Nucleo_L432_OLED_ADC
Dependencies: Adafruit_GFX mbed
Diff: main.cpp
- Revision:
- 5:e4f8eaef10c6
- Parent:
- 4:573208af69ba
diff -r 573208af69ba -r e4f8eaef10c6 main.cpp --- a/main.cpp Thu Oct 27 13:35:03 2016 +0000 +++ b/main.cpp Fri Jun 02 00:27:26 2017 +0000 @@ -1,21 +1,18 @@ #include "mbed.h" -#include "Adafruit_SSD1306.h" +//#include "Adafruit_SSD1306.h" //------------------------------------ // Hyperterminal configuration // 9600 bauds, 8-bit data, no parity //------------------------------------ +// SSD1306 OLED AND Nucleo L432KC -// SSD1306 OLED AND Nucleo L432KC -// 2016.10.23 -// 2016.10.23 changed -#define offset_voltage 1570 -#define sensitivity 330 -Serial pc(SERIAL_TX, SERIAL_RX); - -DigitalOut myled(LED3); -AnalogIn adc1(A0); -AnalogIn adc2(A1); -AnalogIn adc3(A5); +#define Number 2048 +#define XS 0.3235 +#define YS 0.3235 +#define ZS 0.3200 +#define XB 1.5675 +#define YB 1.5465 +#define ZB 1.6100 #define DO A4 #define DI A6 @@ -23,17 +20,27 @@ #define DC D11 #define RST D7 -class SPIPreInit : public SPI -{ -public: - SPIPreInit(PinName mosi, PinName miso, PinName clk) : SPI(mosi,miso,clk) { - format(8,3); - frequency(2000000); - }; -}; +Serial pc(SERIAL_TX, SERIAL_RX); +DigitalOut myled(LED3); +AnalogIn adc1(A0); +AnalogIn adc2(A1); +AnalogIn adc3(A5); +float xa[Number],ya[Number],za[Number]; + + -SPIPreInit mySpi(DI,NC,DO); -Adafruit_SSD1306_Spi oled(mySpi,DC,RST,CS,64,128); +// +//class SPIPreInit : public SPI +//{ +//public: +// SPIPreInit(PinName mosi, PinName miso, PinName clk) : SPI(mosi,miso,clk) { +// format(8,3); +// frequency(2000000); +// }; +//}; +// +//SPIPreInit mySpi(DI,NC,DO); +//Adafruit_SSD1306_Spi oled(mySpi,DC,RST,CS,64,128); @@ -42,25 +49,38 @@ int x=0; - oled.clearDisplay(); - oled.setTextSize(2); +// oled.clearDisplay(); +// oled.setTextSize(2); + while(1) { - x++; - oled.printf("X %2.2lf g\r\n",double(adc1.read()*3300-offset_voltage)/sensitivity); - oled.printf("Y %2.2lf g\r\n",double(adc2.read()*3300-offset_voltage)/sensitivity); - oled.printf("Z %2.2lf g\r\n",double(adc3.read()*3300-offset_voltage)/sensitivity); + +// oled.printf("X %2.2lf g\r\n",double(adc1.read()*3300-offset_voltage)/sensitivity); +// oled.printf("Y %2.2lf g\r\n",double(adc2.read()*3300-offset_voltage)/sensitivity); +// oled.printf("Z %2.2lf g\r\n",double(adc3.read()*3300-offset_voltage)/sensitivity); +// oled.display(); + + wait_us(500); + + xa[x]=adc1.read()*3300/1000; + ya[x]=adc2.read()*3300/1000; + za[x]=adc3.read()*3300/1000; - oled.display(); - wait(0.5); + x++; + myled = !myled; + + if(x>=Number) { - pc.printf("X %2.3f V\r\n", adc1.read()*3300/1000); - pc.printf("Y %2.3f V\r\n", adc2.read()*3300/1000); - pc.printf("Z %2.3f V\r\n", adc3.read()*3300/1000); + myled = !myled; + int c=0; + while(c++<1) { -// myled = !myled; - if(x>0) { - oled.setTextCursor(0,0); - oled.clearDisplay(); + pc.printf("X %2.3f g\r\n", (xa[c]-XB)/XS); + pc.printf("Y %2.3f g\r\n", (ya[c]-YB)/YS); + pc.printf("Z %2.3f g\r\n", (za[c]-ZB)/ZS); + pc.printf("-----------------\r\n"); + + wait(2); + } x=0; } }