#include #include "tm4c123gh6pm.h" #define RED_LED (1 << 1) // PF1 for the red LED #define ADC_30MV_THRESHOLD (30 * 4096 / 3300) // 30mV to ADC value #define ADC_10MV_THRESHOLD (10 * 4096 / 3300) // 10mV to ADC value void PortF_Init(void); void ADC0_Init(void); uint16_t ADC0_Read(void); int main(void) { int adc_value; int high_state = 0; // 0: Below 10mV, 1: Above 30mV PortF_Init(); // Initialize LED ADC0_Init(); // Initialize ADC // Ensure LED is off by default GPIO_PORTF_DATA_R &= ~RED_LED; while (1) { adc_value = ADC0_Read(); // Read ADC value if (adc_value >= ADC_30MV_THRESHOLD && high_state == 0) { GPIO_PORTF_DATA_R |= RED_LED; // Turn on red LED high_state = 1; // Signal is above 30mV } else if (adc_value < ADC_10MV_THRESHOLD && high_state == 1) { GPIO_PORTF_DATA_R &= ~RED_LED; // Turn off red LED high_state = 0; // Reset to allow new detection } else if (adc_value < ADC_10MV_THRESHOLD) { GPIO_PORTF_DATA_R &= ~RED_LED; // Ensure LED is off when no signal } } } void PortF_Init(void) { SYSCTL_RCGCGPIO_R |= (1U << 5); // Enable clock for Port F // SYSCTL_RCGC2_R |= 0x00000020; while ((SYSCTL_PRGPIO_R & (1U << 5)) == 0); // Wait for Port F to be ready GPIO_PORTF_DIR_R |= 0x01; // Set PF1 as output GPIO_PORTF_DEN_R |= 0x01; // Enable digital function for PF1 GPIO_PORTF_DATA_R &= ~0x01; // Ensure LED is off initially } void ADC0_Init(void) { SYSCTL_RCGCADC_R |= 0x01; // Enable ADC0 clock SYSCTL_RCGCGPIO_R |= 0x10; // Enable clock for Port E while ((SYSCTL_PRGPIO_R & (1U << 4)) == 0); // Wait for Port E to be ready GPIO_PORTE_AFSEL_R |= (1U << 3); // Enable alternate function on PE3 GPIO_PORTE_DEN_R &= ~(1U << 3); // Disable digital I/O on PE3 GPIO_PORTE_AMSEL_R |= (1U << 3); // Enable analog function on PE3 ADC0_ACTSS_R &= ~8; // Disable sample sequencer 3 ADC0_EMUX_R = (ADC0_EMUX_R & 0xFFFF0FFF); // Software trigger for SS3 ADC0_SSMUX3_R = 0; // Set channel AIN0 (PE3) ADC0_SSCTL3_R = 6; // End of sequence and enable interrupt ADC0_ACTSS_R |= 8; // Enable sample sequencer 3 } uint16_t ADC0_Read(void) { ADC0_PSSI_R = 8; // Start sampling on SS3 while ((ADC0_RIS_R & 8) == 0); // Wait for conversion to complete uint16_t result = ADC0_SSFIFO3_R & 0xFFF; // Read 12-bit ADC value ADC0_ISC_R = 8; // Clear the completion flag return result; }