT1 */
#define DAC12SREF_0 (0x0000) /* DAC12 reference 0: Vref+ */
#define DAC12SREF_1 (0x2000) /* DAC12 reference 1: Vref+ */
#define DAC12SREF_2 (0x4000) /* DAC12 reference 2: Veref+ */
#define DAC12SREF_3 (0x6000) /* DAC12 reference 3: Veref+ */
#define DAC12_0DAT_ 0x01c8 /* DAC12_0 Data */
sfrw(DAC12_0DAT, DAC12_0DAT_);
#define DAC12_1DAT_ 0x01ca /* DAC12_1 Data */
sfrw(DAC12_1DAT, DAC12_1DAT_);
/************************************************************
* DMA_X
************************************************************/
#define __MSP430_HAS_DMAX_3__ /* Definition to show that Module is available */
#define DMACTL0_ 0x0122 /* DMA Module Control 0 */
sfrw(DMACTL0, DMACTL0_);
#define DMA0TSEL0 (0x0001) /* DMA channel 0 transfer select bit 0 */
#define DMA0TSEL1 (0x0002) /* DMA channel 0 transfer select bit 1 */
#define DMA0TSEL2 (0x0004) /* DMA channel 0 transfer select bit 2 */
#define DMA0TSEL3 (0x0008) /* DMA channel 0 transfer select bit 3 */
#define DMA1TSEL0 (0x0010) /* DMA channel 1 transfer select bit 0 */
#define DMA1TSEL1 (0x0020) /* DMA channel 1 transfer select bit 1 */
#define DMA1TSEL2 (0x0040) /* DMA channel 1 transfer select bit 2 */
#define DMA1TSEL3 (0x0080) /* DMA channel 1 transfer select bit 3 */
#define DMA2TSEL0 (0x0100) /* DMA channel 2 transfer select bit 0 */
#define DMA2TSEL1 (0x0200) /* DMA channel 2 transfer select bit 1 */
#define DMA2TSEL2 (0x0400) /* DMA channel 2 transfer select bit 2 */
#define DMA2TSEL3 (0x0800) /* DMA channel 2 transfer select bit 3 */
#define DMA0TSEL_0 (0x0000) /* DMA channel 0 transfer select 0: DMA_REQ (sw)*/
#define DMA0TSEL_1 (0x0001) /* DMA channel 0 transfer select 1: Timer_A (TACCR2.IFG) */
#define DMA0TSEL_2 (0x0002) /* DMA channel 0 transfer select 2: Timer_B (TBCCR2.IFG) */
#define DMA0TSEL_3 (0x0003) /* DMA channel 0 transfer select 3: USCIA receive */
#define DMA0TSEL_4 (0x0004) /* DMA channel 0 transfer select 4: USCIA transmit */
#define DMA0TSEL_5 (0x0005) /* DMA channel 0 transfer select 5: DAC12_0CTL.DAC12IFG */
#define DMA0TSEL_6 (0x0006) /* DMA channel 0 transfer select 6: ADC12 (ADC12IFG) */
#define DMA0TSEL_7 (0x0007) /* DMA channel 0 transfer select 7: Timer_A (TACCR0.IFG) */
#define DMA0TSEL_8 (0x0008) /* DMA channel 0 transfer select 8: Timer_B (TBCCR0.IFG) */
#define DMA0TSEL_9 (0x0009) /* DMA channel 0 transfer select 9: UART1 receive */
#define DMA0TSEL_10 (0x000A) /* DMA channel 0 transfer select 10: UART1 transmit */
#define DMA0TSEL_11 (0x000B) /* DMA channel 0 transfer select 11: Multiplier ready */
#define DMA0TSEL_12 (0x000C) /* DMA channel 0 transfer select 12: USCIB receive */
#define DMA0TSEL_13 (0x000D) /* DMA channel 0 transfer select 13: USCIB transmit */
#define DMA0TSEL_14 (0x000E) /* DMA channel 0 transfer select 14: previous DMA channel DMA2IFG */
#define DMA0TSEL_15 (0x000F) /* DMA channel 0 transfer select 15: ext. Trigger (DMAE0) */
#define DMA1TSEL_0 (0x0000) /* DMA channel 1 transfer select 0: DMA_REQ */
#define DMA1TSEL_1 (0x0010) /* DMA channel 1 transfer select 1: Timer_A CCRIFG.2 */
#define DMA1TSEL_2 (0x0020) /* DMA channel 1 transfer select 2: Timer_B CCRIFG.2 */
#define DMA1TSEL_3 (0x0030) /* DMA channel 1 transfer select 3: USCIA receive */
#define DMA1TSEL_4 (0x0040) /* DMA channel 1 transfer select 4: USCIA transmit */
#define DMA1TSEL_5 (0x0050) /* DMA channel 1 transfer select 5: DAC12.0IFG */
#define DMA1TSEL_6 (0x0060) /* DMA channel 1 transfer select 6: ADC12 (ADC12IFG) */
#define DMA1TSEL_7 (0x0070) /* DMA channel 1 transfer select 7: Timer_A (TACCR0.IFG) */
#define DMA1TSEL_8 (0x0080) /* DMA channel 1 transfer select 8: Timer_B (TBCCR0.IFG) */
#define DMA1TSEL_9 (0x0090) /* DMA channel 1 transfer select 9: UART1 receive */
#define DMA1TSEL_10 (0x00A0) /* DMA channel 1 transfer select 10: UART1 transmit */
#define DMA1TSEL_11 (0x00B0) /* DMA channel 1 transfer select 11: Multiplier ready */
#define DMA1TSEL_12 (0x00C0) /* DMA channel 1 transfer select 12: USCIB receive */
#define DMA1TSEL_13 (0x00D0) /* DMA channel 1 transfer select 13: USCIB transmit */
#define DMA1TSEL_14 (0x00E0) /* DMA channel 1 transfer select 14: previous DMA channel DMA0IFG */
#define DMA1TSEL_15 (0x00F0) /* DMA channel 1 transfer select 15: ext. Trigger (DMAE0) */
#define DMA2TSEL_0 (0x0000) /* DMA channel 2 transfer select 0: DMA_REQ */
#define DMA2TSEL_1 (0x0100) /* DMA channel 2 transfer select 1: Timer_A CCRIFG.2 */
#define DMA2TSEL_2 (0x0200) /* DMA channel 2 transfer select 2: Timer_B CCRIFG.2 */
#define DMA2TSEL_3 (0x0300) /* DMA channel 2 transfer select 3: USCIA receive */
#define DMA2TSEL_4 (0x0400) /* DMA channel 2 transfer select 4: USCIA transmit */
#define DMA2TSEL_5 (0x0500) /* DMA channel 2 transfer select 5: DAC12.0IFG */
#define DMA2TSEL_6 (0x0600) /* DMA channel 2 transfer select 6: ADC12 (ADC12IFG) */
#define DMA2TSEL_7 (0x0700) /* DMA channel 2 transfer select 7: Timer_A (TACCR0.IFG) */
#define DMA2TSEL_8 (0x0800) /* DMA channel 2 transfer select 8: Timer_B (TBCCR0.IFG) */
#define DMA2TSEL_9 (0x0900) /* DMA channel 2 transfer select 9: UART1 receive */
#define DMA2TSEL_10 (0x0A00) /* DMA channel 2 transfer select 10: UART1 transmit */
#define DMA2TSEL_11 (0x0B00) /* DMA channel 2 transfer select 11: Multiplier ready */
#define DMA2TSEL_12 (0x0C00) /* DMA channel 2 transfer select 12: USCIB receive */
#define DMA2TSEL_13 (0x0D00) /* DMA channel 2 transfer select 13: USCIB transmit */
#define DMA2TSEL_14 (0x0E00) /* DMA channel 2 transfer select 14: previous DMA channel DMA1IFG */
#define DMA2TSEL_15 (0x0F00) /* DMA channel 2 transfer select 15: ext. Trigger (DMAE0) */
#define DMACTL1_ 0x0124 /* DMA Module Control 1 */
sfrw(DMACTL1, DMACTL1_);
#define ENNMI (0x0001) /* Enable NMI interruption of DMA */
#define ROUNDROBIN (0x0002) /* Round-Robin DMA channel priorities */
#define DMAONFETCH (0x0004) /* DMA transfer on instruction fetch */
#define DMAIV_ 0x0126 /* DMA Interrupt Vector Word */
sfrw(DMAIV, DMAIV_);
#define DMA0CTL_ 0x01d0 /* DMA Channel 0 Control */
sfrw(DMA0CTL, DMA0CTL_);
#define DMA1CTL_ 0x01dc /* DMA Channel 1 Control */
sfrw(DMA1CTL, DMA1CTL_);
#define DMA2CTL_ 0x01e8 /* DMA Channel 2 Control */
sfrw(DMA2CTL, DMA2CTL_);
#define DMAREQ (0x0001) /* Initiate DMA transfer with DMATSEL */
#define DMAABORT (0x0002) /* DMA transfer aborted by NMI */
#define DMAIE (0x0004) /* DMA interrupt enable */
#define DMAIFG (0x0008) /* DMA interrupt flag */
#define DMAEN (0x0010) /* DMA enable */
#define DMALEVEL (0x0020) /* DMA level sensitive trigger select */
#define DMASRCBYTE (0x0040) /* DMA source byte */
#define DMADSTBYTE (0x0080) /* DMA destination byte */
#define DMASRCINCR0 (0x0100) /* DMA source increment bit 0 */
#define DMASRCINCR1 (0x0200) /* DMA source increment bit 1 */
#define DMADSTINCR0 (0x0400) /* DMA destination increment bit 0 */
#define DMADSTINCR1 (0x0800) /* DMA destination increment bit 1 */
#define DMADT0 (0x1000) /* DMA transfer mode bit 0 */
#define DMADT1 (0x2000) /* DMA transfer mode bit 1 */
#define DMADT2 (0x4000) /* DMA transfer mode bit 2 */
#define DMASWDW (0x0000) /* DMA transfer: source word to destination word */
#define DMASBDW (0x0040) /* DMA transfer: source byte to destination word */
#define DMASWDB (0x0080) /* DMA transfer: source word to destination byte */
#define DMASBDB (0x00C0) /* DMA transfer: source byte to destination byte */
#define DMASRCINCR_0 (0x0000) /* DMA source increment 0: source address unchanged */
#define DMASRCINCR_1 (0x0100) /* DMA source increment 1: source address unchanged */
#define DMASRCINCR_2 (0x0200) /* DMA source increment 2: source address decremented */
#define DMASRCINCR_3 (0x0300) /* DMA source increment 3: source address incremented */
#define DMADSTINCR_0 (0x0000) /* DMA destination increment 0: destination address unchanged */
#define DMADSTINCR_1 (0x0400) /* DMA destination increment 1: destination address unchanged */
#define DMADSTINCR_2 (0x0800) /* DMA destination increment 2: destination address decremented */
#define DMADSTINCR_3 (0x0C00) /* DMA destination increment 3: destination address incremented */
#define DMADT_0 (0x0000) /* DMA transfer mode 0: single */
#define DMADT_1 (0x1000) /* DMA transfer mode 1: block */
#define DMADT_2 (0x2000) /* DMA transfer mode 2: interleaved */
#define DMADT_3 (0x3000) /* DMA transfer mode 3: interleaved */
#define DMADT_4 (0x4000) /* DMA transfer mode 4: single, repeat */
#define DMADT_5 (0x5000) /* DMA transfer mode 5: block, repeat */
#define DMADT_6 (0x6000) /* DMA transfer mode 6: interleaved, repeat */
#define DMADT_7 (0x7000) /* DMA transfer mode 7: interleaved, repeat */
#define DMA0SA_ 0x01d2 /* DMA Channel 0 Source Address */
sfra(DMA0SA, DMA0SA_);
#define DMA0SAL_ 0x01d2 /* DMA Channel 0 Source Address */
sfrw(DMA0SAL, DMA0SAL_);
#define DMA0DA_ 0x01d6 /* DMA Channel 0 Destination Address */
sfra(DMA0DA, DMA0DA_);
#define DMA0DAL_ 0x01d6 /* DMA Channel 0 Destination Address */
sfrw(DMA0DAL, DMA0DAL_);
#define DMA0SZ_ 0x01da /* DMA Channel 0 Transfer Size */
sfrw(DMA0SZ, DMA0SZ_);
#define DMA1SA_ 0x01de /* DMA Channel 1 Source Address */
sfra(DMA1SA, DMA1SA_);
#define DMA1SAL_ 0x01de /* DMA Channel 1 Source Address */
sfrw(DMA1SAL, DMA1SAL_);
#define DMA1DA_ 0x01e2 /* DMA Channel 1 Destination Address */
sfra(DMA1DA, DMA1DA_);
#define DMA1DAL_ 0x01e2 /* DMA Channel 1 Destination Address */
sfrw(DMA1DAL, DMA1DAL_);
#define DMA1SZ_ 0x01e6 /* DMA Channel 1 Transfer Size */
sfrw(DMA1SZ, DMA1SZ_);
#define DMA2SA_ 0x01ea /* DMA Channel 2 Source Address */
sfra(DMA2SA, DMA2SA_);
#define DMA2SAL_ 0x01ea /* DMA Channel 2 Source Address */
sfrw(DMA2SAL, DMA2SAL_);
#define DMA2DA_ 0x01ee /* DMA Channel 2 Destination Address */
sfra(DMA2DA, DMA2DA_);
#define DMA2DAL_ 0x01ee /* DMA Channel 2 Destination Address */
sfrw(DMA2DAL, DMA2DAL_);
#define DMA2SZ_ 0x01f2 /* DMA Channel 2 Transfer Size */
sfrw(DMA2SZ, DMA2SZ_);
/* DMAIV Definitions */
#define DMAIV_NONE (0x0000) /* No Interrupt pending */
#define DMAIV_DMA0IFG (0x0002) /* DMA0IFG */
#define DMAIV_DMA1IFG (0x0004) /* DMA1IFG */
#define DMAIV_DMA2IFG (0x0006) /* DMA2IFG */
/*************************************************************
* Flash Memory
*************************************************************/
#define __MSP430_HAS_FLASH__ /* Definition to show that Module is available */
#define __MSP430_HAS_2FLASH_IP__ /* Definition to show that Module is available */
#define FCTL1_ 0x0128 /* FLASH Control 1 */
sfrw(FCTL1, FCTL1_);
#define FCTL2_ 0x012A /* FLASH Control 2 */
sfrw(FCTL2, FCTL2_);
#define FCTL3_ 0x012C /* FLASH Control 3 */
sfrw(FCTL3, FCTL3_);
#define FRKEY (0x9600) /* Flash key returned by read */
#define FWKEY (0xA500) /* Flash key for write */
#define FXKEY (0x3300) /* for use with XOR instruction */
#define ERASE (0x0002) /* Enable bit for Flash segment erase */
#define MERAS (0x0004) /* Enable bit for Flash mass erase */
#define GMERAS (0x0008) /* Enable bit for Flash global mass erase */
#define CPUEX (0x0010) /* Enable bit for CPU Execution during Flash write/erase */
#define WRT (0x0040) /* Enable bit for Flash write */
#define BLKWRT (0x0080) /* Enable bit for Flash segment write */
#define SEGWRT (0x0080) /* old definition */ /* Enable bit for Flash segment write */
#define FN0 (0x0001) /* Divide Flash clock by 1 to 64 using FN0 to FN5 according to: */
#define FN1 (0x0002) /* 32*FN5 + 16*FN4 + 8*FN3 + 4*FN2 + 2*FN1 + FN0 + 1 */
#ifndef FN2
#define FN2 (0x0004)
#endif
#ifndef FN3
#define FN3 (0x0008)
#endif
#ifndef FN4
#define FN4 (0x0010)
#endif
#define FN5 (0x0020)
#define FSSEL0 (0x0040) /* Flash clock select 0 */ /* to distinguish from USART SSELx */
#define FSSEL1 (0x0080) /* Flash clock select 1 */
#define FSSEL_0 (0x0000) /* Flash clock select: 0 - ACLK */
#define FSSEL_1 (0x0040) /* Flash clock select: 1 - MCLK */
#define FSSEL_2 (0x0080) /* Flash clock select: 2 - SMCLK */
#define FSSEL_3 (0x00C0) /* Flash clock select: 3 - SMCLK */
#define BUSY (0x0001) /* Flash busy: 1 */
#define KEYV (0x0002) /* Flash Key violation flag */
#define ACCVIFG (0x0004) /* Flash Access violation flag */
#define WAIT (0x0008) /* Wait flag for segment write */
#define LOCK (0x0010) /* Lock bit: 1 - Flash is locked (read only) */
#define EMEX (0x0020) /* Flash Emergency Exit */
/************************************************************
* SYSTEM CLOCK, FLL+
************************************************************/
#define __MSP430_HAS_FLLPLUS__ /* Definition to show that Module is available */
#define SCFI0_ 0x0050 /* System Clock Frequency Integrator 0 */
sfrb(SCFI0, SCFI0_);
#define FN_2 (0x04) /* fDCOCLK = 1.4-12MHz*/
#define FN_3 (0x08) /* fDCOCLK = 2.2-17Mhz*/
#define FN_4 (0x10) /* fDCOCLK = 3.2-25Mhz*/
#define FN_8 (0x20) /* fDCOCLK = 5-40Mhz*/
#define FLLD0 (0x40) /* Loop Divider Bit : 0 */
#define FLLD1 (0x80) /* Loop Divider Bit : 1 */
#define FLLD_1 (0x00) /* Multiply Selected Loop Freq. By 1 */
#define FLLD_2 (0x40) /* Multiply Selected Loop Freq. By 2 */
#define FLLD_4 (0x80) /* Multiply Selected Loop Freq. By 4 */
#define FLLD_8 (0xC0) /* Multiply Selected Loop Freq. By 8 */
#define SCFI1_ 0x0051 /* System Clock Frequency Integrator 1 */
sfrb(SCFI1, SCFI1_);
#define SCFQCTL_ 0x0052 /* System Clock Frequency Control */
sfrb(SCFQCTL, SCFQCTL_);
/* System clock frequency values fMCLK coded with Bits 0-6 in SCFQCTL */
/* #define SCFQ_32K 0x00 fMCLK=1*fACLK only a range from */
#define SCFQ_64K (0x01) /* fMCLK=2*fACLK 1+1 to 127+1 is possible */
#define SCFQ_128K (0x03) /* fMCLK=4*fACLK */
#define SCFQ_256K (0x07) /* fMCLK=8*fACLK */
#define SCFQ_512K (0x0F) /* fMCLK=16*fACLK */
#define SCFQ_1M (0x1F) /* fMCLK=32*fACLK */
#define SCFQ_2M (0x3F) /* fMCLK=64*fACLK */
#define SCFQ_4M (0x7F) /* fMCLK=128*fACLK */
#define SCFQ_M (0x80) /* Modulation Disable */
#define FLL_CTL0_ 0x0053 /* FLL+ Control 0 */
sfrb(FLL_CTL0, FLL_CTL0_);
#define DCOF (0x01) /* DCO Fault Flag */
#define LFOF (0x02) /* Low Frequency Oscillator Fault Flag */
#define XT1OF (0x04) /* High Frequency Oscillator 1 Fault Flag */
#define XT2OF (0x08) /* High Frequency Oscillator 2 Fault Flag */
#define OSCCAP0 (0x10) /* XIN/XOUT Cap 0 */
#define OSCCAP1 (0x20) /* XIN/XOUT Cap 1 */
#define XTS_FLL (0x40) /* 1: Selects high-freq. oscillator */
#define DCOPLUS (0x80) /* DCO+ Enable */
#define XCAP0PF (0x00) /* XIN Cap = XOUT Cap = 0pf */
#define XCAP10PF (0x10) /* XIN Cap = XOUT Cap = 10pf */
#define XCAP14PF (0x20) /* XIN Cap = XOUT Cap = 14pf */
#define XCAP18PF (0x30) /* XIN Cap = XOUT Cap = 18pf */
#define OSCCAP_0 (0x00) /* XIN Cap = XOUT Cap = 0pf */
#define OSCCAP_1 (0x10) /* XIN Cap = XOUT Cap = 10pf */
#define OSCCAP_2 (0x20) /* XIN Cap = XOUT Cap = 14pf */
#define OSCCAP_3 (0x30) /* XIN Cap = XOUT Cap = 18pf */
#define FLL_CTL1_ 0x0054 /* FLL+ Control 1 */
sfrb(FLL_CTL1, FLL_CTL1_);
#define FLL_DIV0 (0x01) /* FLL+ Divide Px.x/ACLK 0 */
#define FLL_DIV1 (0x02) /* FLL+ Divide Px.x/ACLK 1 */
#define SELS (0x04) /* Peripheral Module Clock Source (0: DCO, 1: XT2) */
#define SELM0 (0x08) /* MCLK Source Select 0 */
#define SELM1 (0x10) /* MCLK Source Select 1 */
#define XT2OFF (0x20) /* High Frequency Oscillator 2 (XT2) disable */
#define SMCLKOFF (0x40) /* Peripheral Module Clock (SMCLK) disable */
#define LFXT1DIG (0x80) /* Enable Digital input for LF clock */
#define FLL_DIV_1 (0x00) /* FLL+ Divide Px.x/ACLK By 1 */
#define FLL_DIV_2 (0x01) /* FLL+ Divide Px.x/ACLK By 2 */
#define FLL_DIV_4 (0x02) /* FLL+ Divide Px.x/ACLK By 4 */
#define FLL_DIV_8 (0x03) /* FLL+ Divide Px.x/ACLK By 8 */
#define SELM_DCO (0x00) /* Select DCO for CPU MCLK */
#define SELM_XT2 (0x10) /* Select XT2 for CPU MCLK */
#define SELM_A (0x18) /* Select A (from LFXT1) for CPU MCLK */
/* INTERRUPT CONTROL BITS */
/* These two bits are defined in the Special Function Registers */
/* #define OFIFG 0x02 */
/* #define OFIE 0x02 */
/************************************************************
* LCD_A
************************************************************/
#define __MSP430_HAS_LCD_A__ /* Definition to show that Module is available */
#define LCDACTL_ 0x0090 /* LCD_A Control Register */
sfrb(LCDACTL, LCDACTL_);
#define LCDON (0x01)
#define LCDSON (0x04)
#define LCDMX0 (0x08)
#define LCDMX1 (0x10)
#define LCDFREQ0 (0x20)
#define LCDFREQ1 (0x40)
#define LCDFREQ2 (0x80)
/* Display modes coded with Bits 2-4 */
#define LCDSTATIC (LCDSON)
#define LCD2MUX (LCDMX0+LCDSON)
#define LCD3MUX (LCDMX1+LCDSON)
#define LCD4MUX (LCDMX1+LCDMX0+LCDSON)
/* Frequency select code with Bits 5-7 */
#define LCDFREQ_32 (0x00) /* LCD Freq: ACLK divided by 32 */
#define LCDFREQ_64 (0x20) /* LCD Freq: ACLK divided by 64 */
#define LCDFREQ_96 (0x40) /* LCD Freq: ACLK divided by 96 */
#define LCDFREQ_128 (0x60) /* LCD Freq: ACLK divided by 128 */
#define LCDFREQ_192 (0x80) /* LCD Freq: ACLK divided by 192 */
#define LCDFREQ_256 (0xA0) /* LCD Freq: ACLK divided by 256 */
#define LCDFREQ_384 (0xC0) /* LCD Freq: ACLK divided by 384 */
#define LCDFREQ_512 (0xE0) /* LCD Freq: ACLK divided by 512 */
#define LCDAPCTL0_ 0x00AC /* LCD_A Port Control Register 0 */
sfrb(LCDAPCTL0, LCDAPCTL0_);
#define LCDS0 (0x01) /* LCD Segment 0 to 3 Enable. */
#define LCDS4 (0x02) /* LCD Segment 4 to 7 Enable. */
#define LCDS8 (0x04) /* LCD Segment 8 to 11 Enable. */
#define LCDS12 (0x08) /* LCD Segment 12 to 15 Enable. */
#define LCDS16 (0x10) /* LCD Segment 16 to 19 Enable. */
#define LCDS20 (0x20) /* LCD Segment 20 to 23 Enable. */
#define LCDS24 (0x40) /* LCD Segment 24 to 27 Enable. */
#define LCDS28 (0x80) /* LCD Segment 28 to 31 Enable. */
#define LCDAPCTL1_ 0x00AD /* LCD_A Port Control Register 1 */
sfrb(LCDAPCTL1, LCDAPCTL1_);
#define LCDS32 (0x01) /* LCD Segment 32 to 35 Enable. */
#define LCDS36 (0x02) /* LCD Segment 36 to 39 Enable. */
#define LCDAVCTL0_ 0x00AE /* LCD_A Voltage Control Register 0 */
sfrb(LCDAVCTL0, LCDAVCTL0_);
#define LCD2B (0x01) /* Selects 1/2 bias. */
#define VLCDREF0 (0x02) /* Selects reference voltage for regulated charge pump: 0 */
#define VLCDREF1 (0x04) /* Selects reference voltage for regulated charge pump: 1 */
#define LCDCPEN (0x08) /* LCD Voltage Charge Pump Enable. */
#define VLCDEXT (0x10) /* Select external source for VLCD. */
#define LCDREXT (0x20) /* Selects external connections for LCD mid voltages. */
#define LCDR03EXT (0x40) /* Selects external connection for lowest LCD voltage. */
/* Reference voltage source select for the regulated charge pump */
#define VLCDREF_0 (0<<1) /* Internal */
#define VLCDREF_1 (1<<1) /* External */
#define VLCDREF_2 (2<<1) /* Reserved */
#define VLCDREF_3 (3<<1) /* Reserved */
#define LCDAVCTL1_ 0x00AF /* LCD_A Voltage Control Register 1 */
sfrb(LCDAVCTL1, LCDAVCTL1_);
#define VLCD0 (0x02) /* VLCD select: 0 */
#define VLCD1 (0x04) /* VLCD select: 1 */
#define VLCD2 (0x08) /* VLCD select: 2 */
#define VLCD3 (0x10) /* VLCD select: 3 */
/* Charge pump voltage selections */
#define VLCD_0 (0<<1) /* Charge pump disabled */
#define VLCD_1 (1<<1) /* VLCD = 2.60V */
#define VLCD_2 (2<<1) /* VLCD = 2.66V */
#define VLCD_3 (3<<1) /* VLCD = 2.72V */
#define VLCD_4 (4<<1) /* VLCD = 2.78V */
#define VLCD_5 (5<<1) /* VLCD = 2.84V */
#define VLCD_6 (6<<1) /* VLCD = 2.90V */
#define VLCD_7 (7<<1) /* VLCD = 2.96V */
#define VLCD_8 (8<<1) /* VLCD = 3.02V */
#define VLCD_9 (9<<1) /* VLCD = 3.08V */
#define VLCD_10 (10<<1) /* VLCD = 3.14V */
#define VLCD_11 (11<<1) /* VLCD = 3.20V */
#define VLCD_12 (12<<1) /* VLCD = 3.26V */
#define VLCD_13 (12<<1) /* VLCD = 3.32V */
#define VLCD_14 (13<<1) /* VLCD = 3.38V */
#define VLCD_15 (15<<1) /* VLCD = 3.44V */
#define VLCD_DISABLED (0<<1) /* Charge pump disabled */
#define VLCD_2_60 (1<<1) /* VLCD = 2.60V */
#define VLCD_2_66 (2<<1) /* VLCD = 2.66V */
#define VLCD_2_72 (3<<1) /* VLCD = 2.72V */
#define VLCD_2_78 (4<<1) /* VLCD = 2.78V */
#define VLCD_2_84 (5<<1) /* VLCD = 2.84V */
#define VLCD_2_90 (6<<1) /* VLCD = 2.90V */
#define VLCD_2_96 (7<<1) /* VLCD = 2.96V */
#define VLCD_3_02 (8<<1) /* VLCD = 3.02V */
#define VLCD_3_08 (9<<1) /* VLCD = 3.08V */
#define VLCD_3_14 (10<<1) /* VLCD = 3.14V */
#define VLCD_3_20 (11<<1) /* VLCD = 3.20V */
#define VLCD_3_26 (12<<1) /* VLCD = 3.26V */
#define VLCD_3_32 (12<<1) /* VLCD = 3.32V */
#define VLCD_3_38 (13<<1) /* VLCD = 3.38V */
#define VLCD_3_44 (15<<1) /* VLCD = 3.44V */
#define LCDMEM_ (0x0091) /* LCD Memory */
#ifndef __STDC__
#define LCDMEM (LCDMEM_) /* LCD Memory (for assembler) */
#else
#define LCDMEM ((volatile char*) LCDMEM_) /* LCD Memory (for C) */
#endif
#define LCDM1_ 0x0091 /* LCD Memory 1 */
sfrb(LCDM1, LCDM1_);
#define LCDM2_ 0x0092 /* LCD Memory 2 */
sfrb(LCDM2, LCDM2_);
#define LCDM3_ 0x0093 /* LCD Memory 3 */
sfrb(LCDM3, LCDM3_);
#define LCDM4_ 0x0094 /* LCD Memory 4 */
sfrb(LCDM4, LCDM4_);
#define LCDM5_ 0x0095 /* LCD Memory 5 */
sfrb(LCDM5, LCDM5_);
#define LCDM6_ 0x0096 /* LCD Memory 6 */
sfrb(LCDM6, LCDM6_);
#define LCDM7_ 0x0097 /* LCD Memory 7 */
sfrb(LCDM7, LCDM7_);
#define LCDM8_ 0x0098 /* LCD Memory 8 */
sfrb(LCDM8, LCDM8_);
#define LCDM9_ 0x0099 /* LCD Memory 9 */
sfrb(LCDM9, LCDM9_);
#define LCDM10_ 0x009A /* LCD Memory 10 */
sfrb(LCDM10, LCDM10_);
#define LCDM11_ 0x009B /* LCD Memory 11 */
sfrb(LCDM11, LCDM11_);
#define LCDM12_ 0x009C /* LCD Memory 12 */
sfrb(LCDM12, LCDM12_);
#define LCDM13_ 0x009D /* LCD Memory 13 */
sfrb(LCDM13, LCDM13_);
#define LCDM14_ 0x009E /* LCD Memory 14 */
sfrb(LCDM14, LCDM14_);
#define LCDM15_ 0x009F /* LCD Memory 15 */
sfrb(LCDM15, LCDM15_);
#define LCDM16_ 0x00A0 /* LCD Memory 16 */
sfrb(LCDM16, LCDM16_);
#define LCDM17_ 0x00A1 /* LCD Memory 17 */
sfrb(LCDM17, LCDM17_);
#define LCDM18_ 0x00A2 /* LCD Memory 18 */
sfrb(LCDM18, LCDM18_);
#define LCDM19_ 0x00A3 /* LCD Memory 19 */
sfrb(LCDM19, LCDM19_);
#define LCDM20_ 0x00A4 /* LCD Memory 20 */
sfrb(LCDM20, LCDM20_);
#define LCDMA (LCDM10) /* LCD Memory A */
#define LCDMB (LCDM11) /* LCD Memory B */
#define LCDMC (LCDM12) /* LCD Memory C */
#define LCDMD (LCDM13) /* LCD Memory D */
#define LCDME (LCDM14) /* LCD Memory E */
#define LCDMF (LCDM15) /* LCD Memory F */
/************************************************************
* HARDWARE MULTIPLIER
************************************************************/
#define __MSP430_HAS_MPY__ /* Definition to show that Module is available */
#define MPY_ 0x0130 /* Multiply Unsigned/Operand 1 */
sfrw(MPY, MPY_);
#define MPYS_ 0x0132 /* Multiply Signed/Operand 1 */
sfrw(MPYS, MPYS_);
#define MAC_ 0x0134 /* Multiply Unsigned and Accumulate/Operand 1 */
sfrw(MAC, MAC_);
#define MACS_ 0x0136 /* Multiply Signed and Accumulate/Operand 1 */
sfrw(MACS, MACS_);
#define OP2_ 0x0138 /* Operand 2 */
sfrw(OP2, OP2_);
#define RESLO_ 0x013A /* Result Low Word */
sfrw(RESLO, RESLO_);
#define RESHI_ 0x013C /* Result High Word */
sfrw(RESHI, RESHI_);
#define SUMEXT_ 0x013E /* Sum Extend */
const_sfrw(SUMEXT, SUMEXT_);
/************************************************************
* Operational Amplifier
************************************************************/
#define __MSP430_HAS_OA_3__ /* Definition to show that Module is available */
#define OA0CTL0_ 0x00C0 /* OA0 Control register 0 */
sfrb(OA0CTL0, OA0CTL0_);
#define OA0CTL1_ 0x00C1 /* OA0 Control register 1 */
sfrb(OA0CTL1, OA0CTL1_);
#define OA1CTL0_ 0x00C2 /* OA1 Control register 0 */
sfrb(OA1CTL0, OA1CTL0_);
#define OA1CTL1_ 0x00C3 /* OA1 Control register 1 */
sfrb(OA1CTL1, OA1CTL1_);
#define OA2CTL0_ 0x00C4 /* OA2 Control register 0 */
sfrb(OA2CTL0, OA2CTL0_);
#define OA2CTL1_ 0x00C5 /* OA2 Control register 1 */
sfrb(OA2CTL1, OA2CTL1_);
#define OAADC0 (0x01) /* OAx output to ADC12 input channel select 0 */
#define OAADC1 (0x02) /* OAx output to ADC12 input channel select 1 */
#define OAPM0 (0x04) /* OAx Power mode select 0 */
#define OAPM1 (0x08) /* OAx Power mode select 1 */
#define OAP0 (0x10) /* OAx Non-inverting input select 0 */
#define OAP1 (0x20) /* OAx Non-inverting input select 1 */
#define OAN0 (0x40) /* OAx Inverting input select 0 */
#define OAN1 (0x80) /* OAx Inverting input select 1 */
#define OAPM_0 (0x00) /* OAx Power mode select: off */
#define OAPM_1 (0x04) /* OAx Power mode select: slow */
#define OAPM_2 (0x08) /* OAx Power mode select: meduim */
#define OAPM_3 (0x0C) /* OAx Power mode select: fast */
#define OAP_0 (0x00) /* OAx Non-inverting input select 00 */
#define OAP_1 (0x10) /* OAx Non-inverting input select 01 */
#define OAP_2 (0x20) /* OAx Non-inverting input select 10 */
#define OAP_3 (0x30) /* OAx Non-inverting input select 11 */
#define OAN_0 (0x00) /* OAx Inverting input select 00 */
#define OAN_1 (0x40) /* OAx Inverting input select 01 */
#define OAN_2 (0x80) /* OAx Inverting input select 10 */
#define OAN_3 (0xC0) /* OAx Inverting input select 11 */
#define OARRIP (0x01) /* OAx Rail-to-Rail Input off */
//#define Reserved (0x02) /* */
#define OAFC0 (0x04) /* OAx Function control 0 */
#define OAFC1 (0x08) /* OAx Function control 1 */
#define OAFC2 (0x10) /* OAx Function control 2 */
#define OAFBR0 (0x20) /* OAx Feedback resistor select 0 */
#define OAFBR1 (0x40) /* OAx Feedback resistor select 1 */
#define OAFBR2 (0x80) /* OAx Feedback resistor select 2 */
#define OAFC_0 (0x00) /* OAx Function: Gen. Purpose */
#define OAFC_1 (0x04) /* OAx Function: Unity gain buffer */
#define OAFC_2 (0x08) /* OAx Function: Reserved */
#define OAFC_3 (0x0C) /* OAx Function: Comparator */
#define OAFC_4 (0x10) /* OAx Function: Non-Inverting PGA */
#define OAFC_5 (0x14) /* OAx Function: Reserved */
#define OAFC_6 (0x18) /* OAx Function: Inverting PGA */
#define OAFC_7 (0x1C) /* OAx Function: Differential PGA */
#define OAFBR_0 (0x00) /* OAx Feedback resistor: Tap 0 */
#define OAFBR_1 (0x20) /* OAx Feedback resistor: Tap 1 */
#define OAFBR_2 (0x40) /* OAx Feedback resistor: Tap 2 */
#define OAFBR_3 (0x60) /* OAx Feedback resistor: Tap 3 */
#define OAFBR_4 (0x80) /* OAx Feedback resistor: Tap 4 */
#define OAFBR_5 (0xA0) /* OAx Feedback resistor: Tap 5 */
#define OAFBR_6 (0xC0) /* OAx Feedback resistor: Tap 6 */
#define OAFBR_7 (0xE0) /* OAx Feedback resistor: Tap 7 */
/************************************************************
* DIGITAL I/O Port1/2
************************************************************/
#define __MSP430_HAS_PORT1__ /* Definition to show that Module is available */
#define __MSP430_HAS_PORT2__ /* Definition to show that Module is available */
#define P1IN_ 0x0020 /* Port 1 Input */
const_sfrb(P1IN, P1IN_);
#define P1OUT_ 0x0021 /* Port 1 Output */
sfrb(P1OUT, P1OUT_);
#define P1DIR_ 0x0022 /* Port 1 Direction */
sfrb(P1DIR, P1DIR_);
#define P1IFG_ 0x0023 /* Port 1 Interrupt Flag */
sfrb(P1IFG, P1IFG_);
#define P1IES_ 0x0024 /* Port 1 Interrupt Edge Select */
sfrb(P1IES, P1IES_);
#define P1IE_ 0x0025 /* Port 1 Interrupt Enable */
sfrb(P1IE, P1IE_);
#define P1SEL_ 0x0026 /* Port 1 Selection */
sfrb(P1SEL, P1SEL_);
#define P2IN_ 0x0028 /* Port 2 Input */
const_sfrb(P2IN, P2IN_);
#define P2OUT_ 0x0029 /* Port 2 Output */
sfrb(P2OUT, P2OUT_);
#define P2DIR_ 0x002A /* Port 2 Direction */
sfrb(P2DIR, P2DIR_);
#define P2IFG_ 0x002B /* Port 2 Interrupt Flag */
sfrb(P2IFG, P2IFG_);
#define P2IES_ 0x002C /* Port 2 Interrupt Edge Select */
sfrb(P2IES, P2IES_);
#define P2IE_ 0x002D /* Port 2 Interrupt Enable */
sfrb(P2IE, P2IE_);
#define P2SEL_ 0x002E /* Port 2 Selection */
sfrb(P2SEL, P2SEL_);
/************************************************************
* DIGITAL I/O Port3/4
************************************************************/
#define __MSP430_HAS_PORT3__ /* Definition to show that Module is available */
#define __MSP430_HAS_PORT4__ /* Definition to show that Module is available */
#define P3IN_ 0x0018 /* Port 3 Input */
const_sfrb(P3IN, P3IN_);
#define P3OUT_ 0x0019 /* Port 3 Output */
sfrb(P3OUT, P3OUT_);
#define P3DIR_ 0x001A /* Port 3 Direction */
sfrb(P3DIR, P3DIR_);
#define P3SEL_ 0x001B /* Port 3 Selection */
sfrb(P3SEL, P3SEL_);
#define P4IN_ 0x001C /* Port 4 Input */
const_sfrb(P4IN, P4IN_);
#define P4OUT_ 0x001D /* Port 4 Output */
sfrb(P4OUT, P4OUT_);
#define P4DIR_ 0x001E /* Port 4 Direction */
sfrb(P4DIR, P4DIR_);
#define P4SEL_ 0x001F /* Port 4 Selection */
sfrb(P4SEL, P4SEL_);
/************************************************************
* DIGITAL I/O Port5/6
************************************************************/
#define __MSP430_HAS_PORT5__ /* Definition to show that Module is available */
#define __MSP430_HAS_PORT6__ /* Definition to show that Module is available */
#define P5IN_ 0x0030 /* Port 5 Input */
const_sfrb(P5IN, P5IN_);
#define P5OUT_ 0x0031 /* Port 5 Output */
sfrb(P5OUT, P5OUT_);
#define P5DIR_ 0x0032 /* Port 5 Direction */
sfrb(P5DIR, P5DIR_);
#define P5SEL_ 0x0033 /* Port 5 Selection */
sfrb(P5SEL, P5SEL_);
#define P6IN_ 0x0034 /* Port 6 Input */
const_sfrb(P6IN, P6IN_);
#define P6OUT_ 0x0035 /* Port 6 Output */
sfrb(P6OUT, P6OUT_);
#define P6DIR_ 0x0036 /* Port 6 Direction */
sfrb(P6DIR, P6DIR_);
#define P6SEL_ 0x0037 /* Port 6 Selection */
sfrb(P6SEL, P6SEL_);
/************************************************************
* DIGITAL I/O Port7/8
************************************************************/
#define __MSP430_HAS_PORT7__ /* Definition to show that Module is available */
#define __MSP430_HAS_PORT8__ /* Definition to show that Module is available */
#define __MSP430_HAS_PORTA__ /* Definition to show that Module is available */
#define P7IN_ 0x0038 /* Port 7 Input */
const_sfrb(P7IN, P7IN_);
#define P7OUT_ 0x003A /* Port 7 Output */
sfrb(P7OUT, P7OUT_);
#define P7DIR_ 0x003C /* Port 7 Direction */
sfrb(P7DIR, P7DIR_);
#define P7SEL_ 0x003E /* Port 7 Selection */
sfrb(P7SEL, P7SEL_);
#define P8IN_ 0x0039 /* Port 8 Input */
const_sfrb(P8IN, P8IN_);
#define P8OUT_ 0x003B /* Port 8 Output */
sfrb(P8OUT, P8OUT_);
#define P8DIR_ 0x003D /* Port 8 Direction */
sfrb(P8DIR, P8DIR_);
#define P8SEL_ 0x003F /* Port 8 Selection */
sfrb(P8SEL, P8SEL_);
#define PAIN_ 0x0038 /* Port A Input */
const_sfrw(PAIN, PAIN_);
#define PAOUT_ 0x003A /* Port A Output */
sfrw(PAOUT, PAOUT_);
#define PADIR_ 0x003C /* Port A Direction */
sfrw(PADIR, PADIR_);
#define PASEL_ 0x003E /* Port A Selection */
sfrw(PASEL, PASEL_);
/************************************************************
* DIGITAL I/O Port9/10
************************************************************/
#define __MSP430_HAS_PORT9__ /* Definition to show that Module is available */
#define __MSP430_HAS_PORT10__ /* Definition to show that Module is available */
#define __MSP430_HAS_PORTB__ /* Definition to show that Module is available */
#define P9IN_ 0x0008 /* Port 9 Input */
const_sfrb(P9IN, P9IN_);
#define P9OUT_ 0x000A /* Port 9 Output */
sfrb(P9OUT, P9OUT_);
#define P9DIR_ 0x000C /* Port 9 Direction */
sfrb(P9DIR, P9DIR_);
#define P9SEL_ 0x000E /* Port 9 Selection */
sfrb(P9SEL, P9SEL_);
#define P10IN_ 0x0009 /* Port 10 Input */
const_sfrb(P10IN, P10IN_);
#define P10OUT_ 0x000B /* Port 10 Output */
sfrb(P10OUT, P10OUT_);
#define P10DIR_ 0x000D /* Port 10 Direction */
sfrb(P10DIR, P10DIR_);
#define P10SEL_ 0x000F /* Port 10 Selection */
sfrb(P10SEL, P10SEL_);
#define PBIN_ 0x0008 /* Port B Input */
const_sfrw(PBIN, PBIN_);
#define PBOUT_ 0x000A /* Port B Output */
sfrw(PBOUT, PBOUT_);
#define PBDIR_ 0x000C /* Port B Direction */
sfrw(PBDIR, PBDIR_);
#define PBSEL_ 0x000E /* Port B Selection */
sfrw(PBSEL, PBSEL_);
/************************************************************
* Brown-Out, Supply Voltage Supervision (SVS)
************************************************************/
#define __MSP430_HAS_SVS__ /* Definition to show that Module is available */
#define SVSCTL_ 0x0056 /* SVS Control */
sfrb(SVSCTL, SVSCTL_);
#define SVSFG (0x01) /* SVS Flag */
#define SVSOP (0x02) /* SVS output (read only) */
#define SVSON (0x04) /* Switches the SVS on/off */
#define PORON (0x08) /* Enable POR Generation if Low Voltage */
#define VLD0 (0x10)
#define VLD1 (0x20)
#define VLD2 (0x40)
#define VLD3 (0x80)
#define VLDON (0x10)
#define VLDOFF (0x00)
#define VLD_1_8V (0x10)
/************************************************************
* Timer A3
************************************************************/
#define __MSP430_HAS_TA3__ /* Definition to show that Module is available */
#define TAIV_ 0x012E /* Timer A Interrupt Vector Word */
const_sfrw(TAIV, TAIV_);
#define TACTL_ 0x0160 /* Timer A Control */
sfrw(TACTL, TACTL_);
#define TACCTL0_ 0x0162 /* Timer A Capture/Compare Control 0 */
sfrw(TACCTL0, TACCTL0_);
#define TACCTL1_ 0x0164 /* Timer A Capture/Compare Control 1 */
sfrw(TACCTL1, TACCTL1_);
#define TACCTL2_ 0x0166 /* Timer A Capture/Compare Control 2 */
sfrw(TACCTL2, TACCTL2_);
#define TAR_ 0x0170 /* Timer A Counter Register */
sfrw(TAR, TAR_);
#define TACCR0_ 0x0172 /* Timer A Capture/Compare 0 */
sfrw(TACCR0, TACCR0_);
#define TACCR1_ 0x0174 /* Timer A Capture/Compare 1 */
sfrw(TACCR1, TACCR1_);
#define TACCR2_ 0x0176 /* Timer A Capture/Compare 2 */
sfrw(TACCR2, TACCR2_);
/* Alternate register names */
#define CCTL0 TACCTL0 /* Timer A Capture/Compare Control 0 */
#define CCTL1 TACCTL1 /* Timer A Capture/Compare Control 1 */
#define CCTL2 TACCTL2 /* Timer A Capture/Compare Control 2 */
#define CCR0 TACCR0 /* Timer A Capture/Compare 0 */
#define CCR1 TACCR1 /* Timer A Capture/Compare 1 */
#define CCR2 TACCR2 /* Timer A Capture/Compare 2 */
#define CCTL0_ TACCTL0_ /* Timer A Capture/Compare Control 0 */
#define CCTL1_ TACCTL1_ /* Timer A Capture/Compare Control 1 */
#define CCTL2_ TACCTL2_ /* Timer A Capture/Compare Control 2 */
#define CCR0_ TACCR0_ /* Timer A Capture/Compare 0 */
#define CCR1_ TACCR1_ /* Timer A Capture/Compare 1 */
#define CCR2_ TACCR2_ /* Timer A Capture/Compare 2 */
/* Alternate register names - 5xx style */
#define TA0IV TAIV /* Timer A Interrupt Vector Word */
#define TA0CTL TACTL /* Timer A Control */
#define TA0CCTL0 TACCTL0 /* Timer A Capture/Compare Control 0 */
#define TA0CCTL1 TACCTL1 /* Timer A Capture/Compare Control 1 */
#define TA0CCTL2 TACCTL2 /* Timer A Capture/Compare Control 2 */
#define TA0R TAR /* Timer A Counter Register */
#define TA0CCR0 TACCR0 /* Timer A Capture/Compare 0 */
#define TA0CCR1 TACCR1 /* Timer A Capture/Compare 1 */
#define TA0CCR2 TACCR2 /* Timer A Capture/Compare 2 */
#define TA0IV_ TAIV_ /* Timer A Interrupt Vector Word */
#define TA0CTL_ TACTL_ /* Timer A Control */
#define TA0CCTL0_ TACCTL0_ /* Timer A Capture/Compare Control 0 */
#define TA0CCTL1_ TACCTL1_ /* Timer A Capture/Compare Control 1 */
#define TA0CCTL2_ TACCTL2_ /* Timer A Capture/Compare Control 2 */
#define TA0R_ TAR_ /* Timer A Counter Register */
#define TA0CCR0_ TACCR0_ /* Timer A Capture/Compare 0 */
#define TA0CCR1_ TACCR1_ /* Timer A Capture/Compare 1 */
#define TA0CCR2_ TACCR2_ /* Timer A Capture/Compare 2 */
#define TIMER0_A1_VECTOR TIMERA1_VECTOR /* Int. Vector: Timer A CC1-2, TA */
#define TIMER0_A0_VECTOR TIMERA0_VECTOR /* Int. Vector: Timer A CC0 */
#define TASSEL1 (0x0200) /* Timer A clock source select 1 */
#define TASSEL0 (0x0100) /* Timer A clock source select 0 */
#define ID1 (0x0080) /* Timer A clock input divider 1 */
#define ID0 (0x0040) /* Timer A clock input divider 0 */
#define MC1 (0x0020) /* Timer A mode control 1 */
#define MC0 (0x0010) /* Timer A mode control 0 */
#define TACLR (0x0004) /* Timer A counter clear */
#define TAIE (0x0002) /* Timer A counter interrupt enable */
#define TAIFG (0x0001) /* Timer A counter interrupt flag */
#define MC_0 (0x0000) /* Timer A mode control: 0 - Stop */
#define MC_1 (0x0010) /* Timer A mode control: 1 - Up to CCR0 */
#define MC_2 (0x0020) /* Timer A mode control: 2 - Continous up */
#define MC_3 (0x0030) /* Timer A mode control: 3 - Up/Down */
#define ID_0 (0x0000) /* Timer A input divider: 0 - /1 */
#define ID_1 (0x0040) /* Timer A input divider: 1 - /2 */
#define ID_2 (0x0080) /* Timer A input divider: 2 - /4 */
#define ID_3 (0x00C0) /* Timer A input divider: 3 - /8 */
#define TASSEL_0 (0x0000) /* Timer A clock source select: 0 - TACLK */
#define TASSEL_1 (0x0100) /* Timer A clock source select: 1 - ACLK */
#define TASSEL_2 (0x0200) /* Timer A clock source select: 2 - SMCLK */
#define TASSEL_3 (0x0300) /* Timer A clock source select: 3 - INCLK */
#define CM1 (0x8000) /* Capture mode 1 */
#define CM0 (0x4000) /* Capture mode 0 */
#define CCIS1 (0x2000) /* Capture input select 1 */
#define CCIS0 (0x1000) /* Capture input select 0 */
#define SCS (0x0800) /* Capture sychronize */
#define SCCI (0x0400) /* Latched capture signal (read) */
#define CAP (0x0100) /* Capture mode: 1 /Compare mode : 0 */
#define OUTMOD2 (0x0080) /* Output mode 2 */
#define OUTMOD1 (0x0040) /* Output mode 1 */
#define OUTMOD0 (0x0020) /* Output mode 0 */
#define CCIE (0x0010) /* Capture/compare interrupt enable */
#define CCI (0x0008) /* Capture input signal (read) */
#define OUT (0x0004) /* PWM Output signal if output mode 0 */
#define COV (0x0002) /* Capture/compare overflow flag */
#define CCIFG (0x0001) /* Capture/compare interrupt flag */
#define OUTMOD_0 (0x0000) /* PWM output mode: 0 - output only */
#define OUTMOD_1 (0x0020) /* PWM output mode: 1 - set */
#define OUTMOD_2 (0x0040) /* PWM output mode: 2 - PWM toggle/reset */
#define OUTMOD_3 (0x0060) /* PWM output mode: 3 - PWM set/reset */
#define OUTMOD_4 (0x0080) /* PWM output mode: 4 - toggle */
#define OUTMOD_5 (0x00A0) /* PWM output mode: 5 - Reset */
#define OUTMOD_6 (0x00C0) /* PWM output mode: 6 - PWM toggle/set */
#define OUTMOD_7 (0x00E0) /* PWM output mode: 7 - PWM reset/set */
#define CCIS_0 (0x0000) /* Capture input select: 0 - CCIxA */
#define CCIS_1 (0x1000) /* Capture input select: 1 - CCIxB */
#define CCIS_2 (0x2000) /* Capture input select: 2 - GND */
#define CCIS_3 (0x3000) /* Capture input select: 3 - Vcc */
#define CM_0 (0x0000) /* Capture mode: 0 - disabled */
#define CM_1 (0x4000) /* Capture mode: 1 - pos. edge */
#define CM_2 (0x8000) /* Capture mode: 1 - neg. edge */
#define CM_3 (0xC000) /* Capture mode: 1 - both edges */
/* TA3IV Definitions */
#define TAIV_NONE (0x0000) /* No Interrupt pending */
#define TAIV_TACCR1 (0x0002) /* TACCR1_CCIFG */
#define TAIV_TACCR2 (0x0004) /* TACCR2_CCIFG */
#define TAIV_6 (0x0006) /* Reserved */
#define TAIV_8 (0x0008) /* Reserved */
#define TAIV_TAIFG (0x000A) /* TAIFG */
/************************************************************
* Timer B7
************************************************************/
#define __MSP430_HAS_TB7__ /* Definition to show that Module is available */
#define TBIV_ 0x011E /* Timer B Interrupt Vector Word */
const_sfrw(TBIV, TBIV_);
#define TBCTL_ 0x0180 /* Timer B Control */
sfrw(TBCTL, TBCTL_);
#define TBCCTL0_ 0x0182 /* Timer B Capture/Compare Control 0 */
sfrw(TBCCTL0, TBCCTL0_);
#define TBCCTL1_ 0x0184 /* Timer B Capture/Compare Control 1 */
sfrw(TBCCTL1, TBCCTL1_);
#define TBCCTL2_ 0x0186 /* Timer B Capture/Compare Control 2 */
sfrw(TBCCTL2, TBCCTL2_);
#define TBCCTL3_ 0x0188 /* Timer B Capture/Compare Control 3 */
sfrw(TBCCTL3, TBCCTL3_);
#define TBCCTL4_ 0x018A /* Timer B Capture/Compare Control 4 */
sfrw(TBCCTL4, TBCCTL4_);
#define TBCCTL5_ 0x018C /* Timer B Capture/Compare Control 5 */
sfrw(TBCCTL5, TBCCTL5_);
#define TBCCTL6_ 0x018E /* Timer B Capture/Compare Control 6 */
sfrw(TBCCTL6, TBCCTL6_);
#define TBR_ 0x0190 /* Timer B Counter Register */
sfrw(TBR, TBR_);
#define TBCCR0_ 0x0192 /* Timer B Capture/Compare 0 */
sfrw(TBCCR0, TBCCR0_);
#define TBCCR1_ 0x0194 /* Timer B Capture/Compare 1 */
sfrw(TBCCR1, TBCCR1_);
#define TBCCR2_ 0x0196 /* Timer B Capture/Compare 2 */
sfrw(TBCCR2, TBCCR2_);
#define TBCCR3_ 0x0198 /* Timer B Capture/Compare 3 */
sfrw(TBCCR3, TBCCR3_);
#define TBCCR4_ 0x019A /* Timer B Capture/Compare 4 */
sfrw(TBCCR4, TBCCR4_);
#define TBCCR5_ 0x019C /* Timer B Capture/Compare 5 */
sfrw(TBCCR5, TBCCR5_);
#define TBCCR6_ 0x019E /* Timer B Capture/Compare 6 */
sfrw(TBCCR6, TBCCR6_);
/* Alternate register names - 5xx style */
#define TB0IV TBIV /* Timer B Interrupt Vector Word */
#define TB0CTL TBCTL /* Timer B Control */
#define TB0CCTL0 TBCCTL0 /* Timer B Capture/Compare Control 0 */
#define TB0CCTL1 TBCCTL1 /* Timer B Capture/Compare Control 1 */
#define TB0CCTL2 TBCCTL2 /* Timer B Capture/Compare Control 2 */
#define TB0CCTL3 TBCCTL3 /* Timer B Capture/Compare Control 3 */
#define TB0CCTL4 TBCCTL4 /* Timer B Capture/Compare Control 4 */
#define TB0CCTL5 TBCCTL5 /* Timer B Capture/Compare Control 5 */
#define TB0CCTL6 TBCCTL6 /* Timer B Capture/Compare Control 6 */
#define TB0R TBR /* Timer B Counter Register */
#define TB0CCR0 TBCCR0 /* Timer B Capture/Compare 0 */
#define TB0CCR1 TBCCR1 /* Timer B Capture/Compare 1 */
#define TB0CCR2 TBCCR2 /* Timer B Capture/Compare 2 */
#define TB0CCR3 TBCCR3 /* Timer B Capture/Compare 3 */
#define TB0CCR4 TBCCR4 /* Timer B Capture/Compare 4 */
#define TB0CCR5 TBCCR5 /* Timer B Capture/Compare 5 */
#define TB0CCR6 TBCCR6 /* Timer B Capture/Compare 6 */
#define TB0IV_ TBIV_ /* Timer B Interrupt Vector Word */
#define TB0CTL_ TBCTL_ /* Timer B Control */
#define TB0CCTL0_ TBCCTL0_ /* Timer B Capture/Compare Control 0 */
#define TB0CCTL1_ TBCCTL1_ /* Timer B Capture/Compare Control 1 */
#define TB0CCTL2_ TBCCTL2_ /* Timer B Capture/Compare Control 2 */
#define TB0CCTL3_ TBCCTL3_ /* Timer B Capture/Compare Control 3 */
#define TB0CCTL4_ TBCCTL4_ /* Timer B Capture/Compare Control 4 */
#define TB0CCTL5_ TBCCTL5_ /* Timer B Capture/Compare Control 5 */
#define TB0CCTL6_ TBCCTL6_ /* Timer B Capture/Compare Control 6 */
#define TB0R_ TBR_ /* Timer B Counter Register */
#define TB0CCR0_ TBCCR0_ /* Timer B Capture/Compare 0 */
#define TB0CCR1_ TBCCR1_ /* Timer B Capture/Compare 1 */
#define TB0CCR2_ TBCCR2_ /* Timer B Capture/Compare 2 */
#define TB0CCR3_ TBCCR3_ /* Timer B Capture/Compare 3 */
#define TB0CCR4_ TBCCR4_ /* Timer B Capture/Compare 4 */
#define TB0CCR5_ TBCCR5_ /* Timer B Capture/Compare 5 */
#define TB0CCR6_ TBCCR6_ /* Timer B Capture/Compare 6 */
#define TBCLGRP1 (0x4000) /* Timer B Compare latch load group 1 */
#define TBCLGRP0 (0x2000) /* Timer B Compare latch load group 0 */
#define CNTL1 (0x1000) /* Counter lenght 1 */
#define CNTL0 (0x0800) /* Counter lenght 0 */
#define TBSSEL1 (0x0200) /* Clock source 1 */
#define TBSSEL0 (0x0100) /* Clock source 0 */
#define TBCLR (0x0004) /* Timer B counter clear */
#define TBIE (0x0002) /* Timer B interrupt enable */
#define TBIFG (0x0001) /* Timer B interrupt flag */
#define SHR1 (0x4000) /* Timer B Compare latch load group 1 */
#define SHR0 (0x2000) /* Timer B Compare latch load group 0 */
#define TBSSEL_0 (0x0000) /* Clock Source: TBCLK */
#define TBSSEL_1 (0x0100) /* Clock Source: ACLK */
#define TBSSEL_2 (0x0200) /* Clock Source: SMCLK */
#define TBSSEL_3 (0x0300) /* Clock Source: INCLK */
#define CNTL_0 (0x0000) /* Counter lenght: 16 bit */
#define CNTL_1 (0x0800) /* Counter lenght: 12 bit */
#define CNTL_2 (0x1000) /* Counter lenght: 10 bit */
#define CNTL_3 (0x1800) /* Counter lenght: 8 bit */
#define SHR_0 (0x0000) /* Timer B Group: 0 - individually */
#define SHR_1 (0x2000) /* Timer B Group: 1 - 3 groups (1-2, 3-4, 5-6) */
#define SHR_2 (0x4000) /* Timer B Group: 2 - 2 groups (1-3, 4-6)*/
#define SHR_3 (0x6000) /* Timer B Group: 3 - 1 group (all) */
#define TBCLGRP_0 (0x0000) /* Timer B Group: 0 - individually */
#define TBCLGRP_1 (0x2000) /* Timer B Group: 1 - 3 groups (1-2, 3-4, 5-6) */
#define TBCLGRP_2 (0x4000) /* Timer B Group: 2 - 2 groups (1-3, 4-6)*/
#define TBCLGRP_3 (0x6000) /* Timer B Group: 3 - 1 group (all) */
/* Additional Timer B Control Register bits are defined in Timer A */
#define CLLD1 (0x0400) /* Compare latch load source 1 */
#define CLLD0 (0x0200) /* Compare latch load source 0 */
#define SLSHR1 (0x0400) /* Compare latch load source 1 */
#define SLSHR0 (0x0200) /* Compare latch load source 0 */
#define SLSHR_0 (0x0000) /* Compare latch load sourec : 0 - immediate */
#define SLSHR_1 (0x0200) /* Compare latch load sourec : 1 - TBR counts to 0 */
#define SLSHR_2 (0x0400) /* Compare latch load sourec : 2 - up/down */
#define SLSHR_3 (0x0600) /* Compare latch load sourec : 3 - TBR counts to TBCTL0 */
#define CLLD_0 (0x0000) /* Compare latch load sourec : 0 - immediate */
#define CLLD_1 (0x0200) /* Compare latch load sourec : 1 - TBR counts to 0 */
#define CLLD_2 (0x0400) /* Compare latch load sourec : 2 - up/down */
#define CLLD_3 (0x0600) /* Compare latch load sourec : 3 - TBR counts to TBCTL0 */
/* TB7IV Definitions */
#define TBIV_NONE (0x0000) /* No Interrupt pending */
#define TBIV_TBCCR1 (0x0002) /* TBCCR1_CCIFG */
#define TBIV_TBCCR2 (0x0004) /* TBCCR2_CCIFG */
#define TBIV_TBCCR3 (0x0006) /* TBCCR3_CCIFG */
#define TBIV_TBCCR4 (0x0008) /* TBCCR4_CCIFG */
#define TBIV_TBCCR5 (0x000A) /* TBCCR3_CCIFG */
#define TBIV_TBCCR6 (0x000C) /* TBCCR4_CCIFG */
#define TBIV_TBIFG (0x000E) /* TBIFG */
/************************************************************
* USCI
************************************************************/
#define __MSP430_HAS_USCI__ /* Definition to show that Module is available */
#define UCA0CTL0_ 0x0060 /* USCI A0 Control Register 0 */
sfrb(UCA0CTL0, UCA0CTL0_);
#define UCA0CTL1_ 0x0061 /* USCI A0 Control Register 1 */
sfrb(UCA0CTL1, UCA0CTL1_);
#define UCA0BR0_ 0x0062 /* USCI A0 Baud Rate 0 */
sfrb(UCA0BR0, UCA0BR0_);
#define UCA0BR1_ 0x0063 /* USCI A0 Baud Rate 1 */
sfrb(UCA0BR1, UCA0BR1_);
#define UCA0MCTL_ 0x0064 /* USCI A0 Modulation Control */
sfrb(UCA0MCTL, UCA0MCTL_);
#define UCA0STAT_ 0x0065 /* USCI A0 Status Register */
sfrb(UCA0STAT, UCA0STAT_);
#define UCA0RXBUF_ 0x0066 /* USCI A0 Receive Buffer */
const_sfrb(UCA0RXBUF, UCA0RXBUF_);
#define UCA0TXBUF_ 0x0067 /* USCI A0 Transmit Buffer */
sfrb(UCA0TXBUF, UCA0TXBUF_);
#define UCA0ABCTL_ 0x005D /* USCI A0 LIN Control */
sfrb(UCA0ABCTL, UCA0ABCTL_);
#define UCA0IRTCTL_ 0x005E /* USCI A0 IrDA Transmit Control */
sfrb(UCA0IRTCTL, UCA0IRTCTL_);
#define UCA0IRRCTL_ 0x005F /* USCI A0 IrDA Receive Control */
sfrb(UCA0IRRCTL, UCA0IRRCTL_);
#define UCB0CTL0_ 0x0068 /* USCI B0 Control Register 0 */
sfrb(UCB0CTL0, UCB0CTL0_);
#define UCB0CTL1_ 0x0069 /* USCI B0 Control Register 1 */
sfrb(UCB0CTL1, UCB0CTL1_);
#define UCB0BR0_ 0x006A /* USCI B0 Baud Rate 0 */
sfrb(UCB0BR0, UCB0BR0_);
#define UCB0BR1_ 0x006B /* USCI B0 Baud Rate 1 */
sfrb(UCB0BR1, UCB0BR1_);
#define UCB0I2CIE_ 0x006C /* USCI B0 I2C Interrupt Enable Register */
sfrb(UCB0I2CIE, UCB0I2CIE_);
#define UCB0STAT_ 0x006D /* USCI B0 Status Register */
sfrb(UCB0STAT, UCB0STAT_);
#define UCB0RXBUF_ 0x006E /* USCI B0 Receive Buffer */
const_sfrb(UCB0RXBUF, UCB0RXBUF_);
#define UCB0TXBUF_ 0x006F /* USCI B0 Transmit Buffer */
sfrb(UCB0TXBUF, UCB0TXBUF_);
#define UCB0I2COA_ 0x0118 /* USCI B0 I2C Own Address */
sfrw(UCB0I2COA, UCB0I2COA_);
#define UCB0I2CSA_ 0x011A /* USCI B0 I2C Slave Address */
sfrw(UCB0I2CSA, UCB0I2CSA_);
// UART-Mode Bits
#define UCPEN (0x80) /* Async. Mode: Parity enable */
#define UCPAR (0x40) /* Async. Mode: Parity 0:odd / 1:even */
#define UCMSB (0x20) /* Async. Mode: MSB first 0:LSB / 1:MSB */
#define UC7BIT (0x10) /* Async. Mode: Data Bits 0:8-bits / 1:7-bits */
#define UCSPB (0x08) /* Async. Mode: Stop Bits 0:one / 1: two */
#define UCMODE1 (0x04) /* Async. Mode: USCI Mode 1 */
#define UCMODE0 (0x02) /* Async. Mode: USCI Mode 0 */
#define UCSYNC (0x01) /* Sync-Mode 0:UART-Mode / 1:SPI-Mode */
// SPI-Mode Bits
#define UCCKPH (0x80) /* Sync. Mode: Clock Phase */
#define UCCKPL (0x40) /* Sync. Mode: Clock Polarity */
#define UCMST (0x08) /* Sync. Mode: Master Select */
// I2C-Mode Bits
#define UCA10 (0x80) /* 10-bit Address Mode */
#define UCSLA10 (0x40) /* 10-bit Slave Address Mode */
#define UCMM (0x20) /* Multi-Master Environment */
//#define res (0x10) /* reserved */
#define UCMODE_0 (0x00) /* Sync. Mode: USCI Mode: 0 */
#define UCMODE_1 (0x02) /* Sync. Mode: USCI Mode: 1 */
#define UCMODE_2 (0x04) /* Sync. Mode: USCI Mode: 2 */
#define UCMODE_3 (0x06) /* Sync. Mode: USCI Mode: 3 */
// UART-Mode Bits
#define UCSSEL1 (0x80) /* USCI 0 Clock Source Select 1 */
#define UCSSEL0 (0x40) /* USCI 0 Clock Source Select 0 */
#define UCRXEIE (0x20) /* RX Error interrupt enable */
#define UCBRKIE (0x10) /* Break interrupt enable */
#define UCDORM (0x08) /* Dormant (Sleep) Mode */
#define UCTXADDR (0x04) /* Send next Data as Address */
#define UCTXBRK (0x02) /* Send next Data as Break */
#define UCSWRST (0x01) /* USCI Software Reset */
// SPI-Mode Bits
//#define res (0x20) /* reserved */
//#define res (0x10) /* reserved */
//#define res (0x08) /* reserved */
//#define res (0x04) /* reserved */
//#define res (0x02) /* reserved */
// I2C-Mode Bits
//#define res (0x20) /* reserved */
#define UCTR (0x10) /* Transmit/Receive Select/Flag */
#define UCTXNACK (0x08) /* Transmit NACK */
#define UCTXSTP (0x04) /* Transmit STOP */
#define UCTXSTT (0x02) /* Transmit START */
#define UCSSEL_0 (0x00) /* USCI 0 Clock Source: 0 */
#define UCSSEL_1 (0x40) /* USCI 0 Clock Source: 1 */
#define UCSSEL_2 (0x80) /* USCI 0 Clock Source: 2 */
#define UCSSEL_3 (0xC0) /* USCI 0 Clock Source: 3 */
#define UCBRF3 (0x80) /* USCI First Stage Modulation Select 3 */
#define UCBRF2 (0x40) /* USCI First Stage Modulation Select 2 */
#define UCBRF1 (0x20) /* USCI First Stage Modulation Select 1 */
#define UCBRF0 (0x10) /* USCI First Stage Modulation Select 0 */
#define UCBRS2 (0x08) /* USCI Second Stage Modulation Select 2 */
#define UCBRS1 (0x04) /* USCI Second Stage Modulation Select 1 */
#define UCBRS0 (0x02) /* USCI Second Stage Modulation Select 0 */
#define UCOS16 (0x01) /* USCI 16-times Oversampling enable */
#define UCBRF_0 (0x00) /* USCI First Stage Modulation: 0 */
#define UCBRF_1 (0x10) /* USCI First Stage Modulation: 1 */
#define UCBRF_2 (0x20) /* USCI First Stage Modulation: 2 */
#define UCBRF_3 (0x30) /* USCI First Stage Modulation: 3 */
#define UCBRF_4 (0x40) /* USCI First Stage Modulation: 4 */
#define UCBRF_5 (0x50) /* USCI First Stage Modulation: 5 */
#define UCBRF_6 (0x60) /* USCI First Stage Modulation: 6 */
#define UCBRF_7 (0x70) /* USCI First Stage Modulation: 7 */
#define UCBRF_8 (0x80) /* USCI First Stage Modulation: 8 */
#define UCBRF_9 (0x90) /* USCI First Stage Modulation: 9 */
#define UCBRF_10 (0xA0) /* USCI First Stage Modulation: A */
#define UCBRF_11 (0xB0) /* USCI First Stage Modulation: B */
#define UCBRF_12 (0xC0) /* USCI First Stage Modulation: C */
#define UCBRF_13 (0xD0) /* USCI First Stage Modulation: D */
#define UCBRF_14 (0xE0) /* USCI First Stage Modulation: E */
#define UCBRF_15 (0xF0) /* USCI First Stage Modulation: F */
#define UCBRS_0 (0x00) /* USCI Second Stage Modulation: 0 */
#define UCBRS_1 (0x02) /* USCI Second Stage Modulation: 1 */
#define UCBRS_2 (0x04) /* USCI Second Stage Modulation: 2 */
#define UCBRS_3 (0x06) /* USCI Second Stage Modulation: 3 */
#define UCBRS_4 (0x08) /* USCI Second Stage Modulation: 4 */
#define UCBRS_5 (0x0A) /* USCI Second Stage Modulation: 5 */
#define UCBRS_6 (0x0C) /* USCI Second Stage Modulation: 6 */
#define UCBRS_7 (0x0E) /* USCI Second Stage Modulation: 7 */
#define UCLISTEN (0x80) /* USCI Listen mode */
#define UCFE (0x40) /* USCI Frame Error Flag */
#define UCOE (0x20) /* USCI Overrun Error Flag */
#define UCPE (0x10) /* USCI Parity Error Flag */
#define UCBRK (0x08) /* USCI Break received */
#define UCRXERR (0x04) /* USCI RX Error Flag */
#define UCADDR (0x02) /* USCI Address received Flag */
#define UCBUSY (0x01) /* USCI Busy Flag */
#define UCIDLE (0x02) /* USCI Idle line detected Flag */
//#define res (0x80) /* reserved */
//#define res (0x40) /* reserved */
//#define res (0x20) /* reserved */
//#define res (0x10) /* reserved */
#define UCNACKIE (0x08) /* NACK Condition interrupt enable */
#define UCSTPIE (0x04) /* STOP Condition interrupt enable */
#define UCSTTIE (0x02) /* START Condition interrupt enable */
#define UCALIE (0x01) /* Arbitration Lost interrupt enable */
#define UCSCLLOW (0x40) /* SCL low */
#define UCGC (0x20) /* General Call address received Flag */
#define UCBBUSY (0x10) /* Bus Busy Flag */
#define UCNACKIFG (0x08) /* NAK Condition interrupt Flag */
#define UCSTPIFG (0x04) /* STOP Condition interrupt Flag */
#define UCSTTIFG (0x02) /* START Condition interrupt Flag */
#define UCALIFG (0x01) /* Arbitration Lost interrupt Flag */
#define UCIRTXPL5 (0x80) /* IRDA Transmit Pulse Length 5 */
#define UCIRTXPL4 (0x40) /* IRDA Transmit Pulse Length 4 */
#define UCIRTXPL3 (0x20) /* IRDA Transmit Pulse Length 3 */
#define UCIRTXPL2 (0x10) /* IRDA Transmit Pulse Length 2 */
#define UCIRTXPL1 (0x08) /* IRDA Transmit Pulse Length 1 */
#define UCIRTXPL0 (0x04) /* IRDA Transmit Pulse Length 0 */
#define UCIRTXCLK (0x02) /* IRDA Transmit Pulse Clock Select */
#define UCIREN (0x01) /* IRDA Encoder/Decoder enable */
#define UCIRRXFL5 (0x80) /* IRDA Receive Filter Length 5 */
#define UCIRRXFL4 (0x40) /* IRDA Receive Filter Length 4 */
#define UCIRRXFL3 (0x20) /* IRDA Receive Filter Length 3 */
#define UCIRRXFL2 (0x10) /* IRDA Receive Filter Length 2 */
#define UCIRRXFL1 (0x08) /* IRDA Receive Filter Length 1 */
#define UCIRRXFL0 (0x04) /* IRDA Receive Filter Length 0 */
#define UCIRRXPL (0x02) /* IRDA Receive Input Polarity */
#define UCIRRXFE (0x01) /* IRDA Receive Filter enable */
//#define res (0x80) /* reserved */
//#define res (0x40) /* reserved */
#define UCDELIM1 (0x20) /* Break Sync Delimiter 1 */
#define UCDELIM0 (0x10) /* Break Sync Delimiter 0 */
#define UCSTOE (0x08) /* Sync-Field Timeout error */
#define UCBTOE (0x04) /* Break Timeout error */
//#define res (0x02) /* reserved */
#define UCABDEN (0x01) /* Auto Baud Rate detect enable */
#define UCGCEN (0x8000) /* I2C General Call enable */
#define UCOA9 (0x0200) /* I2C Own Address 9 */
#define UCOA8 (0x0100) /* I2C Own Address 8 */
#define UCOA7 (0x0080) /* I2C Own Address 7 */
#define UCOA6 (0x0040) /* I2C Own Address 6 */
#define UCOA5 (0x0020) /* I2C Own Address 5 */
#define UCOA4 (0x0010) /* I2C Own Address 4 */
#define UCOA3 (0x0008) /* I2C Own Address 3 */
#define UCOA2 (0x0004) /* I2C Own Address 2 */
#define UCOA1 (0x0002) /* I2C Own Address 1 */
#define UCOA0 (0x0001) /* I2C Own Address 0 */
#define UCSA9 (0x0200) /* I2C Slave Address 9 */
#define UCSA8 (0x0100) /* I2C Slave Address 8 */
#define UCSA7 (0x0080) /* I2C Slave Address 7 */
#define UCSA6 (0x0040) /* I2C Slave Address 6 */
#define UCSA5 (0x0020) /* I2C Slave Address 5 */
#define UCSA4 (0x0010) /* I2C Slave Address 4 */
#define UCSA3 (0x0008) /* I2C Slave Address 3 */
#define UCSA2 (0x0004) /* I2C Slave Address 2 */
#define UCSA1 (0x0002) /* I2C Slave Address 1 */
#define UCSA0 (0x0001) /* I2C Slave Address 0 */
/************************************************************
* USART
************************************************************/
/* UxCTL */
#define PENA (0x80) /* Parity enable */
#define PEV (0x40) /* Parity 0:odd / 1:even */
#define SPB (0x20) /* Stop Bits 0:one / 1: two */
#define CHAR (0x10) /* Data 0:7-bits / 1:8-bits */
#define LISTEN (0x08) /* Listen mode */
#define SYNC (0x04) /* UART / SPI mode */
#define MM (0x02) /* Master Mode off/on */
#define SWRST (0x01) /* USART Software Reset */
/* UxTCTL */
#define CKPH (0x80) /* SPI: Clock Phase */
#define CKPL (0x40) /* Clock Polarity */
#define SSEL1 (0x20) /* Clock Source Select 1 */
#define SSEL0 (0x10) /* Clock Source Select 0 */
#define URXSE (0x08) /* Receive Start edge select */
#define TXWAKE (0x04) /* TX Wake up mode */
#define STC (0x02) /* SPI: STC enable 0:on / 1:off */
#define TXEPT (0x01) /* TX Buffer empty */
/* UxRCTL */
#define FE (0x80) /* Frame Error */
#define PE (0x40) /* Parity Error */
#define OE (0x20) /* Overrun Error */
#define BRK (0x10) /* Break detected */
#define URXEIE (0x08) /* RX Error interrupt enable */
#define URXWIE (0x04) /* RX Wake up interrupt enable */
#define RXWAKE (0x02) /* RX Wake up detect */
#define RXERR (0x01) /* RX Error Error */
/************************************************************
* USART 1
************************************************************/
#define __MSP430_HAS_UART1__ /* Definition to show that Module is available */
#define U1CTL_ 0x0078 /* USART 1 Control */
sfrb(U1CTL, U1CTL_);
#define U1TCTL_ 0x0079 /* USART 1 Transmit Control */
sfrb(U1TCTL, U1TCTL_);
#define U1RCTL_ 0x007A /* USART 1 Receive Control */
sfrb(U1RCTL, U1RCTL_);
#define U1MCTL_ 0x007B /* USART 1 Modulation Control */
sfrb(U1MCTL, U1MCTL_);
#define U1BR0_ 0x007C /* USART 1 Baud Rate 0 */
sfrb(U1BR0, U1BR0_);
#define U1BR1_ 0x007D /* USART 1 Baud Rate 1 */
sfrb(U1BR1, U1BR1_);
#define U1RXBUF_ 0x007E /* USART 1 Receive Buffer */
const_sfrb(U1RXBUF, U1RXBUF_);
#define U1TXBUF_ 0x007F /* USART 1 Transmit Buffer */
sfrb(U1TXBUF, U1TXBUF_);
/* Alternate register names */
#define UCTL1 U1CTL /* USART 1 Control */
#define UTCTL1 U1TCTL /* USART 1 Transmit Control */
#define URCTL1 U1RCTL /* USART 1 Receive Control */
#define UMCTL1 U1MCTL /* USART 1 Modulation Control */
#define UBR01 U1BR0 /* USART 1 Baud Rate 0 */
#define UBR11 U1BR1 /* USART 1 Baud Rate 1 */
#define RXBUF1 U1RXBUF /* USART 1 Receive Buffer */
#define TXBUF1 U1TXBUF /* USART 1 Transmit Buffer */
#define UCTL1_ U1CTL_ /* USART 1 Control */
#define UTCTL1_ U1TCTL_ /* USART 1 Transmit Control */
#define URCTL1_ U1RCTL_ /* USART 1 Receive Control */
#define UMCTL1_ U1MCTL_ /* USART 1 Modulation Control */
#define UBR01_ U1BR0_ /* USART 1 Baud Rate 0 */
#define UBR11_ U1BR1_ /* USART 1 Baud Rate 1 */
#define RXBUF1_ U1RXBUF_ /* USART 1 Receive Buffer */
#define TXBUF1_ U1TXBUF_ /* USART 1 Transmit Buffer */
#define UCTL_1 U1CTL /* USART 1 Control */
#define UTCTL_1 U1TCTL /* USART 1 Transmit Control */
#define URCTL_1 U1RCTL /* USART 1 Receive Control */
#define UMCTL_1 U1MCTL /* USART 1 Modulation Control */
#define UBR0_1 U1BR0 /* USART 1 Baud Rate 0 */
#define UBR1_1 U1BR1 /* USART 1 Baud Rate 1 */
#define RXBUF_1 U1RXBUF /* USART 1 Receive Buffer */
#define TXBUF_1 U1TXBUF /* USART 1 Transmit Buffer */
#define UCTL_1_ U1CTL_ /* USART 1 Control */
#define UTCTL_1_ U1TCTL_ /* USART 1 Transmit Control */
#define URCTL_1_ U1RCTL_ /* USART 1 Receive Control */
#define UMCTL_1_ U1MCTL_ /* USART 1 Modulation Control */
#define UBR0_1_ U1BR0_ /* USART 1 Baud Rate 0 */
#define UBR1_1_ U1BR1_ /* USART 1 Baud Rate 1 */
#define RXBUF_1_ U1RXBUF_ /* USART 1 Receive Buffer */
#define TXBUF_1_ U1TXBUF_ /* USART 1 Transmit Buffer */
/************************************************************
* WATCHDOG TIMER
************************************************************/
#define __MSP430_HAS_WDT__ /* Definition to show that Module is available */
#define WDTCTL_ 0x0120 /* Watchdog Timer Control */
sfrw(WDTCTL, WDTCTL_);
/* The bit names have been prefixed with "WDT" */
#define WDTIS0 (0x0001)
#define WDTIS1 (0x0002)
#define WDTSSEL (0x0004)
#define WDTCNTCL (0x0008)
#define WDTTMSEL (0x0010)
#define WDTNMI (0x0020)
#define WDTNMIES (0x0040)
#define WDTHOLD (0x0080)
#define WDTPW (0x5A00)
/* WDT-interval times [1ms] coded with Bits 0-2 */
/* WDT is clocked by fSMCLK (assumed 1MHz) */
#define WDT_MDLY_32 (WDTPW+WDTTMSEL+WDTCNTCL) /* 32ms interval (default) */
#define WDT_MDLY_8 (WDTPW+WDTTMSEL+WDTCNTCL+WDTIS0) /* 8ms " */
#define WDT_MDLY_0_5 (WDTPW+WDTTMSEL+WDTCNTCL+WDTIS1) /* 0.5ms " */
#define WDT_MDLY_0_064 (WDTPW+WDTTMSEL+WDTCNTCL+WDTIS1+WDTIS0) /* 0.064ms " */
/* WDT is clocked by fACLK (assumed 32KHz) */
#define WDT_ADLY_1000 (WDTPW+WDTTMSEL+WDTCNTCL+WDTSSEL) /* 1000ms " */
#define WDT_ADLY_250 (WDTPW+WDTTMSEL+WDTCNTCL+WDTSSEL+WDTIS0) /* 250ms " */
#define WDT_ADLY_16 (WDTPW+WDTTMSEL+WDTCNTCL+WDTSSEL+WDTIS1) /* 16ms " */
#define WDT_ADLY_1_9 (WDTPW+WDTTMSEL+WDTCNTCL+WDTSSEL+WDTIS1+WDTIS0) /* 1.9ms " */
/* Watchdog mode -> reset after expired time */
/* WDT is clocked by fSMCLK (assumed 1MHz) */
#define WDT_MRST_32 (WDTPW+WDTCNTCL) /* 32ms interval (default) */
#define WDT_MRST_8 (WDTPW+WDTCNTCL+WDTIS0) /* 8ms " */
#define WDT_MRST_0_5 (WDTPW+WDTCNTCL+WDTIS1) /* 0.5ms " */
#define WDT_MRST_0_064 (WDTPW+WDTCNTCL+WDTIS1+WDTIS0) /* 0.064ms " */
/* WDT is clocked by fACLK (assumed 32KHz) */
#define WDT_ARST_1000 (WDTPW+WDTCNTCL+WDTSSEL) /* 1000ms " */
#define WDT_ARST_250 (WDTPW+WDTCNTCL+WDTSSEL+WDTIS0) /* 250ms " */
#define WDT_ARST_16 (WDTPW+WDTCNTCL+WDTSSEL+WDTIS1) /* 16ms " */
#define WDT_ARST_1_9 (WDTPW+WDTCNTCL+WDTSSEL+WDTIS1+WDTIS0) /* 1.9ms " */
/* INTERRUPT CONTROL */
/* These two bits are defined in the Special Function Registers */
/* #define WDTIE 0x01 */
/* #define WDTIFG 0x01 */
/************************************************************
* Interrupt Vectors (offset from 0xFFC0)
************************************************************/
#define DAC12_VECTOR (0x001C) /* 0xFFDC DAC 12 */
#define DMA_VECTOR (0x001E) /* 0xFFDE DMA */
#define BASICTIMER_VECTOR (0x0020) /* 0xFFE0 Basic Timer / RTC */
#define PORT2_VECTOR (0x0022) /* 0xFFE2 Port 2 */
#define USART1TX_VECTOR (0x0024) /* 0xFFE4 USART 1 Transmit */
#define USART1RX_VECTOR (0x0026) /* 0xFFE6 USART 1 Receive */
#define PORT1_VECTOR (0x0028) /* 0xFFE8 Port 1 */
#define TIMERA1_VECTOR (0x002A) /* 0xFFEA Timer A CC1-2, TA */
#define TIMERA0_VECTOR (0x002C) /* 0xFFEC Timer A CC0 */
#define ADC12_VECTOR (0x002E) /* 0xFFEE ADC */
#define USCIAB0TX_VECTOR (0x0030) /* 0xFFF0 USCI A0/B0 Transmit */
#define USCIAB0RX_VECTOR (0x0032) /* 0xFFF2 USCI A0/B0 Receive */
#define WDT_VECTOR (0x0034) /* 0xFFF4 Watchdog Timer */
#define COMPARATORA_VECTOR (0x0036) /* 0xFFF6 Comparator A */
#define TIMERB1_VECTOR (0x0038) /* 0xFFF8 Timer B CC1-2, TB */
#define TIMERB0_VECTOR (0x003A) /* 0xFFFA Timer B CC0 */
#define NMI_VECTOR (0x003C) /* 0xFFFC Non-maskable */
#define RESET_VECTOR (0x003E) /* 0xFFFE Reset [Highest Priority] */
/************************************************************
* End of Modules
************************************************************/
#ifdef __cplusplus
}
#endif /* extern "C" */
#endif /* #ifndef __msp430xG46x */
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