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STC8xxxx.H 148.40 KB
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杨光 提交于 2022-05-13 11:41 . 首次提交,能使用STC8H跑通
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/*---------------------------------------------------------------------*/
/* --- STC MCU Limited ------------------------------------------------*/
/* --- STC 1T Series MCU Demo Programme -------------------------------*/
/* --- Mobile: (86)13922805190 ----------------------------------------*/
/* --- Fax: 86-0513-55012956,55012947,55012969 ------------------------*/
/* --- Tel: 86-0513-55012928,55012929,55012966 ------------------------*/
/* --- Web: www.STCMCU.com --------------------------------------------*/
/* --- Web: www.STCMCUDATA.com ---------------------------------------*/
/* --- QQ: 800003751 -------------------------------------------------*/
/* 如果要在程序中使用此代码,请在程序中注明使用了STC的资料及程序 */
/*---------------------------------------------------------------------*/
#ifndef _STC8xxxx_H
#define _STC8xxxx_H
#include <intrins.h>
/* BYTE Registers */
sfr P0 = 0x80;
sfr SP = 0x81;
sfr DPL = 0x82;
sfr DPH = 0x83;
sfr S4CON = 0x84;
sfr S4BUF = 0x85;
sfr PCON = 0x87;
sfr TCON = 0x88;
sfr TMOD = 0x89;
sfr TL0 = 0x8A;
sfr TL1 = 0x8B;
sfr TH0 = 0x8C;
sfr TH1 = 0x8D;
sfr AUXR = 0x8E;
sfr WAKE_CLKO = 0x8F;
sfr INT_CLKO = 0x8F;
sfr P1 = 0x90;
sfr P1M1 = 0x91; //P1M1.n,P1M0.n =00--->Standard, 01--->push-pull 实际上1T的都一样
sfr P1M0 = 0x92; // =10--->pure input, 11--->open drain
sfr P0M1 = 0x93; //P0M1.n,P0M0.n =00--->Standard, 01--->push-pull
sfr P0M0 = 0x94; // =10--->pure input, 11--->open drain
sfr P2M1 = 0x95; //P2M1.n,P2M0.n =00--->Standard, 01--->push-pull
sfr P2M0 = 0x96; // =10--->pure input, 11--->open drain
//sfr PCON2 = 0x97;
//sfr AUXR2 = 0x97;
sfr SCON = 0x98;
sfr SBUF = 0x99;
sfr S2CON = 0x9A; //
sfr S2BUF = 0x9B; //
sfr P2 = 0xA0;
sfr BUS_SPEED = 0xA1;
sfr P_SW1 = 0xA2;
sfr IE = 0xA8;
sfr SADDR = 0xA9;
sfr WKTCL = 0xAA; //唤醒定时器低字节
sfr WKTCH = 0xAB; //唤醒定时器高字节
sfr S3CON = 0xAC;
sfr S3BUF = 0xAD;
sfr TA = 0xAE;
sfr IE2 = 0xAF;
sfr P3 = 0xB0;
sfr P3M1 = 0xB1; //P3M1.n,P3M0.n =00--->Standard, 01--->push-pull
sfr P3M0 = 0xB2; // =10--->pure input, 11--->open drain
sfr P4M1 = 0xB3; //P4M1.n,P4M0.n =00--->Standard, 01--->push-pull
sfr P4M0 = 0xB4; // =10--->pure input, 11--->open drain
sfr IP2 = 0xB5;
sfr IP2H = 0xB6;
sfr IPH = 0xB7;
sfr IP = 0xB8;
sfr SADEN = 0xB9;
sfr P_SW2 = 0xBA;
sfr VOCTRL = 0xBB;
sfr ADC_CONTR = 0xBC; //ADC控制寄存器
sfr ADC_RES = 0xBD; //ADC结果高字节
sfr ADC_RESL = 0xBE; //ADC结果低字节
sfr P4 = 0xC0;
sfr WDT_CONTR = 0xC1;
sfr IAP_DATA = 0xC2;
sfr IAP_ADDRH = 0xC3;
sfr IAP_ADDRL = 0xC4;
sfr IAP_CMD = 0xC5;
sfr IAP_TRIG = 0xC6;
sfr IAP_CONTR = 0xC7;
sfr ISP_DATA = 0xC2;
sfr ISP_ADDRH = 0xC3;
sfr ISP_ADDRL = 0xC4;
sfr ISP_CMD = 0xC5;
sfr ISP_TRIG = 0xC6;
sfr ISP_CONTR = 0xC7;
sfr P5 = 0xC8; //
sfr P5M1 = 0xC9; // P5M1.n,P5M0.n =00--->Standard, 01--->push-pull
sfr P5M0 = 0xCA; // =10--->pure input, 11--->open drain
sfr P6M1 = 0xCB; // P5M1.n,P5M0.n =00--->Standard, 01--->push-pull
sfr P6M0 = 0xCC; // =10--->pure input, 11--->open drain
sfr SPSTAT = 0xCD; //
sfr SPCTL = 0xCE; //
sfr SPDAT = 0xCF; //
sfr PSW = 0xD0;
sfr T4T3M = 0xD1;
sfr T4H = 0xD2;
sfr T4L = 0xD3;
sfr T3H = 0xD4;
sfr T3L = 0xD5;
sfr T2H = 0xD6;
sfr T2L = 0xD7;
sfr TH4 = 0xD2;
sfr TL4 = 0xD3;
sfr TH3 = 0xD4;
sfr TL3 = 0xD5;
sfr TH2 = 0xD6;
sfr TL2 = 0xD7;
sfr CCON = 0xD8; //
sfr CMOD = 0xD9; //
sfr CCAPM0 = 0xDA; //PCA模块0的工作模式寄存器。
sfr CCAPM1 = 0xDB; //PCA模块1的工作模式寄存器。
sfr CCAPM2 = 0xDC; //PCA模块2的工作模式寄存器。
//sfr CCAPM3 = 0xDD; //PCA模块3的工作模式寄存器。
sfr USBCLK = 0xDC;
sfr ADCCFG = 0xDE; //
sfr IP3 = 0xDF; //中断优先级寄存器
sfr ACC = 0xE0;
sfr P7M1 = 0xE1;
sfr P7M0 = 0xE2;
sfr DPS = 0xE3;
sfr DPL1 = 0xE4;
sfr DPH1 = 0xE5;
sfr CMPCR1 = 0xE6;
sfr CMPCR2 = 0xE7;
sfr P6 = 0xE8;
sfr CL = 0xE9; //
sfr CCAP0L = 0xEA; //PCA模块0的捕捉/比较寄存器低8位。
sfr CCAP1L = 0xEB; //PCA模块1的捕捉/比较寄存器低8位。
sfr CCAP2L = 0xEC; //PCA模块2的捕捉/比较寄存器低8位。
//sfr CCAP3L = 0xED; //PCA模块3的捕捉/比较寄存器低8位。
sfr USBDAT = 0xEC;
sfr IP3H = 0xEE;
sfr AUXINTIF = 0xEF; //辅助中断标志 B6-INT4IF, B5-INT3IF, B4-INT2IF, B2-T4IF, B1-T3IF, B0-T2IF
sfr B = 0xF0;
sfr PWMSET = 0xF1; //增强型PWM全局配置寄存器
sfr PCA_PWM0 = 0xF2; //PCA模块0 PWM寄存器。
sfr PCA_PWM1 = 0xF3; //PCA模块1 PWM寄存器。
sfr PCA_PWM2 = 0xF4; //PCA模块2 PWM寄存器。
//sfr PCA_PWM3 = 0xF5; //PCA模块3 PWM寄存器。
sfr PWMCFG01 = 0xF6; //增强型PWM配置寄存器
sfr PWMCFG23 = 0xF7; //增强型PWM配置寄存器
sfr USBCON = 0xF4;
sfr IAP_TPS = 0xF5;
sfr P7 = 0xF8;
sfr CH = 0xF9;
sfr CCAP0H = 0xFA; //PCA模块0的捕捉/比较寄存器高8位。
sfr CCAP1H = 0xFB; //PCA模块1的捕捉/比较寄存器高8位。
sfr CCAP2H = 0xFC; //PCA模块2的捕捉/比较寄存器高8位。
//sfr CCAP3H = 0xFD; //PCA模块3的捕捉/比较寄存器高8位。
sfr PWMCFG45 = 0xFE; //增强型PWM配置寄存器
sfr USBADR = 0xFC;
sfr RSTCFG = 0xFF; //
// 7 6 5 4 3 2 1 0 Reset Value
//INT_CLKO: 中断与时钟输出控制寄存器 - EX4 EX3 EX2 - T2CLKO T1CLKO T0CLKO 0000,0000
#define INT4_Enable() INT_CLKO |= (1 << 6)
#define INT3_Enable() INT_CLKO |= (1 << 5)
#define INT2_Enable() INT_CLKO |= (1 << 4)
#define INT1_Enable() EX1 = 1
#define INT0_Enable() EX0 = 1
#define INT4_Disable() INT_CLKO &= ~(1 << 6)
#define INT3_Disable() INT_CLKO &= ~(1 << 5)
#define INT2_Disable() INT_CLKO &= ~(1 << 4)
#define INT1_Disable() EX1 = 0
#define INT0_Disable() EX0 = 0
// 7 6 5 4 3 2 1 0 Reset Value
//AUXINTIF: 辅助中断标志寄存器 - INT4IF INT3IF INT2IF - T4IF T3IF T2IF 0000,0000
#define INT4IF 0x40
#define INT3IF 0x20
#define INT2IF 0x10
#define T4IF 0x04
#define T3IF 0x02
#define T2IF 0x01
#define INT4_Clear() AUXINTIF &= ~INT4IF /* 清除外中断4标志位 */
#define INT3_Clear() AUXINTIF &= ~INT3IF /* 清除外中断3标志位 */
#define INT2_Clear() AUXINTIF &= ~INT2IF /* 清除外中断2标志位 */
#define INT1_Clear() IE1 = 0 /* 清除外中断1标志位 */
#define INT0_Clear() IE0 = 0 /* 清除外中断0标志位 */
#define INT0_Fall() IT0 = 1 /* INT0 下降沿中断 */
#define INT0_RiseFall() IT0 = 0 /* INT0 下降沿上升沿均中断 */
#define INT1_Fall() IT1 = 1 /* INT1 下降沿中断 */
#define INT1_RiseFall() IT0 = 0 /* INT1 下降沿上升沿均中断 */
//===============================================================
#define EAXSFR() P_SW2 |= 0x80 /* MOVX A,@DPTR/MOVX @DPTR,A指令的操作对象为扩展SFR(XSFR) */
#define EAXRAM() P_SW2 &= ~0x80 /* MOVX A,@DPTR/MOVX @DPTR,A指令的操作对象为扩展RAM(XRAM) */
#define I2C_USE_P14P15() P_SW2 &= ~0x30 /* 将I2C切换到P1.4(SDA) P1.5(SCL)(上电默认).*/
#define I2C_USE_P24P25() P_SW2 = (P_SW2 & ~0x30) | 0x10 /* 将I2C切换到P2.4(SDA) P2.5(SCL).*/
#define I2C_USE_P76P77() P_SW2 = (P_SW2 & ~0x30) | 0x20 /* 将I2C切换到P7.6(SDA) P7.7(SCL).*/
#define I2C_USE_P33P32() P_SW2 |= 0x30 /* 将I2C切换到P3.3(SDA) P3.2(SCL).*/
#define CLKSEL (*(unsigned char volatile xdata *)0xfe00)
#define CKSEL (*(unsigned char volatile xdata *)0xfe00) /* 主时钟源选择 */
#define CLKDIV (*(unsigned char volatile xdata *)0xfe01) /* 主时钟分频 */
#define IRC24MCR (*(unsigned char volatile xdata *)0xfe02) /* IRC 24MHZ控制 */
#define XOSCCR (*(unsigned char volatile xdata *)0xfe03) /* XOSC控制 */
#define IRC32KCR (*(unsigned char volatile xdata *)0xfe04) /* IRC 32KHZ控制 */
#define MCLKOCR (*(unsigned char volatile xdata *)0xfe05)
#define IRCDB (*(unsigned char volatile xdata *)0xfe06)
#define X32KCR (*(unsigned char volatile xdata *)0xfe08)
#define MainFosc_IRC24M() CKSEL = (CKSEL & ~0x03) /* 选择内部24MHZ时钟 */
#define MainFosc_XTAL() CKSEL = (CKSEL & ~0x03) | 0x01 /* 选择外部晶振或时钟 */
#define MainFosc_IRC32K() CKSEL = CKSEL | 0x03 /* 选择内部32K时钟 */
#define EXT_CLOCK() XOSCCR = 0x80 /* 选择外部时钟 */
#define EXT_CRYSTAL() XOSCCR = 0xC0 /* 选择外部晶振 */
#define MainClk_OutP54() MCLKOCR = (MCLKOCR & ~0x80) /* 系统时钟分频输出到P5.4口 */
#define MainClk_OutP16() MCLKOCR = (MCLKOCR | 0x80) /* 系统时钟分频输出到P1.6口 */
#define P0PU (*(unsigned char volatile xdata *)0xfe10) /* P0 4.1K Pull Up Enable */
#define P1PU (*(unsigned char volatile xdata *)0xfe11) /* P1 4.1K Pull Up Enable */
#define P2PU (*(unsigned char volatile xdata *)0xfe12) /* P2 4.1K Pull Up Enable */
#define P3PU (*(unsigned char volatile xdata *)0xfe13) /* P3 4.1K Pull Up Enable */
#define P4PU (*(unsigned char volatile xdata *)0xfe14) /* P4 4.1K Pull Up Enable */
#define P5PU (*(unsigned char volatile xdata *)0xfe15) /* P5 4.1K Pull Up Enable */
#define P6PU (*(unsigned char volatile xdata *)0xfe16) /* P6 4.1K Pull Up Enable */
#define P7PU (*(unsigned char volatile xdata *)0xfe17) /* P7 4.1K Pull Up Enable */
#define P0NCS (*(unsigned char volatile xdata *)0xfe18) /* P0 Non Schmit Trigger 0: 使能端口施密特触发功能(默认), 1: 禁止 */
#define P1NCS (*(unsigned char volatile xdata *)0xfe19) /* P1 Non Schmit Trigger */
#define P2NCS (*(unsigned char volatile xdata *)0xfe1a) /* P2 Non Schmit Trigger */
#define P3NCS (*(unsigned char volatile xdata *)0xfe1b) /* P3 Non Schmit Trigger */
#define P4NCS (*(unsigned char volatile xdata *)0xfe1c) /* P4 Non Schmit Trigger */
#define P5NCS (*(unsigned char volatile xdata *)0xfe1d) /* P5 Non Schmit Trigger */
#define P6NCS (*(unsigned char volatile xdata *)0xfe1e) /* P6 Non Schmit Trigger */
#define P7NCS (*(unsigned char volatile xdata *)0xfe1f) /* P7 Non Schmit Trigger */
#define P0SR (*(unsigned char volatile xdata *)0xfe20) /* 端口电平转换速度 0: 快, 1: 慢(默认) */
#define P1SR (*(unsigned char volatile xdata *)0xfe21)
#define P2SR (*(unsigned char volatile xdata *)0xfe22)
#define P3SR (*(unsigned char volatile xdata *)0xfe23)
#define P4SR (*(unsigned char volatile xdata *)0xfe24)
#define P5SR (*(unsigned char volatile xdata *)0xfe25)
#define P6SR (*(unsigned char volatile xdata *)0xfe26)
#define P7SR (*(unsigned char volatile xdata *)0xfe27)
#define P0DR (*(unsigned char volatile xdata *)0xfe28) /* 端口驱动电流控制 0: 增强驱动能力, 1: 一般驱动能力(默认) */
#define P1DR (*(unsigned char volatile xdata *)0xfe29)
#define P2DR (*(unsigned char volatile xdata *)0xfe2a)
#define P3DR (*(unsigned char volatile xdata *)0xfe2b)
#define P4DR (*(unsigned char volatile xdata *)0xfe2c)
#define P5DR (*(unsigned char volatile xdata *)0xfe2d)
#define P6DR (*(unsigned char volatile xdata *)0xfe2e)
#define P7DR (*(unsigned char volatile xdata *)0xfe2f)
#define P0IE (*(unsigned char volatile xdata *)0xfe30)/* 端口数字信号输入使能 0: 禁止数字信号输入, 1: 使能数字信号输入(默认) */
#define P1IE (*(unsigned char volatile xdata *)0xfe31)
#define P2IE (*(unsigned char volatile xdata *)0xfe32)
#define P3IE (*(unsigned char volatile xdata *)0xfe33)
#define P4IE (*(unsigned char volatile xdata *)0xfe34)
#define P5IE (*(unsigned char volatile xdata *)0xfe35)
#define P6IE (*(unsigned char volatile xdata *)0xfe36)
#define P7IE (*(unsigned char volatile xdata *)0xfe37)
#define I2CCFG (*(unsigned char volatile xdata *)0xfe80) /* */
#define I2CMSCR (*(unsigned char volatile xdata *)0xfe81) /* */
#define I2CMSST (*(unsigned char volatile xdata *)0xfe82) /* */
#define I2CSLCR (*(unsigned char volatile xdata *)0xfe83) /* */
#define I2CSLST (*(unsigned char volatile xdata *)0xfe84) /* */
#define I2CSLADR (*(unsigned char volatile xdata *)0xfe85) /* */
#define I2CTXD (*(unsigned char volatile xdata *)0xfe86) /* */
#define I2CRXD (*(unsigned char volatile xdata *)0xfe87) /* */
#define I2CMSAUX (*(unsigned char volatile xdata *)0xfe88)
#define TM2PS (*(unsigned char volatile xdata *)0xfea2)
#define TM3PS (*(unsigned char volatile xdata *)0xfea3)
#define TM4PS (*(unsigned char volatile xdata *)0xfea4)
#define ADCTIM (*(unsigned char volatile xdata *)0xfea8)
#define T3T4PIN (*(unsigned char volatile xdata *)0xfeac)
#define PWMA_ETRPS (*(unsigned char volatile xdata *)0xfeb0)
#define PWMA_ENO (*(unsigned char volatile xdata *)0xfeb1)
#define PWMA_PS (*(unsigned char volatile xdata *)0xfeb2)
#define PWMA_IOAUX (*(unsigned char volatile xdata *)0xfeb3)
#define PWMB_ETRPS (*(unsigned char volatile xdata *)0xfeb4)
#define PWMB_ENO (*(unsigned char volatile xdata *)0xfeb5)
#define PWMB_PS (*(unsigned char volatile xdata *)0xfeb6)
#define PWMB_IOAUX (*(unsigned char volatile xdata *)0xfeb7)
#define PWMA_CR1 (*(unsigned char volatile xdata *)0xfec0)
#define PWMA_CR2 (*(unsigned char volatile xdata *)0xfec1)
#define PWMA_SMCR (*(unsigned char volatile xdata *)0xfec2)
#define PWMA_ETR (*(unsigned char volatile xdata *)0xfec3)
#define PWMA_IER (*(unsigned char volatile xdata *)0xfec4)
#define PWMA_SR1 (*(unsigned char volatile xdata *)0xfec5)
#define PWMA_SR2 (*(unsigned char volatile xdata *)0xfec6)
#define PWMA_EGR (*(unsigned char volatile xdata *)0xfec7)
#define PWMA_CCMR1 (*(unsigned char volatile xdata *)0xfec8)
#define PWMA_CCMR2 (*(unsigned char volatile xdata *)0xfec9)
#define PWMA_CCMR3 (*(unsigned char volatile xdata *)0xfeca)
#define PWMA_CCMR4 (*(unsigned char volatile xdata *)0xfecb)
#define PWMA_CCER1 (*(unsigned char volatile xdata *)0xfecc)
#define PWMA_CCER2 (*(unsigned char volatile xdata *)0xfecd)
#define PWMA_CNTR (*(unsigned int volatile xdata *)0xfece)
#define PWMA_CNTRH (*(unsigned char volatile xdata *)0xfece)
#define PWMA_CNTRL (*(unsigned char volatile xdata *)0xfecf)
#define PWMA_PSCR (*(unsigned int volatile xdata *)0xfed0)
#define PWMA_PSCRH (*(unsigned char volatile xdata *)0xfed0)
#define PWMA_PSCRL (*(unsigned char volatile xdata *)0xfed1)
#define PWMA_ARR (*(unsigned int volatile xdata *)0xfed2)
#define PWMA_ARRH (*(unsigned char volatile xdata *)0xfed2)
#define PWMA_ARRL (*(unsigned char volatile xdata *)0xfed3)
#define PWMA_RCR (*(unsigned char volatile xdata *)0xfed4)
#define PWMA_CCR1 (*(unsigned int volatile xdata *)0xfed5)
#define PWMA_CCR1H (*(unsigned char volatile xdata *)0xfed5)
#define PWMA_CCR1L (*(unsigned char volatile xdata *)0xfed6)
#define PWMA_CCR2 (*(unsigned int volatile xdata *)0xfed7)
#define PWMA_CCR2H (*(unsigned char volatile xdata *)0xfed7)
#define PWMA_CCR2L (*(unsigned char volatile xdata *)0xfed8)
#define PWMA_CCR3 (*(unsigned int volatile xdata *)0xfed9)
#define PWMA_CCR3H (*(unsigned char volatile xdata *)0xfed9)
#define PWMA_CCR3L (*(unsigned char volatile xdata *)0xfeda)
#define PWMA_CCR4 (*(unsigned int volatile xdata *)0xfedb)
#define PWMA_CCR4H (*(unsigned char volatile xdata *)0xfedb)
#define PWMA_CCR4L (*(unsigned char volatile xdata *)0xfedc)
#define PWMA_BRK (*(unsigned char volatile xdata *)0xfedd)
#define PWMA_DTR (*(unsigned char volatile xdata *)0xfede)
#define PWMA_OISR (*(unsigned char volatile xdata *)0xfedf)
#define PWMB_CR1 (*(unsigned char volatile xdata *)0xfee0)
#define PWMB_CR2 (*(unsigned char volatile xdata *)0xfee1)
#define PWMB_SMCR (*(unsigned char volatile xdata *)0xfee2)
#define PWMB_ETR (*(unsigned char volatile xdata *)0xfee3)
#define PWMB_IER (*(unsigned char volatile xdata *)0xfee4)
#define PWMB_SR1 (*(unsigned char volatile xdata *)0xfee5)
#define PWMB_SR2 (*(unsigned char volatile xdata *)0xfee6)
#define PWMB_EGR (*(unsigned char volatile xdata *)0xfee7)
#define PWMB_CCMR1 (*(unsigned char volatile xdata *)0xfee8)
#define PWMB_CCMR2 (*(unsigned char volatile xdata *)0xfee9)
#define PWMB_CCMR3 (*(unsigned char volatile xdata *)0xfeea)
#define PWMB_CCMR4 (*(unsigned char volatile xdata *)0xfeeb)
#define PWMB_CCER1 (*(unsigned char volatile xdata *)0xfeec)
#define PWMB_CCER2 (*(unsigned char volatile xdata *)0xfeed)
#define PWMB_CNTR (*(unsigned int volatile xdata *)0xfeee)
#define PWMB_CNTRH (*(unsigned char volatile xdata *)0xfeee)
#define PWMB_CNTRL (*(unsigned char volatile xdata *)0xfeef)
#define PWMB_PSCR (*(unsigned int volatile xdata *)0xfef0)
#define PWMB_PSCRH (*(unsigned char volatile xdata *)0xfef0)
#define PWMB_PSCRL (*(unsigned char volatile xdata *)0xfef1)
#define PWMB_ARR (*(unsigned int volatile xdata *)0xfef2)
#define PWMB_ARRH (*(unsigned char volatile xdata *)0xfef2)
#define PWMB_ARRL (*(unsigned char volatile xdata *)0xfef3)
#define PWMB_RCR (*(unsigned char volatile xdata *)0xfef4)
#define PWMB_CCR5 (*(unsigned int volatile xdata *)0xfef5)
#define PWMB_CCR5H (*(unsigned char volatile xdata *)0xfef5)
#define PWMB_CCR5L (*(unsigned char volatile xdata *)0xfef6)
#define PWMB_CCR6 (*(unsigned int volatile xdata *)0xfef7)
#define PWMB_CCR6H (*(unsigned char volatile xdata *)0xfef7)
#define PWMB_CCR6L (*(unsigned char volatile xdata *)0xfef8)
#define PWMB_CCR7 (*(unsigned int volatile xdata *)0xfef9)
#define PWMB_CCR7H (*(unsigned char volatile xdata *)0xfef9)
#define PWMB_CCR7L (*(unsigned char volatile xdata *)0xfefa)
#define PWMB_CCR8 (*(unsigned int volatile xdata *)0xfefb)
#define PWMB_CCR8H (*(unsigned char volatile xdata *)0xfefb)
#define PWMB_CCR8L (*(unsigned char volatile xdata *)0xfefc)
#define PWMB_BRK (*(unsigned char volatile xdata *)0xfefd)
#define PWMB_DTR (*(unsigned char volatile xdata *)0xfefe)
#define PWMB_OISR (*(unsigned char volatile xdata *)0xfeff)
/////////////////////////////////////////////////
//FD00H-FDFFH
/////////////////////////////////////////////////
#define PWM0C (*(unsigned int volatile xdata *)0xff00)
#define PWM0CH (*(unsigned char volatile xdata *)0xff00)
#define PWM0CL (*(unsigned char volatile xdata *)0xff01)
#define PWM0CKS (*(unsigned char volatile xdata *)0xff02)
#define PWM0TADC (*(unsigned int volatile xdata *)0xff03)
#define PWM0TADCH (*(unsigned char volatile xdata *)0xff03)
#define PWM0TADCL (*(unsigned char volatile xdata *)0xff04)
#define PWM0IF (*(unsigned char volatile xdata *)0xff05)
#define PWM0FDCR (*(unsigned char volatile xdata *)0xff06)
#define PWM00T1 (*(unsigned int volatile xdata *)0xff10)
#define PWM00T1H (*(unsigned char volatile xdata *)0xff10)
#define PWM00T1L (*(unsigned char volatile xdata *)0xff11)
#define PWM00T2 (*(unsigned int volatile xdata *)0xff12)
#define PWM00T2H (*(unsigned char volatile xdata *)0xff12)
#define PWM00T2L (*(unsigned char volatile xdata *)0xff13)
#define PWM00CR (*(unsigned char volatile xdata *)0xff14)
#define PWM00HLD (*(unsigned char volatile xdata *)0xff15)
#define PWM01T1 (*(unsigned int volatile xdata *)0xff18)
#define PWM01T1H (*(unsigned char volatile xdata *)0xff18)
#define PWM01T1L (*(unsigned char volatile xdata *)0xff19)
#define PWM01T2 (*(unsigned int volatile xdata *)0xff1a)
#define PWM01T2H (*(unsigned char volatile xdata *)0xff1a)
#define PWM01T2L (*(unsigned char volatile xdata *)0xff1b)
#define PWM01CR (*(unsigned char volatile xdata *)0xff1c)
#define PWM01HLD (*(unsigned char volatile xdata *)0xff1d)
#define PWM02T1 (*(unsigned int volatile xdata *)0xff20)
#define PWM02T1H (*(unsigned char volatile xdata *)0xff20)
#define PWM02T1L (*(unsigned char volatile xdata *)0xff21)
#define PWM02T2 (*(unsigned int volatile xdata *)0xff22)
#define PWM02T2H (*(unsigned char volatile xdata *)0xff22)
#define PWM02T2L (*(unsigned char volatile xdata *)0xff23)
#define PWM02CR (*(unsigned char volatile xdata *)0xff24)
#define PWM02HLD (*(unsigned char volatile xdata *)0xff25)
#define PWM03T1 (*(unsigned int volatile xdata *)0xff28)
#define PWM03T1H (*(unsigned char volatile xdata *)0xff28)
#define PWM03T1L (*(unsigned char volatile xdata *)0xff29)
#define PWM03T2 (*(unsigned int volatile xdata *)0xff2a)
#define PWM03T2H (*(unsigned char volatile xdata *)0xff2a)
#define PWM03T2L (*(unsigned char volatile xdata *)0xff2b)
#define PWM03CR (*(unsigned char volatile xdata *)0xff2c)
#define PWM03HLD (*(unsigned char volatile xdata *)0xff2d)
#define PWM04T1 (*(unsigned int volatile xdata *)0xff30)
#define PWM04T1H (*(unsigned char volatile xdata *)0xff30)
#define PWM04T1L (*(unsigned char volatile xdata *)0xff31)
#define PWM04T2 (*(unsigned int volatile xdata *)0xff32)
#define PWM04T2H (*(unsigned char volatile xdata *)0xff32)
#define PWM04T2L (*(unsigned char volatile xdata *)0xff33)
#define PWM04CR (*(unsigned char volatile xdata *)0xff34)
#define PWM04HLD (*(unsigned char volatile xdata *)0xff35)
#define PWM05T1 (*(unsigned int volatile xdata *)0xff38)
#define PWM05T1H (*(unsigned char volatile xdata *)0xff38)
#define PWM05T1L (*(unsigned char volatile xdata *)0xff39)
#define PWM05T2 (*(unsigned int volatile xdata *)0xff3a)
#define PWM05T2H (*(unsigned char volatile xdata *)0xff3a)
#define PWM05T2L (*(unsigned char volatile xdata *)0xff3b)
#define PWM05CR (*(unsigned char volatile xdata *)0xff3c)
#define PWM05HLD (*(unsigned char volatile xdata *)0xff3d)
#define PWM06T1 (*(unsigned int volatile xdata *)0xff40)
#define PWM06T1H (*(unsigned char volatile xdata *)0xff40)
#define PWM06T1L (*(unsigned char volatile xdata *)0xff41)
#define PWM06T2 (*(unsigned int volatile xdata *)0xff42)
#define PWM06T2H (*(unsigned char volatile xdata *)0xff42)
#define PWM06T2L (*(unsigned char volatile xdata *)0xff43)
#define PWM06CR (*(unsigned char volatile xdata *)0xff44)
#define PWM06HLD (*(unsigned char volatile xdata *)0xff45)
#define PWM07T1 (*(unsigned int volatile xdata *)0xff48)
#define PWM07T1H (*(unsigned char volatile xdata *)0xff48)
#define PWM07T1L (*(unsigned char volatile xdata *)0xff49)
#define PWM07T2 (*(unsigned int volatile xdata *)0xff4a)
#define PWM07T2H (*(unsigned char volatile xdata *)0xff4a)
#define PWM07T2L (*(unsigned char volatile xdata *)0xff4b)
#define PWM07CR (*(unsigned char volatile xdata *)0xff4c)
#define PWM07HLD (*(unsigned char volatile xdata *)0xff4d)
#define PWM1C (*(unsigned int volatile xdata *)0xff50)
#define PWM1CH (*(unsigned char volatile xdata *)0xff50)
#define PWM1CL (*(unsigned char volatile xdata *)0xff51)
#define PWM1CKS (*(unsigned char volatile xdata *)0xff52)
#define PWM1IF (*(unsigned char volatile xdata *)0xff55)
#define PWM1FDCR (*(unsigned char volatile xdata *)0xff56)
#define PWM10T1 (*(unsigned int volatile xdata *)0xff60)
#define PWM10T1H (*(unsigned char volatile xdata *)0xff60)
#define PWM10T1L (*(unsigned char volatile xdata *)0xff61)
#define PWM10T2 (*(unsigned int volatile xdata *)0xff62)
#define PWM10T2H (*(unsigned char volatile xdata *)0xff62)
#define PWM10T2L (*(unsigned char volatile xdata *)0xff63)
#define PWM10CR (*(unsigned char volatile xdata *)0xff64)
#define PWM10HLD (*(unsigned char volatile xdata *)0xff65)
#define PWM11T1 (*(unsigned int volatile xdata *)0xff68)
#define PWM11T1H (*(unsigned char volatile xdata *)0xff68)
#define PWM11T1L (*(unsigned char volatile xdata *)0xff69)
#define PWM11T2 (*(unsigned int volatile xdata *)0xff6a)
#define PWM11T2H (*(unsigned char volatile xdata *)0xff6a)
#define PWM11T2L (*(unsigned char volatile xdata *)0xff6b)
#define PWM11CR (*(unsigned char volatile xdata *)0xff6c)
#define PWM11HLD (*(unsigned char volatile xdata *)0xff6d)
#define PWM12T1 (*(unsigned int volatile xdata *)0xff70)
#define PWM12T1H (*(unsigned char volatile xdata *)0xff70)
#define PWM12T1L (*(unsigned char volatile xdata *)0xff71)
#define PWM12T2 (*(unsigned int volatile xdata *)0xff72)
#define PWM12T2H (*(unsigned char volatile xdata *)0xff72)
#define PWM12T2L (*(unsigned char volatile xdata *)0xff73)
#define PWM12CR (*(unsigned char volatile xdata *)0xff74)
#define PWM12HLD (*(unsigned char volatile xdata *)0xff75)
#define PWM13T1 (*(unsigned int volatile xdata *)0xff78)
#define PWM13T1H (*(unsigned char volatile xdata *)0xff78)
#define PWM13T1L (*(unsigned char volatile xdata *)0xff79)
#define PWM13T2 (*(unsigned int volatile xdata *)0xff7a)
#define PWM13T2H (*(unsigned char volatile xdata *)0xff7a)
#define PWM13T2L (*(unsigned char volatile xdata *)0xff7b)
#define PWM13CR (*(unsigned char volatile xdata *)0xff7c)
#define PWM13HLD (*(unsigned char volatile xdata *)0xff7d)
#define PWM14T1 (*(unsigned int volatile xdata *)0xff80)
#define PWM14T1H (*(unsigned char volatile xdata *)0xff80)
#define PWM14T1L (*(unsigned char volatile xdata *)0xff81)
#define PWM14T2 (*(unsigned int volatile xdata *)0xff82)
#define PWM14T2H (*(unsigned char volatile xdata *)0xff82)
#define PWM14T2L (*(unsigned char volatile xdata *)0xff83)
#define PWM14CR (*(unsigned char volatile xdata *)0xff84)
#define PWM14HLD (*(unsigned char volatile xdata *)0xff85)
#define PWM15T1 (*(unsigned int volatile xdata *)0xff88)
#define PWM15T1H (*(unsigned char volatile xdata *)0xff88)
#define PWM15T1L (*(unsigned char volatile xdata *)0xff89)
#define PWM15T2 (*(unsigned int volatile xdata *)0xff8a)
#define PWM15T2H (*(unsigned char volatile xdata *)0xff8a)
#define PWM15T2L (*(unsigned char volatile xdata *)0xff8b)
#define PWM15CR (*(unsigned char volatile xdata *)0xff8c)
#define PWM15HLD (*(unsigned char volatile xdata *)0xff8d)
#define PWM16T1 (*(unsigned int volatile xdata *)0xff90)
#define PWM16T1H (*(unsigned char volatile xdata *)0xff90)
#define PWM16T1L (*(unsigned char volatile xdata *)0xff91)
#define PWM16T2 (*(unsigned int volatile xdata *)0xff92)
#define PWM16T2H (*(unsigned char volatile xdata *)0xff92)
#define PWM16T2L (*(unsigned char volatile xdata *)0xff93)
#define PWM16CR (*(unsigned char volatile xdata *)0xff94)
#define PWM16HLD (*(unsigned char volatile xdata *)0xff95)
#define PWM17T1 (*(unsigned int volatile xdata *)0xff98)
#define PWM17T1H (*(unsigned char volatile xdata *)0xff98)
#define PWM17T1L (*(unsigned char volatile xdata *)0xff99)
#define PWM17T2 (*(unsigned int volatile xdata *)0xff9a)
#define PWM17T2H (*(unsigned char volatile xdata *)0xff9a)
#define PWM17T2L (*(unsigned char volatile xdata *)0xff9b)
#define PWM17CR (*(unsigned char volatile xdata *)0xff9c)
#define PWM17HLD (*(unsigned char volatile xdata *)0xff9d)
#define PWM2C (*(unsigned int volatile xdata *)0xffa0)
#define PWM2CH (*(unsigned char volatile xdata *)0xffa0)
#define PWM2CL (*(unsigned char volatile xdata *)0xffa1)
#define PWM2CKS (*(unsigned char volatile xdata *)0xffa2)
#define PWM2TADC (*(unsigned int volatile xdata *)0xffa3)
#define PWM2TADCH (*(unsigned char volatile xdata *)0xffa3)
#define PWM2TADCL (*(unsigned char volatile xdata *)0xffa4)
#define PWM2IF (*(unsigned char volatile xdata *)0xffa5)
#define PWM2FDCR (*(unsigned char volatile xdata *)0xffa6)
#define PWM20T1 (*(unsigned int volatile xdata *)0xffb0)
#define PWM20T1H (*(unsigned char volatile xdata *)0xffb0)
#define PWM20T1L (*(unsigned char volatile xdata *)0xffb1)
#define PWM20T2 (*(unsigned int volatile xdata *)0xffb2)
#define PWM20T2H (*(unsigned char volatile xdata *)0xffb2)
#define PWM20T2L (*(unsigned char volatile xdata *)0xffb3)
#define PWM20CR (*(unsigned char volatile xdata *)0xffb4)
#define PWM20HLD (*(unsigned char volatile xdata *)0xffb5)
#define PWM21T1 (*(unsigned int volatile xdata *)0xffb8)
#define PWM21T1H (*(unsigned char volatile xdata *)0xffb8)
#define PWM21T1L (*(unsigned char volatile xdata *)0xffb9)
#define PWM21T2 (*(unsigned int volatile xdata *)0xffba)
#define PWM21T2H (*(unsigned char volatile xdata *)0xffba)
#define PWM21T2L (*(unsigned char volatile xdata *)0xffbb)
#define PWM21CR (*(unsigned char volatile xdata *)0xffbc)
#define PWM21HLD (*(unsigned char volatile xdata *)0xffbd)
#define PWM22T1 (*(unsigned int volatile xdata *)0xffc0)
#define PWM22T1H (*(unsigned char volatile xdata *)0xffc0)
#define PWM22T1L (*(unsigned char volatile xdata *)0xffc1)
#define PWM22T2 (*(unsigned int volatile xdata *)0xffc2)
#define PWM22T2H (*(unsigned char volatile xdata *)0xffc2)
#define PWM22T2L (*(unsigned char volatile xdata *)0xffc3)
#define PWM22CR (*(unsigned char volatile xdata *)0xffc4)
#define PWM22HLD (*(unsigned char volatile xdata *)0xffc5)
#define PWM23T1 (*(unsigned int volatile xdata *)0xffc8)
#define PWM23T1H (*(unsigned char volatile xdata *)0xffc8)
#define PWM23T1L (*(unsigned char volatile xdata *)0xffc9)
#define PWM23T2 (*(unsigned int volatile xdata *)0xffca)
#define PWM23T2H (*(unsigned char volatile xdata *)0xffca)
#define PWM23T2L (*(unsigned char volatile xdata *)0xffcb)
#define PWM23CR (*(unsigned char volatile xdata *)0xffcc)
#define PWM23HLD (*(unsigned char volatile xdata *)0xffcd)
#define PWM24T1 (*(unsigned int volatile xdata *)0xffd0)
#define PWM24T1H (*(unsigned char volatile xdata *)0xffd0)
#define PWM24T1L (*(unsigned char volatile xdata *)0xffd1)
#define PWM24T2 (*(unsigned int volatile xdata *)0xffd2)
#define PWM24T2H (*(unsigned char volatile xdata *)0xffd2)
#define PWM24T2L (*(unsigned char volatile xdata *)0xffd3)
#define PWM24CR (*(unsigned char volatile xdata *)0xffd4)
#define PWM24HLD (*(unsigned char volatile xdata *)0xffd5)
#define PWM25T1 (*(unsigned int volatile xdata *)0xffd8)
#define PWM25T1H (*(unsigned char volatile xdata *)0xffd8)
#define PWM25T1L (*(unsigned char volatile xdata *)0xffd9)
#define PWM25T2 (*(unsigned int volatile xdata *)0xffda)
#define PWM25T2H (*(unsigned char volatile xdata *)0xffda)
#define PWM25T2L (*(unsigned char volatile xdata *)0xffdb)
#define PWM25CR (*(unsigned char volatile xdata *)0xffdc)
#define PWM25HLD (*(unsigned char volatile xdata *)0xffdd)
#define PWM26T1 (*(unsigned int volatile xdata *)0xffe0)
#define PWM26T1H (*(unsigned char volatile xdata *)0xffe0)
#define PWM26T1L (*(unsigned char volatile xdata *)0xffe1)
#define PWM26T2 (*(unsigned int volatile xdata *)0xffe2)
#define PWM26T2H (*(unsigned char volatile xdata *)0xffe2)
#define PWM26T2L (*(unsigned char volatile xdata *)0xffe3)
#define PWM26CR (*(unsigned char volatile xdata *)0xffe4)
#define PWM26HLD (*(unsigned char volatile xdata *)0xffe5)
#define PWM27T1 (*(unsigned int volatile xdata *)0xffe8)
#define PWM27T1H (*(unsigned char volatile xdata *)0xffe8)
#define PWM27T1L (*(unsigned char volatile xdata *)0xffe9)
#define PWM27T2 (*(unsigned int volatile xdata *)0xffea)
#define PWM27T2H (*(unsigned char volatile xdata *)0xffea)
#define PWM27T2L (*(unsigned char volatile xdata *)0xffeb)
#define PWM27CR (*(unsigned char volatile xdata *)0xffec)
#define PWM27HLD (*(unsigned char volatile xdata *)0xffed)
/////////////////////////////////////////////////
//FC00H-FCFFH
/////////////////////////////////////////////////
#define PWM3C (*(unsigned int volatile xdata *)0xfc00)
#define PWM3CH (*(unsigned char volatile xdata *)0xfc00)
#define PWM3CL (*(unsigned char volatile xdata *)0xfc01)
#define PWM3CKS (*(unsigned char volatile xdata *)0xfc02)
#define PWM3IF (*(unsigned char volatile xdata *)0xfc05)
#define PWM3FDCR (*(unsigned char volatile xdata *)0xfc06)
#define PWM30T1 (*(unsigned int volatile xdata *)0xfc10)
#define PWM30T1H (*(unsigned char volatile xdata *)0xfc10)
#define PWM30T1L (*(unsigned char volatile xdata *)0xfc11)
#define PWM30T2 (*(unsigned int volatile xdata *)0xfc12)
#define PWM30T2H (*(unsigned char volatile xdata *)0xfc12)
#define PWM30T2L (*(unsigned char volatile xdata *)0xfc13)
#define PWM30CR (*(unsigned char volatile xdata *)0xfc14)
#define PWM30HLD (*(unsigned char volatile xdata *)0xfc15)
#define PWM31T1 (*(unsigned int volatile xdata *)0xfc18)
#define PWM31T1H (*(unsigned char volatile xdata *)0xfc18)
#define PWM31T1L (*(unsigned char volatile xdata *)0xfc19)
#define PWM31T2 (*(unsigned int volatile xdata *)0xfc1a)
#define PWM31T2H (*(unsigned char volatile xdata *)0xfc1a)
#define PWM31T2L (*(unsigned char volatile xdata *)0xfc1b)
#define PWM31CR (*(unsigned char volatile xdata *)0xfc1c)
#define PWM31HLD (*(unsigned char volatile xdata *)0xfc1d)
#define PWM32T1 (*(unsigned int volatile xdata *)0xfc20)
#define PWM32T1H (*(unsigned char volatile xdata *)0xfc20)
#define PWM32T1L (*(unsigned char volatile xdata *)0xfc21)
#define PWM32T2 (*(unsigned int volatile xdata *)0xfc22)
#define PWM32T2H (*(unsigned char volatile xdata *)0xfc22)
#define PWM32T2L (*(unsigned char volatile xdata *)0xfc23)
#define PWM32CR (*(unsigned char volatile xdata *)0xfc24)
#define PWM32HLD (*(unsigned char volatile xdata *)0xfc25)
#define PWM33T1 (*(unsigned int volatile xdata *)0xfc28)
#define PWM33T1H (*(unsigned char volatile xdata *)0xfc28)
#define PWM33T1L (*(unsigned char volatile xdata *)0xfc29)
#define PWM33T2 (*(unsigned int volatile xdata *)0xfc2a)
#define PWM33T2H (*(unsigned char volatile xdata *)0xfc2a)
#define PWM33T2L (*(unsigned char volatile xdata *)0xfc2b)
#define PWM33CR (*(unsigned char volatile xdata *)0xfc2c)
#define PWM33HLD (*(unsigned char volatile xdata *)0xfc2d)
#define PWM34T1 (*(unsigned int volatile xdata *)0xfc30)
#define PWM34T1H (*(unsigned char volatile xdata *)0xfc30)
#define PWM34T1L (*(unsigned char volatile xdata *)0xfc31)
#define PWM34T2 (*(unsigned int volatile xdata *)0xfc32)
#define PWM34T2H (*(unsigned char volatile xdata *)0xfc32)
#define PWM34T2L (*(unsigned char volatile xdata *)0xfc33)
#define PWM34CR (*(unsigned char volatile xdata *)0xfc34)
#define PWM34HLD (*(unsigned char volatile xdata *)0xfc35)
#define PWM35T1 (*(unsigned int volatile xdata *)0xfc38)
#define PWM35T1H (*(unsigned char volatile xdata *)0xfc38)
#define PWM35T1L (*(unsigned char volatile xdata *)0xfc39)
#define PWM35T2 (*(unsigned int volatile xdata *)0xfc3a)
#define PWM35T2H (*(unsigned char volatile xdata *)0xfc3a)
#define PWM35T2L (*(unsigned char volatile xdata *)0xfc3b)
#define PWM35CR (*(unsigned char volatile xdata *)0xfc3c)
#define PWM35HLD (*(unsigned char volatile xdata *)0xfc3d)
#define PWM36T1 (*(unsigned int volatile xdata *)0xfc40)
#define PWM36T1H (*(unsigned char volatile xdata *)0xfc40)
#define PWM36T1L (*(unsigned char volatile xdata *)0xfc41)
#define PWM36T2 (*(unsigned int volatile xdata *)0xfc42)
#define PWM36T2H (*(unsigned char volatile xdata *)0xfc42)
#define PWM36T2L (*(unsigned char volatile xdata *)0xfc43)
#define PWM36CR (*(unsigned char volatile xdata *)0xfc44)
#define PWM36HLD (*(unsigned char volatile xdata *)0xfc45)
#define PWM37T1 (*(unsigned int volatile xdata *)0xfc48)
#define PWM37T1H (*(unsigned char volatile xdata *)0xfc48)
#define PWM37T1L (*(unsigned char volatile xdata *)0xfc49)
#define PWM37T2 (*(unsigned int volatile xdata *)0xfc4a)
#define PWM37T2H (*(unsigned char volatile xdata *)0xfc4a)
#define PWM37T2L (*(unsigned char volatile xdata *)0xfc4b)
#define PWM37CR (*(unsigned char volatile xdata *)0xfc4c)
#define PWM37HLD (*(unsigned char volatile xdata *)0xfc4d)
#define PWM4C (*(unsigned int volatile xdata *)0xfc50)
#define PWM4CH (*(unsigned char volatile xdata *)0xfc50)
#define PWM4CL (*(unsigned char volatile xdata *)0xfc51)
#define PWM4CKS (*(unsigned char volatile xdata *)0xfc52)
#define PWM4TADC (*(unsigned int volatile xdata *)0xfc53)
#define PWM4TADCH (*(unsigned char volatile xdata *)0xfc53)
#define PWM4TADCL (*(unsigned char volatile xdata *)0xfc54)
#define PWM4IF (*(unsigned char volatile xdata *)0xfc55)
#define PWM4FDCR (*(unsigned char volatile xdata *)0xfc56)
#define PWM40T1 (*(unsigned int volatile xdata *)0xfc60)
#define PWM40T1H (*(unsigned char volatile xdata *)0xfc60)
#define PWM40T1L (*(unsigned char volatile xdata *)0xfc61)
#define PWM40T2 (*(unsigned int volatile xdata *)0xfc62)
#define PWM40T2H (*(unsigned char volatile xdata *)0xfc62)
#define PWM40T2L (*(unsigned char volatile xdata *)0xfc63)
#define PWM40CR (*(unsigned char volatile xdata *)0xfc64)
#define PWM40HLD (*(unsigned char volatile xdata *)0xfc65)
#define PWM41T1 (*(unsigned int volatile xdata *)0xfc68)
#define PWM41T1H (*(unsigned char volatile xdata *)0xfc68)
#define PWM41T1L (*(unsigned char volatile xdata *)0xfc69)
#define PWM41T2 (*(unsigned int volatile xdata *)0xfc6a)
#define PWM41T2H (*(unsigned char volatile xdata *)0xfc6a)
#define PWM41T2L (*(unsigned char volatile xdata *)0xfc6b)
#define PWM41CR (*(unsigned char volatile xdata *)0xfc6c)
#define PWM41HLD (*(unsigned char volatile xdata *)0xfc6d)
#define PWM42T1 (*(unsigned int volatile xdata *)0xfc70)
#define PWM42T1H (*(unsigned char volatile xdata *)0xfc70)
#define PWM42T1L (*(unsigned char volatile xdata *)0xfc71)
#define PWM42T2 (*(unsigned int volatile xdata *)0xfc72)
#define PWM42T2H (*(unsigned char volatile xdata *)0xfc72)
#define PWM42T2L (*(unsigned char volatile xdata *)0xfc73)
#define PWM42CR (*(unsigned char volatile xdata *)0xfc74)
#define PWM42HLD (*(unsigned char volatile xdata *)0xfc75)
#define PWM43T1 (*(unsigned int volatile xdata *)0xfc78)
#define PWM43T1H (*(unsigned char volatile xdata *)0xfc78)
#define PWM43T1L (*(unsigned char volatile xdata *)0xfc79)
#define PWM43T2 (*(unsigned int volatile xdata *)0xfc7a)
#define PWM43T2H (*(unsigned char volatile xdata *)0xfc7a)
#define PWM43T2L (*(unsigned char volatile xdata *)0xfc7b)
#define PWM43CR (*(unsigned char volatile xdata *)0xfc7c)
#define PWM43HLD (*(unsigned char volatile xdata *)0xfc7d)
#define PWM44T1 (*(unsigned int volatile xdata *)0xfc80)
#define PWM44T1H (*(unsigned char volatile xdata *)0xfc80)
#define PWM44T1L (*(unsigned char volatile xdata *)0xfc81)
#define PWM44T2 (*(unsigned int volatile xdata *)0xfc82)
#define PWM44T2H (*(unsigned char volatile xdata *)0xfc82)
#define PWM44T2L (*(unsigned char volatile xdata *)0xfc83)
#define PWM44CR (*(unsigned char volatile xdata *)0xfc84)
#define PWM44HLD (*(unsigned char volatile xdata *)0xfc85)
#define PWM45T1 (*(unsigned int volatile xdata *)0xfc88)
#define PWM45T1H (*(unsigned char volatile xdata *)0xfc88)
#define PWM45T1L (*(unsigned char volatile xdata *)0xfc89)
#define PWM45T2 (*(unsigned int volatile xdata *)0xfc8a)
#define PWM45T2H (*(unsigned char volatile xdata *)0xfc8a)
#define PWM45T2L (*(unsigned char volatile xdata *)0xfc8b)
#define PWM45CR (*(unsigned char volatile xdata *)0xfc8c)
#define PWM45HLD (*(unsigned char volatile xdata *)0xfc8d)
#define PWM46T1 (*(unsigned int volatile xdata *)0xfc90)
#define PWM46T1H (*(unsigned char volatile xdata *)0xfc90)
#define PWM46T1L (*(unsigned char volatile xdata *)0xfc91)
#define PWM46T2 (*(unsigned int volatile xdata *)0xfc92)
#define PWM46T2H (*(unsigned char volatile xdata *)0xfc92)
#define PWM46T2L (*(unsigned char volatile xdata *)0xfc93)
#define PWM46CR (*(unsigned char volatile xdata *)0xfc94)
#define PWM46HLD (*(unsigned char volatile xdata *)0xfc95)
#define PWM47T1 (*(unsigned int volatile xdata *)0xfc98)
#define PWM47T1H (*(unsigned char volatile xdata *)0xfc98)
#define PWM47T1L (*(unsigned char volatile xdata *)0xfc99)
#define PWM47T2 (*(unsigned int volatile xdata *)0xfc9a)
#define PWM47T2H (*(unsigned char volatile xdata *)0xfc9a)
#define PWM47T2L (*(unsigned char volatile xdata *)0xfc9b)
#define PWM47CR (*(unsigned char volatile xdata *)0xfc9c)
#define PWM47HLD (*(unsigned char volatile xdata *)0xfc9d)
#define PWM5C (*(unsigned int volatile xdata *)0xfca0)
#define PWM5CH (*(unsigned char volatile xdata *)0xfca0)
#define PWM5CL (*(unsigned char volatile xdata *)0xfca1)
#define PWM5CKS (*(unsigned char volatile xdata *)0xfca2)
#define PWM5IF (*(unsigned char volatile xdata *)0xfca5)
#define PWM5FDCR (*(unsigned char volatile xdata *)0xfca6)
#define PWM50T1 (*(unsigned int volatile xdata *)0xfcb0)
#define PWM50T1H (*(unsigned char volatile xdata *)0xfcb0)
#define PWM50T1L (*(unsigned char volatile xdata *)0xfcb1)
#define PWM50T2 (*(unsigned int volatile xdata *)0xfcb2)
#define PWM50T2H (*(unsigned char volatile xdata *)0xfcb2)
#define PWM50T2L (*(unsigned char volatile xdata *)0xfcb3)
#define PWM50CR (*(unsigned char volatile xdata *)0xfcb4)
#define PWM50HLD (*(unsigned char volatile xdata *)0xfcb5)
#define PWM51T1 (*(unsigned int volatile xdata *)0xfcb8)
#define PWM51T1H (*(unsigned char volatile xdata *)0xfcb8)
#define PWM51T1L (*(unsigned char volatile xdata *)0xfcb9)
#define PWM51T2 (*(unsigned int volatile xdata *)0xfcba)
#define PWM51T2H (*(unsigned char volatile xdata *)0xfcba)
#define PWM51T2L (*(unsigned char volatile xdata *)0xfcbb)
#define PWM51CR (*(unsigned char volatile xdata *)0xfcbc)
#define PWM51HLD (*(unsigned char volatile xdata *)0xfcbd)
#define PWM52T1 (*(unsigned int volatile xdata *)0xfcc0)
#define PWM52T1H (*(unsigned char volatile xdata *)0xfcc0)
#define PWM52T1L (*(unsigned char volatile xdata *)0xfcc1)
#define PWM52T2 (*(unsigned int volatile xdata *)0xfcc2)
#define PWM52T2H (*(unsigned char volatile xdata *)0xfcc2)
#define PWM52T2L (*(unsigned char volatile xdata *)0xfcc3)
#define PWM52CR (*(unsigned char volatile xdata *)0xfcc4)
#define PWM52HLD (*(unsigned char volatile xdata *)0xfcc5)
#define PWM53T1 (*(unsigned int volatile xdata *)0xfcc8)
#define PWM53T1H (*(unsigned char volatile xdata *)0xfcc8)
#define PWM53T1L (*(unsigned char volatile xdata *)0xfcc9)
#define PWM53T2 (*(unsigned int volatile xdata *)0xfcca)
#define PWM53T2H (*(unsigned char volatile xdata *)0xfcca)
#define PWM53T2L (*(unsigned char volatile xdata *)0xfccb)
#define PWM53CR (*(unsigned char volatile xdata *)0xfccc)
#define PWM53HLD (*(unsigned char volatile xdata *)0xfccd)
#define PWM54T1 (*(unsigned int volatile xdata *)0xfcd0)
#define PWM54T1H (*(unsigned char volatile xdata *)0xfcd0)
#define PWM54T1L (*(unsigned char volatile xdata *)0xfcd1)
#define PWM54T2 (*(unsigned int volatile xdata *)0xfcd2)
#define PWM54T2H (*(unsigned char volatile xdata *)0xfcd2)
#define PWM54T2L (*(unsigned char volatile xdata *)0xfcd3)
#define PWM54CR (*(unsigned char volatile xdata *)0xfcd4)
#define PWM54HLD (*(unsigned char volatile xdata *)0xfcd5)
#define PWM55T1 (*(unsigned int volatile xdata *)0xfcd8)
#define PWM55T1H (*(unsigned char volatile xdata *)0xfcd8)
#define PWM55T1L (*(unsigned char volatile xdata *)0xfcd9)
#define PWM55T2 (*(unsigned int volatile xdata *)0xfcda)
#define PWM55T2H (*(unsigned char volatile xdata *)0xfcda)
#define PWM55T2L (*(unsigned char volatile xdata *)0xfcdb)
#define PWM55CR (*(unsigned char volatile xdata *)0xfcdc)
#define PWM55HLD (*(unsigned char volatile xdata *)0xfcdd)
#define PWM56T1 (*(unsigned int volatile xdata *)0xfce0)
#define PWM56T1H (*(unsigned char volatile xdata *)0xfce0)
#define PWM56T1L (*(unsigned char volatile xdata *)0xfce1)
#define PWM56T2 (*(unsigned int volatile xdata *)0xfce2)
#define PWM56T2H (*(unsigned char volatile xdata *)0xfce2)
#define PWM56T2L (*(unsigned char volatile xdata *)0xfce3)
#define PWM56CR (*(unsigned char volatile xdata *)0xfce4)
#define PWM56HLD (*(unsigned char volatile xdata *)0xfce5)
#define PWM57T1 (*(unsigned int volatile xdata *)0xfce8)
#define PWM57T1H (*(unsigned char volatile xdata *)0xfce8)
#define PWM57T1L (*(unsigned char volatile xdata *)0xfce9)
#define PWM57T2 (*(unsigned int volatile xdata *)0xfcea)
#define PWM57T2H (*(unsigned char volatile xdata *)0xfcea)
#define PWM57T2L (*(unsigned char volatile xdata *)0xfceb)
#define PWM57CR (*(unsigned char volatile xdata *)0xfcec)
#define PWM57HLD (*(unsigned char volatile xdata *)0xfced)
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMSET = 0xF1H; ENGLBSET PWMRST ENPWM5 ENPWM4 ENPWM3 ENPWM2 ENPWM1 ENPWM0 0000,0000 /* 增强型PWM全局配置寄存器 */
#define PWM15_SET_Uniform() PWMSET |= 0x80 //1:6组PWM采用统一的设置方式
#define PWM15_SET_Independent() PWMSET &= ~0x80 //0:6组PWM采用各自独立的设置方式
#define PWM15_Reset() PWMSET |= 0x40 //1:复位所有PWM的XFR寄存器,SFR不变
#define PWM15_PWM5_Enable() PWMSET |= 0x20 //1:使能PWM5(包括 PWM50~PWM54)。
#define PWM15_PWM5_Disable() PWMSET &= ~0x20 //0:关闭PWM5
#define PWM15_PWM4_Enable() PWMSET |= 0x10 //1:使能PWM4(包括 PWM40~PWM47)。
#define PWM15_PWM4_Disable() PWMSET &= ~0x10 //0:关闭PWM4
#define PWM15_PWM3_Enable() PWMSET |= 0x08 //1:使能PWM3(包括 PWM30~PWM37)。
#define PWM15_PWM3_Disable() PWMSET &= ~0x08 //0:关闭PWM3
#define PWM15_PWM2_Enable() PWMSET |= 0x04 //1:使能PWM2(包括 PWM20~PWM27)。
#define PWM15_PWM2_Disable() PWMSET &= ~0x04 //0:关闭PWM2
#define PWM15_PWM1_Enable() PWMSET |= 0x02 //1:使能PWM1(包括 PWM10~PWM17)。
#define PWM15_PWM1_Disable() PWMSET &= ~0x02 //0:关闭PWM1
#define PWM15_PWM0_Enable() PWMSET |= 0x01 //1:使能PWM0(包括 PWM00~PWM07)。
#define PWM15_PWM0_Disable() PWMSET &= ~0x01 //0:关闭PWM0
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMCFG01= 0xF6H; PWM1CBIF EPWM1CBI FLTPS0 PWM1CEN PWM0CBIF EPWM0CBI ENPWM0TA PWM0CEN 0000,0000 /* 增强型PWM配置寄存器 */
//sfr PWMCFG23= 0xF7H; PWM3CBIF EPWM3CBI FLTPS1 PWM3CEN PWM2CBIF EPWM2CBI ENPWM2TA PWM2CEN 0000,0000 /* 增强型PWM配置寄存器 */
//sfr PWMCFG45= 0xFEH; PWM5CBIF EPWM5CBI FLTPS2 PWM5CEN PWM4CBIF EPWM4CBI ENPWM4TA PWM4CEN 0000,0000 /* 增强型PWM配置寄存器 */
#define PWM1CBIF 0x80
#define PWM0CBIF 0x08
#define FLTPSn 0x20
#define PWM15_Counter1Int_Enable() PWMCFG01 |= 0x40 //1:使能计数器归零中断
#define PWM15_Counter1Int_Disable() PWMCFG01 &= ~0x40 //0:关闭计数器归零中断
#define PWM15_Counter1_Enable() PWMCFG01 |= 0x10 //1:使能计数器
#define PWM15_Counter1_Disable() PWMCFG01 &= ~0x10 //0:关闭计数器
#define PWM15_Counter0Int_Enable() PWMCFG01 |= 0x04 //1:使能计数器归零中断
#define PWM15_Counter0Int_Disable() PWMCFG01 &= ~0x04 //0:关闭计数器归零中断
#define PWM15_Counter0_Enable() PWMCFG01 |= 0x01 //1:使能计数器
#define PWM15_Counter0_Disable() PWMCFG01 &= ~0x01 //0:关闭计数器
#define PWM15_PWM0_ADC_Enable() PWMCFG01 |= 0x02 //1:PWM与ADC相关联
#define PWM15_PWM0_ADC_Disable() PWMCFG01 &= ~0x02 //0:PWM与ADC不关联
#define PWM15_Counter3Int_Enable() PWMCFG23 |= 0x40 //1:使能计数器归零中断
#define PWM15_Counter3Int_Disable() PWMCFG23 &= ~0x40 //0:关闭计数器归零中断
#define PWM15_Counter3_Enable() PWMCFG23 |= 0x10 //1:使能计数器
#define PWM15_Counter3_Disable() PWMCFG23 &= ~0x10 //0:关闭计数器
#define PWM15_Counter2Int_Enable() PWMCFG23 |= 0x04 //1:使能计数器归零中断
#define PWM15_Counter2Int_Disable() PWMCFG23 &= ~0x04 //0:关闭计数器归零中断
#define PWM15_Counter2_Enable() PWMCFG23 |= 0x01 //1:使能计数器
#define PWM15_Counter2_Disable() PWMCFG23 &= ~0x01 //0:关闭计数器
#define PWM15_PWM2_ADC_Enable() PWMCFG23 |= 0x02 //1:PWM与ADC相关联
#define PWM15_PWM2_ADC_Disable() PWMCFG23 &= ~0x02 //0:PWM与ADC不关联
#define PWM15_Counter5Int_Enable() PWMCFG45 |= 0x40 //1:使能计数器归零中断
#define PWM15_Counter5Int_Disable() PWMCFG45 &= ~0x40 //0:关闭计数器归零中断
#define PWM15_Counter5_Enable() PWMCFG45 |= 0x10 //1:使能计数器
#define PWM15_Counter5_Disable() PWMCFG45 &= ~0x10 //0:关闭计数器
#define PWM15_Counter4Int_Enable() PWMCFG45 |= 0x04 //1:使能计数器归零中断
#define PWM15_Counter4Int_Disable() PWMCFG45 &= ~0x04 //0:关闭计数器归零中断
#define PWM15_Counter4_Enable() PWMCFG45 |= 0x01 //1:使能计数器
#define PWM15_Counter4_Disable() PWMCFG45 &= ~0x01 //0:关闭计数器
#define PWM15_PWM4_ADC_Enable() PWMCFG45 |= 0x02 //1:PWM与ADC相关联
#define PWM15_PWM4_ADC_Disable() PWMCFG45 &= ~0x02 //0:PWM与ADC不关联
/* PWMnIF */
#define C7IF = (1<<7)
#define C6IF = (1<<6)
#define C5IF = (1<<5)
#define C4IF = (1<<4)
#define C3IF = (1<<3)
#define C2IF = (1<<2)
#define C1IF = (1<<1)
#define C0IF = 1
/* PWMnFDCR */
#define INVCMP = (1<<7)
#define INVIO = (1<<6)
#define ENFD = (1<<5)
#define FLTFLIO = (1<<4)
#define EFDI = (1<<3)
#define FDCMP = (1<<2)
#define FDIO = (1<<1)
#define FDIF = 1
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWM0CKS = 0xFF02H; - - - SELT2 PWM_PS[3:0] xxx0,0000 /* 增强型PWM时钟选择存器 */
//sfr PWM1CKS = 0xFF52H; - - - SELT2 PWM_PS[3:0] xxx0,0000 /* 增强型PWM时钟选择存器 */
//sfr PWM2CKS = 0xFFA2H; - - - SELT2 PWM_PS[3:0] xxx0,0000 /* 增强型PWM时钟选择存器 */
//sfr PWM3CKS = 0xFC02H; - - - SELT2 PWM_PS[3:0] xxx0,0000 /* 增强型PWM时钟选择存器 */
//sfr PWM4CKS = 0xFC52H; - - - SELT2 PWM_PS[3:0] xxx0,0000 /* 增强型PWM时钟选择存器 */
//sfr PWM5CKS = 0xFCA2H; - - - SELT2 PWM_PS[3:0] xxx0,0000 /* 增强型PWM时钟选择存器 */
#define PWM0_PS_Clock() PWM0CKS &= ~0x10 //0:PWMn时钟源为系统时钟分频后的时钟
#define PWM0_T2_Clock() PWM0CKS |= 0x10 //1:PWMn时钟源为定时器2的溢出脉冲
#define PWM0_PS_Set(n) PWM0CKS = (PWM0CKS & ~0x0F) | (n & 0x0F) //系统时钟预分频参数设置:SYSclk / (PWM_PS+1)
#define PWM1_PS_Clock() PWM1CKS &= ~0x10 //0:PWMn时钟源为系统时钟分频后的时钟
#define PWM1_T2_Clock() PWM1CKS |= 0x10 //1:PWMn时钟源为定时器2的溢出脉冲
#define PWM1_PS_Set(n) PWM1CKS = (PWM1CKS & ~0x0F) | (n & 0x0F) //系统时钟预分频参数设置:SYSclk / (PWM_PS+1)
#define PWM2_PS_Clock() PWM2CKS &= ~0x10 //0:PWMn时钟源为系统时钟分频后的时钟
#define PWM2_T2_Clock() PWM2CKS |= 0x10 //1:PWMn时钟源为定时器2的溢出脉冲
#define PWM2_PS_Set(n) PWM2CKS = (PWM2CKS & ~0x0F) | (n & 0x0F) //系统时钟预分频参数设置:SYSclk / (PWM_PS+1)
#define PWM3_PS_Clock() PWM3CKS &= ~0x10 //0:PWMn时钟源为系统时钟分频后的时钟
#define PWM3_T2_Clock() PWM3CKS |= 0x10 //1:PWMn时钟源为定时器2的溢出脉冲
#define PWM3_PS_Set(n) PWM3CKS = (PWM3CKS & ~0x0F) | (n & 0x0F) //系统时钟预分频参数设置:SYSclk / (PWM_PS+1)
#define PWM4_PS_Clock() PWM4CKS &= ~0x10 //0:PWMn时钟源为系统时钟分频后的时钟
#define PWM4_T2_Clock() PWM4CKS |= 0x10 //1:PWMn时钟源为定时器2的溢出脉冲
#define PWM4_PS_Set(n) PWM4CKS = (PWM4CKS & ~0x0F) | (n & 0x0F) //系统时钟预分频参数设置:SYSclk / (PWM_PS+1)
#define PWM5_PS_Clock() PWM5CKS &= ~0x10 //0:PWMn时钟源为系统时钟分频后的时钟
#define PWM5_T2_Clock() PWM5CKS |= 0x10 //1:PWMn时钟源为定时器2的溢出脉冲
#define PWM5_PS_Set(n) PWM5CKS = (PWM5CKS & ~0x0F) | (n & 0x0F) //系统时钟预分频参数设置:SYSclk / (PWM_PS+1)
/* PWMnTADC */
#define PWM15_PWM0TADC(n) PWM0TADC = (n & 0x7fff) //PWM触发ADC时间点
#define PWM15_PWM2TADC(n) PWM2TADC = (n & 0x7fff) //PWM触发ADC时间点
#define PWM15_PWM4TADC(n) PWM4TADC = (n & 0x7fff) //PWM触发ADC时间点
/* PWMnTADC */
#define PWM15_PWM0TADC(n) PWM0TADC = (n & 0x7fff) //PWM触发ADC时间点
/* BIT Registers */
/* PSW */
sbit CY = PSW^7;
sbit AC = PSW^6;
sbit F0 = PSW^5;
sbit RS1 = PSW^4;
sbit RS0 = PSW^3;
sbit OV = PSW^2;
sbit F1 = PSW^1;
sbit P = PSW^0;
/* TCON */
sbit TF1 = TCON^7; //定时器1溢出中断标志位
sbit TR1 = TCON^6; //定时器1运行控制位
sbit TF0 = TCON^5; //定时器0溢出中断标志位
sbit TR0 = TCON^4; //定时器0运行控制位
sbit IE1 = TCON^3; //外中断1标志位
sbit IT1 = TCON^2; //外中断1信号方式控制位,1:下降沿中断,0:上升下降均中断。
sbit IE0 = TCON^1; //外中断0标志位
sbit IT0 = TCON^0; //外中断0信号方式控制位,1:下降沿中断,0:上升下降均中断。
/* P0 */
sbit P00 = P0^0;
sbit P01 = P0^1;
sbit P02 = P0^2;
sbit P03 = P0^3;
sbit P04 = P0^4;
sbit P05 = P0^5;
sbit P06 = P0^6;
sbit P07 = P0^7;
/* P1 */
sbit P10 = P1^0;
sbit P11 = P1^1;
sbit P12 = P1^2;
sbit P13 = P1^3;
sbit P14 = P1^4;
sbit P15 = P1^5;
sbit P16 = P1^6;
sbit P17 = P1^7;
sbit RXD2 = P1^0;
sbit TXD2 = P1^1;
sbit CCP1 = P1^0;
sbit CCP0 = P1^1;
sbit SPI_SS = P1^2;
sbit SPI_MOSI = P1^3;
sbit SPI_MISO = P1^4;
sbit SPI_SCLK = P1^5;
sbit SPI_SS_2 = P2^2;
sbit SPI_MOSI_2 = P2^3;
sbit SPI_MISO_2 = P2^4;
sbit SPI_SCLK_2 = P2^5;
sbit SPI_SS_3 = P5^4;
sbit SPI_MOSI_3 = P4^0;
sbit SPI_MISO_3 = P4^1;
sbit SPI_SCLK_3 = P4^3;
sbit SPI_SS_4 = P3^5;
sbit SPI_MOSI_4 = P3^4;
sbit SPI_MISO_4 = P3^3;
sbit SPI_SCLK_4 = P3^2;
/* P2 */
sbit P20 = P2^0;
sbit P21 = P2^1;
sbit P22 = P2^2;
sbit P23 = P2^3;
sbit P24 = P2^4;
sbit P25 = P2^5;
sbit P26 = P2^6;
sbit P27 = P2^7;
/* P3 */
sbit P30 = P3^0;
sbit P31 = P3^1;
sbit P32 = P3^2;
sbit P33 = P3^3;
sbit P34 = P3^4;
sbit P35 = P3^5;
sbit P36 = P3^6;
sbit P37 = P3^7;
sbit RXD = P3^0;
sbit TXD = P3^1;
sbit INT0 = P3^2;
sbit INT1 = P3^3;
sbit T0 = P3^4;
sbit T1 = P3^5;
sbit WR = P3^6;
sbit RD = P3^7;
sbit INT2 = P3^6;
sbit INT3 = P3^7;
sbit INT4 = P3^0;
sbit CCP2 = P3^7;
sbit CLKOUT0 = P3^5;
sbit CLKOUT1 = P3^4;
/* P4 */
sbit P40 = P4^0;
sbit P41 = P4^1;
sbit P42 = P4^2;
sbit P43 = P4^3;
sbit P44 = P4^4;
sbit P45 = P4^5;
sbit P46 = P4^6;
sbit P47 = P4^7;
/* P5 */
sbit P50 = P5^0;
sbit P51 = P5^1;
sbit P52 = P5^2;
sbit P53 = P5^3;
sbit P54 = P5^4;
sbit P55 = P5^5;
sbit P56 = P5^6;
sbit P57 = P5^7;
/* P6 */
sbit P60 = P6^0;
sbit P61 = P6^1;
sbit P62 = P6^2;
sbit P63 = P6^3;
sbit P64 = P6^4;
sbit P65 = P6^5;
sbit P66 = P6^6;
sbit P67 = P6^7;
/* P7 */
sbit P70 = P7^0;
sbit P71 = P7^1;
sbit P72 = P7^2;
sbit P73 = P7^3;
sbit P74 = P7^4;
sbit P75 = P7^5;
sbit P76 = P7^6;
sbit P77 = P7^7;
/* SCON */
sbit SM0 = SCON^7; //SM0/FE SM0 SM1 = 00 ~ 11: 方式0~3
sbit SM1 = SCON^6; //
sbit SM2 = SCON^5; //多机通讯
sbit REN = SCON^4; //接收允许
sbit TB8 = SCON^3; //发送数据第8位
sbit RB8 = SCON^2; //接收数据第8位
sbit TI = SCON^1; //发送中断标志位
sbit RI = SCON^0; //接收中断标志位
/* IE */
sbit EA = IE^7; //中断允许总控制位
sbit ELVD = IE^6; //低压监测中断允许位
sbit EADC = IE^5; //ADC 中断 允许位
sbit ES = IE^4; //串行中断 允许控制位
sbit ET1 = IE^3; //定时中断1允许控制位
sbit EX1 = IE^2; //外部中断1允许控制位
sbit ET0 = IE^1; //定时中断0允许控制位
sbit EX0 = IE^0; //外部中断0允许控制位
sbit ACC0 = ACC^0;
sbit ACC1 = ACC^1;
sbit ACC2 = ACC^2;
sbit ACC3 = ACC^3;
sbit ACC4 = ACC^4;
sbit ACC5 = ACC^5;
sbit ACC6 = ACC^6;
sbit ACC7 = ACC^7;
sbit B0 = B^0;
sbit B1 = B^1;
sbit B2 = B^2;
sbit B3 = B^3;
sbit B4 = B^4;
sbit B5 = B^5;
sbit B6 = B^6;
sbit B7 = B^7;
// 7 6 5 4 3 2 1 0 Reset Value
//sfr IE2 = 0xAF; ETKSUI ET4 ET3 ES4 ES3 ET2 ESPI ES2 x000,0000B //Auxiliary Interrupt
#define SPI_INT_ENABLE() IE2 |= 2 /* 允许SPI中断 */
#define SPI_INT_DISABLE() IE2 &= ~2 /* 允许SPI中断 */
#define UART2_INT_ENABLE() IE2 |= 1 /* 允许串口2中断 */
#define UART2_INT_DISABLE() IE2 &= ~1 /* 允许串口2中断 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr IP2 = 0xB5; // PPWM2FD PI2C PCMP PX4 PPWM0FD PPWM0 PSPI PS2 0000,0000
#define PUSB 0x80
#define PPWM2FD 0x80
#define PTKSU 0x80
#define PI2C 0x40
#define PCMP 0x20
#define PX4 0x10
#define PPWM0FD 0x08
#define PPWMB 0x08
#define PPWM0 0x04
#define PPWMA 0x04
#define PSPI 0x02
#define PS2 0x01
// 7 6 5 4 3 2 1 0 Reset Value
//sfr IP2H = 0xB6; // PPWM2FDH PI2CH PCMPH PX4H PPWM0FDH PPWM0H PSPIH PS2H 0000,0000
#define PUSBH 0x80
#define PPWM2FDH 0x80
#define PTKSUH 0x80
#define PI2CH 0x40
#define PCMPH 0x20
#define PX4H 0x10
#define PPWM0FDH 0x08
#define PPWMBH 0x08
#define PPWM0H 0x04
#define PPWMAH 0x04
#define PSPIH 0x02
#define PS2H 0x01
//串口2中断优先级控制
#define UART2_Priority(n) do{if(n == 0) IP2H &= ~PS2H, IP2 &= ~PS2; \
if(n == 1) IP2H &= ~PS2H, IP2 |= PS2; \
if(n == 2) IP2H |= PS2H, IP2 &= ~PS2; \
if(n == 3) IP2H |= PS2H, IP2 |= PS2; \
}while(0)
//SPI中断优先级控制
#define SPI_Priority(n) do{if(n == 0) IP2H &= ~PSPIH, IP2 &= ~PSPI; \
if(n == 1) IP2H &= ~PSPIH, IP2 |= PSPI; \
if(n == 2) IP2H |= PSPIH, IP2 &= ~PSPI; \
if(n == 3) IP2H |= PSPIH, IP2 |= PSPI; \
}while(0)
//外部中断4中断优先级控制
#define INT4_Priority(n) do{if(n == 0) IP2H &= ~PX4H, IP2 &= ~PX4; \
if(n == 1) IP2H &= ~PX4H, IP2 |= PX4; \
if(n == 2) IP2H |= PX4H, IP2 &= ~PX4; \
if(n == 3) IP2H |= PX4H, IP2 |= PX4; \
}while(0)
//比较器中断优先级控制
#define CMP_Priority(n) do{if(n == 0) IP2H &= ~PCMPH, IP2 &= ~PCMP; \
if(n == 1) IP2H &= ~PCMPH, IP2 |= PCMP; \
if(n == 2) IP2H |= PCMPH, IP2 &= ~PCMP; \
if(n == 3) IP2H |= PCMPH, IP2 |= PCMP; \
}while(0)
//I2C中断优先级控制
#define I2C_Priority(n) do{if(n == 0) IP2H &= ~PI2CH, IP2 &= ~PI2C; \
if(n == 1) IP2H &= ~PI2CH, IP2 |= PI2C; \
if(n == 2) IP2H |= PI2CH, IP2 &= ~PI2C; \
if(n == 3) IP2H |= PI2CH, IP2 |= PI2C; \
}while(0)
//增强型PWM0中断优先级控制
#define PWM0_Priority(n) do{if(n == 0) IP2H &= ~PPWM0H, IP2 &= ~PPWM0; \
if(n == 1) IP2H &= ~PPWM0H, IP2 |= PPWM0; \
if(n == 2) IP2H |= PPWM0H, IP2 &= ~PPWM0; \
if(n == 3) IP2H |= PPWM0H, IP2 |= PPWM0; \
}while(0)
//增强型PWM0异常检测中断优先级控制
#define PWM0FD_Priority(n) do{if(n == 0) IP2H &= ~PPWM0FDH, IP2 &= ~PPWM0FD; \
if(n == 1) IP2H &= ~PPWM0FDH, IP2 |= PPWM0FD; \
if(n == 2) IP2H |= PPWM0FDH, IP2 &= ~PPWM0FD; \
if(n == 3) IP2H |= PPWM0FDH, IP2 |= PPWM0FD; \
}while(0)
//增强型PWM2异常检测中断优先级控制
#define PWM2FD_Priority(n) do{if(n == 0) IP2H &= ~PPWM2FDH, IP2 &= ~PPWM2FD; \
if(n == 1) IP2H &= ~PPWM2FDH, IP2 |= PPWM2FD; \
if(n == 2) IP2H |= PPWM2FDH, IP2 &= ~PPWM2FD; \
if(n == 3) IP2H |= PPWM2FDH, IP2 |= PPWM2FD; \
}while(0)
//触摸按键中断优先级控制
#define PTKSU_Priority(n) do{if(n == 0) IP2H &= ~PTKSUH, IP2 &= ~PTKSU; \
if(n == 1) IP2H &= ~PTKSUH, IP2 |= PTKSU; \
if(n == 2) IP2H |= PTKSUH, IP2 &= ~PTKSU; \
if(n == 3) IP2H |= PTKSUH, IP2 |= PTKSU; \
}while(0)
// 7 6 5 4 3 2 1 0 Reset Value
//sfr IP3 = 0xDF; // PPWM4FD PPWM5 PPWM4 PPWM3 PPWM2 PPWM1 PS4 PS3 0000,0000
#define PPWM4FD 0x80
#define PPWM5 0x40
#define PPWM4 0x20
#define PPWM3 0x10
#define PPWM2 0x08
#define PPWM1 0x04
#define PRTC 0x04
#define PS4 0x02
#define PS3 0x01
// 7 6 5 4 3 2 1 0 Reset Value
//sfr IP3H = 0xEE; // PPWM4FDH PPWM5H PPWM4H PPWM3H PPWM2H PPWM1H PS4H PS3H 0000,0000
#define PPWM4FDH 0x80
#define PPWM5H 0x40
#define PPWM4H 0x20
#define PPWM3H 0x10
#define PPWM2H 0x08
#define PPWM1H 0x04
#define PRTCH 0x04
#define PS4H 0x02
#define PS3H 0x01
#ifdef STC8Hxx
//增强型PWM1中断优先级控制
#define PWM1_Priority(n) do{if(n == 0) IP2H &= ~PPWM1H, IP2 &= ~PPWM1; \
if(n == 1) IP2H &= ~PPWM1H, IP2 |= PPWM1; \
if(n == 2) IP2H |= PPWM1H, IP2 &= ~PPWM1; \
if(n == 3) IP2H |= PPWM1H, IP2 |= PPWM1; \
}while(0)
//增强型PWM2中断优先级控制
#define PWM2_Priority(n) do{if(n == 0) IP2H &= ~PPWM2H, IP2 &= ~PPWM2; \
if(n == 1) IP2H &= ~PPWM2H, IP2 |= PPWM2; \
if(n == 2) IP2H |= PPWM2H, IP2 &= ~PPWM2; \
if(n == 3) IP2H |= PPWM2H, IP2 |= PPWM2; \
}while(0)
//USB中断优先级控制
#define USB_Priority(n) do{if(n == 0) IP2H &= ~PUSBH, IP2 &= ~PUSB; \
if(n == 1) IP2H &= ~PUSBH, IP2 |= PUSB; \
if(n == 2) IP2H |= PUSBH, IP2 &= ~PUSB; \
if(n == 3) IP2H |= PUSBH, IP2 |= PUSB; \
}while(0)
//RTC中断优先级控制
#define RTC_Priority(n) do{if(n == 0) IP3H &= ~PRTCH, IP3 &= ~PRTC; \
if(n == 1) IP3H &= ~PRTCH, IP3 |= PRTC; \
if(n == 2) IP3H |= PRTCH, IP3 &= ~PRTC; \
if(n == 3) IP3H |= PRTCH, IP3 |= PRTC; \
}while(0)
#else
//增强型PWM1中断优先级控制
#define PWM1_Priority(n) do{if(n == 0) IP3H &= ~PPWM1H, IP3 &= ~PPWM1; \
if(n == 1) IP3H &= ~PPWM1H, IP3 |= PPWM1; \
if(n == 2) IP3H |= PPWM1H, IP3 &= ~PPWM1; \
if(n == 3) IP3H |= PPWM1H, IP3 |= PPWM1; \
}while(0)
//增强型PWM2中断优先级控制
#define PWM2_Priority(n) do{if(n == 0) IP3H &= ~PPWM2H, IP3 &= ~PPWM2; \
if(n == 1) IP3H &= ~PPWM2H, IP3 |= PPWM2; \
if(n == 2) IP3H |= PPWM2H, IP3 &= ~PPWM2; \
if(n == 3) IP3H |= PPWM2H, IP3 |= PPWM2; \
}while(0)
#endif
//增强型PWM3中断优先级控制
#define PWM3_Priority(n) do{if(n == 0) IP3H &= ~PPWM3H, IP3 &= ~PPWM3; \
if(n == 1) IP3H &= ~PPWM3H, IP3 |= PPWM3; \
if(n == 2) IP3H |= PPWM3H, IP3 &= ~PPWM3; \
if(n == 3) IP3H |= PPWM3H, IP3 |= PPWM3; \
}while(0)
//增强型PWM4中断优先级控制
#define PWM4_Priority(n) do{if(n == 0) IP3H &= ~PPWM4H, IP3 &= ~PPWM4; \
if(n == 1) IP3H &= ~PPWM4H, IP3 |= PPWM4; \
if(n == 2) IP3H |= PPWM4H, IP3 &= ~PPWM4; \
if(n == 3) IP3H |= PPWM4H, IP3 |= PPWM4; \
}while(0)
//增强型PWM5中断优先级控制
#define PWM5_Priority(n) do{if(n == 0) IP3H &= ~PPWM5H, IP3 &= ~PPWM5; \
if(n == 1) IP3H &= ~PPWM5H, IP3 |= PPWM5; \
if(n == 2) IP3H |= PPWM5H, IP3 &= ~PPWM5; \
if(n == 3) IP3H |= PPWM5H, IP3 |= PPWM5; \
}while(0)
//增强型PWM4异常检测中断优先级控制
#define PWM4FD_Priority(n) do{if(n == 0) IP3H &= ~PPWM4FDH, IP3 &= ~PPWM4FD; \
if(n == 1) IP3H &= ~PPWM4FDH, IP3 |= PPWM4FD; \
if(n == 2) IP3H |= PPWM4FDH, IP3 &= ~PPWM4FD; \
if(n == 3) IP3H |= PPWM4FDH, IP3 |= PPWM4FD; \
}while(0)
//串口3中断优先级控制
#define UART3_Priority(n) do{if(n == 0) IP3H &= ~PS3H, IP3 &= ~PS3; \
if(n == 1) IP3H &= ~PS3H, IP3 |= PS3; \
if(n == 2) IP3H |= PS3H, IP3 &= ~PS3; \
if(n == 3) IP3H |= PS3H, IP3 |= PS3; \
}while(0)
//串口4中断优先级控制
#define UART4_Priority(n) do{if(n == 0) IP3H &= ~PS4H, IP3 &= ~PS4; \
if(n == 1) IP3H &= ~PS4H, IP3 |= PS4; \
if(n == 2) IP3H |= PS4H, IP3 &= ~PS4; \
if(n == 3) IP3H |= PS4H, IP3 |= PS4; \
}while(0)
// 7 6 5 4 3 2 1 0 Reset Value
//sfr IP = 0xB8; //中断优先级低位 PPCA PLVD PADC PS PT1 PX1 PT0 PX0 0000,0000
//--------
sbit PPCA = IP^7; //PCA 模块中断优先级
sbit PLVD = IP^6; //低压监测中断优先级
sbit PADC = IP^5; //ADC 中断优先级
sbit PS = IP^4; //串行中断0优先级设定位
sbit PT1 = IP^3; //定时中断1优先级设定位
sbit PX1 = IP^2; //外部中断1优先级设定位
sbit PT0 = IP^1; //定时中断0优先级设定位
sbit PX0 = IP^0; //外部中断0优先级设定位
// 7 6 5 4 3 2 1 0 Reset Value
//sfr IPH = 0xB7; //中断优先级高位 PPCAH PLVDH PADCH PSH PT1H PX1H PT0H PX0H 0000,0000
#define PPCAH 0x80
#define PLVDH 0x40
#define PADCH 0x20
#define PSH 0x10
#define PT1H 0x08
#define PX1H 0x04
#define PT0H 0x02
#define PX0H 0x01
//外部中断0中断优先级控制
#define INT0_Priority(n) do{if(n == 0) IPH &= ~PX0H, PX0 = 0; \
if(n == 1) IPH &= ~PX0H, PX0 = 1; \
if(n == 2) IPH |= PX0H, PX0 = 0; \
if(n == 3) IPH |= PX0H, PX0 = 1; \
}while(0)
//外部中断1中断优先级控制
#define INT1_Priority(n) do{if(n == 0) IPH &= ~PX1H, PX1 = 0; \
if(n == 1) IPH &= ~PX1H, PX1 = 1; \
if(n == 2) IPH |= PX1H, PX1 = 0; \
if(n == 3) IPH |= PX1H, PX1 = 1; \
}while(0)
//定时器0中断优先级控制
#define Timer0_Priority(n) do{if(n == 0) IPH &= ~PT0H, PT0 = 0; \
if(n == 1) IPH &= ~PT0H, PT0 = 1; \
if(n == 2) IPH |= PT0H, PT0 = 0; \
if(n == 3) IPH |= PT0H, PT0 = 1; \
}while(0)
//定时器1中断优先级控制
#define Timer1_Priority(n) do{if(n == 0) IPH &= ~PT1H, PT1 = 0; \
if(n == 1) IPH &= ~PT1H, PT1 = 1; \
if(n == 2) IPH |= PT1H, PT1 = 0; \
if(n == 3) IPH |= PT1H, PT1 = 1; \
}while(0)
//串口1中断优先级控制
#define UART1_Priority(n) do{if(n == 0) IPH &= ~PSH, PS = 0; \
if(n == 1) IPH &= ~PSH, PS = 1; \
if(n == 2) IPH |= PSH, PS = 0; \
if(n == 3) IPH |= PSH, PS = 1; \
}while(0)
//ADC中断优先级控制
#define ADC_Priority(n) do{if(n == 0) IPH &= ~PADCH, PADC = 0; \
if(n == 1) IPH &= ~PADCH, PADC = 1; \
if(n == 2) IPH |= PADCH, PADC = 0; \
if(n == 3) IPH |= PADCH, PADC = 1; \
}while(0)
//低压检测中断优先级控制
#define LVD_Priority(n) do{if(n == 0) IPH &= ~PLVDH, PADC = 0; \
if(n == 1) IPH &= ~PLVDH, PADC = 1; \
if(n == 2) IPH |= PLVDH, PADC = 0; \
if(n == 3) IPH |= PLVDH, PADC = 1; \
}while(0)
//CCP/PCA/PWM中断优先级控制
#define PCA_Priority(n) do{if(n == 0) IPH &= ~PPCAH, PPCA = 0; \
if(n == 1) IPH &= ~PPCAH, PPCA = 1; \
if(n == 2) IPH |= PPCAH, PPCA = 0; \
if(n == 3) IPH |= PPCAH, PPCA = 1; \
}while(0)
//#define PCA_InterruptFirst() PPCA = 1
//#define LVD_InterruptFirst() PLVD = 1
//#define ADC_InterruptFirst() PADC = 1
//#define UART1_InterruptFirst() PS = 1
//#define Timer1_InterruptFirst() PT1 = 1
//#define INT1_InterruptFirst() PX1 = 1
//#define Timer0_InterruptFirst() PT0 = 1
//#define INT0_InterruptFirst() PX0 = 1
/*************************************************************************************************/
// 7 6 5 4 3 2 1 0 Reset Value
//sfr CMPCR1 = 0xE6; CMPEN CMPIF PIE NIE PIS NIS CMPOE CMPRES 00000000B
#define CMPEN 0x80 //1: 允许比较器, 0: 禁止,关闭比较器电源
#define CMPIF 0x40 //比较器中断标志, 包括上升沿或下降沿中断, 软件清0
#define PIE 0x20 //1: 比较结果由0变1, 产生上升沿中断
#define NIE 0x10 //1: 比较结果由1变0, 产生下降沿中断
#define PIS 0x08 //输入正极性选择, 0: 选择内部P3.7做正输入, 1: 由ADC_CHS[3:0]所选择的ADC输入端做正输入.
#define NIS 0x04 //输入负极性选择, 0: 选择内部BandGap电压BGv做负输入, 1: 选择外部P3.6做输入.
#define CMPOE 0x02 //1: 允许比较结果输出, 0: 禁止.
#define CMPRES 0x01 //比较结果, 1: CMP+电平高于CMP-, 0: CMP+电平低于CMP-, 只读
#define CMP_P_P37 0x00 //输入正极性选择, 0: 选择内部P3.7做正输入
#define CMP_P_ADC 0x08 //输入正极性选择, 1: 由ADC_CHS[3:0]所选择的ADC输入端做正输入.
#define CMP_N_GAP 0x00 //输入负极性选择, 0: 选择内部BandGap电压BGv做负输入.
#define CMP_N_P36 0x04 //输入负极性选择, 1: 选择外部P3.6做输入.
#define CMPO_P34() P_SW2 &= ~0x08 //结果输出到P3.4.
#define CMPO_P41() P_SW2 |= 0x08 //结果输出到P4.1.
// 7 6 5 4 3 2 1 0 Reset Value
//sfr CMPCR2 = 0xE7; INVCMPO DISFLT LCDTY[5:0] 00001001B
#define INVCMPO 0x80 //1: 比较器输出IO取反, 0: 不取反
#define DISFLT 0x40 //1: 关闭0.1uF滤波, 0: 允许
#define LCDTY 0x00 //0~63, 比较结果变化延时周期数
/*************************************************************************************************/
// 7 6 5 4 3 2 1 0 Reset Value
//sfr SCON = 0x98; SM0 SM1 SM2 REN TB8 RB8 TI RI 00000000B //S1 Control
#define S1_DoubleRate() PCON |= 0x80
#define S1_SHIFT() SCON &= 0x3f
#define S1_8bit() SCON = (SCON & 0x3f) | 0x40
#define S1_9bit() SCON = (SCON & 0x3f) | 0xc0
#define S1_RX_Enable() SCON |= 0x10
#define S1_RX_Disable() SCON &= ~0x10
#define TI1 TI /* 判断TI1是否发送完成 */
#define RI1 RI /* 判断RI1是否接收完成 */
#define SET_TI1() TI = 1 /* 设置TI1(引起中断) */
#define CLR_TI1() TI = 0 /* 清除TI1 */
#define CLR_RI1() RI = 0 /* 清除RI1 */
#define S1TB8_SET() TB8 = 1 /* 设置TB8 */
#define S1TB8_CLR() TB8 = 0 /* 清除TB8 */
#define S1_Int_Enable() ES = 1 /* 串口1允许中断 */
#define S1_Int_Disable() ES = 0 /* 串口1禁止中断 */
#define S1_BRT_UseTimer1() AUXR &= ~1
#define S1_BRT_UseTimer2() AUXR |= 1
#define S1_USE_P30P31() P_SW1 &= ~0xc0 //UART1 使用P30 P31口 默认
#define S1_USE_P36P37() P_SW1 = (P_SW1 & ~0xc0) | 0x40 //UART1 使用P36 P37口
#define S1_USE_P16P17() P_SW1 = (P_SW1 & ~0xc0) | 0x80 //UART1 使用P16 P17口
#define S1_USE_P43P44() P_SW1 |= 0xc0 //UART1 使用P43 P44口
//#define S1_TXD_RXD_SHORT() PCON2 |= (1<<4) //将TXD与RXD连接中继输出
//#define S1_TXD_RXD_OPEN() PCON2 &= ~(1<<4) //将TXD与RXD连接中继断开 默认
// 7 6 5 4 3 2 1 0 Reset Value
//sfr S2CON = 0x9A; S2SM0 - S2SM2 S2REN S2TB8 S2RB8 S2TI S2RI 00000000B //S2 Control
#define S2_MODE0() S2CON &= ~(1<<7) /* 串口2模式0,8位UART,波特率 = 定时器2的溢出率 / 4 */
#define S2_MODE1() S2CON |= (1<<7) /* 串口2模式1,9位UART,波特率 = 定时器2的溢出率 / 4 */
#define S2_8bit() S2CON &= ~(1<<7) /* 串口2模式0,8位UART,波特率 = 定时器2的溢出率 / 4 */
#define S2_9bit() S2CON |= (1<<7) /* 串口2模式1,9位UART,波特率 = 定时器2的溢出率 / 4 */
#define S2_RX_Enable() S2CON |= (1<<4) /* 允许串2接收 */
#define S2_RX_Disable() S2CON &= ~(1<<4) /* 禁止串2接收 */
#define TI2 (S2CON & 2) /* 判断TI2是否发送完成 */
#define RI2 (S2CON & 1) /* 判断RI2是否接收完成 */
#define SET_TI2() S2CON |= (1<<1) /* 设置TI2(引起中断) */
#define CLR_TI2() S2CON &= ~(1<<1) /* 清除TI2 */
#define CLR_RI2() S2CON &= ~1 /* 清除RI2 */
#define S2TB8_SET() S2CON |= (1<<3) /* 设置TB8 */
#define S2TB8_CLR() S2CON &= ~(1<<3) /* 清除TB8 */
#define S2_Int_Enable() IE2 |= 1 /* 串口2允许中断 */
#define S2_Int_Disable() IE2 &= ~1 /* 串口2禁止中断 */
#define S2_USE_P10P11() P_SW2 &= ~1 /* UART2 使用P1口 默认 */
#define S2_USE_P46P47() P_SW2 |= 1 /* UART2 使用P4口 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr S3CON = 0xAC; S3SM0 S3ST3 S3SM2 S3REN S3TB8 S3RB8 S3TI S3RI 00000000B //S3 Control
#define S3_MODE0() S3CON &= ~(1<<7) /* 串口3模式0,8位UART,波特率 = 定时器的溢出率 / 4 */
#define S3_MODE1() S3CON |= (1<<7) /* 串口3模式1,9位UART,波特率 = 定时器的溢出率 / 4 */
#define S3_8bit() S3CON &= ~(1<<7) /* 串口3模式0,8位UART,波特率 = 定时器的溢出率 / 4 */
#define S3_9bit() S3CON |= (1<<7) /* 串口3模式1,9位UART,波特率 = 定时器的溢出率 / 4 */
#define S3_RX_Enable() S3CON |= (1<<4) /* 允许串3接收 */
#define S3_RX_Disable() S3CON &= ~(1<<4) /* 禁止串3接收 */
#define TI3 (S3CON & 2) != 0 /* 判断TI3是否发送完成 */
#define RI3 (S3CON & 1) != 0 /* 判断RI3是否接收完成 */
#define SET_TI3() S3CON |= (1<<1) /* 设置TI3(引起中断) */
#define CLR_TI3() S3CON &= ~(1<<1) /* 清除TI3 */
#define CLR_RI3() S3CON &= ~1 /* 清除RI3 */
#define S3TB8_SET() S3CON |= (1<<3) /* 设置TB8 */
#define S3TB8_CLR() S3CON &= ~(1<<3) /* 清除TB8 */
#define S3_Int_Enable() IE2 |= (1<<3) /* 串口3允许中断 */
#define S3_Int_Disable() IE2 &= ~(1<<3) /* 串口3禁止中断 */
#define S3_BRT_UseTimer3() S3CON |= (1<<6) /* BRT select Timer3 */
#define S3_BRT_UseTimer2() S3CON &= ~(1<<6) /* BRT select Timer2 */
#define S3_USE_P00P01() P_SW2 &= ~2 /* UART3 使用P0口 默认 */
#define S3_USE_P50P51() P_SW2 |= 2 /* UART3 使用P5口 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr S4CON = 0x84; S4SM0 S4ST4 S4SM2 S4REN S4TB8 S4RB8 S4TI S4RI 00000000B //S4 Control
#define S4_MODE0() S4CON &= ~(1<<7) /* 串口4模式0,8位UART,波特率 = 定时器的溢出率 / 4 */
#define S4_MODE1() S4CON |= (1<<7) /* 串口4模式1,9位UART,波特率 = 定时器的溢出率 / 4 */
#define S4_8bit() S4CON &= ~(1<<7) /* 串口4模式0,8位UART,波特率 = 定时器的溢出率 / 4 */
#define S4_9bit() S4CON |= (1<<7) /* 串口4模式1,9位UART,波特率 = 定时器的溢出率 / 4 */
#define S4_RX_Enable() S4CON |= (1<<4) /* 允许串4接收 */
#define S4_RX_Disable() S4CON &= ~(1<<4) /* 禁止串4接收 */
#define TI4 (S4CON & 2) != 0 /* 判断TI3是否发送完成 */
#define RI4 (S4CON & 1) != 0 /* 判断RI3是否接收完成 */
#define SET_TI4() S4CON |= 2 /* 设置TI3(引起中断) */
#define CLR_TI4() S4CON &= ~2 /* 清除TI3 */
#define CLR_RI4() S4CON &= ~1 /* 清除RI3 */
#define S4TB8_SET() S4CON |= 8 /* 设置TB8 */
#define S4TB8_CLR() S4CON &= ~8 /* 清除TB8 */
#define S4_Int_Enable() IE2 |= (1<<4) /* 串口4允许中断 */
#define S4_Int_Disable() IE2 &= ~(1<<4) /* 串口4禁止中断 */
#define S4_BRT_UseTimer4() S4CON |= (1<<6) /* BRT select Timer4 */
#define S4_BRT_UseTimer2() S4CON &= ~(1<<6) /* BRT select Timer2 */
#define S4_USE_P02P03() P_SW2 &= ~4 /* UART4 使用P0口 默认 */
#define S4_USE_P52P53() P_SW2 |= 4 /* UART4 使用P5口 */
/**********************************************************/
// 7 6 5 4 3 2 1 0 Reset Value
//sfr AUXR = 0x8E; T0x12 T1x12 UART_M0x6 T2R T2_C/T T2x12 EXTRAM S1ST2 0000,0000 //Auxiliary Register
#define InternalXdata_Disable() AUXR |= 2 /* 禁止使用内部xdata, 所有访问xdata都是访问外部xdata */
#define InternalXdata_Enable() AUXR &= ~2 /* 允许使用内部xdata, 当访问的地址在内部xdata范围时, 访问内部的xadta, 当地址超过内部xdata时, 访问外部xdata */
#define S1_M0x6() AUXR |= (1<<5) /* UART Mode0 Speed is 6x Standard */
#define S1_M0x1() AUXR &= ~(1<<5) /* default, UART Mode0 Speed is Standard */
//====================================
#define Timer0_16bitAutoReload() TMOD &= ~0x03 /* 16位自动重装 */
#define Timer0_16bit() TMOD = (TMOD & ~0x03) | 0x01 /* 16位 */
#define Timer0_8bitAutoReload() TMOD = (TMOD & ~0x03) | 0x02 /* 8位自动重装 */
#define Timer0_16bitAutoRL_NoMask() TMOD |= 0x03 /* 16位自动重装不可屏蔽中断 */
#define Timer0_Run() TR0 = 1 /* 允许定时器0计数 */
#define Timer0_Stop() TR0 = 0 /* 禁止定时器0计数 */
#define Timer0_Gate_INT0_P32() TMOD |= (1<<3) /* 时器0由外部INT0高电平允许定时计数 */
#define Timer0_AsTimer() TMOD &= ~(1<<2) /* 时器0用做定时器 */
#define Timer0_AsCounter() TMOD |= (1<<2) /* 时器0用做计数器 */
#define Timer0_AsCounterP34() TMOD |= (1<<2) /* 时器0用做计数器 */
#define Timer0_1T() AUXR |= (1<<7) /* Timer0 clodk = fo */
#define Timer0_12T() AUXR &= ~(1<<7) /* Timer0 clodk = fo/12 12分频, default */
#define Timer0_CLKO_Enable() INT_CLKO |= 1 /* 允许 T0 溢出脉冲在T0(P3.5)脚输出,Fck0 = 1/2 T0 溢出率,T0可以1T或12T。 */
#define Timer0_CLKO_Disable() INT_CLKO &= ~1
#define Timer0_CLKO_Enable_P34() INT_CLKO |= 1 /* 允许 T0 溢出脉冲在T0(P3.5)脚输出,Fck0 = 1/2 T0 溢出率,T0可以1T或12T。 */
#define Timer0_CLKO_Disable_P34() INT_CLKO &= ~1
#define Timer0_InterruptEnable() ET0 = 1 /* 允许Timer1中断.*/
#define Timer0_InterruptDisable() ET0 = 0 /* 禁止Timer1中断.*/
#define T0_Load(n) TH0 = (n) / 256, TL0 = (n) % 256
#define T0_Load_us_1T(n) Timer0_AsTimer(),Timer0_1T(), Timer0_16bitAutoReload(),TH0=(65536-((MAIN_Fosc/1000)*(n))/1000)/256, TL0=(65536-((MAIN_Fosc/1000)*(n))/1000)%256
#define T0_Load_us_12T(n) Timer0_AsTimer(),Timer0_12T(),Timer0_16bitAutoReload(),TH0=(65536-((MAIN_Fosc/12000)*(n))/1000)/256,TL0=(65536-((MAIN_Fosc/12000)*(n))/1000)%256
#define T0_Frequency_1T_P35(n) ET0=0,Timer0_AsTimer(),Timer0_1T(),Timer0_16bitAutoReload(),TH0=(65536-(n/2+MAIN_Fosc/2)/(n))/256,TL0=(65536-(n/2+MAIN_Fosc/2)/(n))%256,INT_CLKO |= bit0,TR0=1 /* fx=fosc/(2*M)/n, M=1 or M=12 */
#define T0_Frequency_12T_P35(n) ET0=0,Timer0_AsTimer(),Timer0_12T(),Timer0_16bitAutoReload(),TH0=(65536-(n/2+MAIN_Fosc/24)/(n))/256,TL0=(65536-(n/2+MAIN_Fosc/24)/(n))%256,INT_CLKO |= bit0,TR0=1 /* fx=fosc/(2*M)/n, M=1 or M=12 */
//====================================
#define Timer1_16bitAutoReload() TMOD &= ~0x30 /* 16位自动重装 */
#define Timer1_16bit() TMOD = (TMOD & ~0x30) | 0x10 /* 16位 */
#define Timer1_8bitAutoReload() TMOD = (TMOD & ~0x30) | 0x20 /* 8位自动重装 */
#define Timer1_Run() TR1 = 1 /* 允许定时器1计数 */
#define Timer1_Stop() TR1 = 0 /* 禁止定时器1计数 */
#define Timer1_Gate_INT1_P33() TMOD |= (1<<7) /* 时器1由外部INT1高电平允许定时计数 */
#define Timer1_AsTimer() TMOD &= ~(1<<6) /* 时器1用做定时器 */
#define Timer1_AsCounter() TMOD |= (1<<6) /* 时器1用做计数器 */
#define Timer1_AsCounterP35() TMOD |= (1<<6) /* 时器1用做计数器 */
#define Timer1_1T() AUXR |= (1<<6) /* Timer1 clodk = fo */
#define Timer1_12T() AUXR &= ~(1<<6) /* Timer1 clodk = fo/12 12分频, default */
#define Timer1_CLKO_Enable() INT_CLKO |= 2 /* 允许 T1 溢出脉冲在T1(P3.4)脚输出,Fck1 = 1/2 T1 溢出率,T1可以1T或12T。 */
#define Timer1_CLKO_Disable() INT_CLKO &= ~2
#define Timer1_CLKO_Enable_P35() INT_CLKO |= 2 /* 允许 T1 溢出脉冲在T1(P3.4)脚输出,Fck1 = 1/2 T1 溢出率,T1可以1T或12T。 */
#define Timer1_CLKO_Disable_P35() INT_CLKO &= ~2
#define Timer1_InterruptEnable() ET1 = 1 /* 允许Timer1中断. */
#define Timer1_InterruptDisable() ET1 = 0 /* 禁止Timer1中断. */
#define T1_Load(n) TH1 = (n) / 256, TL1 = (n) % 256
#define T1_Load_us_1T(n) Timer1_AsTimer(),Timer1_1T(), Timer1_16bitAutoReload(),TH1=(65536-((MAIN_Fosc/1000)*(n)+500)/1000)/256, TL1=(65536-((MAIN_Fosc/1000)*(n)+500)/1000)%256
#define T1_Load_us_12T(n) Timer1_AsTimer(),Timer1_12T(),Timer1_16bitAutoReload(),TH1=(65536-((MAIN_Fosc/12000)*(n)+500)/1000)/256,TL1=(65536-((MAIN_Fosc/12000)*(n)+500)/1000)%256
#define T1_Frequency_1T_P34(n) ET1=0,Timer1_AsTimer(),Timer1_1T(),Timer1_16bitAutoReload(),TH1=(65536-(n/2+MAIN_Fosc/2)/(n))/256,TL1=(65536-(n/2+MAIN_Fosc/2)/(n))%256,INT_CLKO |= bit1,TR1=1 /* fx=fosc/(2*M)/n, M=1 or M=12 */
#define T1_Frequency_12T_P34(n) ET1=0,Timer1_AsTimer(),Timer1_12T(),Timer1_16bitAutoReload(),TH1=(65536-(n/2+MAIN_Fosc/24)/(n))/256,TL1=(65536-(n/2+MAIN_Fosc/24)/(n))%256,INT_CLKO |= bit1,TR1=1 /* fx=fosc/(2*M)/n, M=1 or M=12 */
//====================================
#define Timer2_Run() AUXR |= (1<<4) /* 允许定时器2计数 */
#define Timer2_Stop() AUXR &= ~(1<<4) /* 禁止定时器2计数 */
#define Timer2_AsTimer() AUXR &= ~(1<<3) /* 时器2用做定时器 */
#define Timer2_AsCounter() AUXR |= (1<<3) /* 时器2用做计数器 */
#define Timer2_AsCounterP31() AUXR |= (1<<3) /* 时器2用做计数器 */
#define Timer2_1T() AUXR |= (1<<2) /* Timer0 clock = fo */
#define Timer2_12T() AUXR &= ~(1<<2) /* Timer0 clock = fo/12 12分频, default */
#define Timer2_CLKO_Enable() INT_CLKO |= 4 /* 允许 T2 溢出脉冲在P1.3脚输出,Fck2 = 1/2 T2 溢出率,T2可以1T或12T。 */
#define Timer2_CLKO_Disable() INT_CLKO &= ~4
#define Timer2_CLKO_Enable_P13() INT_CLKO |= 4 /* 允许 T2 溢出脉冲在P1.3脚输出,Fck2 = 1/2 T2 溢出率,T2可以1T或12T。 */
#define Timer2_CLKO_Disable_P13() INT_CLKO &= ~4
#define Timer2_InterruptEnable() IE2 |= (1<<2) /* 允许Timer2中断. */
#define Timer2_InterruptDisable() IE2 &= ~(1<<2) /* 禁止Timer2中断. */
#define T2_Load(n) TH2 = (n) / 256, TL2 = (n) % 256
#define T2_Load_us_1T(n) Timer2_AsTimer(),Timer2_1T(), TH2=(65536-((MAIN_Fosc/1000)*(n)+500)/1000)/256, TL2=(65536-((MAIN_Fosc/1000)*(n)+500)/1000)%256
#define T2_Load_us_12T(n) Timer2_AsTimer(),Timer2_12T(),TH2=(65536-((MAIN_Fosc/12000)*(n)+500)/1000)/256,TL2=(65536-((MAIN_Fosc/12000)*(n)+500)/1000)%256
#define T2_Frequency_1T_P30(n) Timer2_InterruptDisable(),Timer2_AsTimer(),Timer2_1T(), TH2=(65536-(n/2+MAIN_Fosc/2)/(n))/256, TL2=(65536-(n/2+MAIN_Fosc/2)/(n))%256, Timer2_CLKO_Enable_P30(),Timer2_Run() /* fx=fosc/(2*M)/n, M=1 or M=12 */
#define T2_Frequency_12T_P30(n) Timer2_InterruptDisable(),Timer2_AsTimer(),Timer2_12T(),TH2=(65536-(n/2+MAIN_Fosc/24)/(n))/256,TL2=(65536-(n/2+MAIN_Fosc/24)/(n))%256,Timer2_CLKO_Enable_P30(),Timer2_Run() /* fx=fosc/(2*M)/n, M=1 or M=12 */
//====================================
#define Timer3_Run() T4T3M |= (1<<3) /* 允许定时器3计数 */
#define Timer3_Stop() T4T3M &= ~(1<<3) /* 禁止定时器3计数 */
#define Timer3_AsTimer() T4T3M &= ~(1<<2) /* 时器3用做定时器 */
#define Timer3_AsCounter() T4T3M |= (1<<2) /* 时器3用做计数器, P0.5为外部脉冲 */
#define Timer3_AsCounterP05() T4T3M |= (1<<2) /* 时器3用做计数器, P0.5为外部脉冲 */
#define Timer3_1T() T4T3M |= (1<<1) /* 1T模式 */
#define Timer3_12T() T4T3M &= ~(1<<1) /* 12T模式, default */
#define Timer3_CLKO_Enable() T4T3M |= 1 /* 允许T3溢出脉冲在T3(P0.4)脚输出,Fck = 1/2 T2 溢出率,T2可以1T或12T。 */
#define Timer3_CLKO_Disable() T4T3M &= ~1 /* 禁止T3溢出脉冲在T3(P0.4)脚输出 */
#define Timer3_CLKO_Enable_P04() T4T3M |= 1 /* 允许T3溢出脉冲在T3(P0.4)脚输出,Fck = 1/2 T2 溢出率,T2可以1T或12T。 */
#define Timer3_CLKO_Disable_P04() T4T3M &= ~1 /* 禁止T3溢出脉冲在T3(P0.4)脚输出 */
#define Timer3_InterruptEnable() IE2 |= (1<<5) /* 允许Timer3中断. */
#define Timer3_InterruptDisable() IE2 &= ~(1<<5) /* 禁止Timer3中断. */
#define T3_Load(n) TH3 = (n) / 256, TL3 = (n) % 256
#define T3_Load_us_1T(n) Timer3_AsTimer(),Timer3_1T(), TH3=(65536-((MAIN_Fosc/1000)*(n)+500)/1000)/256, TL3=(65536-((MAIN_Fosc/1000)*(n)+500)/1000)%256
#define T3_Load_us_12T(n) Timer3_AsTimer(),Timer3_12T(),TH3=(65536-((MAIN_Fosc/12000)*(n)+500)/1000)/256,TL3=(65536-((MAIN_Fosc/12000)*(n)+500)/1000)%256
#define T3_Frequency_1T_P04(n) Timer3_InterruptDisable(),Timer3_AsTimer(),Timer3_1T(), TH3=(65536-(n/2+MAIN_Fosc/2)/(n))/256, TL3=(65536-(n/2+MAIN_Fosc/2)/(n))%256, Timer3_CLKO_P04_Enable,Timer3_Run() /* fx=fosc/(2*M)/n, M=1 or M=12 */
#define T3_Frequency_12T_P04(n) Timer3_InterruptDisable(),Timer3_AsTimer(),Timer3_12T(),TH3=(65536-(n/2+MAIN_Fosc/24)/(n))/256,TL3=(65536-(n/2+MAIN_Fosc/24)/(n))%256,Timer3_CLKO_P04_Enable,Timer3_Run() /* fx=fosc/(2*M)/n, M=1 or M=12 */
//====================================
#define Timer4_Run() T4T3M |= (1<<7) /* 允许定时器4计数 */
#define Timer4_Stop() T4T3M &= ~(1<<7) /* 禁止定时器4计数 */
#define Timer4_AsTimer() T4T3M &= ~(1<<6) /* 时器4用做定时器 */
#define Timer4_AsCounter() T4T3M |= (1<<6) /* 时器4用做计数器, P0.7为外部脉冲 */
#define Timer4_AsCounterP07() T4T3M |= (1<<6) /* 时器4用做计数器, P0.7为外部脉冲 */
#define Timer4_1T() T4T3M |= (1<<5) /* 1T模式 */
#define Timer4_12T() T4T3M &= ~(1<<5) /* 12T模式, default */
#define Timer4_CLKO_Enable() T4T3M |= (1<<4) /* 允许T4溢出脉冲在T4(P0.6)脚输出,Fck = 1/2 T2 溢出率,T2可以1T或12T。 */
#define Timer4_CLKO_Disable() T4T3M &= ~(1<<4) /* 禁止T4溢出脉冲在T4(P0.6)脚输出 */
#define Timer4_CLKO_Enable_P06() T4T3M |= (1<<4) /* 允许T4溢出脉冲在T4(P0.6)脚输出,Fck = 1/2 T2 溢出率,T2可以1T或12T。 */
#define Timer4_CLKO_Disable_P06() T4T3M &= ~(1<<4) /* 禁止T4溢出脉冲在T4(P0.6)脚输出 */
#define Timer4_InterruptEnable() IE2 |= (1<<6) /* 允许Timer4中断. */
#define Timer4_InterruptDisable() IE2 &= ~(1<<6) /* 禁止Timer4中断. */
#define T4_Load(n) TH4 = (n) / 256, TL4 = (n) % 256
#define T4_Load_us_1T(n) Timer4_AsTimer(),Timer4_1T(), TH4=(65536-((MAIN_Fosc/1000)*(n)+500)/1000)/256, TL4=(65536-((MAIN_Fosc/1000)*(n)+500)/1000)%256
#define T4_Load_us_12T(n) Timer4_AsTimer(),Timer4_12T(),TH4=(65536-((MAIN_Fosc/12000)*(n)+500)/1000)/256,TL4=(65536-((MAIN_Fosc/12000)*(n)+500)/1000)%256
#define T4_Frequency_1T_P06(n) Timer4_InterruptDisable(),Timer4_AsTimer(),Timer4_1T(), TH4=(65536-(n/2+MAIN_Fosc/2)/(n))/256, TL4=(65536-(n/2+MAIN_Fosc/2)/(n))%256, Timer4_CLKO_P06_Enable(),Timer4_Run() /* fx=fosc/(2*M)/n, M=1 or M=12 */
#define T4_Frequency_12T_P06(n) Timer4_InterruptDisable(),Timer4_AsTimer(),Timer4_12T(),TH4=(65536-(n/2+MAIN_Fosc/24)/(n))/256,TL4=(65536-(n/2+MAIN_Fosc/24)/(n))%256,Timer4_CLKO_P06_Enable(),Timer4_Run() /* fx=fosc/(2*M)/n, M=1 or M=12 */
//====================================================================================================================
//sfr WDT_CONTR = 0xC1; //Watch-Dog-Timer Control register
// 7 6 5 4 3 2 1 0 Reset Value
// WDT_FLAG - EN_WDT CLR_WDT IDLE_WDT PS2 PS1 PS0 xx00,0000
#define D_WDT_FLAG (1<<7)
#define D_EN_WDT (1<<5)
#define D_CLR_WDT (1<<4) /* auto clear */
#define D_IDLE_WDT (1<<3) /* WDT counter when Idle */
#define D_WDT_SCALE_2 0
#define D_WDT_SCALE_4 1
#define D_WDT_SCALE_8 2 /* T=393216*N/fo */
#define D_WDT_SCALE_16 3
#define D_WDT_SCALE_32 4
#define D_WDT_SCALE_64 5
#define D_WDT_SCALE_128 6
#define D_WDT_SCALE_256 7
#define WDT_PS_Set(n) WDT_CONTR = (WDT_CONTR & ~0x07) | (n & 0x07) /* 看门狗定时器时钟分频系数设置 */
#define WDT_reset(n) WDT_CONTR = D_EN_WDT + D_CLR_WDT + D_IDLE_WDT + (n) /* 初始化WDT,喂狗 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PCON = 0x87; SMOD SMOD0 LVDF POF GF1 GF0 PD IDL 0001,0000 //Power Control
//SMOD //串口双倍速
//SMOD0
#define LVDF (1<<5) /* P4.6低压检测标志 */
//POF
//GF1
//GF0
//#define D_PD 2 /* set 1, power down mode */
//#define D_IDLE 1 /* set 1, idle mode */
#define MCU_IDLE() PCON |= 1 /* MCU 进入 IDLE 模式 */
#define MCU_POWER_DOWN() PCON |= 2 /* MCU 进入 睡眠 模式 */
//sfr IAP_CMD = 0xC5;
#define IAP_STANDBY() IAP_CMD = 0 //IAP空闲命令(禁止)
#define IAP_READ() IAP_CMD = 1 //IAP读出命令
#define IAP_WRITE() IAP_CMD = 2 //IAP写入命令
#define IAP_ERASE() IAP_CMD = 3 //IAP擦除命令
//sfr IAP_TRIG = 0xC6;
#define IAP_TRIG() IAP_TRIG = 0x5A, IAP_TRIG = 0xA5 /* IAP触发命令 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr IAP_CONTR = 0xC7; IAPEN SWBS SWRST CFAIL - - - - 0000,x000 //IAP Control Register
#define IAP_EN (1<<7)
#define IAP_SWBS (1<<6)
#define IAP_SWRST (1<<5)
#define IAP_CMD_FAIL (1<<4)
#define IAP_ENABLE() IAP_CONTR = IAP_EN; IAP_TPS = MAIN_Fosc / 1000000
#define IAP_DISABLE() IAP_CONTR = 0; IAP_CMD = 0; IAP_TRIG = 0; IAP_ADDRH = 0xff; IAP_ADDRL = 0xff
/* ADC Register */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr ADC_CONTR = 0xBC; ADC_POWER SPEED1 SPEED0 ADC_FLAG ADC_START CHS2 CHS1 CHS0 0000,0000 /* AD 转换控制寄存器 */
//sfr ADC_RES = 0xBD; ADCV.9 ADCV.8 ADCV.7 ADCV.6 ADCV.5 ADCV.4 ADCV.3 ADCV.2 0000,0000 /* A/D 转换结果高8位 */
//sfr ADC_RESL = 0xBE; ADCV.1 ADCV.0 0000,0000 /* A/D 转换结果低2位 */
//sfr ADC_CONTR = 0xBC; //直接用MOV操作,不要用与或
//sfr SPCTL = 0xCE; SPI控制寄存器
// 7 6 5 4 3 2 1 0 Reset Value
// SSIG SPEN DORD MSTR CPOL CPHA SPR1 SPR0 0x00
#define SPI_SSIG_None() SPCTL |= (1<<7) /* 1: 忽略SS脚 */
#define SPI_SSIG_Enable() SPCTL &= ~(1<<7) /* 0: SS脚用于决定主从机 */
#define SPI_Enable() SPCTL |= (1<<6) /* 1: 允许SPI */
#define SPI_Disable() SPCTL &= ~(1<<6) /* 0: 禁止SPI */
#define SPI_LSB_First() SPCTL |= (1<<5) /* 1: LSB先发 */
#define SPI_MSB_First() SPCTL &= ~(1<<5) /* 0: MSB先发 */
#define SPI_Master() SPCTL |= (1<<4) /* 1: 设为主机 */
#define SPI_Slave() SPCTL &= ~(1<<4) /* 0: 设为从机 */
#define SPI_SCLK_NormalH() SPCTL |= (1<<3) /* 1: 空闲时SCLK为高电平 */
#define SPI_SCLK_NormalL() SPCTL &= ~(1<<3) /* 0: 空闲时SCLK为低电平 */
#define SPI_PhaseH() SPCTL |= (1<<2) /* 1: */
#define SPI_PhaseL() SPCTL &= ~(1<<2) /* 0: */
#define SPI_Speed(n) SPCTL = (SPCTL & ~3) | (n) /*设置速度, 0 -- fosc/4, 1 -- fosc/8, 2 -- fosc/16, 3 -- fosc/32 */
//sfr SPDAT = 0xCF; //SPI Data Register 0000,0000
//sfr SPSTAT = 0xCD; //SPI状态寄存器
// 7 6 5 4 3 2 1 0 Reset Value
// SPIF WCOL - - - - - -
#define SPIF 0x80 /* SPI传输完成标志。写入1清0。*/
#define WCOL 0x40 /* SPI写冲突标志。写入1清0。 */
#define SPI_USE_P12P13P14P15() P_SW1 &= ~0x0c /* 将SPI切换到P12(SS) P13(MOSI) P14(MISO) P15(SCLK)(上电默认)。*/
#define SPI_USE_P22P23P24P25() P_SW1 = (P_SW1 & ~0x0c) | 0x04 /* 将SPI切换到P22(SS) P23(MOSI) P24(MISO) P25(SCLK)。*/
#define SPI_USE_P74P75P76P77() P_SW1 = (P_SW1 & ~0x0c) | 0x08 /* 将SPI切换到P74(SS) P75(MOSI) P76(MISO) P77(SCLK)。*/
#define SPI_USE_P35P34P33P32() P_SW1 = P_SW1 | 0x0C /* 将SPI切换到P35(SS) P34(MOSI) P33(MISO) P32(SCLK)。*/
// 7 6 5 4 3 2 1 0 Reset Value
//sfr I2CCFG = 0xFE80H; ENI2C MSSL MSSPEED[5:0] 0000,0000 /* I2C配置寄存器 */
#define I2C_Function(n) (n==0?(I2CCFG &= ~0x80):(I2CCFG |= 0x80)) //0:禁止 I2C 功能;1:使能 I2C 功能
#define I2C_ENABLE() I2CCFG |= 0x80 /* 使能 I2C 功能 */
#define I2C_DISABLE() I2CCFG &= ~0x80 /* 禁止 I2C 功能 */
#define I2C_Master() I2CCFG |= 0x40 /* 1: 设为主机 */
#define I2C_Slave() I2CCFG &= ~0x40 /* 0: 设为从机 */
#define I2C_SetSpeed(n) I2CCFG = (I2CCFG & ~0x3f) | (n & 0x3f) /* 总线速度=Fosc/2/(Speed*2+4) */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr I2CMSCR = 0xFE81H; EMSI - - - MSCMD[3:0] 0000,0000 /* I2C配置寄存器 */
#define I2C_Master_Inturrupt(n) (n==0?(I2CMSCR &= ~0x80):(I2CMSCR |= 0x80)) //0:禁止 I2C 功能;1:使能 I2C 功能
#define I2C_CMD_None 0
#define I2C_CMD_Start 1
#define I2C_CMD_Send 2
#define I2C_CMD_RACK 3
#define I2C_CMD_Read 4
#define I2C_CMD_SACK 5
#define I2C_CMD_Stop 6
#define I2C_CMD_RFU1 7
#define I2C_CMD_RFU2 8
#define I2C_CMD_Start_Send_RACK 9
#define I2C_CMD_Send_RACK 10
#define I2C_CMD_Read_SACK 11
#define I2C_CMD_Read_SNAK 12
#define I2C_Command(n) I2CMSCR = (I2CMSCR & ~0x0f) | (n & 0x0f) /* 主机命令 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr I2CMSST = 0xFE82H; MSBUSY MSIF - - - - MSACKI MSACKO 0000,0000 /* I2C主机状态寄存器 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr I2CMSAUX = 0xFE88H; - - - - - - - WDTA 0000,0000 /* I2C主机辅助控制寄存器 */
#define I2C_WDTA_EN() I2CMSAUX |= 0x01 /* 使能自动发送 */
#define I2C_WDTA_DIS() I2CMSAUX &= ~0x01 /* 禁止自动发送 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr I2CSLCR = 0xFE83H; - ESTAI ERXI ETXI ESTOI - - SLRET 0000,0000 /* I2C从机控制寄存器 */
#define I2C_ESTAI_EN() I2CSLCR |= 0x40 /* 使能从机接收START信号中断 */
#define I2C_ESTAI_DIS() I2CSLCR &= ~0x40 /* 禁止从机接收START信号中断 */
#define I2C_ERXI_EN() I2CSLCR |= 0x20 /* 使能从机接收1字节数据中断 */
#define I2C_ERXI_DIS() I2CSLCR &= ~0x20 /* 禁止从机接收1字节数据中断 */
#define I2C_ETXI_EN() I2CSLCR |= 0x10 /* 使能从机发送1字节数据中断 */
#define I2C_ETXI_DIS() I2CSLCR &= ~0x10 /* 禁止从机发送1字节数据中断 */
#define I2C_ESTOI_EN() I2CSLCR |= 0x08 /* 使能从机接收STOP信号中断 */
#define I2C_ESTOI_DIS() I2CSLCR &= ~0x08 /* 禁止从机接收STOP信号中断 */
#define I2C_SLRET() I2CSLCR |= 0x01 /* 复位从机模式 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr I2CSLST = 0xFE84H; SLBUSY STAIF RXIF TXIF STOIF - SLACKI SLACKO 0000,0000 /* I2C从机状态寄存器 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr I2CSLADR = 0xFE85H; I2CSLADR[7:1] MA 0000,0000 /* I2C从机地址寄存器 */
#define I2C_Address(n) I2CSLADR = (I2CSLADR & 0x01) | (n << 1) /* 从机地址 */
#define I2C_MATCH_EN() I2CSLADR &= ~0x01 /* 使能从机地址比较功能,只接受相匹配地址 */
#define I2C_MATCH_DIS() I2CSLADR |= 0x01 /* 禁止从机地址比较功能,接受所有设备地址 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_ENO = 0xFEB1H; ENO4N ENO4P ENO3N ENO3P ENO2N ENO2P ENO1N ENO1P 0000,0000 /* 输出使能寄存器 */
//sfr PWMB_ENO = 0xFEB5H; - ENO8P - ENO7P - ENO6P - ENO5P 0000,0000 /* 输出使能寄存器 */
#define PWM1P_OUT_EN() PWMA_ENO |= 0x01 /* 使能 PWM1P 输出 */
#define PWM1P_OUT_DIS() PWMA_ENO &= ~0x01 /* 禁止 PWM1P 输出 */
#define PWM1N_OUT_EN() PWMA_ENO |= 0x02 /* 使能 PWM1N 输出 */
#define PWM1N_OUT_DIS() PWMA_ENO &= ~0x02 /* 禁止 PWM1N 输出 */
#define PWM2P_OUT_EN() PWMA_ENO |= 0x04 /* 使能 PWM2P 输出 */
#define PWM2P_OUT_DIS() PWMA_ENO &= ~0x04 /* 禁止 PWM2P 输出 */
#define PWM2N_OUT_EN() PWMA_ENO |= 0x08 /* 使能 PWM2N 输出 */
#define PWM2N_OUT_DIS() PWMA_ENO &= ~0x08 /* 禁止 PWM2N 输出 */
#define PWM3P_OUT_EN() PWMA_ENO |= 0x10 /* 使能 PWM3P 输出 */
#define PWM3P_OUT_DIS() PWMA_ENO &= ~0x10 /* 禁止 PWM3P 输出 */
#define PWM3N_OUT_EN() PWMA_ENO |= 0x20 /* 使能 PWM3N 输出 */
#define PWM3N_OUT_DIS() PWMA_ENO &= ~0x20 /* 禁止 PWM3N 输出 */
#define PWM4P_OUT_EN() PWMA_ENO |= 0x40 /* 使能 PWM3P 输出 */
#define PWM4P_OUT_DIS() PWMA_ENO &= ~0x40 /* 禁止 PWM3P 输出 */
#define PWM4N_OUT_EN() PWMA_ENO |= 0x80 /* 使能 PWM3N 输出 */
#define PWM4N_OUT_DIS() PWMA_ENO &= ~0x80 /* 禁止 PWM3N 输出 */
#define PWM5P_OUT_EN() PWMB_ENO |= 0x01 /* 使能 PWM5P 输出 */
#define PWM5P_OUT_DIS() PWMB_ENO &= ~0x01 /* 禁止 PWM5P 输出 */
#define PWM6P_OUT_EN() PWMB_ENO |= 0x04 /* 使能 PWM6P 输出 */
#define PWM6P_OUT_DIS() PWMB_ENO &= ~0x04 /* 禁止 PWM6P 输出 */
#define PWM7P_OUT_EN() PWMB_ENO |= 0x10 /* 使能 PWM7P 输出 */
#define PWM7P_OUT_DIS() PWMB_ENO &= ~0x10 /* 禁止 PWM7P 输出 */
#define PWM8P_OUT_EN() PWMB_ENO |= 0x40 /* 使能 PWM8P 输出 */
#define PWM8P_OUT_DIS() PWMB_ENO &= ~0x40 /* 禁止 PWM8P 输出 */
#define PWMA_OutChannelSel(n) PWMA_ENO = n //选择输出通道
#define PWMB_OutChannelSel(n) PWMB_ENO = n //选择输出通道
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_PS = 0xFEB2H; C4PS1 C4PS0 C3PS1 C3PS0 C2PS1 C2PS0 C1PS1 C1PS0 0000,0000 /* 输出使能寄存器 */
//sfr PWMB_PS = 0xFEB6H; C8PS1 C8PS0 C7PS1 C7PS0 C6PS1 C6PS0 C5PS1 C5PS0 0000,0000 /* 输出使能寄存器 */
#define PWM1_USE_P10P11() PWMA_PS = (PWMA_PS & ~0x03) /* PWM 通道 1 输出脚切换到P10(PWM1P) P11(PWM1N) */
#define PWM1_USE_P20P21() PWMA_PS = (PWMA_PS & ~0x03) | 0x01 /* PWM 通道 1 输出脚切换到P20(PWM1P) P21(PWM1N) */
#define PWM1_USE_P60P61() PWMA_PS = (PWMA_PS & ~0x03) | 0x02 /* PWM 通道 1 输出脚切换到P60(PWM1P) P61(PWM1N) */
#define PWM2_USE_P12P13() PWMA_PS = (PWMA_PS & ~0x0C) /* PWM 通道 2 输出脚切换到P12/P54(PWM2P) P13(PWM2N) */
#define PWM2_USE_P22P23() PWMA_PS = (PWMA_PS & ~0x0C) | 0x04 /* PWM 通道 2 输出脚切换到P22(PWM2P) P23(PWM2N) */
#define PWM2_USE_P62P63() PWMA_PS = (PWMA_PS & ~0x0C) | 0x08 /* PWM 通道 2 输出脚切换到P62(PWM2P) P63(PWM2N) */
#define PWM3_USE_P14P15() PWMA_PS = (PWMA_PS & ~0x30) /* PWM 通道 3 输出脚切换到P14(PWM3P) P15(PWM3N) */
#define PWM3_USE_P24P25() PWMA_PS = (PWMA_PS & ~0x30) | 0x10 /* PWM 通道 3 输出脚切换到P24(PWM3P) P25(PWM3N) */
#define PWM3_USE_P64P65() PWMA_PS = (PWMA_PS & ~0x30) | 0x20 /* PWM 通道 3 输出脚切换到P64(PWM3P) P65(PWM3N) */
#define PWM4_USE_P16P17() PWMA_PS = (PWMA_PS & ~0xC0) /* PWM 通道 4 输出脚切换到P16(PWM4P) P17(PWM4N) */
#define PWM4_USE_P26P27() PWMA_PS = (PWMA_PS & ~0xC0) | 0x40 /* PWM 通道 4 输出脚切换到P26(PWM4P) P27(PWM4N) */
#define PWM4_USE_P66P67() PWMA_PS = (PWMA_PS & ~0xC0) | 0x80 /* PWM 通道 4 输出脚切换到P66(PWM4P) P67(PWM4N) */
#define PWM4_USE_P34P33() PWMA_PS = (PWMA_PS | 0xC0) /* PWM 通道 4 输出脚切换到P34(PWM4P) P33(PWM4N) */
#define PWM5_USE_P20() PWMB_PS = (PWMB_PS & ~0x03) /* PWM 通道 5 输出脚切换到P20(PWM5) */
#define PWM5_USE_P17() PWMB_PS = (PWMB_PS & ~0x03) | 0x01 /* PWM 通道 5 输出脚切换到P17(PWM5) */
#define PWM5_USE_P00() PWMB_PS = (PWMB_PS & ~0x03) | 0x02 /* PWM 通道 5 输出脚切换到P00(PWM5) */
#define PWM5_USE_P74() PWMB_PS = (PWMB_PS | 0x03) /* PWM 通道 5 输出脚切换到P74(PWM5) */
#define PWM6_USE_P21() PWMB_PS = (PWMB_PS & ~0x0C) /* PWM 通道 6 输出脚切换到P21(PWM6) */
#define PWM6_USE_P54() PWMB_PS = (PWMB_PS & ~0x0C) | 0x04 /* PWM 通道 6 输出脚切换到P54(PWM6) */
#define PWM6_USE_P01() PWMB_PS = (PWMB_PS & ~0x0C) | 0x08 /* PWM 通道 6 输出脚切换到P01(PWM6) */
#define PWM6_USE_P75() PWMB_PS = (PWMB_PS | 0x0C) /* PWM 通道 6 输出脚切换到P75(PWM6) */
#define PWM7_USE_P22() PWMB_PS = (PWMB_PS & ~0x30) /* PWM 通道 7 输出脚切换到P22(PWM7) */
#define PWM7_USE_P33() PWMB_PS = (PWMB_PS & ~0x30) | 0x10 /* PWM 通道 7 输出脚切换到P33(PWM7) */
#define PWM7_USE_P02() PWMB_PS = (PWMB_PS & ~0x30) | 0x20 /* PWM 通道 7 输出脚切换到P02(PWM7) */
#define PWM7_USE_P76() PWMB_PS = (PWMB_PS | 0x30) /* PWM 通道 7 输出脚切换到P76(PWM7) */
#define PWM8_USE_P23() PWMB_PS = (PWMB_PS & ~0xC0) /* PWM 通道 8 输出脚切换到P23(PWM8) */
#define PWM8_USE_P34() PWMB_PS = (PWMB_PS & ~0xC0) | 0x40 /* PWM 通道 8 输出脚切换到P34(PWM8) */
#define PWM8_USE_P03() PWMB_PS = (PWMB_PS & ~0xC0) | 0x80 /* PWM 通道 8 输出脚切换到P03(PWM8) */
#define PWM8_USE_P77() PWMB_PS = (PWMB_PS | 0xC0) /* PWM 通道 8 输出脚切换到P77(PWM8) */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_IOAUX = 0xFEB3H; AUX4N AUX4P AUX3N AUX3P AUX2N AUX2P AUX1N AUX1P 0000,0000 /* 输出附加使能寄存器 */
//sfr PWMB_IOAUX = 0xFEB7H; - AUX8P - AUX7P - AUX6P - AUX5P 0000,0000 /* 输出附加使能寄存器 */
#define AUX4N (1<<7)
#define AUX4P (1<<6)
#define AUX3N (1<<5)
#define AUX3P (1<<4)
#define AUX2N (1<<3)
#define AUX2P (1<<2)
#define AUX1N (1<<1)
#define AUX1P (1)
#define AUX8P (1<<6)
#define AUX7P (1<<4)
#define AUX6P (1<<2)
#define AUX5P (1)
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CR1 = 0xFEC0H; ARPEA CMSA1 CMSA0 DIRA OPMA URSA UDISA CENA 0000,0000 /* 控制寄存器 1 */
//sfr PWMB_CR1 = 0xFEE0H; ARPEB CMSB1 CMSB0 DIRB OPMB URSB UDISB CENB 0000,0000 /* 控制寄存器 1 */
#define ARPE1 (1<<7)
#define ARPE2 (1<<7)
#define PWMA_AlignMode_Edge() PWMA_CR1 = (PWMA_CR1 & ~0x60)
#define PWMA_AlignMode_Mid1() PWMA_CR1 = (PWMA_CR1 & ~0x60) | 0x20
#define PWMA_AlignMode_Mid2() PWMA_CR1 = (PWMA_CR1 & ~0x60) | 0x40
#define PWMA_AlignMode_Mid3() PWMA_CR1 = (PWMA_CR1 | 0x60)
#define PWMA_DIR_UP() PWMA_CR1 &= ~0x10
#define PWMA_DIR_DN() PWMA_CR1 |= 0x10
#define PWMA_OPMA(n) (n==0?(PWMA_CR1 &= ~0x08):(PWMA_CR1 |= 0x08)) //单脉冲模式 0:在发生更新事件时,计数器不停止;1:在发生下一次更新事件时,清除 CEN 位,计数器停止
#define PWMA_URSA(n) (n==0?(PWMA_CR1 &= ~0x04):(PWMA_CR1 |= 0x04)) //更新请求源
#define PWMA_UDISA(n) (n==0?(PWMA_CR1 &= ~0x02):(PWMA_CR1 |= 0x02)) //禁止更新 0:产生更新(UEV)事件;1:不产生更新事件
#define PWMA_CEN_Enable() PWMA_CR1 |= 0x01 //1:使能计数器
#define PWMA_CEN_Disable() PWMA_CR1 &= ~0x01 //0:禁止计数器
#define PWMB_AlignMode_Edge() PWMB_CR1 = (PWMB_CR1 & ~0x60)
#define PWMB_AlignMode_Mid1() PWMB_CR1 = (PWMB_CR1 & ~0x60) | 0x20
#define PWMB_AlignMode_Mid2() PWMB_CR1 = (PWMB_CR1 & ~0x60) | 0x40
#define PWMB_AlignMode_Mid3() PWMB_CR1 = (PWMB_CR1 | 0x60)
#define PWMB_DIR_UP() PWMB_CR1 &= ~0x10
#define PWMB_DIR_DN() PWMB_CR1 |= 0x10
#define PWMB_OPMB(n) (n==0?(PWMB_CR1 &= ~0x08):(PWMB_CR1 |= 0x08)) //单脉冲模式 0:在发生更新事件时,计数器不停止;1:在发生下一次更新事件时,清除 CEN 位,计数器停止
#define PWMB_URSB(n) (n==0?(PWMB_CR1 &= ~0x04):(PWMB_CR1 |= 0x04)) //更新请求源
#define PWMB_UDISB(n) (n==0?(PWMB_CR1 &= ~0x02):(PWMB_CR1 |= 0x02)) //禁止更新 0:产生更新(UEV)事件;1:不产生更新事件
#define PWMB_CEN_Enable() PWMB_CR1 |= 0x01 //1:使能计数器
#define PWMB_CEN_Disable() PWMB_CR1 &= ~0x01 //0:禁止计数器
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CR2 = 0xFEC1H; TI1S MMSA2 MMSA1 MMSA0 - COMSA - CCPCA 0000,x0x0 /* 控制寄存器 2 */
//sfr PWMB_CR2 = 0xFEE1H; TI5S MMSB2 MMSB1 MMSB0 - COMSB - CCPCB 0000,x0xx /* 控制寄存器 2 */
#define PWM1P_TI1() PWMA_CR2 &= ~0x80
#define PWM1P2P3P_XOR_TI1() PWMA_CR2 |= 0x80
#define PWM5P_TI2() PWMB_CR2 &= ~0x80
#define PWM5P6P7P_XOR_TI2() PWMB_CR2 |= 0x80
#define MMSn_RESET 0 //复位
#define MMSn_ENABLE 1 //使能
#define MMSn_UPDATE 2 //更新
#define MMSn_COMP_TRGO 3 //比较脉冲
#define MMSn_OC1REF_TRGO 4 //比较
#define MMSn_OC2REF_TRGO 5 //比较
#define MMSn_OC3REF_TRGO 6 //比较
#define MMSn_OC4REF_TRGO 7 //比较
#define PWMA_MainModeSel(n) PWMA_CR2 = (PWMA_CR2 & ~0x70) | (n<<4) //主模式选择
#define PWMB_MainModeSel(n) PWMB_CR2 = (PWMB_CR2 & ~0x70) | (n<<4) //主模式选择
//0:当 CCPC=1 时,只有在 COMG 位置 1 的时候这些控制位才被更新
//1:当 CCPC=1 时,只有在 COMG 位置 1 或 TRGI 发生上升沿的时候这些控制位才被更新
#define PWMA_COMSUpdateCtrl(n) PWMA_CR2 = (n==0?(PWMA_CR2 &= ~0x04):(PWMA_CR2 |= 0x04)) //捕获/比较控制位的更新控制选择
#define PWMB_COMSUpdateCtrl(n) PWMB_CR2 = (n==0?(PWMB_CR2 &= ~0x04):(PWMB_CR2 |= 0x04)) //捕获/比较控制位的更新控制选择
//0: CCIE, CCINE, CCiP, CCiNP 和 OCIM 位不是预装载的
//1: CCIE, CCINE, CCiP, CCiNP 和 OCIM 位是预装载的;设置该位后,它们只在设置了 COMG位后被更新。
#define PWMA_CCPCAPreloaded(n) PWMA_CR2 = (n==0?(PWMA_CR2 &= ~0x01):(PWMA_CR2 |= 0x01)) //捕获/比较预装载控制位(该位只对具有互补输出的通道起作用)
#define PWMB_CCPCBPreloaded(n) PWMA_CR2 = (n==0?(PWMA_CR2 &= ~0x01):(PWMA_CR2 |= 0x01)) //捕获/比较预装载控制位(该位只对具有互补输出的通道起作用)
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_SMCR = 0xFEC2H; MSMA TSA2 TSA1 TSA0 - SMSA2 SMSA1 SMSA0 0000,x000 /* 从模式控制寄存器 */
//sfr PWMB_SMCR = 0xFEE2H; MSMB TSB2 TSB1 TSB0 - SMSB2 SMSB1 SMSB0 0000,x000 /* 从模式控制寄存器 */
#define SMCR_TSn_ITR2 2
#define SMCR_TSn_EDGE 4
#define SMCR_TSn_TIMER1 5
#define SMCR_TSn_TIMER2 6
#define SMCR_TSn_ETRF 7
#define PWMA_SMCR_Source(n) PWMA_SMCR = (PWMA_SMCR & ~0x70) | (n<<4) //触发源选择
#define PWMB_SMCR_Source(n) PWMB_SMCR = (PWMB_SMCR & ~0x70) | (n<<4) //触发源选择
#define SMCR_SMSA_INSIDE_CLK 0
#define SMCR_SMSA_ENCODER_M1 1
#define SMCR_SMSA_ENCODER_M2 2
#define SMCR_SMSA_ENCODER_M3 3
#define SMCR_SMSA_RESET 4
#define SMCR_SMSA_GATE 5
#define SMCR_SMSA_TRIG 6
#define SMCR_SMSA_EXT_CLK 7
#define PWMA_SMCR_SMS(n) PWMA_SMCR = (PWMA_SMCR & ~0x07) | (n & 7) //时钟/触发/从模式选择
#define PWMB_SMCR_SMS(n) PWMB_SMCR = (PWMB_SMCR & ~0x07) | (n & 7) //时钟/触发/从模式选择
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_ETR = 0xFEC3H; ETP1 ECE1 ETPS11 ETPS10 ETF13 ETF12 ETF11 ETF10 0000,0000 /* 外部触发寄存器 */
//sfr PWMB_ETR = 0xFEE3H; ETP2 ECE2 ETPS21 ETPS20 ETF23 ETF22 ETF21 ETF20 0000,0000 /* 外部触发寄存器 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_IER = 0xFEC4H; BIEA TIEA COMIEA CC4IE CC3IE CC2IE CC1IE UIEA 0000,0000 /* 中断使能寄存器 */
//sfr PWMB_IER = 0xFEE4H; BIEB TIEB COMIEB CC8IE CC7IE CC6IE CC5IE UIEB 0000,0000 /* 中断使能寄存器 */
#define PWMA_UIEA_Enable() PWMA_IER |= 0x01 //1:允许更新中断
#define PWMA_UIEA_Disable() PWMA_IER &= ~0x01 //0:禁止更新中断
#define PWMA_CC1IE_Enable() PWMA_IER |= 0x02 //1:允许捕获/比较中断
#define PWMA_CC1IE_Disable() PWMA_IER &= ~0x02 //0:禁止捕获/比较中断
#define PWMA_CC2IE_Enable() PWMA_IER |= 0x04 //1:允许捕获/比较中断
#define PWMA_CC2IE_Disable() PWMA_IER &= ~0x04 //0:禁止捕获/比较中断
#define PWMA_CC3IE_Enable() PWMA_IER |= 0x08 //1:允许捕获/比较中断
#define PWMA_CC3IE_Disable() PWMA_IER &= ~0x08 //0:禁止捕获/比较中断
#define PWMA_CC4IE_Enable() PWMA_IER |= 0x10 //1:允许捕获/比较中断
#define PWMA_CC4IE_Disable() PWMA_IER &= ~0x10 //0:禁止捕获/比较中断
#define PWMA_COMIEA_Enable() PWMA_IER |= 0x20 //1:允许COM中断
#define PWMA_COMIEA_Disable() PWMA_IER &= ~0x20 //0:禁止COM中断
#define PWMA_TIEA_Enable() PWMA_IER |= 0x40 //1:允许触发中断
#define PWMA_TIEA_Disable() PWMA_IER &= ~0x40 //0:禁止触发中断
#define PWMA_BIEA_Enable() PWMA_IER |= 0x80 //1:允许刹车中断
#define PWMA_BIEA_Disable() PWMA_IER &= ~0x80 //0:禁止刹车中断
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_SR1 = 0xFEC5H; BIF1 TIF1 COMIF1 CC4IF CC3IF CC2IF CC1IF UIF1 0000,0000 /* 状态寄存器 1 */
//sfr PWMB_SR1 = 0xFEE5H; BIF2 TIF2 COMIF2 CC8IF CC7IF CC6IF CC5IF UIF2 0000,0000 /* 状态寄存器 1 */
#define UIF1 1
#define CC1IF (1<<1)
#define CC2IF (1<<2)
#define CC3IF (1<<3)
#define CC4IF (1<<4)
#define COMIF1 (1<<5)
#define TIF1 (1<<6)
#define BIF1 (1<<7)
#define UIF2 1
#define CC5IF (1<<1)
#define CC6IF (1<<2)
#define CC7IF (1<<3)
#define CC8IF (1<<4)
#define COMIF2 (1<<5)
#define TIF2 (1<<6)
#define BIF2 (1<<7)
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_SR2 = 0xFEC6H; - - - CC4OF CC3OF CC2OF CC1OF - xxx0,000x /* 状态寄存器 2 */
//sfr PWMB_SR2 = 0xFEE6H; - - - CC8OF CC7OF CC6OF CC5OF - xxx0,000x /* 状态寄存器 2 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_EGR = 0xFEC7H; BG1 TG1 COMG1 CC4G CC3G CC2G CC1G UG1 0000,0000 /* 事件产生寄存器 */
//sfr PWMB_EGR = 0xFEE7H; BG2 TG2 COMG2 CC8G CC7G CC6G CC5G UG2 0000,0000 /* 事件产生寄存器 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCMR1 = 0xFEC8H; OC1CE OC1M2 OC1M1 OC1M0 OC1PE OC1FE CC1S1 CC1S0 0000,0000 /* 捕获/比较模式寄存器 1 - 通道配置为比较输出模式 */
//sfr PWMB_CCMR1 = 0xFEE8H; OC5CE OC5M2 OC5M1 OC5M0 OC5PE OC5FE CC5S1 CC5S0 0000,0000 /* 捕获/比较模式寄存器 1 - 通道配置为比较输出模式 */
#define OCnCE (1<<7)
#define CCMRn_FREEZE 0x00 //冻结
#define CCMRn_MATCH_VALID 0x10 //匹配时设置通道 n 的输出为有效电平
#define CCMRn_MATCH_INVALID 0x20 //匹配时设置通道 n 的输出为无效电平
#define CCMRn_ROLLOVER 0x30 //翻转
#define CCMRn_FORCE_INVALID 0x40 //强制为无效电平
#define CCMRn_FORCE_VALID 0x50 //强制为有效电平
#define CCMRn_PWM_MODE1 0x60 //PWM 模式 1
#define CCMRn_PWM_MODE2 0x70 //PWM 模式 2
#define PWMA_OC1ModeSet(n) PWMA_CCMR1 = (PWMA_CCMR1 & ~0x70) | (n) //输出比较模式设置
#define PWMB_OC5ModeSet(n) PWMB_CCMR1 = (PWMB_CCMR1 & ~0x70) | (n) //输出比较模式设置
#define PWMA_OC1_ReloadEnable() PWMA_CCMR1 |= 0x08 //1:开启 OC1PE 输出比较的预装载功能
#define PWMA_OC1_RelosdDisable() PWMA_CCMR1 &= ~0x08 //0:禁止 OC1PE 输出比较的预装载功能
#define PWMB_OC5_ReloadEnable() PWMB_CCMR1 |= 0x08 //1:开启 OC5PE 输出比较的预装载功能
#define PWMB_OC5_RelosdDisable() PWMB_CCMR1 &= ~0x08 //0:禁止 OC5PE 输出比较的预装载功能
#define PWMA_OC1_FastEnable() PWMA_CCMR1 |= 0x04 //1:开启 OC1FE 输出比较快速功能
#define PWMA_OC1_FastDisable() PWMA_CCMR1 &= ~0x04 //0:禁止 OC1FE 输出比较快速功能
#define PWMB_OC5_FastEnable() PWMB_CCMR1 |= 0x04 //1:开启 OC5FE 输出比较快速功能
#define PWMB_OC5_FastDisable() PWMB_CCMR1 &= ~0x04 //0:禁止 OC5FE 输出比较快速功能
#define CCAS_OUTPUT 0x00 //输出
#define CCAS_IUTPUT_TI1FP1 0x01 //输入,IC1/IC2/IC3/IC4 映射在 TI1FP1 上
#define CCAS_IUTPUT_TI2FP1 0x02 //输入,IC1/IC2/IC3/IC4 映射在 TI2FP1 上
#define CCAS_IUTPUT_TRC 0x03 //输入,IC1/IC2/IC3/IC4 映射在 TRC 上
#define CCBS_OUTPUT 0x00 //输出
#define CCBS_IUTPUT_TI5FP5 0x01 //输入,IC5/IC6/IC7/IC8 映射在 TI5FP5 上
#define CCBS_IUTPUT_TI6FP5 0x02 //输入,IC5/IC6/IC7/IC8 映射在 TI6FP5 上
#define CCBS_IUTPUT_TRC 0x03 //输入,IC5/IC6/IC7/IC8 映射在 TRC 上
#define PWMA_CC1S_Direction(n) PWMA_CCMR1 = (PWMA_CCMR1 & ~0x03) | (n) //捕获/比较 1 选择。这两位定义通道的方向(输入/输出),及输入脚的选择
#define PWMB_CC5S_Direction(n) PWMB_CCMR1 = (PWMB_CCMR1 & ~0x03) | (n) //捕获/比较 5 选择。这两位定义通道的方向(输入/输出),及输入脚的选择
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCMR1 = 0xFEC8H; IC1F3 IC1F2 IC1F1 IC1F0 IC1PSC1 IC1PSC0 CC1S1 CC1S0 0000,0000 /* 捕获/比较模式寄存器 1 - 通道配置为捕获输入模式 */
//sfr PWMB_CCMR1 = 0xFEE8H; IC5F3 IC5F2 IC5F1 IC5F0 IC5PSC1 IC5PSC0 CC5S1 CC5S0 0000,0000 /* 捕获/比较模式寄存器 1 - 通道配置为捕获输入模式 */
#define ICnF_01_Clock 0
#define ICnF_02_Clock 1
#define ICnF_04_Clock 2
#define ICnF_08_Clock 3
#define ICnF_12_Clock 4
#define ICnF_16_Clock 5
#define ICnF_24_Clock 6
#define ICnF_32_Clock 7
#define ICnF_48_Clock 8
#define ICnF_64_Clock 9
#define ICnF_80_Clock 10
#define ICnF_96_Clock 11
#define ICnF_128_Clock 12
#define ICnF_160_Clock 13
#define ICnF_192_Clock 14
#define ICnF_256_Clock 15
#define PWMA_IC1F_FilterClock(n) PWMA_CCMR1 = (PWMA_CCMR1 & 0x0F) | (n<<4) //输入捕获 1 滤波器选择,该位域定义了 TIn 的采样频率及数字滤波器长度
#define PWMB_IC5F_FilterClock(n) PWMB_CCMR1 = (PWMB_CCMR1 & 0x0F) | (n<<4) //输入捕获 5 滤波器选择,该位域定义了 TIn 的采样频率及数字滤波器长度
#define PWMA_IC1PSC_PrescalerSet(n) PWMA_CCMR1 = (PWMA_CCMR1 & 0xF3) | ((n&3)<<2) //输入/捕获 1 预分频器,0~3
#define PWMB_IC5PSC_PrescalerSet(n) PWMB_CCMR1 = (PWMB_CCMR1 & 0xF3) | ((n&3)<<2) //输入/捕获 5 预分频器,0~3
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCMR2 = 0xFEC9H; OC2CE OC2M2 OC2M1 OC2M0 OC2PE OC2FE CC2S1 CC2S0 0000,0000 /* 捕获/比较模式寄存器 2 - 通道配置为比较输出模式 */
//sfr PWMB_CCMR2 = 0xFEE9H; OC6CE OC6M2 OC6M1 OC6M0 OC6PE OC6FE CC6S1 CC6S0 0000,0000 /* 捕获/比较模式寄存器 2 - 通道配置为比较输出模式 */
#define PWMA_OC2ModeSet(n) PWMA_CCMR2 = (PWMA_CCMR2 & ~0x70) | (n) //输出比较模式设置
#define PWMB_OC6ModeSet(n) PWMB_CCMR2 = (PWMB_CCMR2 & ~0x70) | (n) //输出比较模式设置
#define PWMA_OC2_ReloadEnable() PWMA_CCMR2 |= 0x08 //1:开启 OC2PE 输出比较的预装载功能
#define PWMA_OC2_RelosdDisable() PWMA_CCMR2 &= ~0x08 //0:禁止 OC2PE 输出比较的预装载功能
#define PWMB_OC6_ReloadEnable() PWMB_CCMR2 |= 0x08 //1:开启 OC6PE 输出比较的预装载功能
#define PWMB_OC6_RelosdDisable() PWMB_CCMR2 &= ~0x08 //0:禁止 OC6PE 输出比较的预装载功能
#define PWMA_OC2_FastEnable() PWMA_CCMR2 |= 0x04 //1:开启 OC2FE 输出比较快速功能
#define PWMA_OC2_FastDisable() PWMA_CCMR2 &= ~0x04 //0:禁止 OC2FE 输出比较快速功能
#define PWMB_OC6_FastEnable() PWMB_CCMR2 |= 0x04 //1:开启 OC6FE 输出比较快速功能
#define PWMB_OC6_FastDisable() PWMB_CCMR2 &= ~0x04 //0:禁止 OC6FE 输出比较快速功能
#define PWMA_CC2S_Direction(n) PWMA_CCMR2 = (PWMA_CCMR2 & ~0x03) | (n) //捕获/比较 2 选择。这两位定义通道的方向(输入/输出),及输入脚的选择
#define PWMB_CC6S_Direction(n) PWMB_CCMR2 = (PWMB_CCMR2 & ~0x03) | (n) //捕获/比较 6 选择。这两位定义通道的方向(输入/输出),及输入脚的选择
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCMR2 = 0xFEC9H; IC2F3 IC2F2 IC2F1 IC2F0 IC2PSC1 IC2PSC0 CC2S1 CC2S0 0000,0000 /* 捕获/比较模式寄存器 2 - 通道配置为捕获输入模式 */
//sfr PWMB_CCMR2 = 0xFEE9H; IC6F3 IC6F2 IC6F1 IC6F0 IC6PSC1 IC6PSC0 CC6S1 CC6S0 0000,0000 /* 捕获/比较模式寄存器 2 - 通道配置为捕获输入模式 */
#define PWMA_IC2F_FilterClock(n) PWMA_CCMR2 = (PWMA_CCMR2 & 0x0F) | (n<<4) //输入捕获 2 滤波器选择,该位域定义了 TIn 的采样频率及数字滤波器长度
#define PWMB_IC6F_FilterClock(n) PWMB_CCMR2 = (PWMB_CCMR2 & 0x0F) | (n<<4) //输入捕获 6 滤波器选择,该位域定义了 TIn 的采样频率及数字滤波器长度
#define PWMA_IC2PSC_PrescalerSet(n) PWMA_CCMR2 = (PWMA_CCMR2 & 0xF3) | ((n&3)<<2) //输入/捕获 2 预分频器,0~3
#define PWMB_IC6PSC_PrescalerSet(n) PWMB_CCMR2 = (PWMB_CCMR2 & 0xF3) | ((n&3)<<2) //输入/捕获 6 预分频器,0~3
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCMR3 = 0xFECAH; OC3CE OC3M2 OC3M1 OC3M0 OC3PE OC3FE CC3S1 CC3S0 0000,0000 /* 捕获/比较模式寄存器 3 - 通道配置为比较输出模式 */
//sfr PWMB_CCMR3 = 0xFEEAH; OC7CE OC7M2 OC7M1 OC7M0 OC7PE OC7FE CC7S1 CC7S0 0000,0000 /* 捕获/比较模式寄存器 3 - 通道配置为比较输出模式 */
#define PWMA_OC3ModeSet(n) PWMA_CCMR3 = (PWMA_CCMR3 & ~0x70) | (n) //输出比较模式设置
#define PWMB_OC7ModeSet(n) PWMB_CCMR3 = (PWMB_CCMR3 & ~0x70) | (n) //输出比较模式设置
#define PWMA_OC3_ReloadEnable() PWMA_CCMR3 |= 0x08 //1:开启 OC3PE 输出比较的预装载功能
#define PWMA_OC3_RelosdDisable() PWMA_CCMR3 &= ~0x08 //0:禁止 OC3PE 输出比较的预装载功能
#define PWMB_OC7_ReloadEnable() PWMB_CCMR3 |= 0x08 //1:开启 OC7PE 输出比较的预装载功能
#define PWMB_OC7_RelosdDisable() PWMB_CCMR3 &= ~0x08 //0:禁止 OC7PE 输出比较的预装载功能
#define PWMA_OC3_FastEnable() PWMA_CCMR3 |= 0x04 //1:开启 OC3FE 输出比较快速功能
#define PWMA_OC3_FastDisable() PWMA_CCMR3 &= ~0x04 //0:禁止 OC3FE 输出比较快速功能
#define PWMB_OC7_FastEnable() PWMB_CCMR3 |= 0x04 //1:开启 OC7FE 输出比较快速功能
#define PWMB_OC7_FastDisable() PWMB_CCMR3 &= ~0x04 //0:禁止 OC7FE 输出比较快速功能
#define PWMA_CC3S_Direction(n) PWMA_CCMR3 = (PWMA_CCMR3 & ~0x03) | (n) //捕获/比较 3 选择。这两位定义通道的方向(输入/输出),及输入脚的选择
#define PWMB_CC7S_Direction(n) PWMB_CCMR3 = (PWMB_CCMR3 & ~0x03) | (n) //捕获/比较 7 选择。这两位定义通道的方向(输入/输出),及输入脚的选择
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCMR3 = 0xFECAH; IC3F3 IC3F2 IC3F1 IC3F0 IC3PSC1 IC3PSC0 CC3S1 CC3S0 0000,0000 /* 捕获/比较模式寄存器 3 - 通道配置为捕获输入模式 */
//sfr PWMB_CCMR3 = 0xFEEAH; IC7F3 IC7F2 IC7F1 IC7F0 IC7PSC1 IC7PSC0 CC7S1 CC7S0 0000,0000 /* 捕获/比较模式寄存器 3 - 通道配置为捕获输入模式 */
#define PWMA_IC3F_FilterClock(n) PWMA_CCMR3 = (PWMA_CCMR3 & 0x0F) | (n<<4) //输入捕获 3 滤波器选择,该位域定义了 TIn 的采样频率及数字滤波器长度
#define PWMB_IC7F_FilterClock(n) PWMB_CCMR3 = (PWMB_CCMR3 & 0x0F) | (n<<4) //输入捕获 7 滤波器选择,该位域定义了 TIn 的采样频率及数字滤波器长度
#define PWMA_IC3PSC_PrescalerSet(n) PWMA_CCMR3 = (PWMA_CCMR3 & 0xF3) | ((n&3)<<2) //输入/捕获 3 预分频器,0~3
#define PWMB_IC7PSC_PrescalerSet(n) PWMB_CCMR3 = (PWMB_CCMR3 & 0xF3) | ((n&3)<<2) //输入/捕获 7 预分频器,0~3
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCMR4 = 0xFECBH; OC4CE OC4M2 OC4M1 OC4M0 OC4PE OC4FE CC4S1 CC4S0 0000,0000 /* 捕获/比较模式寄存器 4 - 通道配置为比较输出模式 */
//sfr PWMB_CCMR4 = 0xFEEBH; OC8CE OC8M2 OC8M1 OC8M0 OC8PE OC8FE CC8S1 CC8S0 0000,0000 /* 捕获/比较模式寄存器 4 - 通道配置为比较输出模式 */
#define PWMA_OC4ModeSet(n) PWMA_CCMR4 = (PWMA_CCMR4 & ~0x70) | (n) //输出比较模式设置
#define PWMB_OC8ModeSet(n) PWMB_CCMR4 = (PWMB_CCMR4 & ~0x70) | (n) //输出比较模式设置
#define PWMA_OC4_ReloadEnable() PWMA_CCMR4 |= 0x08 //1:开启 OC4PE 输出比较的预装载功能
#define PWMA_OC4_RelosdDisable() PWMA_CCMR4 &= ~0x08 //0:禁止 OC4PE 输出比较的预装载功能
#define PWMB_OC8_ReloadEnable() PWMB_CCMR4 |= 0x08 //1:开启 OC8PE 输出比较的预装载功能
#define PWMB_OC8_RelosdDisable() PWMB_CCMR4 &= ~0x08 //0:禁止 OC8PE 输出比较的预装载功能
#define PWMA_OC4_FastEnable() PWMA_CCMR4 |= 0x04 //1:开启 OC4FE 输出比较快速功能
#define PWMA_OC4_FastDisable() PWMA_CCMR4 &= ~0x04 //0:禁止 OC4FE 输出比较快速功能
#define PWMB_OC8_FastEnable() PWMB_CCMR4 |= 0x04 //1:开启 OC8FE 输出比较快速功能
#define PWMB_OC8_FastDisable() PWMB_CCMR4 &= ~0x04 //0:禁止 OC8FE 输出比较快速功能
#define PWMA_CC4S_Direction(n) PWMA_CCMR4 = (PWMA_CCMR4 & ~0x03) | (n) //捕获/比较 4 选择。这两位定义通道的方向(输入/输出),及输入脚的选择
#define PWMB_CC8S_Direction(n) PWMB_CCMR4 = (PWMB_CCMR4 & ~0x03) | (n) //捕获/比较 8 选择。这两位定义通道的方向(输入/输出),及输入脚的选择
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCMR4 = 0xFECBH; IC4F3 IC4F2 IC4F1 IC4F0 IC4PSC1 IC4PSC0 CC4S1 CC4S0 0000,0000 /* 捕获/比较模式寄存器 4 - 通道配置为捕获输入模式 */
//sfr PWMB_CCMR4 = 0xFEEBH; IC8F3 IC8F2 IC8F1 IC8F0 IC8PSC1 IC8PSC0 CC8S1 CC8S0 0000,0000 /* 捕获/比较模式寄存器 4 - 通道配置为捕获输入模式 */
#define PWMA_IC4F_FilterClock(n) PWMA_CCMR4 = (PWMA_CCMR4 & 0x0F) | (n<<4) //输入捕获 4 滤波器选择,该位域定义了 TIn 的采样频率及数字滤波器长度
#define PWMB_IC8F_FilterClock(n) PWMB_CCMR4 = (PWMB_CCMR4 & 0x0F) | (n<<4) //输入捕获 8 滤波器选择,该位域定义了 TIn 的采样频率及数字滤波器长度
#define PWMA_IC4PSC_PrescalerSet(n) PWMA_CCMR4 = (PWMA_CCMR4 & 0xF3) | ((n&3)<<2) //输入/捕获 4 预分频器,0~3
#define PWMB_IC8PSC_PrescalerSet(n) PWMB_CCMR4 = (PWMB_CCMR4 & 0xF3) | ((n&3)<<2) //输入/捕获 8 预分频器,0~3
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCER1 = 0xFECCH; CC2NP CC2NE CC2P CC2E CC1NP CC1NE CC1P CC1E 0000,0000 /* 捕获/比较使能寄存器 1 */
//sfr PWMB_CCER1 = 0xFEECH; - - CC6P CC6E - - CC5P CC5E 0000,0000 /* 捕获/比较使能寄存器 1 */
#define PWMA_CCER1_Disable() PWMA_CCER1 = 0x00 //关闭所有输入捕获/比较输出
#define PWMA_CC1E_Enable() PWMA_CCER1 |= 0x01 //1:开启输入捕获/比较输出
#define PWMA_CC1E_Disable() PWMA_CCER1 &= ~0x01 //0:关闭输入捕获/比较输出
#define PWMA_CC1P_LowValid() PWMA_CCER1 |= 0x02 //1:低电平有效
#define PWMA_CC1P_HighValid() PWMA_CCER1 &= ~0x02 //0:高电平有效
#define PWMA_CC1P_CaptureRise() PWMA_CCER1 |= 0x02 //1:捕获发生在 TI1F 或 TI2F 的下降沿
#define PWMA_CC1P_CaptureFall() PWMA_CCER1 &= ~0x02 //0:捕获发生在 TI1F 或 TI2F 的上升沿
#define PWMA_CC1NE_Enable() PWMA_CCER1 |= 0x04 //1:开启比较输出
#define PWMA_CC1NE_Disable() PWMA_CCER1 &= ~0x04 //0:关闭比较输出
#define PWMA_CC1NP_LowValid() PWMA_CCER1 |= 0x08 //1:低电平有效
#define PWMA_CC1NP_HighValid() PWMA_CCER1 &= ~0x08 //0:高电平有效
#define PWMA_CC2E_Enable() PWMA_CCER1 |= 0x10 //1:开启输入捕获/比较输出
#define PWMA_CC2E_Disable() PWMA_CCER1 &= ~0x10 //0:关闭输入捕获/比较输出
#define PWMA_CC2P_LowValid() PWMA_CCER1 |= 0x20 //1:低电平有效
#define PWMA_CC2P_HighValid() PWMA_CCER1 &= ~0x20 //0:高电平有效
#define PWMA_CC2P_CaptureRise() PWMA_CCER1 |= 0x20 //1:捕获发生在 TI1F 或 TI2F 的下降沿
#define PWMA_CC2P_CaptureFall() PWMA_CCER1 &= ~0x20 //0:捕获发生在 TI1F 或 TI2F 的上升沿
#define PWMA_CC2NE_Enable() PWMA_CCER1 |= 0x40 //1:开启比较输出
#define PWMA_CC2NE_Disable() PWMA_CCER1 &= ~0x40 //0:关闭比较输出
#define PWMA_CC2NP_LowValid() PWMA_CCER1 |= 0x80 //1:低电平有效
#define PWMA_CC2NP_HighValid() PWMA_CCER1 &= ~0x80 //0:高电平有效
#define PWMB_CCER1_Disable() PWMB_CCER1 = 0x00 //关闭所有输入捕获/比较输出
#define PWMB_CC5E_Enable() PWMB_CCER1 |= 0x01 //1:开启输入捕获/比较输出
#define PWMB_CC5E_Disable() PWMB_CCER1 &= ~0x01 //0:关闭输入捕获/比较输出
#define PWMB_CC5P_LowValid() PWMB_CCER1 |= 0x02 //1:低电平有效
#define PWMB_CC5P_HighValid() PWMB_CCER1 &= ~0x02 //0:高电平有效
#define PWMB_CC5P_CaptureRise() PWMB_CCER1 |= 0x02 //1:捕获发生在 TI1F 或 TI2F 的下降沿
#define PWMB_CC5P_CaptureFall() PWMB_CCER1 &= ~0x02 //0:捕获发生在 TI1F 或 TI2F 的上升沿
#define PWMB_CC6E_Enable() PWMB_CCER1 |= 0x10 //1:开启输入捕获/比较输出
#define PWMB_CC6E_Disable() PWMB_CCER1 &= ~0x10 //0:关闭输入捕获/比较输出
#define PWMB_CC6P_LowValid() PWMB_CCER1 |= 0x20 //1:低电平有效
#define PWMB_CC6P_HighValid() PWMB_CCER1 &= ~0x20 //0:高电平有效
#define PWMB_CC6P_CaptureRise() PWMB_CCER1 |= 0x20 //1:捕获发生在 TI1F 或 TI2F 的下降沿
#define PWMB_CC6P_CaptureFall() PWMB_CCER1 &= ~0x20 //0:捕获发生在 TI1F 或 TI2F 的上升沿
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCER2 = 0xFECDH; CC4NP CC4NE CC4P CC4E CC3NP CC3NE CC3P CC3E 0000,0000 /* 捕获/比较使能寄存器 2 */
//sfr PWMB_CCER2 = 0xFEEDH; - - CC8P CC8E - - CC7P CC7E 0000,0000 /* 捕获/比较使能寄存器 2 */
#define PWMA_CCER2_Disable() PWMA_CCER2 = 0x00 //关闭所有输入捕获/比较输出
#define PWMA_CC3E_Enable() PWMA_CCER2 |= 0x01 //1:开启输入捕获/比较输出
#define PWMA_CC3E_Disable() PWMA_CCER2 &= ~0x01 //0:关闭输入捕获/比较输出
#define PWMA_CC3P_LowValid() PWMA_CCER2 |= 0x02 //1:低电平有效
#define PWMA_CC3P_HighValid() PWMA_CCER2 &= ~0x02 //0:高电平有效
#define PWMA_CC3P_CaptureRise() PWMA_CCER2 |= 0x02 //1:捕获发生在 TI1F 或 TI2F 的下降沿
#define PWMA_CC3P_CaptureFall() PWMA_CCER2 &= ~0x02 //0:捕获发生在 TI1F 或 TI2F 的上升沿
#define PWMA_CC3NE_Enable() PWMA_CCER2 |= 0x04 //1:开启比较输出
#define PWMA_CC3NE_Disable() PWMA_CCER2 &= ~0x04 //0:关闭比较输出
#define PWMA_CC3NP_LowValid() PWMA_CCER2 |= 0x08 //1:低电平有效
#define PWMA_CC3NP_HighValid() PWMA_CCER2 &= ~0x08 //0:高电平有效
#define PWMA_CC4E_Enable() PWMA_CCER2 |= 0x10 //1:开启输入捕获/比较输出
#define PWMA_CC4E_Disable() PWMA_CCER2 &= ~0x10 //0:关闭输入捕获/比较输出
#define PWMA_CC4P_LowValid() PWMA_CCER2 |= 0x20 //1:低电平有效
#define PWMA_CC4P_HighValid() PWMA_CCER2 &= ~0x20 //0:高电平有效
#define PWMA_CC4P_CaptureRise() PWMA_CCER2 |= 0x20 //1:捕获发生在 TI1F 或 TI2F 的下降沿
#define PWMA_CC4P_CaptureFall() PWMA_CCER2 &= ~0x20 //0:捕获发生在 TI1F 或 TI2F 的上升沿
#define PWMA_CC4NE_Enable() PWMA_CCER2 |= 0x40 //1:开启比较输出
#define PWMA_CC4NE_Disable() PWMA_CCER2 &= ~0x40 //0:关闭比较输出
#define PWMA_CC4NP_LowValid() PWMA_CCER2 |= 0x80 //1:低电平有效
#define PWMA_CC4NP_HighValid() PWMA_CCER2 &= ~0x80 //0:高电平有效
#define PWMB_CCER2_Disable() PWMB_CCER2 = 0x00 //关闭所有输入捕获/比较输出
#define PWMB_CC7E_Enable() PWMB_CCER2 |= 0x01 //1:开启输入捕获/比较输出
#define PWMB_CC7E_Disable() PWMB_CCER2 &= ~0x01 //0:关闭输入捕获/比较输出
#define PWMB_CC7P_LowValid() PWMB_CCER2 |= 0x02 //1:低电平有效
#define PWMB_CC7P_HighValid() PWMB_CCER2 &= ~0x02 //0:高电平有效
#define PWMB_CC7P_CaptureRise() PWMB_CCER2 |= 0x02 //1:捕获发生在 TI1F 或 TI2F 的下降沿
#define PWMB_CC7P_CaptureFall() PWMB_CCER2 &= ~0x02 //0:捕获发生在 TI1F 或 TI2F 的上升沿
#define PWMB_CC8E_Enable() PWMB_CCER2 |= 0x10 //1:开启输入捕获/比较输出
#define PWMB_CC8E_Disable() PWMB_CCER2 &= ~0x10 //0:关闭输入捕获/比较输出
#define PWMB_CC8P_LowValid() PWMB_CCER2 |= 0x20 //1:低电平有效
#define PWMB_CC8P_HighValid() PWMB_CCER2 &= ~0x20 //0:高电平有效
#define PWMB_CC8P_CaptureRise() PWMB_CCER2 |= 0x20 //1:捕获发生在 TI1F 或 TI2F 的下降沿
#define PWMB_CC8P_CaptureFall() PWMB_CCER2 &= ~0x20 //0:捕获发生在 TI1F 或 TI2F 的上升沿
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CNTRH = 0xFECEH; CNT1[15:8] 0000,0000 /* 计数器高 8 位 */
//sfr PWMB_CNTRH = 0xFEEEH; CNT2[15:8] 0000,0000 /* 计数器高 8 位 */
//sfr PWMA_CNTRL = 0xFECFH; CNT1[7:0] 0000,0000 /* 计数器低 8 位 */
//sfr PWMB_CNTRL = 0xFEEFH; CNT2[7:0] 0000,0000 /* 计数器低 8 位 */
#define PWMA_Counter(n) PWMA_CNTR = n //计数器设置
#define PWMB_Counter(n) PWMB_CNTR = n //计数器设置
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_PSCRH = 0xFED0H; PSC1[15:8] 0000,0000 /* 预分频器高 8 位 */
//sfr PWMB_PSCRH = 0xFEF0H; PSC2[15:8] 0000,0000 /* 预分频器高 8 位 */
//sfr PWMA_PSCRL = 0xFED1H; PSC1[7:0] 0000,0000 /* 预分频器低 8 位 */
//sfr PWMB_PSCRL = 0xFEF1H; PSC2[7:0] 0000,0000 /* 预分频器低 8 位 */
#define PWMA_Prescaler(n) PWMA_PSCR = n //预分频器设置
#define PWMB_Prescaler(n) PWMB_PSCR = n //预分频器设置
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_ARRH = 0xFED2H; ARR1[15:8] 0000,0000 /* 自动重装载寄存器高 8 位 */
//sfr PWMB_ARRH = 0xFEF2H; ARR2[15:8] 0000,0000 /* 自动重装载寄存器高 8 位 */
//sfr PWMA_ARRL = 0xFED3H; ARR1[7:0] 0000,0000 /* 自动重装载寄存器低 8 位 */
//sfr PWMB_ARRL = 0xFEF3H; ARR2[7:0] 0000,0000 /* 自动重装载寄存器低 8 位 */
#define PWMA_AutoReload(n) PWMA_ARR = n //自动重装载寄存器设置
#define PWMB_AutoReload(n) PWMB_ARR = n //自动重装载寄存器设置
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_RCR = 0xFED4H; REP1[7:0] 0000,0000 /* 重复计数器寄存器 */
//sfr PWMB_RCR = 0xFEF4H; REP2[7:0] 0000,0000 /* 重复计数器寄存器 */
#define PWMA_ReCounter(n) PWMA_RCR = n //重复计数器寄存器设置
#define PWMB_ReCounter(n) PWMB_RCR = n //重复计数器寄存器设置
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCR1H = 0xFED5H; CCR1[15:8] 0000,0000 /* 捕获/比较寄存器 1 高 8 位 */
//sfr PWMB_CCR5H = 0xFEF5H; CCR5[15:8] 0000,0000 /* 捕获/比较寄存器 1 高 8 位 */
//sfr PWMA_CCR1L = 0xFED6H; CCR1[7:0] 0000,0000 /* 捕获/比较寄存器 1 低 8 位 */
//sfr PWMB_CCR5L = 0xFEF6H; CCR5[7:0] 0000,0000 /* 捕获/比较寄存器 1 低 8 位 */
#define PWMA_Duty1(n) PWMA_CCR1 = n //捕获/比较寄存器 1 设置
#define PWMB_Duty5(n) PWMB_CCR5 = n //捕获/比较寄存器 1 设置
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCR2H = 0xFED7H; CCR2[15:8] 0000,0000 /* 捕获/比较寄存器 2 高 8 位 */
//sfr PWMB_CCR6H = 0xFEF7H; CCR6[15:8] 0000,0000 /* 捕获/比较寄存器 2 高 8 位 */
//sfr PWMA_CCR2L = 0xFED8H; CCR2[7:0] 0000,0000 /* 捕获/比较寄存器 2 低 8 位 */
//sfr PWMB_CCR6L = 0xFEF8H; CCR6[7:0] 0000,0000 /* 捕获/比较寄存器 2 低 8 位 */
#define PWMA_Duty2(n) PWMA_CCR2 = n //捕获/比较寄存器 2 设置
#define PWMB_Duty6(n) PWMB_CCR6 = n //捕获/比较寄存器 2 设置
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCR3H = 0xFED9H; CCR3[15:8] 0000,0000 /* 捕获/比较寄存器 3 高 8 位 */
//sfr PWMB_CCR7H = 0xFEF9H; CCR7[15:8] 0000,0000 /* 捕获/比较寄存器 3 高 8 位 */
//sfr PWMA_CCR3L = 0xFEDAH; CCR3[7:0] 0000,0000 /* 捕获/比较寄存器 3 低 8 位 */
//sfr PWMB_CCR7L = 0xFEFAH; CCR7[7:0] 0000,0000 /* 捕获/比较寄存器 3 低 8 位 */
#define PWMA_Duty3(n) PWMA_CCR3 = n //捕获/比较寄存器 3 设置
#define PWMB_Duty7(n) PWMB_CCR7 = n //捕获/比较寄存器 3 设置
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_CCR4H = 0xFEDBH; CCR4[15:8] 0000,0000 /* 捕获/比较寄存器 4 高 8 位 */
//sfr PWMB_CCR8H = 0xFEFBH; CCR8[15:8] 0000,0000 /* 捕获/比较寄存器 4 高 8 位 */
//sfr PWMA_CCR4L = 0xFEDCH; CCR4[7:0] 0000,0000 /* 捕获/比较寄存器 4 低 8 位 */
//sfr PWMB_CCR8L = 0xFEFCH; CCR8[7:0] 0000,0000 /* 捕获/比较寄存器 4 低 8 位 */
#define PWMA_Duty4(n) PWMA_CCR4 = n //捕获/比较寄存器 4 设置
#define PWMB_Duty8(n) PWMB_CCR8 = n //捕获/比较寄存器 4 设置
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_BRK = 0xFEDDH; MOE1 AOE1 BKP1 BKE1 OSSR1 OSSI1 LOCK11 LOCK10 0000,0000 /* 刹车寄存器 */
//sfr PWMB_BRK = 0xFEFDH; MOE2 AOE2 BKP2 BKE2 OSSR2 OSSI2 LOCK21 LOCK20 0000,0000 /* 刹车寄存器 */
#define PWMA_BrakeOutputEnable() PWMA_BRK |= 0x80 //1:主输出使能
#define PWMA_BrakeOutputDisable() PWMA_BRK &= ~0x80 //0:主输出禁止
#define PWMB_BrakeOutputEnable() PWMB_BRK |= 0x80 //1:主输出使能
#define PWMB_BrakeOutputDisable() PWMB_BRK &= ~0x80 //0:主输出禁止
#define PWMA_BrakeAutoOutputEnable() PWMA_BRK |= 0x40 //1:自动输出使能
#define PWMA_BrakeAutoOutputDisable() PWMA_BRK &= ~0x40 //0:自动输出禁止
#define PWMB_BrakeAutoOutputEnable() PWMB_BRK |= 0x40 //1:自动输出使能
#define PWMB_BrakeAutoOutputDisable() PWMB_BRK &= ~0x40 //0:自动输出禁止
#define PWMA_BrakeHighValid() PWMA_BRK |= 0x20 //1:刹车输入高电平有效
#define PWMA_BrakeLowValid() PWMA_BRK &= ~0x20 //0:刹车输入低电平有效
#define PWMB_BrakeHighValid() PWMB_BRK |= 0x20 //1:刹车输入高电平有效
#define PWMB_BrakeLowValid() PWMB_BRK &= ~0x20 //0:刹车输入低电平有效
#define PWMA_BrakeEnable() PWMA_BRK |= 0x10 //1:开启刹车输入
#define PWMA_BrakeDisable() PWMA_BRK &= ~0x10 //0:禁止刹车输入
#define PWMB_BrakeEnable() PWMB_BRK |= 0x10 //1:开启刹车输入
#define PWMB_BrakeDisable() PWMB_BRK &= ~0x10 //0:禁止刹车输入
//运行模式下“关闭状态”选择
#define PWMA_OSSRnEnable() PWMA_BRK |= 0x08 //1:当 PWM 不工作时,一旦 CCiE=1 或 CCiNE=1,首先开启 OC/OCN 并输出无效电平,然后置OC/OCN 使能输出信号=1
#define PWMA_OSSRnDisable() PWMA_BRK &= ~0x08 //0:当 PWM 不工作时,禁止 OC/OCN 输出(OC/OCN 使能输出信号=0)
#define PWMB_OSSRnEnable() PWMB_BRK |= 0x08 //1:当 PWM 不工作时,一旦 CCiE=1 或 CCiNE=1,首先开启 OC/OCN 并输出无效电平,然后置OC/OCN 使能输出信号=1
#define PWMB_OSSRnDisable() PWMB_BRK &= ~0x08 //0:当 PWM 不工作时,禁止 OC/OCN 输出(OC/OCN 使能输出信号=0)
//空闲模式下“关闭状态”选择
#define PWMA_OSSInEnable() PWMA_BRK |= 0x04 //1:当 PWM 不工作时,一旦 CCiE=1 或 CCiNE=1,OC/OCN 首先输出其空闲电平,然后 OC/OCN使能输出信号=1
#define PWMA_OSSInDisable() PWMA_BRK &= ~0x04 //0:当 PWM 不工作时,禁止 OC/OCN 输出(OC/OCN 使能输出信号=0)
#define PWMB_OSSInEnable() PWMB_BRK |= 0x04 //1:当 PWM 不工作时,一旦 CCiE=1 或 CCiNE=1,OC/OCN 首先输出其空闲电平,然后 OC/OCN使能输出信号=1
#define PWMB_OSSInDisable() PWMB_BRK &= ~0x04 //0:当 PWM 不工作时,禁止 OC/OCN 输出(OC/OCN 使能输出信号=0)
#define PWMn_lock_L0 0 //寄存器无写保护
#define PWMn_lock_L1 1 //锁定级别 1:不能写入 PWMn_BKR 寄存器的 BKE、BKP、AOE 位和PWMn_OISR 寄存器的 OISI 位
#define PWMn_lock_L2 2 //锁定级别 2:不能写入锁定级别 1 中的各位,也不能写入 CC 极性位以及 OSSR/OSSI 位
#define PWMn_lock_L3 3 //锁定级别 3:不能写入锁定级别 2 中的各位,也不能写入 CC 控制位
#define PWMA_LockLevelSet(n) PWMA_BRK = (PWMA_BRK & ~0x03) | (n&3) //锁定设置。该位为防止软件错误而提供的写保护措施
#define PWMB_LockLevelSet(n) PWMB_BRK = (PWMB_BRK & ~0x03) | (n&3) //锁定设置。该位为防止软件错误而提供的写保护措施
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_DTR = 0xFEDEH; DTG1[7:0] 0000,0000 /* 死区寄存器 */
//sfr PWMB_DTR = 0xFEFEH; DTG2[7:0] 0000,0000 /* 死区寄存器 */
//DTGn[7:5] = 000~011: 死区时间 = DTGn[7:0] * tCK_PSC
//DTGn[7:5] = 100~101: 死区时间 = (64 + DTGn[6:0]) * 2 * tCK_PSC
//DTGn[7:5] = 110: 死区时间 = (32 + DTGn[5:0]) * 8 * tCK_PSC
//DTGn[7:5] = 111: 死区时间 = (32 + DTGn[4:0]) * 16 * tCK_PSC
#define PWMA_DeadTime(n) PWMA_DTR = n //死区发生器设置
#define PWMB_DeadTime(n) PWMB_DTR = n //死区发生器设置
// 7 6 5 4 3 2 1 0 Reset Value
//sfr PWMA_OISR = 0xFEDFH; OIS4N OIS4 OIS3N OIS3 OIS2N OIS2 OIS1N OIS1 0000,0000 /* 输出空闲状态寄存器 */
//sfr PWMB_OISR = 0xFEFFH; - OIS8 - OIS7 - OIS6 - OIS5 x0x0,x0x0 /* 输出空闲状态寄存器 */
#define PWMA_OC1_OUT_0() PWMA_OISR &= ~0x01 /* 当 MOE=0 时,如果 OC1N 使能,则在一个死区后,OC1=0 */
#define PWMA_OC1_OUT_1() PWMA_OISR |= 0x01 /* 当 MOE=0 时,如果 OC1N 使能,则在一个死区后,OC1=1 */
#define PWMA_OC1N_OUT_0() PWMA_OISR &= ~0x02 /* 当 MOE=0 时,则在一个死区后,OC1N=0 */
#define PWMA_OC1N_OUT_1() PWMA_OISR |= 0x02 /* 当 MOE=0 时,则在一个死区后,OC1N=1 */
#define PWMA_OC2_OUT_0() PWMA_OISR &= ~0x04 /* 当 MOE=0 时,如果 OC2N 使能,则在一个死区后,OC2=0 */
#define PWMA_OC2_OUT_1() PWMA_OISR |= 0x04 /* 当 MOE=0 时,如果 OC2N 使能,则在一个死区后,OC2=1 */
#define PWMA_OC2N_OUT_0() PWMA_OISR &= ~0x08 /* 当 MOE=0 时,则在一个死区后,OC2N=0 */
#define PWMA_OC2N_OUT_1() PWMA_OISR |= 0x08 /* 当 MOE=0 时,则在一个死区后,OC2N=1 */
#define PWMA_OC3_OUT_0() PWMA_OISR &= ~0x10 /* 当 MOE=0 时,如果 OC3N 使能,则在一个死区后,OC3=0 */
#define PWMA_OC3_OUT_1() PWMA_OISR |= 0x10 /* 当 MOE=0 时,如果 OC3N 使能,则在一个死区后,OC3=1 */
#define PWMA_OC3N_OUT_0() PWMA_OISR &= ~0x20 /* 当 MOE=0 时,则在一个死区后,OC3N=0 */
#define PWMA_OC3N_OUT_1() PWMA_OISR |= 0x20 /* 当 MOE=0 时,则在一个死区后,OC3N=1 */
#define PWMA_OC4_OUT_0() PWMA_OISR &= ~0x40 /* 当 MOE=0 时,如果 OC4N 使能,则在一个死区后,OC4=0 */
#define PWMA_OC4_OUT_1() PWMA_OISR |= 0x40 /* 当 MOE=0 时,如果 OC4N 使能,则在一个死区后,OC4=1 */
#define PWMA_OC4N_OUT_0() PWMA_OISR &= ~0x80 /* 当 MOE=0 时,则在一个死区后,OC4N=0 */
#define PWMA_OC4N_OUT_1() PWMA_OISR |= 0x80 /* 当 MOE=0 时,则在一个死区后,OC4N=1 */
#define PWMB_OC5_OUT_0() PWMB_OISR &= ~0x01 /* 当 MOE=0 时,则在一个死区后,OC5=0 */
#define PWMB_OC5_OUT_1() PWMB_OISR |= 0x01 /* 当 MOE=0 时,则在一个死区后,OC5=1 */
#define PWMB_OC6_OUT_0() PWMB_OISR &= ~0x04 /* 当 MOE=0 时,则在一个死区后,OC6=0 */
#define PWMB_OC6_OUT_1() PWMB_OISR |= 0x04 /* 当 MOE=0 时,则在一个死区后,OC6=1 */
#define PWMB_OC7_OUT_0() PWMB_OISR &= ~0x10 /* 当 MOE=0 时,则在一个死区后,OC7=0 */
#define PWMB_OC7_OUT_1() PWMB_OISR |= 0x10 /* 当 MOE=0 时,则在一个死区后,OC7=1 */
#define PWMB_OC8_OUT_0() PWMB_OISR &= ~0x40 /* 当 MOE=0 时,则在一个死区后,OC8=0 */
#define PWMB_OC8_OUT_1() PWMB_OISR |= 0x40 /* 当 MOE=0 时,则在一个死区后,OC8=1 */
/*
;PCA_PWMn: 7 6 5 4 3 2 1 0
; EBSn_1 EBSn_0 - - - - EPCnH EPCnL
;B5-B2: 保留
;B1(EPCnH): 在PWM模式下,与CCAPnH组成9位数。
;B0(EPCnL): 在PWM模式下,与CCAPnL组成9位数。
*/
#define PWM0_NORMAL() PCA_PWM0 &= ~3 /* PWM0正常输出(默认) */
#define PWM0_OUT_0() PCA_PWM0 |= 3, CCAP0H = 0xff /* PWM0一直输出0 */
#define PWM0_OUT_1() PCA_PWM0 &= 0xc0, CCAP0H = 0 /* PWM0一直输出1 */
#define PWM1_NORMAL() PCA_PWM1 &= ~3 /* PWM1正常输出(默认) */
#define PWM1_OUT_0() PCA_PWM1 |= 3, CCAP1H = 0xff /* PWM1一直输出0 */
#define PWM1_OUT_1() PCA_PWM1 &= 0xc0, CCAP1H = 0 /* PWM1一直输出1 */
#define PWM2_NORMAL() PCA_PWM2 &= ~3 /* PWM2正常输出(默认) */
#define PWM2_OUT_0() PCA_PWM2 |= 3, CCAP2H = 0xff /* PWM2一直输出0 */
#define PWM2_OUT_1() PCA_PWM2 &= 0xc0, CCAP2H = 0 /* PWM2一直输出1 */
//#define PWM3_NORMAL() PCA_PWM3 &= ~3 /* PWM3正常输出(默认) */
//#define PWM3_OUT_0() PCA_PWM3 |= 3, CCAP3H = 0xff /* PWM3一直输出0 */
//#define PWM3_OUT_1() PCA_PWM3 &= 0xc0, CCAP3H = 0 /* PWM3一直输出1 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr CCON = 0xD8; CF CR - - CCF3 CCF2 CCF1 CCF0 00xx,xx00 //PCA 控制寄存器。
sbit CCF0 = CCON^0; /* PCA 模块0中断标志,由硬件置位,必须由软件清0。 */
sbit CCF1 = CCON^1; /* PCA 模块1中断标志,由硬件置位,必须由软件清0。 */
sbit CCF2 = CCON^2; /* PCA 模块2中断标志,由硬件置位,必须由软件清0。 */
//sbit CCF3 = CCON^3; /* PCA 模块3中断标志,由硬件置位,必须由软件清0。 */
sbit CR = CCON^6; /* 1: 允许PCA计数器计数,必须由软件清0。*/
sbit CF = CCON^7; /* PCA计数器溢出(CH,CL由FFFFH变为0000H)标志。PCA计数器溢出后由硬件置位,必须由软件清0。*/
// 7 6 5 4 3 2 1 0 Reset Value
//sfr CMOD = 0xD9; CIDL - - - CPS2 CPS1 CPS0 ECF 0xxx,0000 //PCA 工作模式寄存器。
#define PCA_IDLE_OFF() CMOD |= (1<<7) /* IDLE状态PCA停止计数。 */
#define PCA_IDLE_ON() CMOD &= ~(1<<7) /* IDLE状态PCA继续计数。 */
#define PCA_CLK_12T() CMOD &= ~0x0E /* PCA计数脉冲选择 fosc/12 */
#define PCA_CLK_2T() CMOD = (CMOD & ~0x0E) + 2 /* PCA计数脉冲选择 fosc/2 */
#define PCA_CLK_T0() CMOD = (CMOD & ~0x0E) + 4 /* PCA计数脉冲选择Timer0中断,Timer0可通过AUXR寄存器设置成工作在12T或1T模式。 */
#define PCA_CLK_ECI() CMOD = (CMOD & ~0x0E) + 6 /* PCA计数脉冲选择从ECI/P3.4脚输入的外部时钟,最大 fosc/2。 */
#define PCA_CLK_1T() CMOD = (CMOD & ~0x0E) + 8 /* PCA计数脉冲选择 Fosc */
#define PCA_CLK_4T() CMOD = (CMOD & ~0x0E) + 10 /* PCA计数脉冲选择 Fosc/4 */
#define PCA_CLK_6T() CMOD = (CMOD & ~0x0E) + 12 /* PCA计数脉冲选择 Fosc/6 */
#define PCA_CLK_8T() CMOD = (CMOD & ~0x0E) + 14 /* PCA计数脉冲选择 Fosc/8 */
#define PCA_INT_ENABLE() CMOD |= 1 /* PCA计数器溢出中断允许位,1---允许CF(CCON.7)产生中断。 */
#define PCA_INT_DISABLE() CMOD &= ~1 /* PCA计数器溢出中断禁止。 */
// 7 6 5 4 3 2 1 0 Reset Value
//sfr P_SW1 = 0xA2; S1_S1 S1_S0 CCP_S1 CCP_S0 SPI_S1 SPI_S0 0 - nn00,000x //Auxiliary Register 1
#define PCA_USE_P12P11P10P37() P_SW1 &= ~0x30 /* 将PCA/PWM切换到P12(ECI) P11(CCP0) P10(CCP1) P37(CCP2)(上电默认) */
#define PCA_USE_P34P35P36P37() P_SW1 = (P_SW1 & ~0x30) | 0x10 /* 将PCA/PWM切换到P34(ECI) P35(CCP0) P36(CCP1) P37(CCP2) */
#define PCA_USE_P24P25P26P27() P_SW1 = (P_SW1 & ~0x30) | 0x20 /* 将PCA/PWM切换到P24(ECI) P25(CCP0) P26(CCP1) P27(CCP2) */
/* 7 6 5 4 3 2 1 0 Reset Value
//sfr CCAPM0 = 0xDA; PWM 寄存器 - ECOM0 CCAPP0 CCAPN0 MAT0 TOG0 PWM0 ECCF0 x000,0000 //PCA 模块0
//sfr CCAPM1 = 0xDB; PWM 寄存器 - ECOM1 CCAPP1 CCAPN1 MAT1 TOG1 PWM1 ECCF1 x000,0000 //PCA 模块1
//sfr CCAPM2 = 0xDC; PWM 寄存器 - ECOM2 CCAPP2 CCAPN2 MAT2 TOG2 PWM2 ECCF2 x000,0000 //PCA 模块2
//sfr CCAPM3 = 0xDD; PWM 寄存器 - ECOM3 CCAPP3 CCAPN3 MAT3 TOG3 PWM3 ECCF3 x000,0000 //PCA 模块3
;ECOMn = 1: 允许比较功能。
;CAPPn = 1: 允许上升沿触发捕捉功能。
;CAPNn = 1: 允许下降沿触发捕捉功能。
;MATn = 1: 当匹配情况发生时,允许CCON中的CCFn置位。
;TOGn = 1: 当匹配情况发生时,CEXn将翻转。(CEX0/PCA0/PWM0/P3.7,CEX1/PCA1/PWM1/P3.5)
;PWMn = 1: 将CEXn设置为PWM输出。
;ECCFn = 1: 允许CCON中的CCFn触发中断。
;ECOMn CAPPn CAPNn MATn TOGn PWMn ECCFn
; 0 0 0 0 0 0 0 00H 未启用任何功能。
; x 1 0 0 0 0 x 20H 16位CEXn上升沿触发捕捉功能。
; x 0 1 0 0 0 x 10H 16位CEXn下降沿触发捕捉功能。
; x 1 1 0 0 0 x 30H 16位CEXn/PCAn边沿(上、下沿)触发捕捉功能。
; 1 0 0 1 0 0 x 48H 16位软件定时器。
; 1 0 0 1 1 0 x 4CH 16位高速脉冲输出。
; 1 0 0 0 0 1 0 42H 8位PWM。无中断
; 1 1 0 0 0 1 1 63H 8位PWM。低变高可产生中断
; 1 0 1 0 0 1 1 53H 8位PWM。高变低可产生中断
; 1 1 1 0 0 1 1 73H 8位PWM。低变高或高变低均可产生中断
;*******************************************************************
;*******************************************************************/
#define PCA0_none() CCAPM0 = 0
#define PCA0_PWM(nbit) CCAPM0 = 0x42,PCA_PWM0 = (PCA_PWM0 & 0x3f) | (nbit<<6)
#define PCA0_PWM_rise_int(nbit) CCAPM0 = 0x63,PCA_PWM0 = (PCA_PWM0 & 0x3f) | (nbit<<6)
#define PCA0_PWM_fall_int(nbit) CCAPM0 = 0x53,PCA_PWM0 = (PCA_PWM0 & 0x3f) | (nbit<<6)
#define PCA0_PWM_edge_int(nbit) CCAPM0 = 0x73,PCA_PWM0 = (PCA_PWM0 & 0x3f) | (nbit<<6)
#define PCA0_capture_rise() CCAPM0 = (0x20 + 1)
#define PCA0_capture_fall() CCAPM0 = (0x10 + 1)
#define PCA0_capture_edge() CCAPM0 = (0x30 + 1)
#define PCA0_16bit_Timer() CCAPM0 = (0x48 + 1)
#define PCA0_High_PulseEnable() CCAPM0 |= 0x04
#define PCA1_none() CCAPM1 = 0
#define PCA1_PWM(nbit) CCAPM1 = 0x42,PCA_PWM1 = (PCA_PWM1 & 0x3f) | (nbit<<6)
#define PCA1_PWM_rise_int(nbit) CCAPM1 = 0x63,PCA_PWM1 = (PCA_PWM1 & 0x3f) | (nbit<<6)
#define PCA1_PWM_fall_int(nbit) CCAPM1 = 0x53,PCA_PWM1 = (PCA_PWM1 & 0x3f) | (nbit<<6)
#define PCA1_PWM_edge_int(nbit) CCAPM1 = 0x73,PCA_PWM1 = (PCA_PWM1 & 0x3f) | (nbit<<6)
#define PCA1_capture_rise() CCAPM1 = (0x20 + 1)
#define PCA1_capture_fall() CCAPM1 = (0x10 + 1)
#define PCA1_capture_edge() CCAPM1 = (0x30 + 1)
#define PCA1_16bit_Timer() CCAPM1 = (0x48 + 1)
#define PCA1_High_PulseEnable() CCAPM1 |= 0x04
#define PCA2_none() CCAPM2 = 0
#define PCA2_PWM(nbit) CCAPM2 = 0x42,PCA_PWM2 = (PCA_PWM2 & 0x3f) | (nbit<<6)
#define PCA2_PWM_rise_int(nbit) CCAPM2 = 0x63,PCA_PWM2 = (PCA_PWM2 & 0x3f) | (nbit<<6)
#define PCA2_PWM_fall_int(nbit) CCAPM2 = 0x53,PCA_PWM2 = (PCA_PWM2 & 0x3f) | (nbit<<6)
#define PCA2_PWM_edge_int(nbit) CCAPM2 = 0x73,PCA_PWM2 = (PCA_PWM2 & 0x3f) | (nbit<<6)
#define PCA2_capture_rise() CCAPM2 = (0x20 + 1)
#define PCA2_capture_fall() CCAPM2 = (0x10 + 1)
#define PCA2_capture_edge() CCAPM2 = (0x30 + 1)
#define PCA2_16bit_Timer() CCAPM2 = (0x48 + 1)
#define PCA2_High_PulseEnable() CCAPM2 |= 0x04
//#define PCA3_none() CCAPM3 = 0
//#define PCA3_PWM(nbit) CCAPM3 = 0x42,PCA_PWM3 = (PCA_PWM3 & 0x3f) | (nbit<<6)
//#define PCA3_PWM_rise_int(nbit) CCAPM3 = 0x63,PCA_PWM3 = (PCA_PWM3 & 0x3f) | (nbit<<6)
//#define PCA3_PWM_fall_int(nbit) CCAPM3 = 0x53,PCA_PWM3 = (PCA_PWM3 & 0x3f) | (nbit<<6)
//#define PCA3_PWM_edge_int(nbit) CCAPM3 = 0x73,PCA_PWM3 = (PCA_PWM3 & 0x3f) | (nbit<<6)
//#define PCA3_capture_rise() CCAPM3 = (0x20 + 1)
//#define PCA3_capture_fall() CCAPM3 = (0x10 + 1)
//#define PCA3_capture_edge() CCAPM3 = (0x30 + 1)
//#define PCA3_16bit_Timer() CCAPM3 = (0x48 + 1)
//#define PCA3_High_PulseEnable() CCAPM3 |= 0x04
/**********************************************************/
typedef unsigned char u8;
typedef unsigned int u16;
typedef unsigned long u32;
/**********************************************************/
#define NOP1() _nop_()
#define NOP2() NOP1(),NOP1()
#define NOP3() NOP2(),NOP1()
#define NOP4() NOP3(),NOP1()
#define NOP5() NOP4(),NOP1()
#define NOP6() NOP5(),NOP1()
#define NOP7() NOP6(),NOP1()
#define NOP8() NOP7(),NOP1()
#define NOP9() NOP8(),NOP1()
#define NOP10() NOP9(),NOP1()
#define NOP11() NOP10(),NOP1()
#define NOP12() NOP11(),NOP1()
#define NOP13() NOP12(),NOP1()
#define NOP14() NOP13(),NOP1()
#define NOP15() NOP14(),NOP1()
#define NOP16() NOP15(),NOP1()
#define NOP17() NOP16(),NOP1()
#define NOP18() NOP17(),NOP1()
#define NOP19() NOP18(),NOP1()
#define NOP20() NOP19(),NOP1()
#define NOP21() NOP20(),NOP1()
#define NOP22() NOP21(),NOP1()
#define NOP23() NOP22(),NOP1()
#define NOP24() NOP23(),NOP1()
#define NOP25() NOP24(),NOP1()
#define NOP26() NOP25(),NOP1()
#define NOP27() NOP26(),NOP1()
#define NOP28() NOP27(),NOP1()
#define NOP29() NOP28(),NOP1()
#define NOP30() NOP29(),NOP1()
#define NOP31() NOP30(),NOP1()
#define NOP32() NOP31(),NOP1()
#define NOP33() NOP32(),NOP1()
#define NOP34() NOP33(),NOP1()
#define NOP35() NOP34(),NOP1()
#define NOP36() NOP35(),NOP1()
#define NOP37() NOP36(),NOP1()
#define NOP38() NOP37(),NOP1()
#define NOP39() NOP38(),NOP1()
#define NOP40() NOP39(),NOP1()
#define NOP(N) NOP##N()
/**********************************************/
#define Pin0 0x01 //IO引脚 Px.0
#define Pin1 0x02 //IO引脚 Px.1
#define Pin2 0x04 //IO引脚 Px.2
#define Pin3 0x08 //IO引脚 Px.3
#define Pin4 0x10 //IO引脚 Px.4
#define Pin5 0x20 //IO引脚 Px.5
#define Pin6 0x40 //IO引脚 Px.6
#define Pin7 0x80 //IO引脚 Px.7
#define PinAll 0xFF //IO所有引脚
#define P0n_standard(bitn) P0M1 &= ~(bitn), P0M0 &= ~(bitn) /* 00 */
#define P0n_push_pull(bitn) P0M1 &= ~(bitn), P0M0 |= (bitn) /* 01 */
#define P0n_pure_input(bitn) P0M1 |= (bitn), P0M0 &= ~(bitn) /* 10 */
#define P0n_open_drain(bitn) P0M1 |= (bitn), P0M0 |= (bitn) /* 11 */
#define P1n_standard(bitn) P1M1 &= ~(bitn), P1M0 &= ~(bitn)
#define P1n_push_pull(bitn) P1M1 &= ~(bitn), P1M0 |= (bitn)
#define P1n_pure_input(bitn) P1M1 |= (bitn), P1M0 &= ~(bitn)
#define P1n_open_drain(bitn) P1M1 |= (bitn), P1M0 |= (bitn)
#define P2n_standard(bitn) P2M1 &= ~(bitn), P2M0 &= ~(bitn)
#define P2n_push_pull(bitn) P2M1 &= ~(bitn), P2M0 |= (bitn)
#define P2n_pure_input(bitn) P2M1 |= (bitn), P2M0 &= ~(bitn)
#define P2n_open_drain(bitn) P2M1 |= (bitn), P2M0 |= (bitn)
#define P3n_standard(bitn) P3M1 &= ~(bitn), P3M0 &= ~(bitn)
#define P3n_push_pull(bitn) P3M1 &= ~(bitn), P3M0 |= (bitn)
#define P3n_pure_input(bitn) P3M1 |= (bitn), P3M0 &= ~(bitn)
#define P3n_open_drain(bitn) P3M1 |= (bitn), P3M0 |= (bitn)
#define P4n_standard(bitn) P4M1 &= ~(bitn), P4M0 &= ~(bitn)
#define P4n_push_pull(bitn) P4M1 &= ~(bitn), P4M0 |= (bitn)
#define P4n_pure_input(bitn) P4M1 |= (bitn), P4M0 &= ~(bitn)
#define P4n_open_drain(bitn) P4M1 |= (bitn), P4M0 |= (bitn)
#define P5n_standard(bitn) P5M1 &= ~(bitn), P5M0 &= ~(bitn)
#define P5n_push_pull(bitn) P5M1 &= ~(bitn), P5M0 |= (bitn)
#define P5n_pure_input(bitn) P5M1 |= (bitn), P5M0 &= ~(bitn)
#define P5n_open_drain(bitn) P5M1 |= (bitn), P5M0 |= (bitn)
#define P6n_standard(bitn) P6M1 &= ~(bitn), P6M0 &= ~(bitn)
#define P6n_push_pull(bitn) P6M1 &= ~(bitn), P6M0 |= (bitn)
#define P6n_pure_input(bitn) P6M1 |= (bitn), P6M0 &= ~(bitn)
#define P6n_open_drain(bitn) P6M1 |= (bitn), P6M0 |= (bitn)
#define P7n_standard(bitn) P7M1 &= ~(bitn), P7M0 &= ~(bitn)
#define P7n_push_pull(bitn) P7M1 &= ~(bitn), P7M0 |= (bitn)
#define P7n_pure_input(bitn) P7M1 |= (bitn), P7M0 &= ~(bitn)
#define P7n_open_drain(bitn) P7M1 |= (bitn), P7M0 |= (bitn)
/****************************************************************/
//sfr INT_CLKO = 0x8F; //附加的 SFR WAKE_CLKO (地址:0x8F)
/*
7 6 5 4 3 2 1 0 Reset Value
- EX4 EX3 EX2 - T2CLKO T1CLKO T0CLKO 0000,0000B
b6 - EX4 : 外中断INT4允许
b5 - EX3 : 外中断INT3允许
b4 - EX2 : 外中断INT2允许
b2 - T1CLKO : 允许 T2 溢出脉冲在P3.0脚输出,Fck1 = 1/2 T1 溢出率
b1 - T1CLKO : 允许 T1 溢出脉冲在P3.4脚输出,Fck1 = 1/2 T1 溢出率
b0 - T0CLKO : 允许 T0 溢出脉冲在P3.5脚输出,Fck0 = 1/2 T0 溢出率
*/
#define LVD_InterruptEnable() ELVD = 1
#define LVD_InterruptDisable() ELVD = 0
//sfr WKTCL = 0xAA; //唤醒定时器低字节
//sfr WKTCH = 0xAB; //唤醒定时器高字节
// B7 B6 B5 B4 B3 B2 B1 B0 B7 B6 B5 B4 B3 B2 B1 B0
// WKTEN S11 S10 S9 S8 S7 S6 S5 S4 S3 S2 S1 S0 n * 560us
#define WakeTimerDisable() WKTCH &= 0x7f /* WKTEN = 0 禁止睡眠唤醒定时器 */
#define WakeTimerSet(scale) WKTCL = (scale) % 256,WKTCH = (scale) / 256 | 0x80 /* WKTEN = 1 允许睡眠唤醒定时器 */
//sfr BUS_SPEED = 0xA1; //Stretch register - - - - - - EXRTS1 EXRTSS0 xxxx,xx10
#define BUS_SPEED_1T() BUS_SPEED = BUS_SPEED & ~3
#define BUS_SPEED_2T() BUS_SPEED = (BUS_SPEED & ~3) | 1
#define BUS_SPEED_4T() BUS_SPEED = (BUS_SPEED & ~3) | 2
#define BUS_SPEED_8T() BUS_SPEED = (BUS_SPEED & ~3) | 3
#define BUS_RD_WR_P44_P43() BUS_SPEED = BUS_SPEED & 0x3f
#define BUS_RD_WR_P37_P36() BUS_SPEED = (BUS_SPEED & 0x3f) | 0x40
#define BUS_RD_WR_P42_P40() BUS_SPEED = (BUS_SPEED & 0x3f) | 0x80
/* interrupt vector */
#define INT0_VECTOR 0
#define TIMER0_VECTOR 1
#define INT1_VECTOR 2
#define TIMER1_VECTOR 3
#define UART1_VECTOR 4
#define ADC_VECTOR 5
#define LVD_VECTOR 6
#define PCA_VECTOR 7
#define UART2_VECTOR 8
#define SPI_VECTOR 9
#define INT2_VECTOR 10
#define INT3_VECTOR 11
#define TIMER2_VECTOR 12
#define INT4_VECTOR 16
#define UART3_VECTOR 17
#define UART4_VECTOR 18
#define TIMER3_VECTOR 19
#define TIMER4_VECTOR 20
#define CMP_VECTOR 21
#define PWM0_VECTOR 22
#define PWMFD_VECTOR 23
#define I2C_VECTOR 24
#define USB_VECTOR 25
#define PWMA_VECTOR 26
#define PWMB_VECTOR 27
#define PWM1_VECTOR 28
#define PWM2_VECTOR 29
#define PWM3_VECTOR 30
#define PWM4_VECTOR 31
#define PWM5_VECTOR 32
#define TRUE 1
#define FALSE 0
//=============================================================
//========================================
#define Priority_0 0 //中断优先级为 0 级(最低级)
#define Priority_1 1 //中断优先级为 1 级(较低级)
#define Priority_2 2 //中断优先级为 2 级(较高级)
#define Priority_3 3 //中断优先级为 3 级(最高级)
//========================================
#define ENABLE 1
#define DISABLE 0
#endif
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