ADC Program Examples for Products
AT89C51CCxx, T89C51AC2, T89C5115
References
•
8051
Microcontrollers
Atmel 8051 Microcontrollers Hardware Manual
Application Note
Rev. 4361C–80C51–11/04
1
1. Introduction
This Application Note provides to customers C and Assembler program examples for
ADC.
These examples are developped for the different configuration modes of this feature.
The Code example targets T89C51CC01, please replace the line # include
‘T89C51CC01.h’ with the corresponding line for AT89C51CC03, T89C51CC02,
AT89C51AC3, T89C51AC2, T89C5115 products.
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4361C–80C51–11/04
2. C Examples
2.1 8 bits ADC
/**
* @file $RCSfile: Adc_8bits.c,v $
*
* Copyright (c) 2004 Atmel.
*
* Please read file license.txt for copyright notice.
*
* @brief This file is an example to use Adc.
*
* This file can be parsed by Doxygen for automatic documentation
* generation.
* Put here the functional description of this file within the software
* architecture of your program.
*
* @version $Revision: 1.0 $ $Name:
$
*/
/* @section
I N C L U D E S */
#include "t89c51cc01.h"
unsigned char value_converted=0x00; /* converted value */
unsigned char value_AN6=0x00;
/* converted AN6 value */
unsigned char value_AN7=0x00;
/* converted AN7 value */
bit end_of_convertion=0;
/* software flag */
/**
* FUNCTION_PURPOSE:this function setup Adc with channel 6 and 7 and start
* 8bits convertion.
* FUNCTION_INPUTS:void
* FUNCTION_OUTPUTS:void
*/
void main(void)
{
/* configure channel P1.6(AN6) and P1.7(AN7) for ADC */
ADCF = 0xC0;
/* init prescaler for adc clock */
/* Fadc = Fperiph/(2*(32-PRS)), PRS -> ADCLK[4:0] */
ADCLK = 0x06;
/* Fosc = 16 MHz, Fadsc = 153.8khz */
ADCON = 0x20;
/* Enable the ADC */
EA = 1;
/* enable interrupts */
EADC = 1;
/* enable ADC interrupt */
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4361C–80C51–11/04
while(1)
{
ADCON &= ~0x07;
/* Clear the channel field ADCON[2:0] */
ADCON |= 0x06;
/* Select channel 6 */
ADCON &= ~0x40;
/* standard mode */
ADCON |= 0x08;
/* Start conversion */
while(!end_of_convertion);
/* wait end of convertion */
end_of_convertion=0;
/* clear software flag */
value_AN6=value_converted;
/* save converted value */
ADCON &= ~0x07;
/* Clear the channel field ADCON[2:0] */
ADCON |= 0x07;
/* Select channel 7 */
ADCON &= ~0x40;
/* standard mode */
ADCON |= 0x08;
/* Start conversion */
while(!end_of_convertion);
/* wait end of convertion */
end_of_convertion=0;
/* clear software flag */
value_AN7=value_converted;
/* save converted value */
}
}
/**
* FUNCTION_PURPOSE:Adc interrupt, save ADDH into an unsigned char
* FUNCTION_INPUTS:void
* FUNCTION_OUTPUTS:void
*/
void it_Adc(void) interrupt 8
{
ADCON &= ~0x10;
/* Clear the End of conversion flag */
value_converted = ADDH;
/* save value */
end_of_convertion=1;
/* set flag */
}
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2.2 10bits ADC
/**
* @file $RCSfile: Adc_10bits.c,v $
*
* Copyright (c) 2004 Atmel.
*
* Please read file license.txt for copyright notice.
*
* @brief This file is an example to use Adc.
*
* This file can be parsed by Doxygen for automatic documentation
* generation.
* Put here the functional description of this file within the software
* architecture of your program.
*
* @version $Revision: 1.0 $ $Name:
$
*/
/* @section
I N C L U D E S */
#include "t89c51cc01.h"
unsigned int value_converted=0x0000;/* converted value */
unsigned int value_AN6=0x0000;
/* converted AN6 value */
unsigned int value_AN7=0x0000;
/* converted AN7 value */
bit end_of_convertion=0;
/* software flag */
/**
* FUNCTION_PURPOSE:this function setup Adc with channel 6 and 7 and start
* 10bits convertion.
* FUNCTION_INPUTS:void
* FUNCTION_OUTPUTS:void
*/
void main(void)
{
/* configure channel P1.6(AN6) and P1.7(AN7) for ADC */
ADCF = 0xC0;
/* init prescaler for adc clock */
/* Fadc = Fperiph/(2*(32-PRS)), PRS -> ADCLK[4:0] */
ADCLK = 0x06;
/* Fosc = 16 MHz, Fadsc = 153.8khz */
ADCON = 0x20;
/* Enable the ADC */
EA = 1;
/* enable interrupts */
EADC = 1;
/* enable ADC interrupt */
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4361C–80C51–11/04
while(1)
{
ADCON &= ~0x07;
/* Clear the channel field ADCON[2:0] */
ADCON |= 0x06;
/* Select channel 6 */
ADCON &= ~0x40;
/* standard mode */
ADCON |= 0x08;
/* Start conversion */
while(!end_of_convertion);
/* wait end of convertion */
end_of_convertion=0;
/* clear software flag */
value_AN6=value_converted;
/* save converted value */
ADCON &= ~0x07;
/* Clear the channel field ADCON[2:0] */
ADCON |= 0x07;
/* Select channel 7 */
ADCON &= ~0x40;
/* standard mode */
ADCON |= 0x08;
/* Start conversion */
while(!end_of_convertion);
/* wait end of convertion */
end_of_convertion=0;
/* clear software flag */
value_AN7=value_converted;
/* save converted value */
}
}
/**
* FUNCTION_PURPOSE:Adc interrupt, save ADDH and ADDL into an unsigned int
* FUNCTION_INPUTS:void
* FUNCTION_OUTPUTS:void
*/
void it_Adc(void) interrupt 8
{
ADCON &= ~0x10;
/* Clear the End of conversion flag */
value_converted = ADDH<<2;
/* save 8 msb bits */
value_converted |= (ADDL & 0x03);
/* save 2 lsb bits */
end_of_convertion=1;
/* set flag */
}
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4361C–80C51–11/04
2.3 SFR Register Definition
/*H*************************************************************************
**
* NAME: T89C51CC01.h
*--------------------------------------------------------------------------* PURPOSE: inlcude file for KEIL
****************************************************************************
*/
#ifndef _T89C51CC01_H_
#define _T89C51CC01_H_
#define Sfr(x, y)
sfr x = y
#define Sbit(x, y, z)
sbit x = y^z
#define Sfr16(x,y)sfr16 x = y
/*----------------------------------------*/
/* Include file for 8051 SFR Definitions
*/
/*----------------------------------------*/
/*
BYTE Register
*/
Sfr (P0 , 0x80);
Sfr (P1 , 0x90);
Sbit (P1_7, 0x90, 7);
Sbit (P1_6, 0x90, 6);
Sbit (P1_5, 0x90, 5);
Sbit (P1_4, 0x90, 4);
Sbit (P1_3, 0x90, 3);
Sbit (P1_2, 0x90, 2);
Sbit (P1_1, 0x90, 1);
Sbit (P1_0, 0x90, 0);
Sfr (P2 , 0xA0);
Sbit (P2_7 , 0xA0, 7);
Sbit (P2_6 , 0xA0, 6);
Sbit (P2_5 , 0xA0, 5);
Sbit (P2_4 , 0xA0, 4);
Sbit (P2_3 , 0xA0, 3);
Sbit (P2_2 , 0xA0, 2);
Sbit (P2_1 , 0xA0, 1);
Sbit (P2_0 , 0xA0, 0);
Sfr (P3 , 0xB0);
Sbit (P3_7 , 0xB0, 7);
Sbit (P3_6 , 0xB0, 6);
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Sbit (P3_5 , 0xB0, 5);
Sbit (P3_4 , 0xB0, 4);
Sbit (P3_3 , 0xB0, 3);
Sbit (P3_2 , 0xB0, 2);
Sbit (P3_1 , 0xB0, 1);
Sbit (P3_0 , 0xB0, 0);
Sbit (RD , 0xB0, 7);
Sbit (WR , 0xB0, 6);
Sbit (T1 , 0xB0, 5);
Sbit (T0 , 0xB0, 4);
Sbit (INT1, 0xB0, 3);
Sbit (INT0, 0xB0, 2);
Sbit (TXD , 0xB0, 1);
Sbit (RXD , 0xB0, 0);
Sfr (P4 , 0xC0);
Sfr (PSW , 0xD0);
Sbit (CY
, 0xD0, 7);
Sbit (AC
, 0xD0, 6);
Sbit (F0
, 0xD0, 5);
Sbit (RS1 , 0xD0, 4);
Sbit (RS0 , 0xD0, 3);
Sbit (OV
, 0xD0, 2);
Sbit (UD
, 0xD0, 1);
Sbit (P
, 0xD0, 0);
Sfr (ACC , 0xE0);
Sfr (B , 0xF0);
Sfr (SP , 0x81);
Sfr (DPL , 0x82);
Sfr (DPH , 0x83);
Sfr (PCON , 0x87);
Sfr (CKCON , 0x8F);
/*------------------ TIMERS registers ---------------------*/
Sfr (TCON , 0x88);
Sbit (TF1 , 0x88, 7);
Sbit (TR1 , 0x88, 6);
Sbit (TF0 , 0x88, 5);
Sbit (TR0 , 0x88, 4);
Sbit (IE1 , 0x88, 3);
Sbit (IT1 , 0x88, 2);
Sbit (IE0 , 0x88, 1);
Sbit (IT0 , 0x88, 0);
Sfr (TMOD , 0x89);
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Sfr
(T2CON , 0xC8);
Sbit (TF2
, 0xC8, 7);
Sbit (EXF2
, 0xC8, 6);
Sbit (RCLK
, 0xC8, 5);
Sbit (TCLK
, 0xC8, 4);
Sbit (EXEN2 , 0xC8, 3);
Sbit (TR2
, 0xC8, 2);
Sbit (C_T2
, 0xC8, 1);
Sbit (CP_RL2, 0xC8, 0);
Sfr (T2MOD , 0xC9);
Sfr (TL0 , 0x8A);
Sfr (TL1 , 0x8B);
Sfr (TL2 , 0xCC);
Sfr (TH0 , 0x8C);
Sfr (TH1 , 0x8D);
Sfr (TH2 , 0xCD);
Sfr (RCAP2L , 0xCA);
Sfr (RCAP2H , 0xCB);
Sfr (WDTRST , 0xA6);
Sfr (WDTPRG , 0xA7);
/*------------------- UART registers ------------------------*/
Sfr (SCON , 0x98);
Sbit (SM0
, 0x98, 7);
Sbit (FE
, 0x98, 7);
Sbit (SM1
, 0x98, 6);
Sbit (SM2
, 0x98, 5);
Sbit (REN
, 0x98, 4);
Sbit (TB8
, 0x98, 3);
Sbit (RB8
, 0x98, 2);
Sbit (TI
, 0x98, 1);
Sbit (RI
, 0x98, 0);
Sfr (SBUF , 0x99);
Sfr (SADEN , 0xB9);
Sfr (SADDR , 0xA9);
/*-------------------- ADC registers ----------------------*/
Sfr (ADCLK , 0xF2);
Sfr (ADCON , 0xF3);
#define MSK_ADCON_PSIDLE 0x40
#define MSK_ADCON_ADEN
0x20
#define MSK_ADCON_ADEOC
0x10
#define MSK_ADCON_ADSST
0x08
#define MSK_ADCON_SCH
0x07
Sfr (ADDL , 0xF4);
#define MSK_ADDL_UTILS 0x03
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Sfr (ADDH , 0xF5);
Sfr (ADCF , 0xF6);
/*-------------------- FLASH EEPROM registers ------------*/
Sfr (FCON
, 0xD1);
#define MSK_FCON_FBUSY 0x01
#define MSK_FCON_FMOD
0x06
#define MSK_FCON_FPS
0x08
#define MSK_FCON_FPL
0xF0
Sfr (EECON
, 0xD2);
#define MSK_EECON_EEBUSY 0x01
#define MSK_EECON_EEE
0x02
#define MSK_EECON_EEPL
0xF0
Sfr (AUXR
, 0x8E);
#define MSK_AUXR_M0
Sfr (AUXR1
0x20
, 0xA2);
#define MSK_AUXR1_ENBOOT 0x20
/*-------------------- IT registers -----------------------*/
Sfr (IPL1 , 0xF8);
Sfr (IPH1 , 0xF7);
Sfr (IEN0
, 0xA8);
Sfr (IPL0 , 0xB8);
Sfr (IPH0 , 0xB7);
Sfr (IEN1
/*
IEN0
, 0xE8);
*/
Sbit (EA
, 0xA8, 7);
Sbit (EC
, 0xA8, 6);
Sbit (ET2
, 0xA8, 5);
Sbit (ES
, 0xA8, 4);
Sbit (ET1
, 0xA8, 3);
Sbit (EX1
, 0xA8, 2);
Sbit (ET0
, 0xA8, 1);
Sbit (EX0
, 0xA8, 0);
/*
IEN1
*/
Sbit (ETIM , 0xE8, 2);
Sbit (EADC , 0xE8, 1);
Sbit (ECAN , 0xE8, 0);
/*--------------------- PCA registers --------------------*/
Sfr (CCON , 0xD8);
Sbit(CF
, 0xD8, 7);
Sbit(CR
, 0xD8, 6);
Sbit(CCF4, 0xD8, 4);
Sbit(CCF3, 0xD8, 3);
Sbit(CCF2, 0xD8, 2);
Sbit(CCF1, 0xD8, 1);
Sbit(CCF0, 0xD8, 0);
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Sfr (CMOD , 0xD9);
Sfr (CH , 0xF9);
Sfr (CL , 0xE9);
Sfr (CCAP0H
, 0xFA);
Sfr (CCAP0L
, 0xEA);
Sfr (CCAPM0
, 0xDA);
Sfr (CCAP1H
, 0xFB);
Sfr (CCAP1L
, 0xEB);
Sfr (CCAPM1
, 0xDB);
Sfr (CCAP2H
, 0xFC);
Sfr (CCAP2L
, 0xEC);
Sfr (CCAPM2
, 0xDC);
Sfr (CCAP3H
, 0xFD);
Sfr (CCAP3L
, 0xED);
Sfr (CCAPM3
, 0xDD);
Sfr (CCAP4H
, 0xFE);
Sfr (CCAP4L
, 0xEE);
Sfr (CCAPM4
, 0xDE);
/*------------------- CAN registers --------------------------*/
Sfr (CANGIT , 0x9B);
#define MSK_CANGIT_CANIT0x80
#define MSK_CANGIT_OVRTIM
0x20
#define MSK_CANGIT_OVRBUF0x10
#define MSK_CANGIT_SERG0x08
#define MSK_CANGIT_CERG0x04
#define MSK_CANGIT_FERG0x02
#define MSK_CANGIT_AERG0x01
Sfr (CANTEC , 0x9C);
Sfr (CANREC , 0x9D);
Sfr (CANTCON , 0xA1);
Sfr (CANMSG , 0xA3);
Sfr (CANTTCL , 0xA4);
Sfr (CANTTCH , 0xA5);
Sfr (CANGSTA , 0xAA);
#define MSK_CANGSTA_OVFG0x40
#define MSK_CANGSTA_TBSY0x10
#define MSK_CANGSTA_RBSY0x08
#define MSK_CANGSTA_ENFG0x04
#define MSK_CANGSTA_BOFF0x02
#define MSK_CANGSTA_ERRP0x01
Sfr (CANGCON , 0xAB);
#define MSK_CANGCON_ABRQ
0x80
#define MSK_CANGCON_OVRQ
0x40
#define MSK_CANGCON_TTC
0x20
#define MSK_CANGCON_SYNCTTC
0x10
#define TTC_EOF
0x10
#define TTC_SOF
0x00
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#define MSK_CANGCON_AUTBAUD
#define MSK_CANGCON_ENA
0x08
0x02
#define MSK_CANGCON_GRES 0x01
Sfr (CANTIML , 0xAC);
Sfr (CANTIMH , 0xAD);
Sfr (CANSTMPL , 0xAE);
Sfr (CANSTMPH , 0xAF);
Sfr (CANPAGE , 0xB1);
Sfr (CANSTCH , 0xB2);
#define MSK_CANSTCH_DLCW
0x80
#define MSK_CANSTCH_TxOk
0x40
#define MSK_CANSTCH_RxOk
0x20
#define MSK_CANSTCH_BERR
0x10
#define MSK_CANSTCH_SERR
0x08
#define MSK_CANSTCH_CERR
0x04
#define MSK_CANSTCH_FERR
0x02
#define MSK_CANSTCH_AERR
0x01
Sfr (CANCONCH , 0xB3);
#define MSK_CANCONCH_IDE
0x10
#define MSK_CANCONCH_DLC
0x0F
#define MSK_CANCONCH_CONF 0xC0
#define DLC_MAX
8
#define CH_DISABLE 0x00
#define CH_RxENA
0x80
#define CH_TxENA
0x40
#define CH_RxBENA
0xC0
Sfr (CANBT1 , 0xB4);
#define CAN_PRESCALER_MIN
0
#define CAN_PRESCALER_MAX
63
Sfr (CANBT2 , 0xB5);
#define MSK_CANBT2_SJW
0x60
#define MSK_CANBT2_PRS
0x0E
#define CAN_SJW_MIN
0
#define CAN_SJW_MAX
3
#define CAN_PRS_MIN
0
#define CAN_PRS_MAX
7
Sfr (CANBT3 , 0xB6);
#define MSK_CANBT3_PHS2 0x70
#define MSK_CANBT3_PHS1 0x0E
#define CAN_PHS2_MIN 0
#define CAN_PHS2_MAX 7
#define CAN_PHS1_MIN 0
#define CAN_PHS1_MAX 7
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Sfr (CANSIT1 , 0xBA);
Sfr (CANSIT2 , 0xBB);
Sfr (CANIDT1 , 0xBC);
Sfr (CANIDT2 , 0xBD);
Sfr (CANIDT3 , 0xBE);
Sfr (CANIDT4 , 0xBF);
#define MSK_CANIDT4_RTRTAG 0x04
Sfr (CANGIE , 0xC1);
#define MSK_CANGIE_ENRX
0x20
#define MSK_CANGIE_ENTX
0x10
#define MSK_CANGIE_ENERCH
0x08
#define MSK_CANGIE_ENBUF
0x04
#define MSK_CANGIE_ENERG
0x02
Sfr (CANIE1 , 0xC2);
Sfr (CANIE2 , 0xC3);
Sfr (CANIDM1 , 0xC4);
Sfr (CANIDM2 , 0xC5);
Sfr (CANIDM3 , 0xC6);
Sfr (CANIDM4 , 0xC7);
#define MSK_CANIDM4_RTRMSK 0x04
#define MSK_CANIDM4_IDEMSK 0x01
Sfr (CANEN1 , 0xCE);
Sfr (CANEN2 , 0xCF);
#endif
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4361C–80C51–11/04
3. Assembler 51 Examples
3.1 8 bits Adc
$INCLUDE
(t89c51cc01.INC)
value_converted DATA 10H;
/* converted value */
value_AN6 DATA 11H;
/* converted AN6 value */
value_AN7 DATA 12H;
/* converted AN7 value */
end_of_convertion BIT 20H;
/* software flag */
org 000h
ljmp begin
org 43h
ljmp adc_it
;/**
; * FUNCTION_PURPOSE:this function setup Adc with channel 6 and 7 and start
; * 8bits convertion.
; * FUNCTION_INPUTS:void
; * FUNCTION_OUTPUTS:void
; */
org 0100h
begin:
/* configure channel P1.6(AN6) and P1.7(AN7) for ADC */
MOV ADCF,#0C0h;
/* init prescaler for adc clock */
/* Fadc = Fperiph/(2*(32-PRS)), PRS -> ADCLK[4:0] */
MOV ADCLK,#06h;
/* Fosc = 16 MHz, Fadsc = 153.8khz */
MOV ADCON,#20h;
/* Enable the ADC */
SETB EA;
/* enable interrupts */
SETB EADC;
/* enable ADC interrupt */
loop:
ANL ADCON,#~07h;
/* Clear the channel field ADCON[2:0] */
ORL ADCON, #06h;
/* Select channel 6 */
ANL ADCON,#~40h;
/* standard mode */
ORL ADCON, #08h;
/* Start conversion */
JNB end_of_convertion,$;
/* wait end of convertion */
CLR end_of_convertion;
/* clear software flag */
MOV value_AN6,value_converted;/* save converted value */
ANL ADCON,#~07h;
/* Clear the channel field ADCON[2:0] */
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ORL ADCON, #07h;
/* Select channel 7 */
ANL ADCON,#~40h;
/* standard mode */
ORL ADCON, #08h;
/* Start conversion */
JNB end_of_convertion,$;
/* wait end of convertion */
CLR end_of_convertion;
/* clear software flag */
MOV value_AN7,value_converted;/* save converted value */
JMP loop
;/**
; * FUNCTION_PURPOSE:Adc interrupt, save ADDH into an unsigned char
; * FUNCTION_INPUTS:void
; * FUNCTION_OUTPUTS:void
; */
adc_it:
ANL ADCON,#~10h;
/* Clear the End of conversion flag */
MOV value_converted,ADDH;
/* save value */
SETB end_of_convertion;
/* set flag */
RETI
end
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3.2 10 bits ADC
$INCLUDE
(t89c51cc01.INC)
msb_value_converted DATA 10H;
/* converted msb value */
lsb_value_converted DATA 11H;
/* converted lsb value */
msb_value_AN6 DATA 12H;
/* converted msb AN6 value */
lsb_value_AN6 DATA 13H;
/* converted lsb AN6 value */
msb_value_AN7 DATA 14H;
/* converted msb AN7 value */
lsb_value_AN7 DATA 15H;
/* converted lsb AN7 value */
end_of_convertion BIT 20H;
/* software flag */
CLR end_of_convertion
org 000h
ljmp begin
org 43h
ljmp adc_it
;/**
; * FUNCTION_PURPOSE:this function setup Adc with channel 6 and 7 and start
; * 8bits convertion.
; * FUNCTION_INPUTS:void
; * FUNCTION_OUTPUTS:void
; */
org 0100h
begin:
/* configure channel P1.6(AN6) and P1.7(AN7) for ADC */
MOV ADCF,#0C0h;
;/* init prescaler for adc clock */
;/* Fadc = Fperiph/(2*(32-PRS)), PRS -> ADCLK[4:0] */
MOV ADCLK,#06h;
/* Fosc = 16 MHz, Fadsc = 153.8khz */
MOV ADCON,#20h;
/* Enable the ADC */
SETB EA;
/* enable interrupts */
SETB EADC;
/* enable ADC interrupt */
loop:
ANL ADCON,#~07h;
/* Clear the channel field ADCON[2:0] */
ORL ADCON, #06h;
/* Select channel 6 */
ANL ADCON,#~40h;
/* standard mode */
ORL ADCON, #08h;
/* Start conversion */
JNB end_of_convertion,$;
/* wait end of convertion */
CLR end_of_convertion;
/* clear software flag */
MOV msb_value_AN6,msb_value_converted;/* save converted msb value */
MOV lsb_value_AN6,lsb_value_converted;/* save converted lsb value */
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4361C–80C51–11/04
ANL ADCON,#~07h;
/* Clear the channel field ADCON[2:0] */
ORL ADCON, #07h;
/* Select channel 7 */
ANL ADCON,#~40h;
/* standard mode */
ORL ADCON, #08h;
/* Start conversion */
JNB end_of_convertion,$;
/* wait end of convertion */
CLR end_of_convertion;
/* clear software flag */
MOV msb_value_AN7,msb_value_converted;/* save converted msb value */
MOV lsb_value_AN7,lsb_value_converted;/* save converted lsb value */
JMP loop
;/**
; * FUNCTION_PURPOSE:Adc interrupt, save ADDH and ADDL into an unsigned int
; * FUNCTION_INPUTS:void
; * FUNCTION_OUTPUTS:void
; */
adc_it:
ANL ADCON,#~10h;
/* Clear the End of conversion flag */
;/* copy ADDH[7:6] into msb_value_converted[1:0] */
MOV A,ADDH
SWAP A
RR A
RR A
ANL A,#~0FCh
MOV msb_value_converted,A
;/* copy ADDH[5:0] into lsb_value_coverted[7:2]
MOV A,ADDH
RL A
RL A
ANL A,#~03h
MOV lsb_value_converted,A
;/* copy ADDL[1:0] into lsb_value_coverted[1:0]
MOV A,ADDL
ANL A,#~0FCh
ORL lsb_value_converted,A
SETB end_of_convertion;
/* set flag */
RETI
end
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4361C–80C51–11/04
3.3 SFR Register Definition
;*INC***********************************************************************
**
; NAME: 89C51CC01.inc
;--------------------------------------------------------------------------; PURPOSE: for Keil
;***************************************************************************
**
;---------------------------------------; Include file for 8051 SFR Definitions
;----------------------------------------
;
BYTE Register
P0
DATA
80H
P1
DATA
90H
P2
DATA
0A0H
P3
DATA
0B0H
RD
BIT
0B7H
WR
BIT
0B6H
T1
BIT
0B5H
T0
BIT
0B4H
INT1
BIT
0B3H
INT0
BIT
0B2H
TXD
BIT
0B1H
RXD
BIT
0B0H
P4
DATA
0C0H
PSW
DATA
0D0H
CY
BIT
0D7H
AC
BIT
0D6H
F0
BIT
0D5H
RS1
BIT
0D4H
RS0
BIT
0D3H
OV
BIT
0D2H
P
BIT
0D0H
ACC
DATA
0E0H
B
DATA
0F0H
SP
DATA
81H
DPL
DATA
82H
DPH
DATA
83H
PCON
DATA
87H
CKCON
DATA
8FH
;------------------ TIMERS registers --------------------TCON
DATA
88H
18
4361C–80C51–11/04
TF1
BIT
8FH
TR1
BIT
8EH
TF0
BIT
8DH
TR0
BIT
8CH
IE1
BIT
8BH
IT1
BIT
8AH
IE0
BIT
89H
IT0
BIT
88H
TMOD
DATA
89H
T2CON
DATA
0C8H
TF2
BIT 0CFH
EXF2
BIT 0CEH
RCLK
BIT 0CDH
TCLK
BIT 0CCH
EXEN2
BIT 0CBH
TR2
BIT 0CAH
C_T2
BIT 0C9H
CP_RL2
BIT 0C8H
T2MOD DATA0C9H
TL0
DATA
8AH
TL1
DATA
8BH
TL2 DATA0CCH
TH0
DATA
8CH
TH1
DATA
8DH
TH2 DATA0CDH
RCAP2L DATA0CAH
RCAP2H DATA0CBH
WDTRST
DATA0A6H
WDTPRG
DATA0A7H
;------------------- UART registers -----------------------SCON
DATA
SM0
BIT 9FH
FE
BIT9FH
SM1
BIT9EH
SM2
BIT9DH
REN
BIT9CH
TB8
BIT9BH
RB8
BIT9AH
TI
BIT99H
RI
BIT98H
SBUF
DATA
98H
99H
SADEN DATA0B9H
SADDR DATA0A9H
;-------------------- ADC registers ----------------------
19
4361C–80C51–11/04
ADCLK DATA0F2H
ADCON DATA0F3H
ADDL DATA0F4H
ADDH DATA0F5H
ADCF DATA0F6H
;-------------------- FLASH EEPROM registers -----------FPGACON
FCON
DATA0F1H
DATA0D1H
EECON
DATA0D2H
AUXR
DATA8EH
AUXR1
DATA0A2H
;-------------------- IT registers ----------------------IPL1 DATA0F8H
IPH1 DATA0F7H
IEN0
DATA0A8H
IPL0 DATA0B8H
IPH0 DATA0B7H
IEN1
;
DATA0E8H
IEN0
EA
BIT 0AFH
EC
BIT 0AEH
ET2
BIT 0ADH
ES
BIT 0ACH
ET1
BIT 0ABH
EX1
BIT 0AAH
ET0
BIT 0A9H
EX0
BIT 0A8H
;
IEN1
ETIM BIT 0EAH
EADC BIT
0E9H
ECAN BIT
0E8H
;--------------------- PCA registers -------------------CCON DATA0D8H
CF
BIT 0DFH
CR
BIT 0DEH
CCF4BIT0D4H
CCF3BIT0D3H
CCF2BIT0D2H
CCF1BIT0D1H
CCF0BIT0D0H
CMOD DATA0D9H
CH DATA0F9H
CL DATA0E9H
CCAP0H
DATA0FAH
20
4361C–80C51–11/04
CCAP0L
DATA0EAH
CCAPM0
DATA0DAH
CCAP1H
DATA0FBH
CCAP1L
DATA0EBH
CCAPM1
DATA0DBH
CCAP2H
DATA0FCH
CCAP2L
DATA0ECH
CCAPM2
DATA0DCH
CCAP3H
DATA0FDH
CCAP3L
DATA0EDH
CCAPM3
DATA0DDH
CCAP4H
DATA0FEH
CCAP4L
DATA0EEH
CCAPM4
DATA0DEH
;------------------- CAN registers -------------------------CANGIT DATA 09BH
CANTEC DATA 09CH
CANREC DATA 09DH
CANTCON DATA 0A1H
CANMSG DATA 0A3H
CANTTCL DATA 0A4H
CANTTCH DATA 0A5H
CANGSTA DATA 0AAH
CANGCON DATA 0ABH
CANTIML DATA 0ACH
CANTIMH DATA 0ADH
CANSTMPL DATA 0AEH
CANSTMPH DATA 0AFH
CANPAGE DATA 0B1H
CANSTCH DATA 0B2H
CANCONCH DATA 0B3H
CANBT1 DATA 0B4H
CANBT2 DATA 0B5H
CANBT3 DATA 0B6H
CANSIT1 DATA 0BAH
CANSIT2 DATA 0BBH
CANIDT1 DATA 0BCH
CANIDT2 DATA 0BDH
CANIDT3 DATA 0BEH
CANIDT4 DATA 0BFH
CANGIE DATA 0C1H
CANIE1 DATA 0C2H
CANIE2 DATA 0C3H
CANIDM1 DATA 0C4H
CANIDM2 DATA 0C5H
CANIDM3 DATA 0C6H
CANIDM4 DATA 0C7H
CANEN1
DATA 0CEH
CANEN2
DATA 0CFH
21
4361C–80C51–11/04
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4361C–80C51–11/04
/xM