int main(void) { sysclk_init(); board_init(); configure_lcd(); configure_botao(); configure_adc(); configure_tc(); ili93xx_set_foreground_color(COLOR_BLACK); ili93xx_draw_string(10, 20, (uint8_t *)"14 - ADC"); /** Draw text, image and basic shapes on the LCD */ //ili93xx_set_foreground_color(COLOR_BLACK); //ili93xx_draw_string(10, 20, (uint8_t *)"14 - ADC"); while (1) { if(adc_value_new == 1) { refresh_lcd(adc_value_old); adc_value_new = 0; } } }
/************************************** Main Function ********************************************************************/ int main(void) { initialize_lcd(); // initialize configure_lcd(); // Configure write_command8_lcd(0x81); // the first line write_char_lcd(0x53); // S write_char_lcd(0x54); // T write_char_lcd(0x41); // A write_char_lcd(0x47); // G write_char_lcd(0x45); // E write_char_lcd(0x00); write_char_lcd(0x4c); // L write_char_lcd(0x49); // I write_char_lcd(0x52); // R write_char_lcd(0x4d); // M write_char_lcd(0x4d); // M write_command8_lcd(0xc3); // the second line write_char_lcd(0x41); // A write_char_lcd(0x4c); // L write_char_lcd(0x49); // I write_char_lcd(0x00); write_char_lcd(0x44); // D write_char_lcd(0x49); // I write_char_lcd(0x4f); // O write_char_lcd(0x55); // U write_char_lcd(0x52); // R write_char_lcd(0x49); // I return 0; }
static int clcd_init(void) { int res; if (is_omap3evm()) { res = clcd_init_evm(); if ( res ) return res; } if (is_overo()) { res = clcd_init_overo(); if ( res ) return res; } return configure_lcd(fb_paddr); }
int main(void) { sysclk_init(); board_init(); configure_lcd(); configure_botao(); configure_adc(); configure_tc(); /** Draw text, image and basic shapes on the LCD */ ili93xx_set_foreground_color(COLOR_BLACK); ili93xx_draw_string(10, 20, (uint8_t *)"14 - ADC"); ili93xx_draw_filled_circle(120,160,60); ili93xx_set_foreground_color(COLOR_WHITE); ili93xx_draw_filled_circle(120,160,55); while (1) { }
int main(void) { /*Status flags to indicate the re-burst for library */ uint16_t status_flag = 0u; uint16_t burst_flag = 0u; uint8_t lft_pressed = 0; uint8_t rgt_pressed = 0; static uint8_t old_position = 0; uint8_t uc_char; uint8_t uc_flag; sysclk_init(); board_init(); configure_buttons(); configure_hall(); wdt_disable(WDT); pmc_enable_periph_clk(ID_PIOC); qt_reset_sensing(); config_sensors(); qt_init_sensing(); /* Set the parameters like recalibration threshold, Max_On_Duration etc in this function by the user */ qt_set_parameters(); init_timer_isr(); qt_filter_callback = 0; configure_console(); printf(STRING_HEADER); configure_lcd(); g_pwm_channel = configure_pwm(); /* Cabeçalho do lcd */ pos_lcd_x = 20; pos_lcd_y = 40; start_lcd(pos_lcd_x, pos_lcd_y, ul_duty, hall_1, hall_2, hall_3, phase); /* Infinite loop */ while (1) { static uint8_t phase_aux; static uint32_t hall_1_aux, hall_2_aux, hall_3_aux, ul_duty_aux; /* Atualiza o display somente quando houver alteração nas variáveis que serão apresentadas */ if(ul_duty_aux != ul_duty) { escreve_int_lcd("dc = ", ul_duty*100/PERIOD_VALUE, pos_lcd_x, 40); ul_duty_aux = ul_duty; } if(phase_aux != phase || hall_1_aux != hall_1 || hall_2_aux != hall_2 || hall_3_aux != hall_3) { escreve_int_lcd("hall1 = ", hall_1, pos_lcd_x, 60); escreve_int_lcd("hall2 = ", hall_2, pos_lcd_x, 80); escreve_int_lcd("hall3 = ", hall_3, pos_lcd_x, 100); escreve_int_lcd("phase = ", phase, pos_lcd_x, 120); phase_aux = phase; hall_1_aux = hall_1; hall_2_aux = hall_2; hall_3_aux = hall_3; } if(motor_run == 0 && ul_duty != 0) Hall_Phase(); uc_char = 0; uc_flag = uart_read(CONSOLE_UART, &uc_char); if (!uc_flag) { if (uc_char == 't') { printf(" duty cicle = %lu \r\n",ul_duty*100/PERIOD_VALUE); printf(" hall1 = %lu \r\n", hall_1); printf(" hall2 = %lu \r\n", hall_2); printf(" hall3 = %lu \r\n", hall_3); printf(" phase = %u \r\n\n", phase); } if (uc_char == 'a'){ if(ul_duty < PERIOD_VALUE) ul_duty++; printf(" duty cicle = %lu \r\n",ul_duty*100/PERIOD_VALUE); } if (uc_char == 's'){ if(ul_duty > INIT_DUTY_VALUE) ul_duty--; printf(" duty cicle = %lu \r\n",ul_duty*100/PERIOD_VALUE); } if (uc_char == 'd') { ensaio = 1; printf(" Ensaio de rampa\r\n"); printf(" para parar pressione a letra 'P'\r\n"); } if (uc_char == 'f') { ensaio = 2; printf(" Ensaio de degrau\r\n"); printf(" para parar pressione a letra 'P'\r\n"); } if (uc_char == 'p') { ensaio = 0; ul_duty = 0; } if (uc_char == 'i') { sel_rot = !sel_rot; printf(" Rotacao invertida\r\n"); printf(" para parar pressione a letra 'P'\r\n"); } } if (time_to_measure_touch) { /* Clear flag: it's time to measure touch */ time_to_measure_touch = 0u; do { /* One time measure touch sensors */ status_flag = qt_measure_sensors(current_time_ms_touch); burst_flag = status_flag & QTLIB_BURST_AGAIN; /*Time critical host application code goes here */ } while (burst_flag); } /* Time Non-critical host application code goes here */ if ((GET_SENSOR_STATE(BOARD_LEFT_KEY_ID) != 0) && (lft_pressed == 0)) { lft_pressed = 1; if(ul_duty > INIT_DUTY_VALUE) ul_duty--; printf(" duty cicle = %lu \r\n",ul_duty*100/PERIOD_VALUE); } else { if ((GET_SENSOR_STATE(BOARD_LEFT_KEY_ID) == 0) && (lft_pressed == 1)) { lft_pressed = 0; } } if ((GET_SENSOR_STATE(BOARD_RIGHT_KEY_ID) != 0) && (rgt_pressed == 0)) { rgt_pressed = 1; if(ul_duty < PERIOD_VALUE) ul_duty++; printf(" duty cicle = %lu \r\n",ul_duty*100/PERIOD_VALUE); } else { if ((GET_SENSOR_STATE(BOARD_RIGHT_KEY_ID) == 0) && (rgt_pressed == 1)) { rgt_pressed = 0; } } if (GET_ROTOR_SLIDER_POSITION(0) != old_position) { old_position = GET_ROTOR_SLIDER_POSITION(0); if (motor_run==0) flag_hab_m = 1; ul_duty = old_position*PERIOD_VALUE/255; } } }
int main(void) { uint8_t uc_key; /* Initialize the system */ sysclk_init(); board_init(); /* Configure LED 1 */ pmc_enable_periph_clk(PIN_LED_BLUE_ID); pio_set_output(PIN_LED_BLUE_PIO , PIN_LED_BLUE_MASK, 1, 0, 0); /* Initialize debug console */ config_uart(); /* frase de boas vindas */ puts(" ---------------------------- \n\r" " Bem vindo terraquio ! \n\r" " ---------------------------- \n\r"); /* Enable peripheral clock */ pmc_enable_periph_clk(ID_SMC); /** Configura o LEDs */ configure_leds(); /** Configura o timer */ configure_tc(); /* Configuração LCD */ configure_lcd(); desenhaCabecalho(); /* display main menu */ display_menu(); while (1) { usart_serial_getchar((Usart *)CONSOLE_UART, &uc_key); switch (uc_key) { case '1': display_menu(); break; case '2': flagLED = 0; pio_clear(PIN_LED_BLUE_PIO, PIN_LED_BLUE_MASK); puts("Led ON \n\r"); break; case '3' : flagLED = 1; pio_set(PIN_LED_BLUE_PIO, PIN_LED_BLUE_MASK); puts("Led OFF \n\r"); break; case '4' : flagLED = 2; pio_set(PIN_LED_BLUE_PIO, PIN_LED_BLUE_MASK); puts("Led OFF \n\r"); break; case '5' : flagLED = 3; pio_set(PIN_LED_BLUE_PIO, PIN_LED_BLUE_MASK); puts("Defina a o valor da Frequência (0-65356) \n\r"); usart_serial_getchar((Usart *)CONSOLE_UART, &uc_key); //tc_write_rc(uc_key); break; default: printf("Opcao nao definida: %d \n\r", uc_key); } } }