haxmark/src/main.c

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2015-05-05 18:49:42 +02:00
// -fruchti 2015
#include "main.h"
volatile uint32_t MillisecondCounter = 0;
volatile uint16_t HallSensorTimer = T_HALL_L;
volatile State_t State = PowerOnWait;
volatile uint8_t HallSensorBuffer = 0;
int main(void)
{
//// IN- AND OUTPUTS ////
D_LED_RD |= (1 << P_LED_RD);
D_LED_YE |= (1 << P_LED_YE);
D_LED_GN |= (1 << P_LED_GN);
O_LED_RD |= (1 << P_LED_RD);
O_LED_YE |= (1 << P_LED_YE);
O_LED_GN |= (1 << P_LED_GN);
O_NPPINS |= (1 << P_NPPINS);
O_PPINSO |= (1 << P_PPINSO);
D_PPINSO |= (1 << P_PPINSO);
O_MNPFSO |= (1 << P_MNPFSO);
D_MNPFSO |= (1 << P_MNPFSO);
O_EXITSO |= (1 << P_EXITSO);
D_EXITSO |= (1 << P_EXITSO);
D_CLUTCH |= (1 << P_CLUTCH);
//// TIMER 0 ////
// Enable CTC mode
TCCR0A = (1 << WGM01);
// Select clock F_CPU/64 (125kHz)
TCCR0B = (1 << CS01) | (1 << CS00);
// 1kHz interrupt frequency
OCR0A = 124;
// Enable OC0A interrupt
TIMSK = (1 << OCIE0A);
//// EXTERNAL INTERRUPTS ////
// Trigger on the falling edge for operator panel input
MCUCR |= (1 << ISC01);
// Enable external interrupt 0
GIMSK |= (1 << INT0);
// Trigger on both edges for hall sensor input
MCUCR |= (1 << ISC10);
// Enable external interrupt 1
GIMSK |= (1 << INT1);
sei();
MillisecondCounter = 0;
State = PowerOnWait;
while(1)
{
switch(State)
{
case PowerOnWait:
// Does nothing.
// Waits for the initialization of the printer to complete
if(MillisecondCounter >= T_POWRON)
{
State = Idle;
}
break;
case Idle:
// Activate clutch and reset all sensor output just in case
// something has gone mucus
O_PPINSO |= (1 << P_PPINSO);
O_MNPFSO |= (1 << P_MNPFSO);
O_EXITSO |= (1 << P_EXITSO);
O_LED_RD |= (1 << P_LED_RD);
O_CLUTCH &= ~(1 << P_CLUTCH);
O_LED_GN &= ~(1 << P_LED_GN);
// Check if motor is running and new paper in sensor is
// blocked by carrier
if(HallSensorTimer < T_HALL_L && !(I_NPPINS & (1 << P_NPPINS)))
{
// Block carrier
O_CLUTCH |= (1 << P_CLUTCH);
O_LED_GN |= (1 << P_LED_GN);
O_LED_RD &= ~(1 << P_LED_RD);
State = ClutchDelay;
MillisecondCounter = 0;
}
break;
case ClutchDelay:
if(MillisecondCounter >= T_CLUTCH)
{
// Deactivate clutch to allow carrier to get pulled in
O_CLUTCH &= ~(1 << P_CLUTCH);
// Enable manual paper feed sensor
O_MNPFSO &= ~(1 << P_MNPFSO);
State = WaitingForPaperIn;
}
break;
case WaitingForPaperIn:
// Check if paper in sensor is triggered
if(I_NPPINS & (1 << P_NPPINS))
{
// Enable paper in sensor output
O_PPINSO &= ~(1 << P_PPINSO);
O_LED_RD |= (1 << P_LED_RD);
MillisecondCounter = 0;
State = ExitOnDelay;
}
break;
case ExitOnDelay:
if(MillisecondCounter >= T_EXIT_H)
{
// Activate exit sensor output
O_EXITSO &= ~(1 << P_EXITSO);
MillisecondCounter = 0;
State = ManualPaperFeedOffDelay;
}
break;
case ManualPaperFeedOffDelay:
if(MillisecondCounter >= T_MNPF_L)
{
// Deactivate manual paper feed sensor output
O_MNPFSO |= (1 << P_MNPFSO);
MillisecondCounter = 0;
State = PaperInOffDelay;
}
break;
case PaperInOffDelay:
if(MillisecondCounter >= T_PPIN_L)
{
// Deactivate paper in sensor output
O_PPINSO |= (1 << P_PPINSO);
MillisecondCounter = 0;
State = ExitOffDelay;
}
case ExitOffDelay:
if(MillisecondCounter >= T_EXIT_L)
{
// Deactivate exit sensor output
O_EXITSO |= (1 << P_EXITSO);
MillisecondCounter = 0;
State = Idle;
}
break;
}
}
}
ISR(TIMER0_COMPA_vect)
{
MillisecondCounter++;
if(MillisecondCounter == 0)
{
MillisecondCounter = UINT32_MAX;
}
if(State != PowerOnWait)
{
HallSensorTimer++;
if(HallSensorTimer == 0)
{
HallSensorTimer = UINT16_MAX;
}
if(HallSensorTimer < T_HALL_L)
{
O_LED_YE |= (1 << P_LED_YE);
}
else
{
O_LED_YE &= ~(1 << P_LED_YE);
}
}
}
// External interrupt. Triggered by control panel
ISR(INT0_vect)
{
// Just reset everything
if(State == WaitingForPaperIn || State == ClutchDelay)
//if(State != PowerOnWait)
2015-05-05 18:49:42 +02:00
{
State = Idle;
}
}
// External interrupt. Triggered by hall sensor
ISR(INT1_vect)
{
HallSensorTimer = 0;
}