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I am having a hard time understanding some code I found for using a timer and interrupts on an ARM board I have. The timer basically toggles an LED every interrupt between on and off to make it flash.

void main(void) {

    /* Pin direction */

    /* timer setup */
    /* CTRL */

    #define COUNT_MODE 1      /* Use rising edge of primary source */
    #define PRIME_SRC  0xf    /* Peripheral clock with 128 prescale (for 24 MHz = 187500 Hz)*/
    #define SEC_SRC    0      /* Don't need this */
    #define ONCE       0      /* Keep counting */
    #define LEN        1      /* Count until compare then reload with value in LOAD */
    #define DIR        0      /* Count up */
    #define CO_INIT    0      /* Other counters cannot force a re-initialization of this counter */
    #define OUT_MODE   0      /* OFLAG is asserted while counter is active */

    *TMR_ENBL     = 0;                    /* TMRS reset to enabled */
    *TMR0_SCTRL   = 0;
    *TMR0_CSCTRL  = 0x0040;
    *TMR0_LOAD    = 0;                    /* Reload to zero */
    *TMR0_COMP_UP = 18750;                /* Trigger a reload at the end */
    *TMR0_CMPLD1  = 18750;                /* Compare one triggered reload level, 10 Hz maybe? */
    *TMR0_CNTR    = 0;                    /* Reset count register */
    *TMR0_CTRL    = (COUNT_MODE<<13) | 
                    (PRIME_SRC<<9)   | 
                    (SEC_SRC<<7)     | 
                    (ONCE<<6)        | 
                    (LEN<<5)         | 
                    (DIR<<4)         | 
                    (CO_INIT<<3)     |
    *TMR_ENBL     = 0xf;                  /* Enable all the timers --- why not? */



    while(1) {
        /* Sit here and let the interrupts do the work */

Right now, the LED flashes at a rate that I cannot determine per second. I'd like it to flash once per second. However, I do not understand the whole comparison and reloading.

Could somebody better explain this code?

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Since this question is very specific for the particular timer peripheral, you will likely get the best reply at the Freescale forums: – Lundin Aug 10 '11 at 6:59
At what rate does the LEDs flash? What is the reason that you can not determine the rate? can you measure it? – Gerhard Aug 10 '11 at 9:46

1 Answer 1

As timers are a vendor- and part-specific feature (not a part of the ARM architecture), I can only give general guidance unless you mention which CPU or microcontroller you are dealing with.

Timers have several features:

  1. A size, for instance 16 bits, which means they can count up or down to/from 65535.
  2. A clock input, given as a clock frequency (perhaps from the CPU clock or an external crystal), and a prescaler which divides this clock frequency to another value (or divide by 1).
  3. An interrupt on overflow - when the timer wraps back to 0, there is usually an option to trigger an interrupt.
  4. A compare interrupt - when the timer meets a set value it will issue an interrupt.

In your case, I can see that you are using the compare feature of your timer. By determining your timer clock input, and calculating new values for the prescalers and compare register, you should be able to achieve a 1 Hz rate.

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thanks for the response! I believe the timer clock input is 24MHz (, which seems to be also mentioned in a comment – gnychis Aug 10 '11 at 6:37

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