int main(void) {
MainInit();
I2C1init();
RtcInit();
LcdInit();
DataLogInit();
StringInit();
Mct485Init();
FieldInit();
Ads1115Init();
Ads1244Init();
USBInit();
RtuInit();
AdcInit();
TC74Init();
// enable multi-vector interrupts
INTEnableSystemMultiVectoredInt();
MainDelay(50);
DataLogDateTime(DLOG_SFC_POWERUP);
// init param after interrupts are enabled
ParamInit();
// wait to init desiccant until after ParamInit
DesiccantInit();
string[0].mct[0].chan[4] = 0x7FFF;
//
// Begin Main Loop
//
for (;;) {
if (test == 1) {
test = 0;
FieldNewState((FIELD_STATE_m)t1);
}
USBUpdate(); // called as often as possible
//sysTickEvent every ms
if (sysTickEvent) {
sysTickEvent = 0;
sysTicks++;
UsbTimeoutUpdate();
LcdUpdate();
// fill time before dropping LCD_E
if (sysTicks >= 1000) {
sysSec++;
sysTicks = 0;
mPORTDToggleBits(PD_LED_HEARTBEAT);
// These Updates are
// called once a second
//TODO if any of these are long, we could split them on separate milliseconds.
DesiccantUpdate();
AdcUpdate();
TC74Update();
}// end 1 Hz
else if (sysTicks == 250) {
mPORTDToggleBits(PD_LED_HEARTBEAT);
}
else if (sysTicks == 500) {
mPORTDToggleBits(PD_LED_HEARTBEAT);
}
else if (sysTicks == 750) {
mPORTDToggleBits(PD_LED_HEARTBEAT);
}
// Complete LcdUpdate() by dropping LCD_E)
PORTClearBits(IOPORT_G, PG_LCD_E);
// These Updates called once each millisecond
RtcUpdate();
I2C1update();
StringUpdate();
Mct485Update();
FieldUpdate();
RtuUpdate();
DessicantFanPWMupdate();
} // if (sysTickEvent)
} // for (;;)
} // main()
void MSUpdate()
{
EPUpdate();
RTCUpdate();
USBUpdate();
}