STC micro STC8A8K64D4 Series

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STC8A8K64D4 Series Manual

- 491 -

sfr ADC_RES = 0xbd;

sfr ADC_RESL = 0xbe;

sfr ADCCFG = 0xde;

sfr P_SW2 = 0xba;

#define ADCTIM (*(unsigned char volatile xdata *)0xfea8)

sbit EADC = IE^5;

sfr P0M1 = 0x93;

sfr P0M0 = 0x94;

sfr P1M1 = 0x91;

sfr P1M0 = 0x92;

sfr P2M1 = 0x95;

sfr P2M0 = 0x96;

sfr P3M1 = 0xb1;

sfr P3M0 = 0xb2;

sfr P4M1 = 0xb3;

sfr P4M0 = 0xb4;

sfr P5M1 = 0xc9;

sfr P5M0 = 0xca;

void ADC_Isr() interrupt 5

{

ADC_CONTR &= ~0x20; //Clear interrupt flag

P2 = ADC_RES; //Read ADC results

ADC_CONTR |= 0x40; //Continue AD conversion

}

void main()

{

P0M0 = 0x00;

P0M1 = 0x00;

P1M0 = 0x00;

P1M1 = 0x00;

P2M0 = 0x00;

P2M1 = 0x00;

P3M0 = 0x00;

P3M1 = 0x00;

P4M0 = 0x00;

P4M1 = 0x00;

P5M0 = 0x00;

P5M1 = 0x00;

P1M0 = 0x00; //Set P1.0 as ADC input

P1M1 = 0x01;

P_SW2 |= 0x80;

ADCTIM = 0x3f; // Set ADC internal timing

P_SW2 &= 0x7f;

ADCCFG = 0x0f; //Set the ADC clock to the system clock/2/16

ADC_CONTR = 0x80; //Enable ADC module

EADC = 1; //Enable ADC interrupt

EA = 1;

ADC_CONTR |= 0x40; //Start AD conversion

while (1);

}

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