two pin input
Dependencies: LCD_DISCO_F429ZI mbed BSP_DISCO_F429ZI GYRO_DISCO_F429ZI
main.cpp
- Committer:
- t3421
- Date:
- 2018-12-04
- Revision:
- 0:2f53fa259fef
- Child:
- 1:bbb4f79100de
File content as of revision 0:2f53fa259fef:
#include "mbed.h" #include "LCD_DISCO_F429ZI.h" #include <string> LCD_DISCO_F429ZI lcd; AnalogIn analog_value(PA_0); //Using pin PA0 for analog input AnalogIn analog_value1(PA_1); DigitalOut led(LED1); //Making the LED on if below 1V extern void start_lcd(); extern void draw_grid(); extern void draw_sin(float, int, int); int main() { start_lcd(); float meas_r, meas_v, meas_r1, meas_v1; int clock_timer = 0; while(1) { meas_r = analog_value.read(); // Read the analog input value (value from 0.0 to 1.0 = full ADC conversion range) meas_v = meas_r * 2.92; // Converts value in the 0V-3.3V range meas_r1 = analog_value1.read(); meas_v1 = meas_r1 * 2.92; char output_number[16]; char output_number1[16]; sprintf( output_number, "In 1 : %.2f V", meas_v); sprintf( output_number1, "In 2 : %.2f V", meas_v1); lcd.DisplayStringAt(0, LINE(0), (uint8_t *) output_number , CENTER_MODE); lcd.DisplayStringAt(0, LINE(1), (uint8_t *) output_number1 , CENTER_MODE); draw_sin(meas_v, clock_timer, 0); draw_sin(meas_v1, clock_timer, 1); if (meas_v < 1) led = 1; // LED ON else led = 0; // LED OFF if (clock_timer == 240) { clock_timer = 0; lcd.Clear(LCD_COLOR_WHITE);; draw_grid(); } else clock_timer++; // wait(0.1); // 10th of a second } } void start_lcd() { lcd.Clear(LCD_COLOR_BLUE); lcd.SetBackColor(LCD_COLOR_BLUE); lcd.SetTextColor(LCD_COLOR_WHITE); wait(0.3); lcd.DisplayStringAt(0, LINE(4), (uint8_t *)"DISCOVERY BOARD", CENTER_MODE); lcd.DisplayStringAt(0, LINE(5), (uint8_t *)"STM32F429ZI", CENTER_MODE); lcd.DisplayStringAt(0, LINE(6), (uint8_t *)"By: Teddy Sosnowski", CENTER_MODE); wait(1); lcd.Clear(LCD_COLOR_WHITE); BSP_LCD_SetFont(&Font16); draw_grid(); lcd.SetTextColor(LCD_COLOR_WHITE); lcd.SetBackColor(LCD_COLOR_BLACK); } void draw_sin(float location, int x_axis, int input_number) { int y_axis = location * 24; // if (y_axis > 80) // y_axis = 80; // if (y_axis < -80) // y_axis = -80; y_axis = 180 - y_axis; //Center of 0x0 at pixel 120x180 if (input_number == 0) BSP_LCD_DrawPixel(x_axis, y_axis, LCD_COLOR_RED); else BSP_LCD_DrawPixel(x_axis, y_axis, LCD_COLOR_GREEN); } void draw_grid() { lcd.SetTextColor(LCD_COLOR_BLACK); lcd.SetBackColor(LCD_COLOR_WHITE); BSP_LCD_DrawHLine(0, 180, 240); //240X320 screen size BSP_LCD_DrawVLine(2, 98, 164); BSP_LCD_DisplayChar(5, 85 , 'V'); BSP_LCD_DisplayChar(225, 160, 'T'); lcd.SetTextColor(LCD_COLOR_GRAY); BSP_LCD_DrawHLine(0, 156, 36); BSP_LCD_DrawHLine(0, 132, 36); BSP_LCD_DrawHLine(0, 108, 36); BSP_LCD_DrawHLine(0, 204, 36); BSP_LCD_DrawHLine(0, 228, 36); BSP_LCD_DrawHLine(0, 252, 36); BSP_LCD_DrawVLine(20, 177, 6); BSP_LCD_DrawVLine(40, 177, 6); BSP_LCD_DrawVLine(60, 177, 6); BSP_LCD_DrawVLine(80, 177, 6); BSP_LCD_DrawVLine(100, 177, 6); BSP_LCD_DrawVLine(120, 177, 6); BSP_LCD_DrawVLine(140, 177, 6); BSP_LCD_DrawVLine(160, 177, 6); BSP_LCD_DrawVLine(180, 177, 6); BSP_LCD_DrawVLine(200, 177, 6); BSP_LCD_DrawVLine(220, 177, 6); lcd.SetTextColor(LCD_COLOR_WHITE); lcd.SetBackColor(LCD_COLOR_BLACK); }