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I am programming a AVR MCU.

It has a POT that reads off an analogue pin. It seems that the interrupt is constantly called, and it must be called during a LCD_display method as it is messing with my LCD.

Is there a way to STOP the inturrupts until after the block is run?

int main(void)
/*Turn on ADC Interrupt */
ADCSRA |= (1 << ADIE); 

/*Turn On GLobal Interrupts*/

/* Intalise LCD */
lcd_init(LCD_DISP_ON);                /* initialize display, cursor off */

DDRB &= ~(1 << PINB5);   //set input direction
ADC_Init(128, 0); //initalize ADC

while (1)                         

if (!bit_is_clear(PINB, 5))

if (!pressed)
lcd_puts("test");  //Doesnt work unless I dont comment out the last line of interrupt
pressed = 1;




char adcResult[4];

uint8_t theLowADC = ADCL;
uint16_t theTenBitResults = ADCH<<8 | theLowADC;
itoa(theTenBitResults, adcResult, 10);
ADCSRA |= (1 << ADSC);  //next conversion  *if i comment out this line it works*

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What is ADCSRA? Is it defined as volatile? Does it control both the display and ADC? Do you need a special interrupt acknowledge action for the interrupt controller and/or the I/O devices? Are your ISRs slow enough to miss some interrupts? –  Alexey Frunze Feb 13 '12 at 9:34
@AlexeyFrunze - ADCSRA is a special function register that directly manipulates the hardware settings. It is defined as volatile. –  Fake Name Jun 21 '13 at 3:35

2 Answers 2

up vote 2 down vote accepted

If the interrupt handler behaves bad with your code, the reason could be you spend too much time in the interrupt handler. You should only do critical work in the interrupt handler and defer the less critical work in the application code; use a volatile flag shared between the handler and the application code to let the application code know if it has work to do. In your example, you should defer the itoa call in the application code.

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Use cli(); to disable interrupts and sei(); to enable them again after you finished the display routine. Which MCU are you using? You should propably use a timer instead of a delay of 500ms.

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