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- #ifndef _STC15Fxxxx_H
- #define _STC15Fxxxx_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 AUXR2 = 0x8F;
- sfr RL_TL0 = 0x8A;
- sfr RL_TL1 = 0x8B;
- sfr RL_TH0 = 0x8C;
- sfr RL_TH1 = 0x8D;
- sfr P1 = 0x90;
- sfr P1M1 = 0x91; //P1M1.n,P1M0.n =00--->Standard, 01--->push-pull 實際上1T的都一樣
- 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 CLK_DIV = 0x97;
- sfr PCON2 = 0x97;
- sfr SCON = 0x98;
- sfr SBUF = 0x99;
- sfr S2CON = 0x9A; //
- sfr S2BUF = 0x9B; //
- sfr P1ASF = 0x9D; //只寫,模擬輸入(AD或LVD)選擇
- sfr P2 = 0xA0;
- sfr BUS_SPEED = 0xA1;
- sfr AUXR1 = 0xA2;
- sfr P_SW1 = 0xA2;
- sfr IE = 0xA8;
- sfr SADDR = 0xA9;
- sfr WKTCL = 0xAA; //喚醒定時器低字節
- sfr WKTCH = 0xAB; //喚醒定時器高字節
- sfr S3CON = 0xAC;
- sfr S3BUF = 0xAD;
- sfr IE2 = 0xAF; //STC12C5A60S2系列
- 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; //STC12C5A60S2系列
- sfr IPH2 = 0xB6; //STC12C5A60S2系列
- sfr IPH = 0xB7;
- sfr IP = 0xB8;
- sfr SADEN = 0xB9;
- sfr P_SW2 = 0xBA;
- sfr ADC_CONTR = 0xBC; //帶AD系列
- sfr ADC_RES = 0xBD; //帶AD系列
- sfr ADC_RESL = 0xBE; //帶AD系列
- 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 RL_T4H = 0xD2;
- sfr RL_T4L = 0xD3;
- sfr RL_T3H = 0xD4;
- sfr RL_T3L = 0xD5;
- sfr RL_T2H = 0xD6;
- sfr RL_T2L = 0xD7;
- sfr CCON = 0xD8; //
- sfr CMOD = 0xD9; //
- sfr CCAPM0 = 0xDA; //PCA模塊0的工作模式寄存器。
- sfr CCAPM1 = 0xDB; //PCA模塊1的工作模式寄存器。
- sfr CCAPM2 = 0xDC; //PCA模塊2的工作模式寄存器。
- sfr ACC = 0xE0;
- sfr P7M1 = 0xE1;
- sfr P7M0 = 0xE2;
- sfr P6 = 0xE8;
- sfr CL = 0xE9; //
- sfr CCAP0L = 0xEA; //PCA模塊0的捕捉/比較寄存器低8位。
- sfr CCAP1L = 0xEB; //PCA模塊1的捕捉/比較寄存器低8位。
- sfr CCAP2L = 0xEC; //PCA模塊2的捕捉/比較寄存器低8位。
- sfr B = 0xF0;
- sfr PCA_PWM0 = 0xF2; //PCA模塊0 PWM寄存器。
- sfr PCA_PWM1 = 0xF3; //PCA模塊1 PWM寄存器。
- sfr PCA_PWM2 = 0xF4; //PCA模塊2 PWM寄存器。
- sfr P7 = 0xF8;
- sfr CH = 0xF9;
- sfr CCAP0H = 0xFA; //PCA模塊0的捕捉/比較寄存器高8位。
- sfr CCAP1H = 0xFB; //PCA模塊1的捕捉/比較寄存器高8位。
- sfr CCAP2H = 0xFC; //PCA模塊2的捕捉/比較寄存器高8位。
- /* 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; //定時器1溢出中斷標志位
- sbit TR1 = TCON^6; //定時器1運行控制位
- sbit TF0 = TCON^5; //定時器0溢出中斷標志位
- sbit TR0 = TCON^4; //定時器0運行控制位
- sbit IE1 = TCON^3; //外中斷1標志位
- sbit IT1 = TCON^2; //外中斷1信號方式控制位,1:下降沿中斷,0:上升下降均中斷。
- sbit IE0 = TCON^1; //外中斷0標志位
- sbit IT0 = TCON^0; //外中斷0信號方式控制位,1:下降沿中斷,0:上升下降均中斷。
- /* 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 = P2^4;
- sbit SPI_MOSI_2 = P2^3;
- sbit SPI_MISO_2 = P2^2;
- sbit SPI_SCLK_2 = P2^1;
- sbit SPI_SS_3 = P5^4;
- sbit SPI_MOSI_3 = P4^0;
- sbit SPI_MISO_3 = P4^1;
- sbit SPI_SCLK_3 = P4^3;
- /* 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 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;
- /* SCON */
- sbit SM0 = SCON^7; //SM0/FE SM0 SM1 = 00 ~ 11: 方式0~3
- sbit SM1 = SCON^6; //
- sbit SM2 = SCON^5; //多機通訊
- sbit REN = SCON^4; //接收允許
- sbit TB8 = SCON^3; //發送數據第8位
- sbit RB8 = SCON^2; //接收數據第8位
- sbit TI = SCON^1; //發送中斷標志位
- sbit RI = SCON^0; //接收中斷標志位
- /* IE */
- sbit EA = IE^7; //中斷允許總控制位
- sbit ELVD = IE^6; //低壓監測中斷允許位
- sbit EADC = IE^5; //ADC 中斷 允許位
- sbit ES = IE^4; //串行中斷 允許控制位
- sbit ET1 = IE^3; //定時中斷1允許控制位
- sbit EX1 = IE^2; //外部中斷1允許控制位
- sbit ET0 = IE^1; //定時中斷0允許控制位
- sbit EX0 = IE^0; //外部中斷0允許控制位
- /* IP */
- /*
- sbit PPCA = IP^7; //PCA 中斷 優先級設定位
- sbit PLVD = IP^6; //低壓中斷 優先級設定位
- sbit PADC = IP^5; //ADC 中斷 優先級設定位
- sbit PS = IP^4; //串行中斷0優先級設定位
- sbit PT1 = IP^3; //定時中斷1優先級設定位
- sbit PX1 = IP^2; //外部中斷1優先級設定位
- sbit PT0 = IP^1; //定時中斷0優先級設定位
- sbit PX0 = IP^0; //外部中斷0優先級設定位
- */
- 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; - - - - - - ESPI ES2 0000,0000B //Auxiliary Interrupt
- #define SPI_INT_ENABLE() IE2 |= 2 //允許SPI中斷
- #define SPI_INT_DISABLE() IE2 &= ~2 //允許SPI中斷
- #define UART2_INT_ENABLE() IE2 |= 1 //允許串口2中斷
- #define UART2_INT_DISABLE() IE2 &= ~1 //允許串口2中斷
- // 7 6 5 4 3 2 1 0 Reset Value
- //sfr IP = 0xB8; //中斷優先級低位 PPCA PLVD PADC PS PT1 PX1 PT0 PX0 0000,0000
- //--------
- sbit PPCA = IP^7; //PCA 模塊中斷優先級
- sbit PLVD = IP^6; //低壓監測中斷優先級
- sbit PADC = IP^5; //ADC 中斷優先級
- sbit PS = IP^4; //串行中斷0優先級設定位
- sbit PT1 = IP^3; //定時中斷1優先級設定位
- sbit PX1 = IP^2; //外部中斷1優先級設定位
- sbit PT0 = IP^1; //定時中斷0優先級設定位
- sbit PX0 = IP^0; //外部中斷0優先級設定位
- // 7 6 5 4 3 2 1 0 Reset Value
- //sfr IPH = 0xB7; //中斷優先級高位 PPCAH PLVDH PADCH PSH PT1H PX1H PT0H PX0H 0000,0000
- //sfr IP2 = 0xB5; // - - - - - - PSPI PS2 xxxx,xx00
- //sfr IPH2 = 0xB6; // - - - - - - PSPIH PS2H xxxx,xx00
- #define PPCAH 0x80
- #define PLVDH 0x40
- #define PADCH 0x20
- #define PSH 0x10
- #define PT1H 0x08
- #define PX1H 0x04
- #define PT0H 0x02
- #define PX0H 0x01
- #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
- /*************************************************************************************************/
- #define S1_DoubleRate() PCON |= 0x80
- #define S1_SHIFT() SCON &= 0x3f
- #define S1_8bit() SCON |= 0x40
- #define S1_9bit() SCON |= 0xc0
- #define S1_RX_Enable() SCON |= 0x10
- #define S1_USE_P30P31() P_SW1 &= ~0xc0 //UART1 使用P30 P31口 默認
- #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_TXD_RXD_SHORT() PCON2 |= (1<<4) //將TXD與RXD連接中繼輸出
- #define S1_TXD_RXD_OPEN() PCON2 |= (1<<4) //將TXD與RXD連接中繼斷開 默認
- #define S1_BRT_UseTimer2() AUXR |= 1;
- #define S1_BRT_UseTimer1() AUXR &= ~1;
- // 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_8bit() S2CON &= ~(1<<7) //串口2模式0,8位UART,波特率 = 定時器2的溢出率 / 4
- #define S2_9bit() S2CON |= (1<<7) //串口2模式1,9位UART,波特率 = 定時器2的溢出率 / 4
- #define S2_RX_Enable() S2CON |= (1<<4) //允許串2接收
- #define S2_MODE0() S2CON &= ~(1<<7) //串口2模式0,8位UART,波特率 = 定時器2的溢出率 / 4
- #define S2_MODE1() S2CON |= (1<<7) //串口2模式1,9位UART,波特率 = 定時器2的溢出率 / 4
- #define S2_RX_EN() S2CON |= (1<<4) //允許串2接收
- #define S2_RX_Disable() S2CON &= ~(1<<4) //禁止串2接收
- #define TI2 (S2CON & 2) != 0
- #define RI2 (S2CON & 1) != 0
- #define SET_TI2() S2CON |= 2
- #define CLR_TI2() S2CON &= ~2
- #define CLR_RI2() S2CON &= ~1
- #define S2TB8_SET() S2CON |= 8
- #define S2TB8_CLR() S2CON &= ~8
- #define S2_Int_en() IE2 |= 1 //串口2允許中斷
- #define S2_USE_P10P11() P_SW2 &= ~1 //UART2 使用P1口 默認
- #define S2_USE_P46P47() P_SW2 |= 1 //UART2 使用P4口
- #define S3_USE_P00P01() P_SW2 &= ~2 //UART3 使用P0口 默認
- #define S3_USE_P50P51() P_SW2 |= 2 //UART3 使用P5口
- #define S4_USE_P02P03() P_SW2 &= ~4 //UART4 使用P0口 默認
- #define S4_USE_P52P53() P_SW2 |= 4 //UART4 使用P5口
- /**********************************************************/
- #define Timer0_16bitAutoReload() TMOD &= ~0x03 //16位自動重裝
- #define Timer0_16bit() TMOD = (TMOD & ~0x03) | 0x01 //16位
- #define Timer0_8bitAutoReload() TMOD = (TMOD & ~0x03) | 0x02 //8位自動重裝
- #define Timer0_16bitAutoRL_NoMask() TMOD |= 0x03 //16位自動重裝不可屏蔽中斷
- #define Timer0_AsCounterP32() TMOD |= 4 //時器0用做計數器
- #define Timer0_AsTimer() TMOD &= ~4 //時器0用做定時器
- #define Timer0_ExtControlP34() TMOD |= 4 //時器0由外部INT0高電平允許定時計數
- #define Timer0_Run() TR0 = 1 //允許定時器0計數
- #define Timer0_Stop() TR0 = 0 //禁止定時器0計數
- #define Timer0_InterruptEnable() ET0 = 1 //允許Timer1中斷.
- #define Timer0_InterruptDisable() ET0 = 0 //禁止Timer1中斷.
- #define Timer1_16bitAutoReload() TMOD &= ~0x30 //16位自動重裝
- #define Timer1_16bit() TMOD = (TMOD & ~0x30) | 0x10 //16位
- #define Timer1_8bitAutoReload() TMOD = (TMOD & ~0x30) | 0x20 //8位自動重裝
- #define Timer1_16bitAutoRL_NoMask() TMOD |= 0x30 //16位自動重裝不可屏蔽中斷
- #define Timer1_AsCounterP33() TMOD |= (1<<6) //時器1用做計數器
- #define Timer1_AsTimer() TMOD &= ~(1<<6) //時器1用做定時器
- #define Timer1_ExtControlP35() TMOD |= (1<<7) //時器1由外部INT1高電平允許定時計數
- #define Timer1_Run() TR1 = 1 //允許定時器1計數
- #define Timer1_Stop() TR1 = 0 //禁止定時器1計數
- #define Timer1_InterruptEnable() ET1 = 1 //允許Timer1中斷.
- #define Timer1_InterruptDisable() ET1 = 0 //禁止Timer1中斷.
- // 7 6 5 4 3 2 1 0 Reset Value
- //sfr AUXR = 0x8E; T0x12 T1x12 UART_M0x6 BRTR S2SMOD BRTx12 EXTRAM S1BRS 0000,0000 //Auxiliary Register
- #define Timer0_1T() AUXR |= (1<<7) //Timer0 clodk = fo
- #define Timer0_12T() AUXR &= ~(1<<7) //Timer0 clodk = fo/12 12分頻, default
- #define Timer1_1T() AUXR |= (1<<6) //Timer1 clodk = fo
- #define Timer1_12T() AUXR &= ~(1<<6) //Timer1 clodk = fo/12 12分頻, default
- #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 Timer2_Run() AUXR |= (1<<4) //允許定時器2計數
- #define Timer2_Stop() AUXR &= ~(1<<4) //禁止定時器2計數
- #define Timer2_AsCounterP31() AUXR |= (1<<3) //時器2用做計數器
- #define Timer2_AsTimer() AUXR &= ~(1<<3) //時器2用做定時器
- #define Timer2_1T() AUXR |= (1<<2) //Timer0 clodk = fo
- #define Timer2_12T() AUXR &= ~(1<<2) //Timer0 clodk = fo/12 12分頻, default
- #define Timer2_InterruptEnable() IE2 |= (1<<2) //允許Timer2中斷.
- #define Timer2_InterruptDisable() IE2 &= ~(1<<2) //禁止Timer2中斷.
- #define ExternalRAM_enable() AUXR |= 2 //允許外部XRAM,禁止使用內部1024RAM
- #define InternalRAM_enable() AUXR &= ~2 //禁止外部XRAM,允許使用內部1024RAM
- #define T0_pulseP34_enable() AUXR2 |= 1 //允許 T0 溢出脈沖在T0(P3.5)腳輸出,Fck0 = 1/2 T0 溢出率,T0可以1T或12T。
- #define T0_pulseP34_disable() AUXR2 &= ~1
- #define T1_pulseP35_enable() AUXR2 |= 2 //允許 T1 溢出脈沖在T1(P3.4)腳輸出,Fck1 = 1/2 T1 溢出率,T1可以1T或12T。
- #define T1_pulseP35_disable() AUXR2 &= ~2
- #define T2_pulseP30_enable() AUXR2 |= 4 //允許 T2 溢出脈沖在T1(P3.0)腳輸出,Fck2 = 1/2 T2 溢出率,T2可以1T或12T。
- #define T2_pulseP30_disable() AUXR2 &= ~4
- #define T0_pulseP35(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,AUXR2 |= bit0,TR0=1 //fx=fosc/(2*M)/n, M=1 or M=12
- #define T1_pulseP34(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,AUXR2 |= bit1,TR1=1 //fx=fosc/(2*M)/n, M=1 or M=12
- #define T2_pulseP30(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,AUXR2 |= bit2,Timer2_Run() //fx=fosc/(2*M)/n, M=1 or M=12
- #define Timer0_Load(n) TH0 = (n) / 256, TL0 = (n) % 256
- #define Timer1_Load(n) TH1 = (n) / 256, TL1 = (n) % 256
- #define Timer2_Load(n) TH2 = (n) / 256, TL2 = (n) % 256
- #define Timer0_Load_us(n) TH0=(65536-MainFosc_KHZ*(n)/1000)/256,TL0=(65536-MainFosc_KHZ*(n)/1000)%256
- #define Timer1_Load_us(n) TH1=(65536-MainFosc_KHZ*(n)/1000)/256,TL1=(65536-MainFosc_KHZ*(n)/1000)%256
- #define Timer2_Load_us(n) TH2=(65536-MainFosc_KHZ*(n)/1000)/256,TL2=(65536-MainFosc_KHZ*(n)/1000)%256
- //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_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 //串口雙倍速
- //SMOD0
- #define LVDF (1<<5) //P4.6低壓檢測標志
- //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 進入 IDLE 模式
- #define MCU_POWER_DOWN() PCON |= 2 //MCU 進入 睡眠 模式
- //sfr ISP_CMD = 0xC5;
- #define ISP_STANDBY() ISP_CMD = 0 //ISP空閑命令(禁止)
- #define ISP_READ() ISP_CMD = 1 //ISP讀出命令
- #define ISP_WRITE() ISP_CMD = 2 //ISP寫入命令
- #define ISP_ERASE() ISP_CMD = 3 //ISP擦除命令
- //sfr ISP_TRIG = 0xC6;
- #define ISP_TRIG() ISP_TRIG = 0x5A, ISP_TRIG = 0xA5 //ISP觸發命令
- // 7 6 5 4 3 2 1 0 Reset Value
- //sfr IAP_CONTR = 0xC7; IAPEN SWBS SWRST CFAIL - WT2 WT1 WT0 0000,x000 //IAP Control Register
- #define ISP_EN (1<<7)
- #define ISP_SWBS (1<<6)
- #define ISP_SWRST (1<<5)
- #define ISP_CMD_FAIL (1<<4)
- #define ISP_WAIT_1MHZ 7
- #define ISP_WAIT_2MHZ 6
- #define ISP_WAIT_3MHZ 5
- #define ISP_WAIT_6MHZ 4
- #define ISP_WAIT_12MHZ 3
- #define ISP_WAIT_20MHZ 2
- #define ISP_WAIT_24MHZ 1
- #define ISP_WAIT_30MHZ 0
- #if (MAIN_Fosc >= 24000000L)
- #define ISP_WAIT_FREQUENCY ISP_WAIT_30MHZ
- #elif (MAIN_Fosc >= 20000000L)
- #define ISP_WAIT_FREQUENCY ISP_WAIT_24MHZ
- #elif (MAIN_Fosc >= 12000000L)
- #define ISP_WAIT_FREQUENCY ISP_WAIT_20MHZ
- #elif (MAIN_Fosc >= 6000000L)
- #define ISP_WAIT_FREQUENCY ISP_WAIT_12MHZ
- #elif (MAIN_Fosc >= 3000000L)
- #define ISP_WAIT_FREQUENCY ISP_WAIT_6MHZ
- #elif (MAIN_Fosc >= 2000000L)
- #define ISP_WAIT_FREQUENCY ISP_WAIT_3MHZ
- #elif (MAIN_Fosc >= 1000000L)
- #define ISP_WAIT_FREQUENCY ISP_WAIT_2MHZ
- #else
- #define ISP_WAIT_FREQUENCY ISP_WAIT_1MHZ
- #endif
- /* 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 轉換控制寄存器
- //sfr ADC_RES = 0xBD; ADCV.9 ADCV.8 ADCV.7 ADCV.6 ADCV.5 ADCV.4 ADCV.3 ADCV.2 0000,0000 //A/D 轉換結果高8位
- //sfr ADC_RESL = 0xBE; ADCV.1 ADCV.0 0000,0000 //A/D 轉換結果低2位
- //sfr ADC_CONTR = 0xBC; //直接用MOV操作,不要用與或
- //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腳
- #define SPI_SSIG_Enable() SPCTL &= ~(1<<7) //0: SS腳用于決定主從機
- #define SPI_Enable() SPCTL |= (1<<6) //1: 允許SPI
- #define SPI_Disable() SPCTL &= ~(1<<6) //0: 禁止SPI
- #define SPI_LSB_First() SPCTL |= (1<<5) //1: LSB先發
- #define SPI_MSB_First() SPCTL &= ~(1<<5) //0: MSB先發
- #define SPI_Master() SPCTL |= (1<<4) //1: 設為主機
- #define SPI_Slave() SPCTL &= ~(1<<4) //0: 設為從機
- #define SPI_SCLK_NormalH() SPCTL |= (1<<3) //1: 空閑時SCLK為高電平
- #define SPI_SCLK_NormalL() SPCTL &= ~(1<<3) //0: 空閑時SCLK為低電平
- #define SPI_PhaseH() SPCTL |= (1<<2) //1:
- #define SPI_PhaseL() SPCTL &= ~(1<<2) //0:
- #define SPI_Speed(n) SPCTL = (SPCTL & ~3) | (n) //設置速度, 0 -- fosc/4, 1 -- fosc/16, 2 -- fosc/64, 3 -- fosc/128
- //sfr SPDAT = 0xCF; //SPI Data Register 0000,0000
- //sfr SPSTAT = 0xCD; //SPI狀態寄存器
- // 7 6 5 4 3 2 1 0 Reset Value
- // SPIF WCOL - - - - - -
- #define SPIF 0x80 //SPI傳輸完成標志。寫入1清0。
- #define WCOL 0x40 //SPI寫沖突標志。寫入1清0。
- #define SPI_USE_P12P13P14P15() AUXR1 &= 0x0c //將SPI切換到P12(SS) P13(MOSI) P14(MISO) P15(SCLK)(上電默認)。
- #define SPI_USE_P24P23P22P21() AUXR1 = (AUXR1 & ~0x0c) | 0x04 //將SPI切換到P24(SS) P23(MOSI) P22(MISO) P21(SCLK)。
- #define SPI_USE_P54P40P41P43() AUXR1 = (AUXR1 & ~0x0c) | 0x08 //將SPI切換到P54(SS) P40(MOSI) P41(MISO) P43(SCLK)。
- /*
- ;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,與CCAPnH組成9位數。
- ;B0(EPCnL): 在PWM模式下,與CCAPnL組成9位數。
- */
- #define PWM0_NORMAL() PCA_PWM0 &= ~3 //PWM0正常輸出(默認)
- #define PWM0_OUT_0() PCA_PWM0 |= 3 //PWM0一直輸出0
- #define PWM0_OUT_1() PCA_PWM0 &= ~3, CCAP0H = 0; //PWM0一直輸出1
- #define PWM1_NORMAL() PCA_PWM1 &= ~3 //PWM0正常輸出(默認)
- #define PWM1_OUT_0() PCA_PWM1 |= 3 //PWM0一直輸出0
- #define PWM1_OUT_1() PCA_PWM1 &= ~3, CCAP1H = 0; //PWM1一直輸出1
- #define PWM2_NORMAL() PCA_PWM2 &= ~3 //PWM1正常輸出(默認)
- #define PWM2_OUT_0() PCA_PWM2 |= 3 //PWM2一直輸出0
- #define PWM2_OUT_1() PCA_PWM2 &= ~3, CCAP2H = 0; //PWM2一直輸出1
- // 7 6 5 4 3 2 1 0 Reset Value
- //sfr CCON = 0xD8; CF CR - - - CCF2 CCF1 CCF0 00xx,xx00 //PCA 控制寄存器。
- sbit CCF0 = CCON^0; //PCA 模塊0中斷標志,由硬件置位,必須由軟件清0。
- sbit CCF1 = CCON^1; //PCA 模塊1中斷標志,由硬件置位,必須由軟件清0。
- sbit CCF2 = CCON^2; //PCA 模塊2中斷標志,由硬件置位,必須由軟件清0。
- sbit CR = CCON^6; //1: 允許PCA計數器計數,必須由軟件清0。
- sbit CF = CCON^7; //PCA計數器溢出(CH,CL由FFFFH變為0000H)標志。PCA計數器溢出后由硬件置位,必須由軟件清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狀態PCA停止計數。
- #define PCA_IDLE_ON() CMOD &= ~(1<<7) //IDLE狀態PCA繼續計數。
- #define PCA_CLK_12T() CMOD &= ~0x0E //PCA計數脈沖選擇外部晶振/12。 fosc/12
- #define PCA_CLK_2T() CMOD = (CMOD & ~0x0E) + 2 //PCA計數脈沖選擇外部晶振/2。 fosc/2
- #define PCA_CLK_T0() CMOD = (CMOD & ~0x0E) + 4 //PCA計數脈沖選擇Timer0中斷,Timer0可通過AUXR寄存器設置成工作在12T或1T模式。
- #define PCA_CLK_ECI() CMOD = (CMOD & ~0x0E) + 6 //PCA計數脈沖選擇從ECI/P3.4腳輸入的外部時鐘,最大 fosc/2。
- #define PCA_CLK_1T() CMOD = (CMOD & ~0x0E) + 8 //PCA計數脈沖選擇外部晶振。 Fosc/1
- #define PCA_CLK_4T() CMOD = (CMOD & ~0x0E) + 10 //PCA計數脈沖選擇外部晶振/4。 Fosc/4
- #define PCA_CLK_6T() CMOD = (CMOD & ~0x0E) + 12 //PCA計數脈沖選擇外部晶振/6。 Fosc/6
- #define PCA_CLK_8T() CMOD = (CMOD & ~0x0E) + 14 //PCA計數脈沖選擇外部晶振/8。 Fosc/8
- #define PCA_INT_ENABLE() CMOD |= 1 //PCA計數器溢出中斷允許位,1---允許CF(CCON.7)產生中斷。
- #define PCA_INT_DISABLE() CMOD &= ~1 //PCA計數器溢出中斷禁止。
- // 7 6 5 4 3 2 1 0 Reset Value
- //sfr AUXR1 = 0xA2; S1_S1 S1_S0 CCP_S1 CCP_S0 SPI_S1 SPI_S0 - DPS 0100,0000 //Auxiliary Register 1
- #define PCA_USE_P12P11P10P37() AUXR1 &= ~0x30 //將PCA/PWM切換到P12(ECI) P11(CCP0) P10(CCP1) P37(CCP2)(上電默認)。
- #define PCA_USE_P34P35P36P37() AUXR1 = (AUXR1 & ~0x30) | 0x10 //將PCA/PWM切換到P34(ECI) P35(CCP0) P36(CCP1) P37(CCP2)。
- #define PCA_USE_P24P25P26P27() AUXR1 = (AUXR1 & ~0x30) | 0x20 //將PCA/PWM切換到P24(ECI) P25(CCP0) P26(CCP1) P27(CCP2)。
- #define DPS_SEL1() AUXR1 |= 1 //1:選擇DPTR1。
- #define DPS_SEL0() AUXR1 &= ~1 //0:選擇DPTR0(上電默認)。
- /* 7 6 5 4 3 2 1 0 Reset Value
- //sfr CCAPM0 = 0xDA; PWM 寄存器 - ECOM0 CAPP0 CAPN0 MAT0 TOG0 PWM0 ECCF0 x000,0000 //PCA 模塊0
- //sfr CCAPM1 = 0xDB; PWM 寄存器 - ECOM1 CAPP1 CAPN1 MAT1 TOG1 PWM1 ECCF1 x000,0000 //PCA 模塊1
- //sfr CCAPM2 = 0xDC; PWM 寄存器 - ECOM2 CAPP2 CAPN2 MAT2 TOG2 PWM2 ECCF2 x000,0000 //PCA 模塊2
- ;ECOMn = 1: 允許比較功能。
- ;CAPPn = 1: 允許上升沿觸發捕捉功能。
- ;CAPNn = 1: 允許下降沿觸發捕捉功能。
- ;MATn = 1: 當匹配情況發生時,允許CCON中的CCFn置位。
- ;TOGn = 1: 當匹配情況發生時,CEXn將翻轉。(CEX0/PCA0/PWM0/P3.7,CEX1/PCA1/PWM1/P3.5)
- ;PWMn = 1: 將CEXn設置為PWM輸出。
- ;ECCFn = 1: 允許CCON中的CCFn觸發中斷。
- ;ECOMn CAPPn CAPNn MATn TOGn PWMn ECCFn
- ; 0 0 0 0 0 0 0 00H 未啟用任何功能。
- ; x 1 0 0 0 0 x 20H 16位CEXn上升沿觸發捕捉功能。
- ; x 0 1 0 0 0 x 10H 16位CEXn下降沿觸發捕捉功能。
- ; x 1 1 0 0 0 x 30H 16位CEXn/PCAn邊沿(上、下沿)觸發捕捉功能。
- ; 1 0 0 1 0 0 x 48H 16位軟件定時器。
- ; 1 0 0 1 1 0 x 4CH 16位高速脈沖輸出。
- ; 1 0 0 0 0 1 0 42H 8位PWM。無中斷
- ; 1 1 0 0 0 1 1 63H 8位PWM。低變高可產生中斷
- ; 1 0 1 0 0 1 1 53H 8位PWM。高變低可產生中斷
- ; 1 1 1 0 0 1 1 73H 8位PWM。低變高或高變低均可產生中斷
- ;*******************************************************************
- ;*******************************************************************/
- #define PCA0_none() CCAPM0 = 0
- #define PCA0_PWM(nbit) CCAPM0 = 0x42,PCA_PWM0 = (PCA_PWM0 & 0x0c) | ((8-nbit)<<6)
- #define PCA0_PWM_rise_int(nbit) CCAPM0 = 0x63,PCA_PWM0 = (PCA_PWM0 & 0x0c) | ((8-nbit)<<6)
- #define PCA0_PWM_fall_int(nbit) CCAPM0 = 0x53,PCA_PWM0 = (PCA_PWM0 & 0x0c) | ((8-nbit)<<6)
- #define PCA0_PWM_edge_int(nbit) CCAPM0 = 0x73,PCA_PWM0 = (PCA_PWM0 & 0x0c) | ((8-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_Pulse() CCAPM0 = (0x4C + 1)
- #define PCA1_none() CCAPM1 = 0
- #define PCA1_PWM(nbit) CCAPM1 = 0x42,PCA_PWM1 = (PCA_PWM1 & 0x0c) | ((8-nbit)<<6)
- #define PCA1_PWM_rise_int(nbit) CCAPM1 = 0x63,PCA_PWM1 = (PCA_PWM1 & 0x0c) | ((8-nbit)<<6)
- #define PCA1_PWM_fall_int(nbit) CCAPM1 = 0x53,PCA_PWM1 = (PCA_PWM1 & 0x0c) | ((8-nbit)<<6)
- #define PCA1_PWM_edge_int(nbit) CCAPM1 = 0x73,PCA_PWM1 = (PCA_PWM1 & 0x0c) | ((8-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_Pulse() CCAPM1 = (0x4C + 1)
- #define PCA2_none() CCAPM2 = 0
- #define PCA2_PWM(nbit) CCAPM2 = 0x42,PCA_PWM2 = (PCA_PWM2 & 0x0c) | ((8-nbit)<<6)
- #define PCA2_PWM_rise_int(nbit) CCAPM2 = 0x63,PCA_PWM2 = (PCA_PWM2 & 0x0c) | ((8-nbit)<<6)
- #define PCA2_PWM_fall_int(nbit) CCAPM2 = 0x53,PCA_PWM2 = (PCA_PWM2 & 0x0c) | ((8-nbit)<<6)
- #define PCA2_PWM_edge_int(nbit) CCAPM2 = 0x73,PCA_PWM2 = (PCA_PWM2 & 0x0c) | ((8-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_Pulse() CCAPM2 = (0x4C + 1)
- /* Above is STC additional SFR or change */
- /**********************************************************/
- 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()
- /**********************************************/
- /****************************************************************/
- //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 : 外中斷INT4允許
- b5 - EX3 : 外中斷INT3允許
- b4 - EX2 : 外中斷INT2允許
- b2 - T1CLKO : 允許 T2 溢出脈沖在P3.0腳輸出,Fck1 = 1/2 T1 溢出率
- b1 - T1CLKO : 允許 T1 溢出脈沖在P3.4腳輸出,Fck1 = 1/2 T1 溢出率
- b0 - T0CLKO : 允許 T0 溢出脈沖在P3.5腳輸出,Fck0 = 1/2 T0 溢出率
- */
- #define LVD_InterruptEnable() ELVD = 1
- #define LVD_InterruptDisable() ELVD = 0
- //sfr WKTCL = 0xAA; //STC11F\10和STC15系列 喚醒定時器低字節
- //sfr WKTCH = 0xAB; //STC11F\10和STC15系列 喚醒定時器高字節
- // 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 禁止睡眠喚醒定時器
- #define WakeTimerSet(scale) WKTCL = (scale) % 256,WKTCH = (scale) / 256 | 0x80 //WKTEN = 1 允許睡眠喚醒定時器
- //sfr CLK_DIV = 0x97; //Clock Divder 系統時鐘分頻 - - - - - CLKS2 CLKS1 CLKS0 xxxx,x000
- #define SYSTEM_CLK_1T() CLK_DIV &= ~0x07 //default
- #define SYSTEM_CLK_2T() CLK_DIV = (CLK_DIV & ~0x07) | 1
- #define SYSTEM_CLK_4T() CLK_DIV = (CLK_DIV & ~0x07) | 2
- #define SYSTEM_CLK_8T() CLK_DIV = (CLK_DIV & ~0x07) | 3
- #define SYSTEM_CLK_16T() CLK_DIV = (CLK_DIV & ~0x07) | 4
- #define SYSTEM_CLK_32T() CLK_DIV = (CLK_DIV & ~0x07) | 5
- #define SYSTEM_CLK_64T() CLK_DIV = (CLK_DIV & ~0x07) | 6
- #define SYSTEM_CLK_128T() CLK_DIV = CLK_DIV | 7
- #define MCLKO_P54_None() CLK_DIV &= ~0xc0 //主時鐘不輸出
- #define MCLKO_P54_DIV1() CLK_DIV = (CLK_DIV & ~0xc0) | 0x40 //主時鐘不分頻輸出
- #define MCLKO_P54_DIV2() CLK_DIV = (CLK_DIV & ~0xc0) | 0x80 //主時鐘2分頻輸出
- #define MCLKO_P54_DIV4() CLK_DIV = CLK_DIV | 0xc0 //主時鐘4分頻輸出
- #define MCLKO_P34_None() CLK_DIV &= ~0xc0 //主時鐘不輸出
- #define MCLKO_P34_DIV1() CLK_DIV = (CLK_DIV & ~0xc0) | 0x40 //主時鐘不分頻輸出
- #define MCLKO_P34_DIV2() CLK_DIV = (CLK_DIV & ~0xc0) | 0x80 //主時鐘2分頻輸出
- #define MCLKO_P34_DIV4() CLK_DIV = CLK_DIV | 0xc0 //主時鐘4分頻輸出
- //sfr BUS_SPEED = 0xA1; //Stretch register - - - - - - EXRTS1 EXRTSS0 xxxx,xx10
- #define BUS_SPEED_1T() BUS_SPEED = 0
- #define BUS_SPEED_2T() BUS_SPEED = 1
- #define BUS_SPEED_4T() BUS_SPEED = 2
- #define BUS_SPEED_8T() BUS_SPEED = 3
- /* 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 TRUE 1
- #define FALSE 0
- //=============================================================
- //========================================
- #define PolityLow 0 //低優先級中斷
- #define PolityHigh 1 //高優先級中斷
- //========================================
- #define MCLKO_None 0
- #define MCLKO_DIV1 1
- #define MCLKO_DIV2 2
- #define MCLKO_DIV4 3
- #define ENABLE 1
- #define DISABLE 0
- #define STC15F_L2K08S2 8
- #define STC15F_L2K16S2 16
- #define STC15F_L2K24S2 24
- #define STC15F_L2K32S2 32
- #define STC15F_L2K40S2 40
- #define STC15F_L2K48S2 48
- #define STC15F_L2K56S2 56
- #define STC15F_L2K60S2 60
- #define IAP15F_L2K61S2 61
- #endif
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