SH79F161B I/O 1. SH79F161B SH79F161B IO 30 I/O I/O 4 I/O SH79F161B 30 I/O Px I/O PxCRy I/O PxPCRy x = 0-3 y = IO PxCRy IO x=0-3 y=0-7
Size: px
Start display at page:

Download "SH79F161B I/O 1. SH79F161B SH79F161B IO 30 I/O I/O 4 I/O SH79F161B 30 I/O Px I/O PxCRy I/O PxPCRy x = 0-3 y = IO PxCRy IO x=0-3 y=0-7"

Transcription

1 SH79F161B - 10 ADC 8051 V 1.0

2 SH79F161B I/O 1. SH79F161B SH79F161B IO 30 I/O I/O 4 I/O SH79F161B 30 I/O Px I/O PxCRy I/O PxPCRy x = 0-3 y = IO PxCRy IO x=0-3 y=0-7 PxPCRy IO x=0-3 y=0-7 P0OS I/O Px.y IO x=0-3 y=0-7 SH79F161B SPEC 3. IO 3.1. IO IO PxCRy x=0-3 y=0-7 1 Px.y x=0-3 y=0-7 0 IO GND Px.y x=0-3 y=0-7 1 IO VDD 3.2. IO IO PxCRy x=0-3 y=0-7 0 PxPCRy x=0-3 y=0-7 0 IO Floating PxPCRy x=0-3 y=0-7 1 IO IO VDD/2 SH79F161B SPEC 3.3. I/O 1

3 SH79F161B P0.2~P0.5 N CMOS P0CR2~P0CR5 1 P0OSx x=2-5 0 P0.2~P0.5 N P0OSx x=2-5 1 P0.2~P0.5 CMOS P0.2~P0.5 N P0.2~P ~5V P3.0 P3.0 P bit a Void main void P3CR &= 0xFE; //P3.0 P3PCR = 0x01; //P3.0~P3.5 P1CR = 0x01; // P1.0 while(1) a = P3.0; P1.0 = a; // P1.0 P3.0 2

4 SH79F161B Flash&EEPROM 1. SH79F161B SH79F161B Flash&EEPROM Flash 16 * 1KB 16KB EEPROM 8 * 256 BYTE 2KB ICP / SSP / 10,000 EEPROM 100, FFFFH Reserved (no use) 4000H (16K) 0800H Program Memory Block EEPROM Like Data Block 0000H Information Block 0000H Program Memory Block SH79F161B 16K Flash Program Memory Block ICP SSP Flash 1024 SH79F161B 2048 EEPROM

5 2. Flash&EEPROM XPAGE IB_OFFSET IB_DATA IB_CON1 IB_CON2 IB_CON3 IB_CON4 IB_CON5 FLASHCON SSP SSP 1 SSP 2 SSP 3 SSP 4 SH79F161B SPEC 3. SSP 3.1. Flash SSP SSP Flash FLASHCON FAC 0 XPAGE IB_OFFSET IB_DATA IB_CON1 IB_CON1 0xE6 IB_CON1 0x6E IB_CON2 0x05 IB_CON3 0x0A IB_CON4 0x06 IB_CON5 0x09 Flash SSP SSP SSP Keil Options->Utilities-> Scurity Sector B0 Flash 0 B1 Flash 1 Flash SH79F161B SPEC 4

6 3.2. EEPROM SSP SSP EEPROM FLASHCON FAC 1 XPAGE IB_OFFSET IB_DATA IB_CON1 IB_CON1 0xE6 IB_CON1 0x6E IB_CON2 0x05 IB_CON3 0x0A IB_CON4 0x06 IB_CON5 0x09 EEPROM Flash Flash & EEPROM Set FLASHCON S0 Set IB_OFFSET Set XPAGE Set IB_DATA Set IB_CON1 IB_CON2[3:0] 5H Set IB_CON2[3:0]=5H IB_CON2 5H S1 IB_CON3 AH IB_CON2 5H ELSE S2 Set IB_CON3=AH IB_CON3 AH Set IB_CON4=9H Reset IB_CON1-5 IB_CON4 9H S3 S4 Set IB_CON5=6H Sector Erase IB_CON1=E6H &IB_CON2[3:0]=5H &IB_CON3=AH &IB_CON4=9H &IB_CON5=6H IB_CON1=6EH &IB_CON2[3:0]=5H &IB_CON3=AH &IB_CON4=9H &IB_CON5=6H Programming 5

7 Flash sector0 00 sector1 01 sector15 0F 4.2. #include <sh79f161b.h> #include <intrins.h> #include <absacc.h> #define uchar unsigned char #define uint unsigned int #define NOP _nop_(); uchar i,j,m,n; uint code *p; uchar count = 0; uchar Ssp_flag; void main (void) uchar temp; CLKCON = 0; m = 0; n = 0; Ssp_flag = 0xA5; /********************sector erase****************/ EA = 0; for(i=0x00;i<0x40;i++) FLASHCON = FLASHCON&0xFE; NOP EA = 0; IB_CON1 = 0xE6; IB_CON2 = 0x05; IB_CON3 = 0x0A; IB_CON4 = 0x09; if(!(ssp_flag==0xa5)) goto Error; 6

8 XPAGE = i&0xfc; IB_CON5 = 0x06; NOP NOP NOP NOP NOP for(j=0x00;j<0xff;j++) p = (uint)(i<<8)+j; temp = *p; /********************sector write****************/ temp = 0x00; for(m=0x04;m<0x40;m++) for(n=0x00;n<0xff;n++) temp = m; FLASHCON = FLASHCON&0xFE; NOP EA = 0; IB_OFFSET = n; IB_DATA = temp; IB_CON1 = 0x6E; IB_CON2 = 0x05; IB_CON3 = 0x0A; IB_CON4 = 0x09; if(!(ssp_flag==0xa5)) goto Error; XPAGE = m; IB_CON5 = 0x06; NOP NOP NOP NOP 7

9 NOP while(1); Error: Ssp_flag = 0; IB_CON1 = 0x00; IB_CON2 = 0x00; IB_CON3 = 0x00; IB_CON4 = 0x00; IB_CON5 = 0x00; XPAGE = 0x00; FLASHCON = 0x00; EA = 0; while(1); 8

10 5. SSP (1) / XPAGE IB_OFFSET 3. IB_DATA 4. IB_CON NOP 6. CPU IDLE IDLE XPAGE 0 (2) XPAGE 3. IB_CON NOP 5. CPU IDLE IDLE XPAGE 0 (3) MOVC A,@A+DPTR MOVC A,@A+PC (4) EEPROM EEPROM Flash (1)/(2)/(3) 1. EEPROM FLASHCON FAC 1 2. EEPROM kHz FLASH 2. EEPROM FAC 0 9

11 6. FLASH/ EEPROM / 1 enable LVR function 2 XPAGE 3 0A5H 0A5H EEPROM C uchar Ssp_flag; /********************SSP Erase****************/ Ssp_flag = 0xA5; EA = 0; FLASHCON = 0x01; IB_CON1 = 0xE6; IB_CON2 = 0x05; IB_CON3 = 0x0A; IB_CON4 = 0x09; if(!(ssp_flag==0xa5)) goto Error; XPAGE = 0x01; //XPAGE IB_CON5 = 0x06; NOP NOP NOP NOP /********************sector write****************/ Ssp_flag = 0x5A; EA = 0; FLASHCON = 0x01; IB_DATA = data; //data IB_OFFSET = addr; //addr IB_CON1 = 0x6E; IB_CON2 = 0x05; IB_CON3 = 0x0A; IB_CON4 = 0x09; 10

12 if(!(ssp_flag==0x5a)) goto Error; XPAGE = 0x01; // IB_CON5 = 0x06; NOP NOP NOP NOP while(1); Error: Ssp_flag = 0; IB_CON1 = 0x00; IB_CON2 = 0x00; IB_CON3 = 0x00; IB_CON4 = 0x00; IB_CON5 = 0x00; XPAGE = 0x00; FLASHCON = 0x00; EA = 0; while(1); 11

13 SH79F161B Timer0/1 1. SH79F161B SH79F161B Timer0/1 0/ /1 SH79F161B 0/ Timer0 8 / TMOD Mx1 - Mx0 [THx & TLx x = 0,1 ] 16 TCON TMOD IEN0 ET0 ET SH79F161B SPEC 2. Timer0/1 TCON TCON1 TMOD TL0 TH0 TL1 TH1 1 Timer0 Timer0 Timer1 Timer1 SH79F161B SPEC 3. Timer0/ x x = 0,1 13 / THx 13 / 8 TLx 5 TLx.4-TLx.0 TLx TLx.7-TLx.5 13 TFx x C/Tx / C/Tx = 1 x Tx x 1 C/Tx = 0 x GATEx = 0 GATEx = 1 INTx TRx 1 GATEx 1 INTx INTx TRx 1 TRx 1 TRx 0 12

14 TCON1 TCLKPx x = 0, 1 1/12 x x = 0, 1 TCON1 TC0/1 0/1 T0/T1 TC0/1 1 T0/T1 System Clock 1/12 Tx INTx TCLKPx GATEx TRx =0 C/Tx =1 + & TLx (5bits) 0:Switch Off 1:Switch On THx (8bits) Overflow C/Tx=0 and TCx=1 TFx Overflow Flag The Block Diagram of mode0 of Timerx ( x=0,1 ) Interrupt Request Tx / 1 0 / 0 System Clock 1/12 Tx INTx GATEx TCLKPx =0 C/Tx =1 + TLx (8bits) 0:Switch Off 1:Switch On THx (8bits) Overflow C/Tx=0 and TCx=1 TFx Overflow Flag Interrupt Request Tx TRx & The Block Diagram of mode1 of Timerx ( x=0,1 ) x 8 / TLx THx TLx 0x00 TFx THx TLx TFx 1 THx TLx 2 / 1 0 TCON1 TCLKPx x = 0, 1 1/12 x x = 0, 1 TCON1 TC0/1 0/1 T0/T1 TC0/1 1 T0/T1 13

15 System Clock 1/12 TH0 (8bits) Reload TCLKPx Tx INTx GATEx TRx =0 C/Tx =1 + & TL0 (8bits) 0:Switch Off 1:Switch On overflow C/Tx=0 and TCx=1 TFx Overflow Flag The Block Diagram of mode2 of Timerx (x=0,1) Interrupt Request Tx / TL0 TH0 TL0 0 TCON TMOD TR0 C/T0 GATE0 TF0 TL0 TH0 TH0 1 TR1 1 TF TF1 TH1 TL1 GATE1 T1 1 TR TCON1 TCLKP0 1/12 0 TCON1 TC0 0 T0 TC0 1 T0 T0 INT System Clock TCLKP0 GATE0 TR0 1/12 =0 C/T0 =1 + & TL0 (8bits) 0:Switch Off 1:Switch On Overflow C/T0=0 and TC0=1 TF0 Overflow Flag Interrupt Request T0 System Clock 1/12 TH0 (8bits) Overflow TF1 Interrupt Request TR1 TCLKP0 0:Switch Off 1:Switch On Overflow Flag The Block Diagram of mode3 of Timer0 0/1 T0/T /2 INTx 1/4 1 TH1/TL1 14

16 #include <sh79f161b.h> #include <intrins.h> void Port_init(void) P1 = 0x00; P1CR = 0x01; //P1.0 void init_timer0() //13 IEN0 = 0x82; // 0 TMOD = 0x00; // Timer0 0 TCON1 = 0x00; // 0 TL0 = 0x11; // Timer0 0x1B31 TH0 = 0xD9; TR0 = 1; // Timer0 void main() Port_init(); init_timer0(); while(1); void INT_TIMER0(void) interrupt 1 TF0 = 0; P1_0 = ~P1_0; //P us 5kHz TL0 = 0x11; // Timer0 0x1B31 TH0 = 0xD9; 15

17 #include <sh79f161b.h> #include <intrins.h> void Port_init(void) P1 = 0x00; P1CR = 0x01; //P1.0 void init_timer0() //16 IEN0 = 0x82; // 0 TMOD = 0x01; // Timer0 1 TCON1 = 0x00; // 0 TL0 = 0x31; // Timer0 0xFB31 TH0 = 0xFB; TR0 = 1; // Timer0 void main() Port_init(); init_timer0(); while(1); void INT_TIMER0(void) interrupt 1 TF0 = 0; P1_0 = ~P1_0; //P us 5kHz TL0 = 0x31; // Timer0 0xFB31 TH0 = 0xFB; 16

18 #include <sh79f161b.h> #include <intrins.h> void Port_init(void) P1 = 0x00; P1CR = 0x01; //P1.0 void init_timer0() //8 IEN0 = 0x82; // 0 TMOD = 0x02; // Timer0 2 TCON1 = 0x00; // 0 TL0 = 0x09; // Timer0 0x09 TH0 = 0x09; TR0 = 1; // Timer0 void main() Port_init(); init_timer0(); while(1); void INT_TIMER0(void) interrupt 1 TF0 = 0; P1_0 = ~P1_0; //P1.0 40us 25kHz #include <sh79f161b.h> #include <intrins.h> void Port_init(void) 17

19 P1 = 0x00; P1CR = 0x03; //P1.0 P1.1 void init_timer0() // 8 IEN0 = 0x8A; // 0 1 TMOD = 0x03; // Timer0 3 TCON1 = 0x00; // 0 TL0 = 0x09; // 8 0x09 TH0 = 0x84; // 8 0x84 TR0 = 1; // 8 TR1 = 1; // 8 void main() Port_init(); init_timer0(); while(1); void INT_TIMER0(void) interrupt 1 TF0 = 0; P1_0 = ~P1_0; //P1.0 50us 20kHz TL0 = 0x09; // 8 0x09 void INT_TIMER1(void) interrupt 3 TF1 = 0; P1_1 = ~P1_1; //P1.1 25us 40kHz TH0 = 0x84; // 8 0x84 18

20 SH79F161B Timer2 1. SH79F161B SH79F161B Timer / RCLK TCLK CP/RL2 C/T2 T2OE DCEN TR2 CP/RL RCLK TCLK X 0 X X X X X 0 X 1 X 2 X X 1 X X X X X X 0 X X X X 2 T2EX 0 1 X 1 X 1 X X 1 TH2 TL2 16 T2CON T2MOD IEN0 ET2 2 SH79F161B SPEC 2 C/T2 TR2 2/ 2 2. Timer2 T2CON T2MOD RCAP2L RCAP2H TL2 TH2 19 / / SH79F161B SPEC 3. Timer Timer T2CON CP/RL 1 T2CON EXEN2

21 EXEN2 = IET2 2 TF2 EXEN2 = 1 2 T2EX TH2 TL2 RCAP2H RCAP2L T2EX T2CON EXF2 IET2 EXF2 TF2 T2MOD TCLKP2 1/ Timer T2CON CP/RL T2MOD DCEN DCEN 0 2 DCEN 2 T2EX DCEN = 0 T2CON EXEN2 EXEN2 = 0 2 0FFFFH TF2 RCAP2H RCAP2L 16 TH2 TL2 EXEN2 = 1 T2EX 16 EXF2 IET2 TF2 EXF2 T2MOD TCLKP2 1/12 2 EXEN2 = 1 C/T2 = 1 T2 [TH2 TL2] 0FFFFH T2 T2EX TF2 EXF2 DCEN 2 DCEN = 1 T2EX EXEN2 T2EX 1 2 0FFFFH TF2 RCAP2H RCAP2L 16 T2EX 0 2 TH2 TL2 RCAP2H RCAP2L TF2 0FFFFH 2 EXF2 17 EXF2 T2MOD TCLKP2 1/ Timer2 2 Uart Timer2 3 T2 P3.1 50% C/T2 T2OE 2 TR2 T2MOD TCLKP2 1/12 2 T2 50% Clock Out Frequency 1 X f SYS 2X [RCAP2H,RCAP2L] = ; TCLKP2 = 0 Clock Out f SYS 1 Frequency = X ; TCKLP2 = 1 2X2X [ RCAP2H, RCAP2L]

22 #include <sh79f161b.h> #include <intrins.h> #include <absacc.h> unsigned int Val = 0; void main (void) CLKCON = 0; P0CR = 0x02; T2CON = 0x09; T2MOD = 0x00; TL2=0x00; TH2=0x00; EA = 1; ET2 = 1; TR2 = 1; TF2 = 0; while(1); //P0.1 //16 T2EX //Timer2 // // Timer2 // Timer2 //TF void timer2_isr(void) interrupt 5 if(tf2 == 1) TF2 = 0; if(t2con&0x40) T2CON &=0xBF; // T2EX Val=RCAP2H*0x100+RCAP2L; P0_1=~P0_1; //P0.1 T2EX 21

23 #include <SH79F161B.H> #include <intrins.h> void Port_init(void) P1 = 0x00; P1CR = 0x01; //P1.0 as outflag void Timer2_init(void) CLKCON = 0x00; //sys clock 12.3MHz T2CON = 0x00; T2MOD = 0x00; TL2 = 0x60; // 5ms interrupt TH2 = 0xEA; RCAP2L = 0x60; RCAP2H = 0xEA; void main(void) Port_init(); Timer2_init(); EA = 1; ET2 = 1; //enable timer2 interrupt TR2 = 1; //enable timer2 count while(1); void timer2_int(void) interrupt 5 TF2 = 0; P1_0 = ~P1_0; //P1.0 10ms 100Hz 22

24 #include <SH79F161B.H> #include <intrins.h> void Timer2_init(void) CLKCON = 0x00; T2CON = 0x00; T2MOD = 0x02; RCAP2L = 0x48; RCAP2H = 0Xf4; //sys clock 12.3MHz // Mode3 Program output clock //output clock frequency is 1KHz void main (void) Timer2_init(); TR2 = 1; while(1); //enable Timer2 count //P3.1(T2) output clock frequency is 1KHz 23

25 SH79F161B SPI 1. SH79F161B SH79F161B SPI 6 MCU LSB MSB SPI MCU MCU SPI 3 SS 4 V DD MISO MOSI SCK SS Master Port0.0 Port0.1 Port0.2 Port0.3 MISO MOSI SCK SS MISO MOSI SCK SS MISO MOSI SCK SS MISO MOSI SCK SS Slave Slave Slave Slave SPI SPCON SPSTA SPDAT 24 SH79F161B SPEC 2. SPI 2.1. SPI

26 SPCON SPR[2:0] 2.2. SPI SPI SPCON SPSTA SPCON SPSTA SPDAT SPI SCK MOSI MISO SS SPI SPI SPI MOSI MISO SPI SPDAT SPDAT 8-bit Shift Register MISO MISO 8-bit Shift Register MOSI MOSI SPI Clock Generator SCK SS V DD SCK SS Master MCU Slave MCU V SS (1) SPI SPI SPCON MSTR 1 SPI (2) SPI SPI SPDAT SPI WCOL SCK SPI MOSI SPSTA SPIF 1 SPI SPIF 1 (3) MOSI MISO SPIF 1 MSB LSB SPDAT SPIF 0 RXOV 1 SPIF 1 SPIF 0 SPI 25

27 (1) SPCON MSTR 0 SPI SS (2) SCK MOSI MISO SCK 8 8 SPIF 1 SPDAT SPI SPIF 1 SPI SPIF RXOV 1 SPIF SPI SPIF 0 SPI SPI 0x00 SPDAT SPI WCOL 1 SPI WCOL 1 SPDAT 2.3. SPSTA SPI (1) MODF SPI SS SPSTA MODF 1 SPI SPI / CPU SPSTA SPEN 0 SPI SPCON MSTR 0 SPCON SS SSDIS 0 SS MODF 1 SS MODF 1 SPCON SSDIS 1 SS I/O MODF 0 SPCON MSTR SPSTA SPEN 1 (2) WCOL SPDAT SPSTA WCOL 1 WCOL 1 WCOL 0 (3) RXOV SPIF SPIF 1 SPI SPIF SPIF RXOV 1 RXOV 0 SPI SPIF & MODF CPU 26

28 SPIF 1 MODF 1 SS SPI SSDIS 0 MODF 1 SPI / CPU SSDIS 1 MODF SPIF SPI Transmitter CPU Interrupt Request SPI CPU Interrupt Request MODF SSDIS SPI Receiver/Error CPU Interrupt Request SPI SCK = SYS/64 SS 0x00~0xFF 3.2. #include <SH79F161B.H> #include <intrins.h> unsigned char out_flag = 0; unsigned char r_data = 0; void spi_init(void) CLKCON = 0x00; SPCON = 0x40; SPCON = 0x08; SPCON = 0x04; SPSTA = 0x00; //SYS = 12.3Mz //Master Mode //disable ss pin //BaudRate = SYS/64 void main(void) spi_init(); EA = 1; 27

29 IEN1 = 0x01; //enable spi interrupt SPSTA = 0x80; //enable spi SPDAT = 0x00; while(1) if(out_flag == 1) SPDAT ++; out_flag = 0; void spi_interrupt(void) interrupt 7 out_flag = 1; SPSTA &= 0xBF; 28

30 SH79F161B EUART 1. SH79F161B SH79F161B EUART SH79F161B 1 EUART 8051 EUART 1/2 EUART EUART SCON SBUF PCON SADDR SADEN RXCON EUART EUART EUART EUART SH79F161B SPEC RXD 29

31 2. EUART EUART 4 SCON SBUF 0 RI = 0 REN = 1 TxD RxD 8 REN = 1 EUART SM0 SM SYSCLK/(4 12) /(16 32) SYSCLK/(32 64) , /(16 32) , SM2 SCON /12 1/4 SM2 0 1/12 1 1/4 SBUF Tx 0 8 Tx TI 1 SCON.1 REN SCON.4 1 RI SCON Rx RI SBUF RB8 SCON /16 1/32 2 1/ REN 1 RxD CPU RxD RxD RXD RxD 8 1 SBUF RB8 RI 1 1. RI = 0 2. SM2 = 0 = 1 30

32 RB8 8 SBUF RI 1 RxD RI SCON TB8 0 1 PSW P / 9 RB8 PCON SMOD 1/32 1/ REN 1 RxD CPU RxD RxD RXD RxD 9 1 SBUF RB8 RI 1 1. RI = 0 2. SM2 = 0 9 = 1 9 RB8 8 SBUF RI 1 RxD RI EUART 0 1/12 1/4 SM2 SM2 0 1/12 SM2 1 1/ TCLK T2CON.4 RCLK T2CON TX RX TCLK RCLK 1 2 TCLK RCLK 0 1 Tx Rx 1 3 TH1 1 8 SMOD EUART PCON.7 [RCAP2H, RCAP2L] 2 16 T1CLK 1 T2CLK SMOD ft BaudRate = TH1 1 f SYS BaudRate = [ RCAP2H, RCAP2L] 1 f SYS /12 BaudRate = [ RCAP2H, RCAP2L] 31

33 /12 1 ft 2 BaudRate = 2 2 T [ RCAP2H, RCAP2L] 2 1/32 1/64 SMOD PCON.7 SMOD 0 EUART 1/64 SMOD 1 EUART 1/32 SMOD f SYS BaudRate = 2 ( ) EUART 5V UART 3V SH79F161B EUART RXD RXDCON RXDCON0=0 RXD 0.8VDD 0.2VDD SH79F161B VDD=5V RXD 4V 1V 3V UART RXDCON0=1 RXD 0.55VDD 0.2VDD SH79F161B VDD=5V RXD 2.75V 1V 3V RXDCON EUART 32

34 EUART EUART EUART #include <SH79F161B.H> unsigned char r_data; unsigned char out_flag; void uart0_init(void) CLKCON = 0x00; //SYS Clock is 12.3MHz SCON = 0x40; PCON = 0x00; //MODE 1 RXDCON = 0x00; void io_init(void) P2CR = 0x02; //P2.1 OUTPUT/TXD P2.0 INPUT PULL-HIGH/RXD P2PCR = 0x01; P2 = 0x02; void timer2_init(void) T2CON = 0x30; //Timer2 as Baud Rate Generator T2MOD = 0x00; RCAP2L = 0xD8; RCAP2H = 0xFF; TL2 = 0xD8; TH2 = 0xFF; //Baud Rate is 9600 void main(void) 33

35 uart0_init(); io_init(); timer2_init(); r_data = 0x00; out_flag = 0; TI = 0; RI = 0; IEN0 = 0x90; REN = 1; TR2 = 1; while(1) if(out_flag == 1) SBUF = r_data; out_flag = 0; void uart0_int(void) interrupt 4 if(ti == 1) TI = 0; else if(ri == 1) r_data = SBUF; RI = 0; out_flag = 1; //transmit received data 34

36 SH79F161B ADC 1. SH79F161B SH79F161B ADC 10 8 SH79F161B 10 / ADC V REF V DD VREF 8 ADC GO/DONE ADC ADCON ADCIF ADC ADC ADC ADCON EC 1 ADC ADCON ADON 1 ADDH/L ADC GO/DONE 1 GO/DONE 0 ADC Idle ADC Idle ADC ADC 35

37 ADC 2. ADC ADCON ADT ADCH ADDL ADDH RXDCON SH79F161B SPEC ADC ADC (1) (2) ADC (3) 10us (4) GO/DONE 1 ADC (5) GO/DONE 0 ADCIF = 0 ADCIF = 1 ADC ADC (6) ADDH/ADDL (7) 4-6 (1) (2) ADDH/ADDL (3) EC 1 (4) ADC (5) 10us (6) GO/DONE 1 (7) ADIF 1 ADC ADC 0 ADCIF (8) GO/DONE 0 (1) AVREF REFC = 1 P1.6 V REF (2) ADON 1 10us GO/DONE = 1 AD (3) ADC tad µs 1 (4) TS[3:0] = tAD TS[3:0] = tAD (5) TS[3:0] ADC (6) 2*tAD ADC 10k (7) = 12tAD +

38 AN0 AN1 AN2 Vref = Vdd Uart0 AN0:xxxAN1:xxxAN2:xxx xxx 3.2. #include <SH79F161B.H> #include <intrins.h> unsigned char adc_ch = 0; unsigned char adc_h = 0; unsigned char adc_m = 0; unsigned char adc_l = 0; unsigned char outflag = 0; void uart_init(void) CLKCON = 0x00; //SYS Clock is 12MHz SCON = 0x40; PCON = 0x00; //MODE 1 void timer2_init(void) T2CON = 0x30; T2MOD = 0x00; TL2 = 0xD8; TH2 = 0xFF; RCAP2L = 0xD8; //Timer2 as BaudRate Generrator RCAP2H = 0xFF; //BaudRate is 9600 TR2 = 1; //Timer2 GO void adc_init(void) ADCON = 0x80; //enable adc module Vref = Vdd RXDCON = 0x00; //P1.6 is IO, use build-in VREF ADT = 0x81; //Tad = 12sys sample time is 2Tad ADCH = 0x07; //ANO,AN1,AN2 is selected otehrs is IO 37

39 ADDL = 0x00; ADDH = 0x00; //clear adc result register void main(void) uart_init(); timer2_init(); adc_init(); EA = 1; EADC = 1; ADCON &= 0xF1; ADCON = 0x01; RI = 0; TI = 0; while(1) if(outflag == 1) outflag = 0; //enable interrupt //enable adc interrupt //select AN0 //ADC GO adc_h = (ADDH>>6)&0x03; adc_h = adc_h+0x37; adc_m = (ADDH>>2)&0x0F; if(adc_m > 0x09) adc_m = adc_m+0x37; if(adc_m < 0x0A) adc_m = adc_m+0x30; adc_l = (ADDH<<2)&0x0C+ADDL; 38

40 if(adc_l > 0x09) adc_l = adc_l+0x37; if(adc_l < 0x0A) adc_l = adc_l+0x30; switch(adc_ch) case 1: SBUF = 'A'; while(!ti); TI = 0; SBUF = 'N'; while(!ti); TI = 0; SBUF = '0'; while(!ti); TI = 0; SBUF = ':'; while(!ti); TI = 0; SBUF = adc_h; while(!ti); TI = 0; SBUF = adc_m; while(!ti); TI = 0; SBUF = adc_l; while(!ti); TI = 0; ADCON &= 0xF1; ADCON = 0x02; //select AN1 39

41 ADCON = 0x01; break; //ADC GO case 2: SBUF = 'A'; while(!ti); TI = 0; SBUF = 'N'; while(!ti); TI = 0; SBUF = '1'; while(!ti); TI = 0; SBUF = ':'; while(!ti); TI = 0; SBUF = adc_h; while(!ti); TI = 0; SBUF = adc_m; while(!ti); TI = 0; SBUF = adc_l; while(!ti); TI = 0; ADCON &= 0xF1; ADCON = 0x04; ADCON = 0x01; break; //select AN2 //ADC GO case 3: SBUF = 'A'; while(!ti); TI = 0; SBUF = 'N'; while(!ti); 40

42 TI = 0; SBUF = '2'; while(!ti); TI = 0; SBUF = ':'; while(!ti); TI = 0; SBUF = adc_h; while(!ti); TI = 0; SBUF = adc_m; while(!ti); TI = 0; SBUF = adc_l; while(!ti); TI = 0; adc_ch = 0; ADCON &= 0xF1; //select AN0 ADCON = 0x01; //ADC GO break; default: break; void adc_int(void) interrupt 6 ADCON &= 0xBF; adc_ch++; outflag = 1; 41

43 SH79F161B PWM0 1. SH79F161B SH79F161B PWM0 6 PWM PWM SH79F161B 12 PWM 8 PWM PWM PWM PWM0/1/2 PWM EFLT PWM FLT PWM PWM0/1/2 3 PWM PWM SH79F161B 8 PWM PWM PWM1/2C PWM1/2 PWMP1/2 PWM1/2 PWMD1/2 PWM1/2 SH79F161B 3 PWM PWM01 PWM11 PWM21 PWM01/11/21 PWM0/1/2 PWM EPWM01/11/21 1 PWM01/11/21 PWMn output (PWMnS = 0) n = 0,1 or 2 PWMn1 output (PWMnS = 0) n =0,1 or 2 PWMn PWMn1 (1) PWM0/1/2 PWM01/11/21 (2) EFLT FLT PWM01/11/21 PWM0/1/2 PWMnS = 0 PWMnS = 1 42

44 PWM0 12 PWM 8 PWM PWMEN PWMLO PWM0C PWM0PL PWM0PH PWM0DL PWM0DH PWM0DT PWM1C PWM2C PWM1P PWM2P PWM1D PWM2D PWM1DT PWM2DT 12 PWM0 PWM0 4 PWM0 8 PWM0 8 PWM0 4 8 PWM1 8 PWM2 8 PWM1 8 PWM2 8 PWM1 8 PWM2 PWM1 PWM2 SH79F161B SPEC 2. PWM0 SH79F161B PWM0 PWMLO 55H PWM0 PWMLO 55H PWM PWM0 PWMEN EPWM0 1 PWM0 PWM0 PWM PWM PWM IO PWM0 12 BIT Timer PWM0 PWM PWM0 PWM0 PWMLO 00H SH79F161B 43

45 PWM0 2KHz 50% PWM PWM #include <SH79F161B.H> #include <intrins.h> void PWM0_init(void) CLKCON = 0x00; //SYS Clock is 12MHz PWMLO = 0x55; //enable PWM0 register change PWM0C = 0x00; //Disable PWM0 interrupt PWM0 clock is osc/2 PWM0PL = 0xB8; PWM0PH = 0x0B; //PWM0 frequency is 2KHz PWM0DL = 0xDC; PWM0DH = 0x05; //PWM0 Duty is 50% PWM0DT = 0x00; //NO deadtime PWMLO = 0x00; void main(void) PWM0_init(); PWMLO = 0x55; PWMEN = 0x01; //enable PWM0 PWMLO = 0x00; //PWM0(P2.4) output the wave while(1); 44

46 SH79F161B Buzzer 1. SH79F161B SH79F161B Buzzer 10 频 选择输 输 2. Buzzer BUZCON SH79F161B SPEC Buzzer 12KHz 50% BZ P #include <SH79F161B.H> #include <intrins.h> void main() CLKCON = 0x00; BUZCON = 0x07; while(1); // //BZ Fsys/

47 SH79F161B Target Board V2.0 SH79F161B Target Board SH79F161B E A D G H I F C B 46

48 : A. B. C. JET51 JTAG 10 VDD D. 1(VDD/GND) 1 SH79F161B SH79F161B VDD GND 1 E. 2 ( ) 2 9~12V U2 5V SH79F161A 2 5V : 1) ). 5V(JET51) 1 2 ( ) F. G. P1.7 used as RST pin RESET I/O H. 400K-16M crystal oscillator or ceramic oscillator 2 CRY I/O I. SH79F161B 47

49 SH79F161B SH79F161A SH79F161B SH79F161A RC 16MHz RC 1% 0.5% 3. SH79F161B SH79F161A EMC 4. UART RXD (3V/5V) 3V 5. P1.6 ADC VREF SH79F161B SH79F161A 1 Table 1 SH79F161A SH79F161B SH79F161A SH79F161B Package LQFP32/QFP44/LQFP44 LQFP32/LQFP44 SH79F161A OSC 12.3MHz±1.0% RC(@RT) 12.3MHz±2.0% RC(TA=-40~+85 C) 400kHz~16MHz Cry/Cer 12.3MHz/16MHz±0.5% RC(@RT) 12.3MHz/16MHz±2.0% RC(TA=-40~+85 C) 400kHz~16MHz Cry/Cer UART UART ADC 8-ch 10-bit ADC 8-ch 10-bit ADC VREF 48

50 SH79F161B I/O IO IO IO I/O SH79F161B Flash&EEPROM SSP Flash SSP EEPROM SSP Flash & EEPROM FLASH/ EEPROM / SH79F161B Timer0/ Timer0/

51 SH79F161B Timer2 户 Timer SH79F161B SPI SPI SH79F161B EUART EUART EUART EUART

52 3.1. EUART EUART SH79F161B ADC ADC SH79F161B PWM PWM SH79F161B Buzzer 规 记录

Similar documents

2 Keil µ vision 2.1 1) Keil µ vision2 V2.34 µ vision3 2) Sino_Keil.exe Keil c:\keil\ 3) JET51 USB PC C:\Keil\ USB PC 4) S-L

2 Keil µ vision 2.1 1) Keil µ vision2 V2.34 µ vision3 2) Sino_Keil.exe Keil c:\keil\ 3) JET51 USB PC C:\Keil\ USB PC 4) S-L 1 SH88F516 8051 64K FLASH 1024 EEPROM SH88F516 JET51 S-Lab Keil µ vision ISP51 Keil µ vision ISP51 ISP51 PC RS232 MCU SH88F516 SH88F516 1.1 SH88F516 1.1 SH88F516 SH88Fxx: QFP44, DIP40 RAM Flash E2 ADC

More information

1-1 SH79F6431 A. 2( ) 9~15V ( 12V) U2 U3 3.3V SH79F B. 1(VCC/GND) SH79F6431 C. VDDIO SH79F6431 P4 P5 P0.6 P0.7 VDDIO VDDIO=5V D. 2 V 1.0

1-1 SH79F6431 A. 2( ) 9~15V ( 12V) U2 U3 3.3V SH79F B. 1(VCC/GND) SH79F6431 C. VDDIO SH79F6431 P4 P5 P0.6 P0.7 VDDIO VDDIO=5V D. 2 V 1.0 SH79F6431 1. SH79F6431 1T 8051 FLASH SH79F JET51 Keil µ vision JTAG 1.1. SH79F6431 LQFP64 1.2. (Target Board) SH79F6431 1 V 1.0 1-1 SH79F6431 A. 2( ) 9~15V ( 12V) U2 U3 3.3V SH79F6431 1 2 1 B. 1(VCC/GND)

More information

W77E58中文手册

W77E58中文手册 W77E58 77E58 8051 8051 8051 77E58 8051 1.5 3 COMS 32K EEPROM 1K SRAM 1 8 2 40M 4 3 8051 4 8051 5 4 8 I/O 6 4 I/O 44 PLCC QFP 7 16 / 8 12 9 10 11 1K 12 13 16 DPTR 14 15 DIP40 W77E58 25/40 PLCC44 W77E58P

More information

1 Project New Project 1 2 Windows 1 3 N C test Windows uv2 KEIL uvision2 1 2 New Project Ateml AT89C AT89C51 3 KEIL Demo C C File

1 Project New Project 1 2 Windows 1 3 N C test Windows uv2 KEIL uvision2 1 2 New Project Ateml AT89C AT89C51 3 KEIL Demo C C File 51 C 51 51 C C C C C C * 2003-3-30 pnzwzw@163.com C C C C KEIL uvision2 MCS51 PLM C VC++ 51 KEIL51 KEIL51 KEIL51 KEIL 2K DEMO C KEIL KEIL51 P 1 1 1 1-1 - 1 Project New Project 1 2 Windows 1 3 N C test

More information

目 录

目 录 1 Quick51...1 1.1 SmartSOPC Quick51...1 1.2 Quick51...1 1.3 Quick51...2 2 Keil C51 Quick51...4 2.1 Keil C51...4 2.2 Keil C51...4 2.3 1 Keil C51...4 2.4 Flash Magic...9 2.5 ISP...9 2.6...10 2.7 Keil C51...12

More information

51 C 51 isp 10 C PCB C C C C KEIL

51 C 51 isp 10 C PCB C C C C KEIL http://wwwispdowncom 51 C " + + " 51 AT89S51 In-System-Programming ISP 10 io 244 CPLD ATMEL PIC CPLD/FPGA ARM9 ISP http://wwwispdowncom/showoneproductasp?productid=15 51 C C C C C ispdown http://wwwispdowncom

More information

6 C51 ANSI C Turbo C C51 Turbo C C51 C51 C51 C51 C51 C51 C51 C51 C C C51 C51 ANSI C MCS-51 C51 ANSI C C C51 bit Byte bit sbit

6 C51 ANSI C Turbo C C51 Turbo C C51 C51 C51 C51 C51 C51 C51 C51 C C C51 C51 ANSI C MCS-51 C51 ANSI C C C51 bit Byte bit sbit 6 C51 ANSI C Turbo C C51 Turbo C C51 C51 C51 C51 C51 C51 C51 C51 C51 6.1 C51 6.1.1 C51 C51 ANSI C MCS-51 C51 ANSI C C51 6.1 6.1 C51 bit Byte bit sbit 1 0 1 unsigned char 8 1 0 255 Signed char 8 11 128

More information

Microsoft Word - 專題封面.doc

Microsoft Word - 專題封面.doc 逢 甲 大 學 資 訊 工 程 學 系 專 題 研 究 報 告 8051 小 遊 戲 -21 點 指 導 教 授 : 陳 德 生 學 生 : 許 博 益 中 華 民 國 九 十 六 年 六 月 I 目 錄 第 一 章 緒 論 1 1-1 研 究 背 景 1 1-2 研 究 動 機 2 1-3 研 究 目 的 3 1-3-1 21 點 源 起 3 1-3-2 21 點 規 則 3 第 二 章 微 電

More information

2 12

2 12 SHENZHEN BRILLIANT CRYSTAL TECHNOLOGIC CO.,LTD. The specification for the following models Graphic LCM serial communication control board CB001 PROPOSED BY APPROVED Design Approved TEL:+86-755-29995238

More information

untitled

untitled www.mcudriver.cn 1.1 / 1) WinAVR20070525 2) Source Insight 3) ISP 4) PonyProg ISP 5) USB 6) 1.2. MCU ATMEGA16 1.3. AVR8 1.4 LED0~LED7 1 1.5 #include // Program 1.1 LED.C #define uchar unsigned

More information

DPJJX1.DOC

DPJJX1.DOC 8051 111 2K 1 2 3 ' ' 1 CPU RAM ROM / A/D D/A PC CPU 40 68 10 20 8 51 PIII 8051 2 MCS51 8051 8031 89C51 8051 8031 89C51? MCS51 INTEL INTEL 8031 8051 8751 8032 8052 8752 8051 8051 8051 MCS51 8031 8031

More information

目录

目录 ALTERA_CPLD... 3 11SY_03091... 3 12SY_03091...4....5 21 5 22...8 23..10 24..12 25..13..17 3 1EPM7128SLC.......17 3 2EPM7032SLC.......18 33HT46R47......19..20 41..20 42. 43..26..27 5151DEMO I/O...27 52A/D89C51...28

More information

1 Project New Project 1 2 Windows 1 3 N C test Windows uv2 KEIL uvision2 1 2 New Project Ateml AT89C AT89C51 3 KEIL Demo C C File

1 Project New Project 1 2 Windows 1 3 N C test Windows uv2 KEIL uvision2 1 2 New Project Ateml AT89C AT89C51 3 KEIL Demo C C File 51 C 51 51 C C C C C C * 2003-3-30 pnzwzw@163.com C C C C KEIL uvision2 MCS51 PLM C VC++ 51 KEIL51 KEIL51 KEIL51 KEIL 2K DEMO C KEIL KEIL51 P 1 1 1 1-1 - 1 Project New Project 1 2 Windows 1 3 N C test

More information

Microsoft Word - MSP430 Launchpad 指导书.docx

Microsoft Word - MSP430 Launchpad 指导书.docx Contents 3... 9... 14 MSP430 LAUNCHPAD 指导书 3 第一部分第一个工程 New Project File > New > CCS Project Project name: ButtonLED Device>Family: MSP430 Variant: MSP430G2553 Project templates and examples : Empty Project

More information

SST SPAC SST SoftICE SST89C5x/SST89x554RC /564RD /SST89x516/5xRD / SoftICE SoftICE MCU SoftICE SS

SST SPAC SST SoftICE SST89C5x/SST89x554RC /564RD /SST89x516/5xRD / SoftICE SoftICE MCU SoftICE SS SST SoftICE SST89C5x/SST89x554RC /564RD /SST89x516/5xRD2 1...2 1.1...2 1.2...2 1.3 /...2 2 SoftICE...2 3 SoftICE MCU...2 4 SoftICE...3 4.1 SST BootLoader SOFTICE...3 4.2 SoftICE SST MCU...6 5 SoftICE...7

More information

79F161 V0.2

79F161 V0.2 带 10 位 ADC 的增强型 8051 微控制器 1. 特性 基于 8051 指令流水线结构的 8 位单片机 Flash ROM:16K 字节 RAM: 内部 256 字节, 外部 512 字节 工作电压 : - f OSC = 400kHz - 16MHz,V DD = 3.6V - 5.5V 振荡器 ( 代码选项 ): - 晶体谐振器 :400kHz - 16MHz - 陶瓷谐振器 :400kHz

More information

專題最終版.doc

專題最終版.doc The Principle and Application of the Electric Combination Lock The Principle and Application of the Electric Combination Lock Abstract Recently, there are more and more burglaries in the society. It's

More information

bingdian001.com

bingdian001.com TSM12M TSM12 STM8L152C6, STM8L152R8 MSP430F5325 whym1987@126.com! /******************************************************************************* * : TSM12.c * : * : 2013/10/21 * : TSM12, STM8L f(sysclk)

More information

12232A LED LED LED EL EL CCFL EL CCF

12232A LED LED LED EL EL CCFL EL CCF 12232A 0 50-20 +70-30 +85 LED LED LED EL EL CCFL EL CCF 122 x 32 1/32Duty 1/5Bias 6:00 STN( ), EL LED EL/100VAC 400HZ LED/4.2VDC 1 / VDD-VSS 0 6.5 V Ta=25 LCD VDD-V0 0 12.0 V V1 0 VDD V VDD-VSS - 4.75

More information

5. P0.0 P0.7 P0 4 2 P0.3~P0.6 ADC P1.0 P P1.2(SCL) P1.3(SDA) P1.5 RST P1.5 2 XTAL1(P2.1) 1 XTAL0(P2.0) 2 XTAL1 I/O VDD VSS 6. H5815 4T 16K Flas

5. P0.0 P0.7 P0 4 2 P0.3~P0.6 ADC P1.0 P P1.2(SCL) P1.3(SDA) P1.5 RST P1.5 2 XTAL1(P2.1) 1 XTAL0(P2.0) 2 XTAL1 I/O VDD VSS 6. H5815 4T 16K Flas H5815 1. H5815 H5815 3 H5815 8052 16K Flash EPROM 256 NVM Flash EPROM 256 RAM 2 8 1 2 I/O 16-2 / 4 10 AD 4 10 PWM 1 I2C 1 UART 13 4 H5815 2. 4T 51 20MHZVDD=2.7V~ 16K Flash EPROM 256 RAM 256 NVM FLASH EPROM

More information

Microsoft Word - ISSFA-0134_A_AP_User-definedDownload_SC_.doc

Microsoft Word - ISSFA-0134_A_AP_User-definedDownload_SC_.doc 自定义下载应用说明 一 适用产品 :SM59XX 系列 SM59D XX 系列 SM59R XX 系列二 应用方式 : 可以让使用者自定义 command 作为进入 ISP 刻录的通关指令, 透过 UART 连接 ISAP 软件做联机更新三 操作说明 ( 使用 SM59D04G2 为例 ): 1. ISAP 操作方式 : 1.1 先将主程序及 ISP 服务程序烧进 MCU 中 1.2 将 MCU 放至系统版上,

More information

ATMEL AT90S8515 AVR CPU AVR AVR AVR ATMEL RISC 32 8 r0 r X Y Z R0 R1 R2 R13 R14 R15 R16 R17 R26 R27 R28 R29 R30 R31 0x00 0x

ATMEL AT90S8515 AVR CPU AVR AVR AVR ATMEL RISC 32 8 r0 r X Y Z R0 R1 R2 R13 R14 R15 R16 R17 R26 R27 R28 R29 R30 R31 0x00 0x 115 AVR W.V. Awdrey ATMEL AVR PIC AVR PIC AVR RISC AVR PIC AVR AVR AVR AVR AVR ATtiny15 AVR AVR AVR RAM ROM 121 116 122 ATMEL AT90S8515 AVR CPU AVR AVR AVR ATMEL RISC 32 8 r0 r31 3 16 X Y Z 6-1 118 7 0

More information

CC213

CC213 : (Ken-Yi Lee), E-mail: feis.tw@gmail.com 49 [P.51] C/C++ [P.52] [P.53] [P.55] (int) [P.57] (float/double) [P.58] printf scanf [P.59] [P.61] ( / ) [P.62] (char) [P.65] : +-*/% [P.67] : = [P.68] : ,

More information

单片机原理及应用实验指导书.doc

单片机原理及应用实验指导书.doc 1 2 3 4...2...4...9...9 AEDK598 MCS51...9 MCS51...10...10...10...10...10...10...11 P1...12...12...12....12...12...13 P3...14...14...14...14...14...14 I/O...15...15...15...15...15...16...17...17...17...17...17...18...19...19

More information

G80F915

G80F915 VER1.2 2014.5 选型指南 订购型号 FLASH ROM RAM I/O MAX TIMER INT LCD LED PWM EUART 其他温度范围封装 G80F915U 32K 1.5K 46 4*16 5 8*24/6*26 1*12 3~8*8 5*27/4*28 1*8 G80F915F 32K 1.5K 42 4*16 5 8*20/6*22 1*12 3~8*8 5*23/4*24

More information

1

1 W7E65 1. W7E65 ISP Flash EPROM ISP Flash EPROM 52 W7E65 64K Flash EPROM 4K Flash EPROM 4K Flash EPROM loader 64K ROM 1K RAM 4 I/O 4 I/O P4 3 16 / 2 W7E65 Flash EPROM W7E65 2 2 2. CMOS 12 64K ISP Flash

More information

79F161 V0.2

79F161 V0.2 SH79F16 1611 11 集成 ADC 和 PWM 的增强型 8051 微控制器 1. 特性 基于 8051 指令流水线结构的 8 位单片机 集成单周期执行时间 16 X 16bit 硬件乘法器 集成 8 周期执行时间 32 / 16bit 硬件除法器 集成 1 周期 32bit 硬件移位单元 Flash ROM:16K 字节 RAM:1.5K 字节 工作电压 : f OSC = 400k -

More information

PIC16F F MPLAB 08 16F LED 15 LED

PIC16F F MPLAB 08 16F LED 15 LED PIC16F877 PIC16F877 03 16F877 05 06 MPLAB 08 16F877 13 LED 15 LED 17 20 24 2 PIC16F877 PIC16F877 DIP VDD VSS CLOCK CPU :,AND,OR,XOR ROM: CPU ROM RAM: CPU,CPU I/O:CPU, CPU,, 16F877 RAM 512 128 Bank Bank

More information

+00DE _01EN.book

+00DE _01EN.book TCS-NET MODBUS TCS-NET Modbus TCB-IFMB640TLE 1...... 2 2 RS 485... 3 3... 3 4... 4 5... 4 6... 5 7... 6 8... 16 TCS-NET Modbus 1 http://www.modbus-ida.org/ >=3.5 8 8 N*8 ( N = 252.) 16 >= 3.5 Modbus-Master

More information

从MCS51向AVR的快速转换.PDF

从MCS51向AVR的快速转换.PDF MCS51 AVR MCS51 AVR ATMEL AVR RISC MCS51 AVR 1 MHZ 1MIPS 8MHZ AVR 224MHZ MCS51 FLASH EEPROM ISP WatchDog AVR MCS51 AT90S1200/2313 AT89C1051/2051 AT90S4414/8515 AT89C51/52 PCB / AVR C ICCAVR60 AVR C IAR

More information

PCM-3386用户手册.doc

PCM-3386用户手册.doc PCM-3386 BBPC-4x86 10/100M PC/104 (Lanry technology Co. Ltd. Zhuhai) 38 1012836 (Address: Room 1012,Linhai Building,No. 38,west of Shihua Road,Zhuhai City,Guangdong Province,China) (post code)519015 (phone)0756-3366659

More information

中文手册

中文手册 PCC-3428 PC/104 1. PCC-3428 1.1 PCC-3428 90mm 96mm ST CPU STPC Atlas Atlas CPU 486 DX/DX2 CPU DX2 133MHz Atlas 2D LCD/CRT 100MHz SDRAM 64MBytes PCC-3428 10/100Mbps DOC EIDE USB PC/104 ST STPC Atlas STPC

More information

2 14 PORTC.1 PORTB.3 PORTA.2/T0 GND PORTB.2 PORTA.0 PORTC.3 PORB.0/OSCO PORTB.1/OSCI PORTC.0 PORTC.2 SH69P21 /SOP PORTA

2 14 PORTC.1 PORTB.3 PORTA.2/T0 GND PORTB.2 PORTA.0 PORTC.3 PORB.0/OSCO PORTB.1/OSCI PORTC.0 PORTC.2 SH69P21 /SOP PORTA 1K 4 SH6610C 4 OTP ROM 1K X 16 RAM 88 X 4-24 - 64 2.4V-5.5V - fosc = 30kHz - 4MHz, = 2.4V - 5.5V - fosc = 4MHz - 8MHz, = 4.5V - 5.5V 11 CMOS I/O 4 ( ) 8 / - 0 PORTA.0 ( / / ) - 0 - PORTB ( ) ( ) - 32.768kHz,

More information

JLX

JLX PRODUCT:LCD MODULE. Model No.: JLX177-006 Product Type: 1.77 inch QVGA TFT Modoule. 产品规格书 晶联讯研发研发部 : Written By Checked By Approved By 客户名称 : 结构电子核准 地址 : 深圳市宝安区西乡宝安大道东华工业区 A3 栋 6 楼电话 :0755-29784961 Http://www.jlxlcd.cn

More information

ICD ICD ICD ICD ICD

ICD ICD ICD ICD ICD MPLAB ICD2 MPLAB ICD2 PIC MPLAB-IDE V6.0 ICD2 usb PC RS232 MPLAB IDE PC PC 2.0 5.5V LED EEDATA MPLAB ICD2 Microchip MPLAB-IDE v6.0 Windows 95/98 Windows NT Windows 2000 www.elc-mcu.com 1 ICD2...4 1.1 ICD2...4

More information

T stg -40 to 125 C V cc 3.8V V dc RH 0 to 100 %RH T a -40 to +125 C -0.3 to 3.6V V -0.3 to VDD+0.3 V -10 to +10 ma = 25 = 3V) VDD

T stg -40 to 125 C V cc 3.8V V dc RH 0 to 100 %RH T a -40 to +125 C -0.3 to 3.6V V -0.3 to VDD+0.3 V -10 to +10 ma = 25 = 3V) VDD 1/16 T stg -40 to 125 C V cc 3.8V V dc RH 0 to 100 %RH T a -40 to +125 C -0.3 to 3.6V V -0.3 to VDD+0.3 V -10 to +10 ma (@T = 25 C, @Vdd = 3V) VDD 1.8 3.0 3.6 V (1) 0.08 0.3 µa Idd 300 450 500 µa 0.25

More information

(Load Project) (Save Project) (OffLine Mode) (Help) Intel Hex Motor

(Load Project) (Save Project) (OffLine Mode) (Help) Intel Hex Motor 1 4.1.1.1 (Load) 14 1.1 1 4.1.1.2 (Save) 14 1.1.1 1 4.1.2 (Buffer) 16 1.1.2 1 4.1.3 (Device) 16 1.1.3 1 4.1.3.1 (Select Device) 16 2 4.1.3.2 (Device Info) 16 2.1 2 4.1.3.3 (Adapter) 17 2.1.1 CD-ROM 2 4.1.4

More information

untitled

untitled MODBUS 1 MODBUS...1 1...4 1.1...4 1.2...4 1.3...4 1.4... 2...5 2.1...5 2.2...5 3...6 3.1 OPENSERIAL...6 3.2 CLOSESERIAL...8 3.3 RDMULTIBIT...8 3.4 RDMULTIWORD...9 3.5 WRTONEBIT...11 3.6 WRTONEWORD...12

More information

C语言的应用.PDF

C语言的应用.PDF AVR C 9 1 AVR C IAR C, *.HEX, C,,! C, > 9.1 AVR C MCU,, AVR?! IAR AVR / IAR 32 ALU 1KBytes - 8MBytes (SPM ) 16 MBytes C C *var1, *var2; *var1++ = *--var2; AVR C 9 2 LD R16,-X ST Z+,R16 Auto (local

More information

FM1935X智能非接触读写器芯片

FM1935X智能非接触读写器芯片 FM33A0xx MCU 2017. 05 2.0 1 (http://www.fmsh.com/) 2.0 2 ... 3 1... 4 1.1... 4 1.2... 4 1.3... 5 1.3.1... 5 1.3.2... 5 1.4... 8 1.4.1 LQFP100... 8 1.4.2 LQFP80... 9 1.4.3... 9 2... 15 2.1 LQFP100... 15

More information

四位微控制器ML64168_ _.doc

四位微控制器ML64168_ _.doc SSSC /4168P 2005 8 4 4, (ADC), LCD Driver, (Buzzer), 1 3 CPU17 CPU 26 33 42 45 48 73 79 85 89 A/D 92 111 125 128 131 SSU4168P 133 143 A: / 153 B: 156 C: 158 D: 160 E: 161 F: 163 G: PAD 167 2 ,, 11 4 CMOS

More information

2005.book

2005.book ...4... 4... 7...10... 10... 10... 10... 10... 11... 11 PCC... 11 TB170... 12 /... 12...13... 13 BP150 / BP151 / BP152 / BP155... 14...15... 15... 15... 15... 15... 15... 15... 16 PS465 / PS477... 17 PS692

More information

untitled

untitled FBC0409 V1.0 1.0 05.06.22 SIA 2005 SIA SIA SIA SIA SIA 114 86-24-23970133 HTTP://WWW.SIA.CN YANG@SIA.CN 2 ...5...5...6 PIN...6...7 1 CPU...8 2...8 4...8 5 DMA...9 7....9 8...9 9...10 A...10 B...10...11.

More information

Hz 10MHz 0.5V 5V 0.01% 10s 2 0.5V 5V 1Hz 1kHz 10% 90% 1% 3 1Hz 1MHz 1% EPM7128SLC84-15 LM361 LM361 Zlg

Hz 10MHz 0.5V 5V 0.01% 10s 2 0.5V 5V 1Hz 1kHz 10% 90% 1% 3 1Hz 1MHz 1% EPM7128SLC84-15 LM361 LM361 Zlg 1 1 a. 0.5V 5V 1Hz 1MHz b. 0.1% 2 : a. 0.5V 5V 1Hz 1MHz b. 0.1% (3) a. 0.5V 5V 100 s b. 1% 4 1 10 5 1MHz 6 1 2 1 0.1Hz 10MHz 0.5V 5V 0.01% 10s 2 0.5V 5V 1Hz 1kHz 10% 90% 1% 3 1Hz 1MHz 1% EPM7128SLC84-15

More information

Tel:010-62981668-2930 1

Tel:010-62981668-2930 1 Access 93C46 with SPI function V1.0.0 Jan. 31, 2005 http://www.sunplusmcu.com Tel:010-62981668-2930 http://www.sunplusmcu.com E-mail:mcu@sunplus.com.cn 1 0 0...2 1...3 2...4 2.1...4 2.2...5 3...6 3.1 AT93C46...6

More information

untitled

untitled EDM12864-GR 1 24 1. ----------------------------------------------------3 2. ----------------------------------------------------3 3. ----------------------------------------------------3 4. -------------------------------------------------------6

More information

General Description: Preliminary TTP916 Consumer IC VCD/DVD LCD Green mode Stand-by mode( 1W ) Features: 2.2V-5.5V LCD RAM read condition 2.6V-5.5V RC

General Description: Preliminary TTP916 Consumer IC VCD/DVD LCD Green mode Stand-by mode( 1W ) Features: 2.2V-5.5V LCD RAM read condition 2.6V-5.5V RC General Description: IC VCD/DVD LCD Green mode Stand-by mode( 1W ) Features: 2.2V-5.5V LCD RAM read condition 2.6V-5.5V RC 15K 300pF 256KHZ default on 32 function key Built-in TT6221/TT6222 decoder Provide

More information

2 PIC PIC 1 / CPU PIC MCU PIC RC

2 PIC PIC 1 / CPU PIC MCU PIC RC 2 PIC PIC 1 /... 2-2 2... 2-3 3... 2-4 4... 2-4 5... 2-4 6 CPU... 2-5 7 PIC MCU... 2-6 8 PIC16... 2-6 9... 2-7 10... 2-7 11 RC... 2-7 12... 2-8 13... 2-8 14 NOP... 2-9 15 PMD... 2-9 16... 2-10 17 WDTWDT...

More information

Section1_16bit Arc.ppt

Section1_16bit Arc.ppt 16-bit Elite Program 2009 Summer Section-1 Microchip 16-bit 2005 Microchip Technology Incorporated. All Rights Reserved. Slide 1 MCU CPU (NOP),, (Data Memory), I/O CPU w. ALU/Working Reg. Data Mem. Data

More information

逢甲大學

逢甲大學 論 Pedometer 寧 葉 年 ii 老 寧 識 更 年 老 更 料 利 老 iii 了不 利 8051 8051 令 便 理 行 8051 數 路 流 行 論 iv Abstract This is the era that health is inseparable from manufacturing process. No high-tech manufacturer can survive

More information

行业

行业 PCL-1800 PCL-1800 1.1...2 1.1.1 1K FIFO...2 1.1.2...2 1.1.3 16...3 1.1.4...3 1.1.5...3 1.1.6...3 1.2...3 1.3...4 1.4...5 2.1...5 2.2...6 2.2.1...6 2.2.2...6 2.2.3 D/A...7 2.2.4...7 2.2.5 TRIG0 GATE0...8

More information

<4D F736F F D20CBABC1FA DA3A8BAACB6C1D0B44D31A3A9C4A3BFE9D7CAC1CF B0E62E646F63>

<4D F736F F D20CBABC1FA DA3A8BAACB6C1D0B44D31A3A9C4A3BFE9D7CAC1CF B0E62E646F63> SL-1356MOD-SU 射 频 卡 读 写 模 块 使 用 说 明 一. 概 述 双 龙 公 司 针 对 支 付 系 统 公 共 交 通 门 禁 锁 具 设 备 管 理 二 代 身 份 证 等 行 业 推 出 SL-1356MOD-SU 射 频 卡 读 写 模 块 该 模 块 全 面 支 持 ISO14443 A/B -1-2 -3-4 标 准, 适 用 于 读 写 各 种 符 合 ISO14443

More information

RESET OSCO OSCI OSC CPU WDTEN RC RESET PRESCALER PORTA (4-BITS) WATCHDOG TIMER Power on PORTB (4-BITS) PORTA [0:3] PORTB [0:3] LPD PORTC (4-BITS) LPDO

RESET OSCO OSCI OSC CPU WDTEN RC RESET PRESCALER PORTA (4-BITS) WATCHDOG TIMER Power on PORTB (4-BITS) PORTA [0:3] PORTB [0:3] LPD PORTC (4-BITS) LPDO 4K / I/O 4 SH6610C 4 OTPROM 4K X 16 SH69P25 MASK ROM 4K X 16 SH69K25 RAM 192 X 4-32 - 160 2.4V - 5.5V 5.0V 22 I/O 4 8 / PORTA-PORTF / - Timer0 - PORTB & PORTC / - 32.768kHz 4MHz - 400kHz 4MHz - RC 400kHz

More information

第10章:CCP捕捉/比较/脉宽调制

第10章:CCP捕捉/比较/脉宽调制 第 10 章 :CCP 捕捉 / 比较 / 脉宽调制 CCP 模块功能 捕捉功能模式 比较功能模式 脉宽调制功能 1 CCP 模块功能 PIC 2 捕捉 比较 脉宽调制模块 CCP1 CCP2(Capture/Compare/PWM) 16 CCPR1 CCPR2 模块 功能 功能 TMR1 TMR2 2 CCP 模块功能 CCP 模块 3 模式 : 捕捉 式 比较 式 脉宽调制 式 捕捉功能 捕捉

More information

<4D6963726F736F667420576F7264202D20B9F9B0EABBCDBBAFAB48DEB3B4C1A5BDB3F8A7692E646F63>

<4D6963726F736F667420576F7264202D20B9F9B0EABBCDBBAFAB48DEB3B4C1A5BDB3F8A7692E646F63> 臺 北 市 立 松 山 高 級 工 農 職 業 學 校 資 訊 科 專 題 製 作 報 告 題 目 : 反 彈 空 間 指 導 老 師 : 余 耀 銘 學 生 : 廖 國 銓 趙 信 瑋 中 華 民 國 102 年 5 月 摘 要 在 這 高 速 科 技 的 起 飛 下, 科 技 都 建 立 起 於 基 礎, 有 些 人 把 這 基 礎 轉 為 理 論, 教 給 大 眾 學 習 ; 有 些 人 利

More information

Microsoft Word - ~ doc

Microsoft Word - ~ doc EEPROM 功能使用方法 1 适用产品 : 1.1 SM39R16A2/ SM39R12A2/ SM39R08A2 1.2 SM39R4051/ SM39R2051 1.3 SM39R04G1/ SM39R02G1 2 EEPROM 功能概述 : 2.1 使用 code flash 仿真为 Internal EEPROM, 在程序执行时, 可将 code flash 作为 data flash 储存数据使用

More information

1.1 ML_ONOFF = 1 Q 3 Q 8 C 0.3V M 2 L 1 ML_ONOFF = 0 Q 3 Q 8 C 1. + R31 VCC R21 10K ML_ONOFF R15 0:off 1:on 1K Green Light VCC=5V L1 Q VDD=12V C

1.1 ML_ONOFF = 1 Q 3 Q 8 C 0.3V M 2 L 1 ML_ONOFF = 0 Q 3 Q 8 C 1. + R31 VCC R21 10K ML_ONOFF R15 0:off 1:on 1K Green Light VCC=5V L1 Q VDD=12V C AUTOMATIC TROLLEY H K Hwang K K Chen J-S Lin S-C Wang M-L Li C-C Lin W-B Lin Dept. Of Electrical Engineering Far East College ABSTRACT This paper proposes an automatic trolley which can move automatically

More information

USB解决方案.ppt

USB解决方案.ppt USB USB? RS232 USB USB HID U modem ADSL cable modem IrDA Silabs USB CP210x USB UART USB RS-232 USB MCU 15 USB 12 FLASH MCU 3 USB MCU USB MCU C8051F32x 10 ADC 1.5%, Vref CPU 25MIPS 8051 16KB Flash -AMUX

More information

1... 4 2... 5 2.1... 5 2.2... 5 2.3... 6 2.4... 6 2.5... 7 2.6... 7 3 2005... 8 3.1... 8 3.2... 9 3.3... 9 3.4 ( RMB100,000)... 9 3.5... 9 4...11 4.1.

1... 4 2... 5 2.1... 5 2.2... 5 2.3... 6 2.4... 6 2.5... 7 2.6... 7 3 2005... 8 3.1... 8 3.2... 9 3.3... 9 3.4 ( RMB100,000)... 9 3.5... 9 4...11 4.1. http://www.unsp.com.cn 1... 4 2... 5 2.1... 5 2.2... 5 2.3... 6 2.4... 6 2.5... 7 2.6... 7 3 2005... 8 3.1... 8 3.2... 9 3.3... 9 3.4 ( RMB100,000)... 9 3.5... 9 4...11 4.1... 11 4.2... 12 5... 13 5.1...

More information

SH79F326应用指南

SH79F326应用指南 SH79F6442 用户指南 SH79F6442 用户指南 - 集成 4 路 UART 和 3 路 PWM 的增强型 8051 微控制器 1 V1.0 一 SH79F6442 I/O 应用指南 1. 概述 SH79F6442 是一种高速高效率 8051 可兼容单片机 在同样振荡频率下, 较之传统的 8051 芯 片它有着运行更快速的优越特性 SH79F6442 其 IO 特性为 : 61 个双向 I/O

More information

µPSD3000 系列

µPSD3000 系列 8032 FLASH MCU µpsd3251f-40t6 µpsd3251 8032 FlashPSD Flash SRAM I/O I 2 C, ADC and PWM 8032, 16 / FlashPSD µpsd32 JTAG ISP 2K SRAM Flash - 64K Flash - 16K Flash - Flash 8032 12 I2C ADC 6 I/O 37 I/O 16

More information

untitled

untitled 2006-4-25 2006-4-26 2 2006-4-26 3 20 50 6 2006-4-26 4 µ 2006-4-26 5 CERN LEP/LHC 2006-4-26 6 L3 Detector 2006-4-26 7 2006-4-26 8 ATLAS Detector (A Toroidal LHC ApparatuS) 2006-4-26 9 CMS Detector 2006-4-26

More information

79F161 V0.2

79F161 V0.2 带 10 位 ADC 的增强型 8051 微控制器 1. 特性 基于 8051 兼容流水指令的 8 位单片机 Flash ROM:16K 字节 RAM: 内部 256 字节, 外部 512 字节 工作电压 : - f OSC = 400kHz - 12MHz,V DD = 4.0V - 5.5V 振荡器 ( 代码选项 ): - 陶瓷谐振器 :400k - 12MHz - 内部 RC 振荡器 :12MHz

More information

ISO h.PDF

ISO h.PDF 1 2 ID-1 IC IC 2 GB/T 14916 1994 - GB/T 16649.1 1996 - - 1 : GB/T 16649.2 1996 - - 2 : GB/T 16649.3 1996 - - 3 : ISO/IEC 7816 4 1995 - - 4 : ISO/IEC 7816 5 199 5 - - 5 :. 3 i 3 4 5 data cold reset 6 4

More information

行业

行业 PCL-818HD/HG/L PCL-818HD/HG/L 1.1...2 1.1.1 /...2 1.1.2 ID...2 1.2...3 1.3...3 2.1...3 2.2...3 2.2.1...4 2.2.2...4 2.2.3 DMA...5 2.2.4...5 2.2.5 D/A...5 2.2.6...6 2.2.7 EXE.trigger GATE0...6 2.2.8 FIFO

More information

SH69P481 4K 12 ADC 4 SH6610D 12 ADC 4 OTPROM: 4K X 16 RAM: 287 X : - fosc = 30kHz - 4MHz, VDD = 2.4V - 5.5V - fosc = 4MHz - 10MHz, VDD = 4.

SH69P481 4K 12 ADC 4 SH6610D 12 ADC 4 OTPROM: 4K X 16 RAM: 287 X : - fosc = 30kHz - 4MHz, VDD = 2.4V - 5.5V - fosc = 4MHz - 10MHz, VDD = 4. 4K 12 ADC 4 SH6610D 12 ADC 4 OTPROM: 4K X 16 RAM: 287 X 4-95 - 192 : - fosc = 30kHz - 4MHz, VDD = 2.4V - 5.5V - fosc = 4MHz - 10MHz, VDD = 4.5V - 5.5V 14 I/O 8 ( 8 / : - / - ( 0, 1 - PORTB/D ( ( / ( -

More information

ARK-14013/14017/14018

ARK-14013/14017/14018 ARK-24017F 8 ARK-24017F : 8 2 ii 1997~2000,,,,,, 1...3 1.1 ARK...3 1.2 ARK-24017F...3 ARK-24017F?...3 ARK-24017F...3 ARK-24017F...3 ARK-24017F...5 ARK-24017F...6...7 2.1...7 2.2...7 ARK...7...8...8...8...9

More information

Microsoft Word - IRFWX-A124_A_SM59D03G2_SM59D04G2_PCA_ APN_SC_.doc

Microsoft Word - IRFWX-A124_A_SM59D03G2_SM59D04G2_PCA_ APN_SC_.doc 可程序计数数组 (PCA) 功能使用方法 1 适用产品 :SM59D04G2,SM59D03G2 2 应用说明 : PCA 共有五组, 每组皆可工作于以下七种模式 : 捕获模式 - 正缘捕获模式 (Positive edge capture mode) 捕获模式 - 负缘捕获模式 (Negative edge capture mode) 捕获模式 - 正缘及负缘捕获模式 (Both positive

More information

untitled

untitled XZL024 http://item.taobao.com/item.htm?id=6321822194 1 1 1.1 1.2 1.3 1.4 2 2.1 2.2 2.3 3 USBee Suite 3.1 3.2 3.3 3.4 4 RS232 RS485 RS422 CAN http://item.taobao.com/item.htm?id=6321822194 2 1 XZL024 PC

More information

/ / / , DOCNO: SG J REV11-2 -

/ / / , DOCNO: SG J REV11-2 - SG240128-01J LCD Version11 LED VDD SG240128SYD-01JSYE STN 80 50V 50V SG240128FPD-01JSWE FSTN 80 50V 50V SG240128SBD-01JSWE STN 80 50V 50V SG240128-01J 1 33V 2 LCM LCD 3 LED 4 1 LCD 2 3 : 010-80750102 /03

More information

JTAG ICE PC JTAG ICE JTAG ISP... 5 IDE AVR STUDIO JTAGICE JTAGICE... 12

JTAG ICE PC JTAG ICE JTAG ISP... 5 IDE AVR STUDIO JTAGICE JTAGICE... 12 ... 3... 3... 3... 3... 4 1JTAG ICE PC... 4 2JTAG ICE... 4 3... 4 4... 4 5JTAG... 5 6ISP... 5 IDE... 6 1 AVR STUDIO... 6 2 JTAGICE... 6 3JTAGICE... 12 4.... 16 5.... 17 6. JTAG ICE... 19 ISP... 20 1PonyProg2000...

More information

Microsoft Word - ~ doc

Microsoft Word - ~ doc 1 适用产品 : 1.1 SM59R16A5/ SM59R09A5/ SM59R05A5/ SM59R16A3/ SM59R09A3/ SM59R05A3 1.2 SM59R16G6/ SM59R09G6/ SM59R05G6 1.3 SM59R04A2/ SM59R04A1/ SM59R03A1/ SM59R02A1 1.4 SM59R16A2/ SM59R08A2 2 UART 差异如下说明 :

More information

C PICC C++ C++ C C #include<pic.h> C static volatile unsigned char 0x01; static volatile unsigned char 0x02; static volatile unsigned cha

C PICC C++ C++ C C #include<pic.h> C static volatile unsigned char 0x01; static volatile unsigned char 0x02; static volatile unsigned cha CYPOK CYPOK 1 UltraEdit Project-->Install Language Tool: Language Suite----->hi-tech picc Tool Name ---->PICC Compiler Executable ---->c:hi-picinpicc.exe ( Command-line Project-->New Project-->File Name--->myc

More information

Tel: , Fax: STR-15 STR bps 2400bps 4800bps 9600bps STR : 500mW 2.ISM 433

Tel: , Fax: STR-15 STR bps 2400bps 4800bps 9600bps STR : 500mW 2.ISM 433 Tel:086-21-50807785, 50273226 Fax:086-21-50807785-807 http://www.sendbow.com TEL +86-021-50273226 50807785 13816690692 FAX:+86-021-50807785-807 167 E-mail:mailto:technology@sendbow.com web:http://www.sendbow.com

More information

SMART 7P 0 HR7P OTPMCU A/D I/O OTP ROM RAM HR7P HR7P HR7PPMB MSOP0 7+input HR7PPSC HR7PPSD SOP SOP6 +input input HR7PERB SSOP0 7

SMART 7P 0 HR7P OTPMCU A/D I/O OTP ROM RAM HR7P HR7P HR7PPMB MSOP0 7+input HR7PPSC HR7PPSD SOP SOP6 +input input HR7PERB SSOP0 7 上海东软载波微电子有限公司 SMART www.essemi.com SMART 7P 0 HR7P OTPMCU A/D I/O OTP ROM RAM HR7P HR7P HR7PPMB MSOP0 7+input 06 6 6 HR7PPSC HR7PPSD SOP SOP6 +input 06 6 +input 06 6 6 6 HR7PERB SSOP0 7+input 06 6 6 HR7PESC

More information

DATASHEET SEARCH SITE ==

DATASHEET SEARCH SITE == , STC 89 1280 8/16/32/64k IAP SRAM ISP P0 8 P1 8051 E 2 PROM + P2 IAP STC Data Flash P4.0P4.3 P3 MAX810 I/O P4 A/D UART A / D 3 STC 89 P I I E 2 P 4 S A ROM EMI P P STC 89C51 RC 4K 512 2K STC 89C52 RC

More information

untitled

untitled CPX CPX-FB14 CANopen 8041142 zh 1411d ... de... zh 1411d... P.BE-CPX-FB14-ZH... 8041142 (Festo AG & Co. KG,:73726 Esslingen,,2013) : http://www.festo.com : service_international@festo.com,, Festo P.BE-CPX-FB14-ZH

More information

CAUTION RISK OF ELECTRIC SHOCK DO NOT OPEN 2

CAUTION RISK OF ELECTRIC SHOCK DO NOT OPEN 2 WV-CU950/G WV-CU650/G CAUTION RISK OF ELECTRIC SHOCK DO NOT OPEN 2 S3125A 3 4 5 6 7 8 9 #9 $0 #8 $1 $2 $3 r q w e t $4 i u!0 y WV-CU950!1!3!4!7!6!5!8 @0!9 @3 @2 @1!2 o ALARM ACK ALM RESET ALM SUSPEND ALM

More information

行业

行业 PCI-1710 1.1...2 1.1.1...2 1.1.2...2 1.1.3 FIFO( )...2 1.1.4...2 1.1.5...2 1.1.6 16 16...3 1.1.7...3 1.2...3 1.3...3 2.1...3 2.2...4 2.2.1...4 2.2.2...5 2.3...9 2.3.1...10 2.3.2... 11 2.3.3...12 2.3.4...12

More information

行业

行业 PCI-1711/1711L 1.1...2 1.1.1...2 1.1.2...2 1.1.3 FIFO...2 1.1.4...2 1.1.5 16 16...3 1.2...3 2.1...3 2.2...3 2.2.1... 2.2.2...8 2.3...10 2.3.1...10 2.3.2... 11 2.3.3...12 2.3.4...13 2.4.5...14 3.1...16

More information

TouchWin Human Machine Interface

TouchWin Human Machine Interface Human Machine Interface TP 1 2 3 1 2 3 4 5 TP 1 PLC 113 TouchWin / 2 TouchWin PLC Programmable Logical Controller PLC CAD/CAM PLC I/O 3 TouchWin...3...4...6 1... 6 1-1... 7 1-2... 8 1-3... 10 1-4... 13

More information

79F161 V0.2

79F161 V0.2 SH88F2051 / 带 10 位 ADC 的 2051/4051 微控制器 1. 特性 基于 8051 兼容流水指令的 8 位单片机 Flash ROM:4K/8K 字节 RAM: 内部 256 字节, 外部 256 字节 片上 512 字节类 EEPROM 存储空间 工作电压 : fosc = 30kHz - 16.6MHz,VDD = 2.8V - 5.5V 振荡器 ( 代码选项 ): -

More information

79F161 V0.2

79F161 V0.2 带增强型 8051 的电力线载波通信控制器 1. 特性 基于 8051 指令流水线结构的 8 位单片机 Flash ROM:16K 字节 类 EEPROM:2K 字节 RAM: 内部 256 字节, 外部 512 字节 工作电压 : V DD = 3.0V - 5.5V,AV DD = 3.0V - 3.6V 振荡器 : - 晶体谐振器 :8MHz - 16MHz 16 个 CMOS 双向 I/O

More information

tiny15.PDF

tiny15.PDF ATtiny15/L 1. 8 AVR 2. RISC 90 32 8 3. 1K FLASH 1000 64 EEPROM 100000 4. Peripheral Prescale 8 / 100kHz PWM 4 10 ADC 20 5. MCU SPI ISP BOD 1.6MHz T/C1 25.6MHz 6. I/O 8 PDIP/SOIC 6 I/O 7. 2.7V-5.5V ATtiny15/L1L

More information

规格说明

规格说明 24 GSX-540K GSX-540K GSX-540K FP-530K KY-540K FP-5400K. 2. 3. ........2... 3... 7 2.... 7 2..... 7 2..2... 9 2..3... 0 2..4... 2..5... 6 2.2... 7 2.2.... 7 2.2.2... 9... 5 3.... 5 3.2... 52 3.3... 52 3.4...

More information

, , STC11F01-35C-SOP16 RMB 1.99 STC10F04-35C-LQFP44 R MB 2. 99 , STC12C5A08AD-35C-LQFP44,RMB 7.5 , STC12C5201AD-SOP16,RMB 2.49 STC12C5202AD-LQFP32,RMB 3.99 0.1uF 0.1uF 0.1uF STC 89 E 2 PROM Data Flash

More information

1 TPIS TPIS 2 2

1 TPIS TPIS 2 2 1 1 TPIS TPIS 2 2 1. 2. 3. 4. 3 3 4 5 4 TPIS TPIS 6 5 350 Mark Coil F3/F6 350 M 150 M 25 M 7.12M 8 M F3 F6 F4 F7 F8 8M AA 7 350 28V 5V IC HCPL2731 0.5mA 6 8 (TPIS) TPIS 9 7 IC AT89C2051 AT89C2051 CMOS8

More information

GW EDA VHDL VHDL VHDL VHDL ADC009 0 FPGA PC GW EDA a GW EDA beda README.TXT c d 0 e J MZH +V GND -V D/A +V GND S JA J D D D D D D D D C K J J VGA VGA B EDA JB B J HC B RS- CON CON HC PS/ CPLD/FPGA J RS-

More information

ARM Cortex-M3 (STM32F) STMicroelectronics ( ST) STM32F103 Core: ARM 32-bit Cortex -M3 CPU 72 MHz, 90 DMIPS with 1.25 DMIPS/MHz Single-cycle multiplica

ARM Cortex-M3 (STM32F) STMicroelectronics ( ST) STM32F103 Core: ARM 32-bit Cortex -M3 CPU 72 MHz, 90 DMIPS with 1.25 DMIPS/MHz Single-cycle multiplica CP Chip Power ARM Cortex-M3 (STM32F) ARM Cortex-M3 (STM32F) STMicroelectronics ( ST) STM32F103 Core: ARM 32-bit Cortex -M3 CPU 72 MHz, 90 DMIPS with 1.25 DMIPS/MHz Single-cycle multiplication and hardware

More information

/ / / LED DOCNO: SG D REV11-2 -

/ / / LED DOCNO: SG D REV11-2 - SG24064-02D Version11 SG24064SYD-02DSYE LCD LED VDD STN 80 50V 50V SG24064SBD-02DSWE STN 80 50V 50V SG24064FPD-02DSWE FSTN 80 50V 50V SG24064SYD-02DSYE ND STN 80 50V 50V SG24064SBD-02DSWE ND STN 80 50V

More information

, STC11F01-35C-SOP16 RMB 1.99 STC10F04-35C-LQFP44 R MB 2. 99

, STC11F01-35C-SOP16 RMB 1.99 STC10F04-35C-LQFP44 R MB 2. 99 , STC11F01-35C-SOP16 RMB 1.99 STC10F04-35C-LQFP44 R MB 2. 99 , STC12C5A08AD-35C-LQFP44,RMB 7.5 , STC12C5201AD-SOP16,RMB 2.49 STC12C5202AD-LQFP32,RMB 3.99 , , 0.1uF STC 89LE58 RD+ 32K 1280 16K+ 0.1uF

More information

C/C++ - 文件IO

C/C++ - 文件IO C/C++ IO Table of contents 1. 2. 3. 4. 1 C ASCII ASCII ASCII 2 10000 00100111 00010000 31H, 30H, 30H, 30H, 30H 1, 0, 0, 0, 0 ASCII 3 4 5 UNIX ANSI C 5 FILE FILE 6 stdio.h typedef struct { int level ;

More information

Microsoft PowerPoint - C15_LECTURE_NOTE_15

Microsoft PowerPoint - C15_LECTURE_NOTE_15 THE 8051 MICROCONTROLLER THE 8051 MICROCONTROLLER 15.1 Introduction 15.2 The 8051 Architecture 15.3 Interfacing to External Memory 15.4 The 8051 Instruction Set 15.5 Timer Operations 15.6 Serial Port Operations

More information

a b c d e f g C2 C1 2

a b c d e f g C2 C1 2 a b c d e f g C2 C1 2 IN1 IN2 0 2 to 1 Mux 1 IN1 IN2 0 2 to 1 Mux 1 Sel= 0 M0 High C2 C1 Sel= 1 M0 Low C2 C1 1 to 2 decoder M1 Low 1 to 2 decoder M1 High 3 BCD 1Hz clk 64Hz BCD 4 4 0 1 2 to 1 Mux sel 4

More information

DR2010.doc

DR2010.doc DR/2010 HACH 11-8-96-2 HACH. DR/2010, / UL E79852 CSA C22.223 LR 58275 VDE GS 1015-92 FCC"A" 15 : AMADOR CORP, HACH. EN50 011/CISPR 11 "B" (EMI)/89/336/EEC/EMC: AMADOR CORP, HACH.. EN50 082-1( )/89/226/EEC

More information

User ID 150 Password - User ID 150 Password Mon- Cam-- Invalid Terminal Mode No User Terminal Mode No User Mon- Cam-- 2

User ID 150 Password - User ID 150 Password Mon- Cam-- Invalid Terminal Mode No User Terminal Mode No User Mon- Cam-- 2 Terminal Mode No User User ID 150 Password - User ID 150 Password Mon- Cam-- Invalid Terminal Mode No User Terminal Mode No User Mon- Cam-- 2 Mon1 Cam-- Mon- Cam-- Prohibited M04 Mon1 Cam03 Mon1 Cam03

More information

System Design and Setup of a Robot to Pass over Steps Abstract In the research, one special type of robots that can pass over steps is designed and se

System Design and Setup of a Robot to Pass over Steps Abstract In the research, one special type of robots that can pass over steps is designed and se 8051 8051 System Design and Setup of a Robot to Pass over Steps Abstract In the research, one special type of robots that can pass over steps is designed and setup. This type of robot uses two kinds of

More information

2.5 idlocs PIC idloc idloc 0x1234 ; 0x config idloc HEX errorlevel errorlevel Error (Warning) Message HEX 3-14 errorlevel

2.5 idlocs PIC idloc idloc 0x1234 ; 0x config idloc HEX errorlevel errorlevel Error (Warning) Message HEX 3-14 errorlevel 3.2.3 MPASM PIC 35 35 #include include #include MPASM include PIC MPLAB C:\Program Files\MPLAB IDE\MCHIP_Tools PIC.inc 3-01 #include ; PIC16F877A #include math.asm ; 3-01 MPASM MPLAB

More information
2024 © docsplayer.com 隐私 | 条款 | 反馈