//-------------------------------------------------------------- // Init aller Digital-Out Pins //-------------------------------------------------------------- void UB_DigOut_Init(void) { GPIO_InitTypeDef GPIO_InitStructure; DOUT_NAME_t dig_pin; for(dig_pin=0;dig_pin<DOUT_ANZ;dig_pin++) { // Clock Enable RCC_AHB1PeriphClockCmd(DOUT_PIN[dig_pin].GPIO_CLK, ENABLE); // Config als Digital-Ausgang GPIO_InitStructure.GPIO_Pin = DOUT_PIN[dig_pin].GPIO_PIN; GPIO_InitStructure.GPIO_Mode = GPIO_Mode_OUT; GPIO_InitStructure.GPIO_OType = GPIO_OType_PP; GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP; GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; GPIO_Init(DOUT_PIN[dig_pin].GPIO_PORT, &GPIO_InitStructure); // Default Wert einstellen if(DOUT_PIN[dig_pin].GPIO_INIT==Bit_RESET) { UB_DigOut_Lo(dig_pin); } else { UB_DigOut_Hi(dig_pin); } } }
//-------------------------------------------------------------- // Digital-Out Pin auf Lo oder Hi setzen //-------------------------------------------------------------- void UB_DigOut_Pin(DOUT_NAME_t dig_pin,BitAction wert) { if(wert==Bit_RESET) { UB_DigOut_Lo(dig_pin); } else { UB_DigOut_Hi(dig_pin); } }
/***************************************** * MAIN *****************************************/ int main(void) { SystemInit(); UB_Systick_Init(); // Init of UB libs UB_TIMER2_Init_FRQ( 100 ); UB_TIMER5_Init_FRQ( 10000 ); UB_Led_Init(); UB_DigIn_Init(); UB_DigOut_Init(); UB_ADC1_SINGLE_Init(); UB_RTC_Init(); UB_RTC_SetWakeUpInterrupt(RTC_WAKEUP_5s); // Note: code needs to be reconfigured for Nucleo Board (Frequency of 96 MHz should also be checked) UB_WS2812_Init(); WC_DisableAllElements(); WC_SetColor( WS2812_HSV_COL_WHITE ); WC_SetBrightness( 10 ); WC_SetElement(WC_ELEMENT_ES, 1); WC_Refresh(); UB_Uart_Init(); esp8266_init(); UB_Systick_Pause_ms(1000); // Indicate successful booting UB_Led_On( LED_GREEN ); UB_Systick_Pause_s(1); UB_Led_Off( LED_GREEN ); // Start timers and therefore cyclic actions in the call backs below UB_TIMER2_Start(); UB_TIMER5_Start(); UB_DigOut_Lo(DOUT_PB7); // Set ground for LDR UB_DigOut_Lo(DOUT_PB9); // Set PC9 low to start DCF module while(1) { // Handle word matrix refreshes if ( gWcIsToBeRefreshed == Bit_SET ){ WC_Refresh(); gWcIsToBeRefreshed = Bit_RESET; } // Check if update of time is necessary #ifndef DISABLE_DCF if ( DcfTimeWasSetRecently() == Bit_RESET ) gDcfRxInProgress = Bit_SET; #endif // Handle IR remote if ( irmp_get_data( &irData ) ) ProcessIrDataPacket( irData ); // Read Ambient brightness and set LED brightness if ( gDcfRxInProgress == Bit_RESET ){ ambientBrightnessCurrent = SlidingAverageOnLastValues( UB_ADC1_SINGLE_Read( ADC_PA1 ) ); int brightnessToSet = 100.0 * GetBrightnessFactor( ambientBrightnessPoints, ambientBrightnessLedDimmingFactors, ambientBrightnessCurrent ); if ( brightnessToSet < LED_BRIGHTNESS_OFF_THRESHOLD ) WC_SetColor( WS2812_HSV_COL_OFF ); else WC_SetBrightness( brightnessToSet ); gWcIsToBeRefreshed = Bit_SET; } // Handle ESP8266 receive esp8266_handle_receive(); if( esp8266_request_time_from_google() == 1 ) { UB_RTC = Esp8266_curTime; UB_RTC_SetClock( RTC_DEC ); SetWordMatrix( UB_RTC_GetClock(RTC_DEC) ); gWcIsToBeRefreshed = Bit_SET; } } }