#include #include void Interrupt::pinInterrupt() // here the interrupt is handled after wakeup { // execute code here after wake-up before returning to the loop() function // timers and code using timers (serial.print and more...) will not work here. // we don't really need to execute any special functions here, since we // just want the thing to wake up } void Interrupt::setupInterrupt() { /* * The 5 different modes are: * SLEEP_MODE_IDLE -the least power savings * SLEEP_MODE_ADC * SLEEP_MODE_PWR_SAVE * SLEEP_MODE_STANDBY * SLEEP_MODE_PWR_DOWN -the most power savings * * For now, we want as much power savings as possible, so we * choose the according * sleep mode: SLEEP_MODE_PWR_DOWN */ set_sleep_mode(SLEEP_MODE_PWR_DOWN); // sleep mode is set here sleep_enable(); // enables the sleep bit in the mcucr register // so sleep is possible. just a safety pin /* Now it is time to enable an interrupt. * In the function call attachInterrupt(A, B, C) * A can be either 0 or 1 for interrupts on pin 2 or 3. * B Name of a function you want to execute at interrupt for A. * C Trigger mode of the interrupt pin. can be: * LOW a low level triggers * CHANGE a change in level triggers * RISING a rising edge of a level triggers * FALLING a falling edge of a level triggers * * In all but the IDLE sleep modes only LOW can be used. */ attachInterrupt(0,pinInterrupt, LOW); /* power_adc_disable(); power_spi_disable(); power_timer0_disable(); power_timer1_disable(); power_timer2_disable(); power_twi_disable(); */ sleep_mode(); // here the device is actually put to sleep!! // THE PROGRAM CONTINUES FROM HERE AFTER WAKING UP sleep_disable(); // first thing after waking from sleep: // disable sleep... detachInterrupt(0); // disables interrupt 0 on pin 2 so the // wakeUpNow code will not be executed // during normal running time. power_all_enable(); }