/*-----------------------------------------------------------------------------
* main
*/
int main(void) {
uint8_t ret;
int sioHdl;
/* set clock prescaler to 2 (set clock to 7.3928 MHz) */
CLKPR = 1 << CLKPCE;
CLKPR = 1;
/* get module address from EEPROM */
sMyAddr = eeprom_read_byte((const uint8_t *)MODUL_ADDRESS);
GetClientListFromEeprom();
PortInit();
TimerInit();
ButtonInit();
PwmInit();
ApplicationInit();
SioInit();
SioRandSeed(sMyAddr);
/* sio for bus interface */
sioHdl = SioOpen("USART1", eSioBaud9600, eSioDataBits8, eSioParityNo,
eSioStopBits1, eSioModeHalfDuplex);
SioSetIdleFunc(sioHdl, IdleSio1);
SioSetTransceiverPowerDownFunc(sioHdl, BusTransceiverPowerDown);
BusTransceiverPowerDown(true);
BusInit(sioHdl);
spBusMsg = BusMsgBufGet();
/* warten for full operation voltage */
while (!POWER_GOOD);
/* enable ints before RestorePwm() */
ENABLE_INT;
TimerStart();
RestorePwm();
/* ext int for power fail: INT0 low level sensitive */
EICRA &= ~((1 << ISC01) | (1 << ISC00));
EIMSK |= (1 << INT0);
ApplicationStart();
/* Hauptschleife */
while (1) {
Idle();
ret = BusCheck();
ProcessBus(ret);
CheckButton();
PwmCheck();
ApplicationCheck();
CheckEvent();
}
return 0;
}
/*-----------------------------------------------------------------------------
* program start
*/
int main(void) {
int sioHandle;
uint8_t windThreshold1;
uint8_t windThreshold2;
MCUSR = 0;
wdt_disable();
/* get module address from EEPROM */
sMyAddr = eeprom_read_byte((const uint8_t *)MODUL_ADDRESS);
windThreshold1 = eeprom_read_byte((const uint8_t *)WIND_THRESHOLD1);
windThreshold2 = eeprom_read_byte((const uint8_t *)WIND_THRESHOLD2);
GetClientListFromEeprom();
PortInit();
TimerInit();
SioInit();
sioHandle = SioOpen("USART0", eSioBaud9600, eSioDataBits8, eSioParityNo,
eSioStopBits1, eSioModeHalfDuplex);
SioSetIdleFunc(sioHandle, IdleSio);
SioSetTransceiverPowerDownFunc(sioHandle, BusTransceiverPowerDown);
BusTransceiverPowerDown(true);
BusInit(sioHandle);
spRxBusMsg = BusMsgBufGet();
/* enable global interrupts */
ENABLE_INT;
SendStartupMsg();
/* wait for controller startup delay for sending first state telegram */
DELAY_S(STARTUP_DELAY);
while (1) {
Idle();
ProcessSwitch();
ProcessBus();
if (sWind >= windThreshold1) {
sWindSwitch |= 0x01;
} else {
sWindSwitch &= ~0x01;
}
if (sWind >= windThreshold2) {
sWindSwitch |= 0x02;
} else {
sWindSwitch &= ~0x02;
}
}
return 0; /* never reached */
}
/*-----------------------------------------------------------------------------
* init bus communication
*/
static void InitComm(void) {
SioInit();
SioRandSeed(sMyAddr);
sSioHandle = SioOpen("USART0", eSioBaud9600, eSioDataBits8, eSioParityNo,
eSioStopBits1, eSioModeHalfDuplex);
SioSetIdleFunc(sSioHandle, IdleSio);
SioSetTransceiverPowerDownFunc(sSioHandle, BusTransceiverPowerDown);
BusTransceiverPowerDown(true);
BusInit(sSioHandle);
spRxBusMsg = BusMsgBufGet();
}
/*-----------------------------------------------------------------------------
* program start
*/
int main(void) {
int sioHandle;
uint8_t i;
uint8_t u8;
MCUSR = 0;
wdt_disable();
/* get module address from EEPROM */
sMyAddr = eeprom_read_byte((const uint8_t *)MODUL_ADDRESS);
for (i = 0; i < NUM_BUTTON_EVENT_ADDRESSES; i++) {
sMySwitchAddr[i] = eeprom_read_byte((const uint8_t *)(BUTTON_EVENT_ADRESS_BASE + i));
}
PortInit();
TimerInit();
SioInit();
SioRandSeed(MY_ADDR);
sioHandle = SioOpen("USART0", eSioBaud9600, eSioDataBits8, eSioParityNo,
eSioStopBits1, eSioModeHalfDuplex);
SioSetIdleFunc(sioHandle, IdleSio);
SioSetTransceiverPowerDownFunc(sioHandle, BusTransceiverPowerDown);
BusTransceiverPowerDown(true);
BusInit(sioHandle);
spRxBusMsg = BusMsgBufGet();
/* enable global interrupts */
ENABLE_INT;
i2c_slave(SLAVE_ADRESSE);
button_register = 0;
init_BJ(SLAVE_ADRESSE);
for (i = 0; i < NR_OF_LEDS; i++) {
u8 = eeprom_read_byte((const uint8_t *)(COLOR_LED_BASE + i));
set_LED(i, u8);
sNewLedData[i / 2] |= (u8 & 0x0f) << ((i % 2) ? 4 : 0);
}
i2c_slave(SLAVE_ADRESSE);
SendStartupMsg();
while (1) {
Idle();
if (send_startup == 1) {
init_BJ(SLAVE_ADRESSE);
for (i = 0; i < NR_OF_LEDS; i++) {
set_LED(i, eeprom_read_byte((const uint8_t *)(COLOR_LED_BASE + i)));
}
}
sInputState = button_register;
ProcessButton(sInputState);
ProcessBus();
for (i = 0; i < BUS_SW16_LED_SIZE_SET_VALUE; i++) {
if ((sNewLedData[i] & 0x0f) != (sLedData[i] & 0x0f) ) { // linke LED
set_LED(i * 2, sNewLedData[i] & 0x0f);
i2c_slave(SLAVE_ADRESSE);
}
if ((sNewLedData[i] & 0xf0) != (sLedData[i] & 0xf0) ) { // rechte LED
set_LED(i * 2 + 1, (sNewLedData[i] & 0xf0) >> 4);
i2c_slave(SLAVE_ADRESSE);
}
sLedData[i] = sNewLedData[i];
}
}
/*-----------------------------------------------------------------------------
* program start
*/
int main(void) {
int sioHandle;
uint8_t inputState;
MCUSR = 0;
wdt_disable();
/* get module address from EEPROM */
sMyAddr = eeprom_read_byte((const uint8_t *)MODUL_ADDRESS);
sInputType = eeprom_read_byte((const uint8_t *)INPUT_TYPE);
if (sInputType > INPUT_TYPE_MOTION_DETECTOR) {
sInputType = INPUT_TYPE_DUAL_BUTTON;
}
PortInit();
TimerInit();
SioInit();
SioRandSeed(sMyAddr);
sioHandle = SioOpen("USART0", eSioBaud9600, eSioDataBits8, eSioParityNo,
eSioStopBits1, eSioModeHalfDuplex);
SioSetIdleFunc(sioHandle, IdleSio);
SioSetTransceiverPowerDownFunc(sioHandle, BusTransceiverPowerDown);
BusTransceiverPowerDown(true);
BusInit(sioHandle);
spRxBusMsg = BusMsgBufGet();
/* enable global interrupts */
ENABLE_INT;
SendStartupMsg();
if ((sInputType == INPUT_TYPE_DUAL_SWITCH) ||
(sInputType == INPUT_TYPE_MOTION_DETECTOR)) {
/* wait for controller startup delay for sending first state telegram */
DELAY_S(STARTUP_DELAY);
}
if ((sInputType == INPUT_TYPE_DUAL_SWITCH) ||
(sInputType == INPUT_TYPE_MOTION_DETECTOR)) {
inputState = GetInputState();
sSwitchStateOld = ~inputState;
ProcessSwitch(inputState);
}
while (1) {
Idle();
inputState = GetInputState();
if ((sInputType == INPUT_TYPE_DUAL_SWITCH) ||
(sInputType == INPUT_TYPE_MOTION_DETECTOR)) {
ProcessSwitch(inputState);
} else if (sInputType == INPUT_TYPE_DUAL_BUTTON) {
ProcessButton(inputState);
}
ProcessBus();
}
return 0; /* never reached */
}
