HG_REPOSITORIES/LPP/INSTRUMENTATION/libuc2 Files · examples/BeagleSynthHelloSupMon/main.c

Removed error on fat32 library, seems now to be able navigate among sectors in...

Removed error on fat32 library, seems now to be able navigate among sectors in both directions. Improved SDLCD drawing performances by almost 1000x.

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             main.c
        
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      #include <stdio.h>

      #include <fat32.h>

      #include <gpio.h>

      #include <uart.h>

      #include <stm32f4xx.h>

      #include <math.h>

      #include <bsp.h>

      #include <i2c.h>

      #include <CS43L22.h>

      #include <ina226.h>

      #include <fonts.h>

      #include <stdlib.h>

      #include <core.h>

      #include <malloc.h>

      extern streamdevice* __opnfiles__[];

      #define LCD_COLOR_WHITE          0xFFFF

      #define LCD_COLOR_BLACK          0x0000

      #define LCD_COLOR_GREY           0xF7DE

      #define LCD_COLOR_BLUE           0x001F

      #define LCD_COLOR_BLUE2          0x051F

      #define LCD_COLOR_RED            0xF800

      #define LCD_COLOR_MAGENTA        0xF81F

      #define LCD_COLOR_GREEN          0x07E0

      #define LCD_COLOR_CYAN           0x7FFF

      #define LCD_COLOR_YELLOW         0xFFE0

      #ifndef PSU_DISABLE

      #define PSU_DISABLE LED1

      #endif

      void setUartAsStdout()

      {

          streamdevice* fd1 = (streamdevice*)malloc(sizeof(streamdevice));

          uart_t uart = uartopenandconfig(uart1,uartparitynone | uart8bits | uartonestop,115200,PA9,PA10,-1,-1);

          uartmkstreamdev(uart,fd1);

          __opnfiles__[1] = fd1;

      }

      void printSupplyStatus(int cur5v,int cur33v,int cur15v, int volt5v, int volt33v, int volt15v)

      {

          char buffer[64];

          int i=0;

          int power5V=(cur5v*(volt5v/1000))/1000,power33V=(cur33v*(volt33v/1000))/1000,power15V=(cur15v*(volt15v/1000))/1000;

      #define clearBuff for(i=0;i<64;i++)buffer[i]='\0'

          ili9328paintFilRect(&lcd0,5,5,230,7*(ComicSansMS_18.Height+10)+50,LCD_COLOR_BLACK,4,LCD_COLOR_WHITE);

          ili9328paintFilRect(&lcd0,5,7*(ComicSansMS_18.Height+10)+50,230,320 - (7*(ComicSansMS_18.Height+10)+50),LCD_COLOR_BLACK,4,LCD_COLOR_WHITE);

          clearBuff;

          sprintf(buffer,"%.3fV  %dmA",volt5v/1000000.0,cur5v);

          ili9328paintText(&lcd0,buffer,10,0*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);

          clearBuff;

          sprintf(buffer,"%dmW",power5V);

          ili9328paintText(&lcd0,buffer,10,1*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);

          clearBuff;

          sprintf(buffer,"%.3fV  %dmA",volt33v/1000000.0,cur33v);

          ili9328paintText(&lcd0,buffer,10,2*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);

          clearBuff;

          sprintf(buffer,"%dmW",power33V);

          ili9328paintText(&lcd0,buffer,10,3*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);

          clearBuff;

          sprintf(buffer,"%.3fV  %dmA",volt15v/1000000.0,cur15v);

          ili9328paintText(&lcd0,buffer,10,4*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);

          clearBuff;

          sprintf(buffer,"%dmW",power15V);

          ili9328paintText(&lcd0,buffer,10,5*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);

          clearBuff;

          sprintf(buffer,"Total = %dmW",power5V+power33V+power15V);

          ili9328paintText(&lcd0,buffer,10,320-10-20,&ComicSansMS_18,LCD_COLOR_BLACK);

      }

      int main()

      {

          delay_100us(20000);

          INA226_t ina5VSens,ina33VSens,ina15VSens;

          gpioset(PSU_DISABLE);//enable psu!

          setUartAsStdout();

          //ili9328paintFilRect(&lcd0,0,0,240,320,LCD_COLOR_BLACK,1,LCD_COLOR_BLACK);

          ili9328paintFilRect(&lcd0,5,5,230,310,LCD_COLOR_BLACK,4,LCD_COLOR_WHITE);

          if(-1==ina226open(&ina33VSens,i2c2,INA226_MODE_SHUNT_VOLTAGE_CONTINUOUS|INA226_AVERAGES_16|INA226_BUS_CONV_8244us|INA226_SHUNT_CONV_8244us,0,1,15,1000000))

          {

              printf("Can't open 3.3V monitor\n\r");

          }

          if(-1==ina226open(&ina5VSens,i2c2,INA226_MODE_SHUNT_VOLTAGE_CONTINUOUS|INA226_AVERAGES_16|INA226_BUS_CONV_8244us|INA226_SHUNT_CONV_8244us,0,0,15,1000000))

          {

              printf("Can't open 5V monitor\n\r");

          }

          if(-1==ina226open(&ina15VSens,i2c2,INA226_MODE_SHUNT_VOLTAGE_CONTINUOUS|INA226_AVERAGES_16|INA226_BUS_CONV_8244us|INA226_SHUNT_CONV_8244us,1,0,15,1000000))

          {

              printf("Can't open 1.5V monitor\n\r");

          }

          int current5V,current33V,current15V,volt5v, volt33v, volt15v;

          while(1)

          {

              current5V = ina226getCurrent(&ina5VSens);

              current33V = ina226getCurrent(&ina33VSens);

              current15V = ina226getCurrent(&ina15VSens);

              volt5v  = ina226getBusVoltage(&ina5VSens);

              volt33v = ina226getBusVoltage(&ina33VSens);

              volt15v = ina226getBusVoltage(&ina15VSens);

              printf("%fV\t%dmA\n\r",volt15v/1000000.0,current15V/1000);

              printf("%fV\t%dmA\n\r",volt33v/1000000.0,current33V/1000);

              printf("%fV\t%dmA\n\r",volt5v/1000000.0,current5V/1000);

              printSupplyStatus(current5V/1000,current33V/1000,current15V/1000,volt5v, volt33v, volt15v);

              delay_100us(10000);

          }

          printf("Exit\n\r");

          return 0;

      }

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				#include <stdio.h>
				#include <fat32.h>
				#include <gpio.h>
				#include <uart.h>
				#include <stm32f4xx.h>
				#include <math.h>
				#include <bsp.h>
				#include <i2c.h>
				#include <CS43L22.h>
				#include <ina226.h>
				#include <fonts.h>
				#include <stdlib.h>
				#include <core.h>
				#include <malloc.h>


				extern streamdevice* __opnfiles__[];

				#define LCD_COLOR_WHITE 0xFFFF
				#define LCD_COLOR_BLACK 0x0000
				#define LCD_COLOR_GREY 0xF7DE
				#define LCD_COLOR_BLUE 0x001F
				#define LCD_COLOR_BLUE2 0x051F
				#define LCD_COLOR_RED 0xF800
				#define LCD_COLOR_MAGENTA 0xF81F
				#define LCD_COLOR_GREEN 0x07E0
				#define LCD_COLOR_CYAN 0x7FFF
				#define LCD_COLOR_YELLOW 0xFFE0

				#ifndef PSU_DISABLE
				#define PSU_DISABLE LED1
				#endif

				void setUartAsStdout()
				{
				streamdevice* fd1 = (streamdevice*)malloc(sizeof(streamdevice));
				uart_t uart = uartopenandconfig(uart1,uartparitynone \| uart8bits \| uartonestop,115200,PA9,PA10,-1,-1);
				uartmkstreamdev(uart,fd1);
				__opnfiles__[1] = fd1;
				}

				void printSupplyStatus(int cur5v,int cur33v,int cur15v, int volt5v, int volt33v, int volt15v)
				{
				char buffer[64];
				int i=0;
				int power5V=(cur5v(volt5v/1000))/1000,power33V=(cur33v(volt33v/1000))/1000,power15V=(cur15v*(volt15v/1000))/1000;
				#define clearBuff for(i=0;i<64;i++)buffer[i]='\0'

				ili9328paintFilRect(&lcd0,5,5,230,7*(ComicSansMS_18.Height+10)+50,LCD_COLOR_BLACK,4,LCD_COLOR_WHITE);
				ili9328paintFilRect(&lcd0,5,7(ComicSansMS_18.Height+10)+50,230,320 - (7(ComicSansMS_18.Height+10)+50),LCD_COLOR_BLACK,4,LCD_COLOR_WHITE);
				clearBuff;
				sprintf(buffer,"%.3fV %dmA",volt5v/1000000.0,cur5v);
				ili9328paintText(&lcd0,buffer,10,0*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);
				clearBuff;
				sprintf(buffer,"%dmW",power5V);
				ili9328paintText(&lcd0,buffer,10,1*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);
				clearBuff;
				sprintf(buffer,"%.3fV %dmA",volt33v/1000000.0,cur33v);
				ili9328paintText(&lcd0,buffer,10,2*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);
				clearBuff;
				sprintf(buffer,"%dmW",power33V);
				ili9328paintText(&lcd0,buffer,10,3*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);
				clearBuff;
				sprintf(buffer,"%.3fV %dmA",volt15v/1000000.0,cur15v);
				ili9328paintText(&lcd0,buffer,10,4*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);
				clearBuff;
				sprintf(buffer,"%dmW",power15V);
				ili9328paintText(&lcd0,buffer,10,5*(ComicSansMS_18.Height+10)+50,&ComicSansMS_18,LCD_COLOR_BLACK);

				clearBuff;
				sprintf(buffer,"Total = %dmW",power5V+power33V+power15V);
				ili9328paintText(&lcd0,buffer,10,320-10-20,&ComicSansMS_18,LCD_COLOR_BLACK);

				}

				int main()
				{
				delay_100us(20000);
				INA226_t ina5VSens,ina33VSens,ina15VSens;
				gpioset(PSU_DISABLE);//enable psu!
				setUartAsStdout();
				//ili9328paintFilRect(&lcd0,0,0,240,320,LCD_COLOR_BLACK,1,LCD_COLOR_BLACK);

				ili9328paintFilRect(&lcd0,5,5,230,310,LCD_COLOR_BLACK,4,LCD_COLOR_WHITE);
				if(-1==ina226open(&ina33VSens,i2c2,INA226_MODE_SHUNT_VOLTAGE_CONTINUOUS\|INA226_AVERAGES_16\|INA226_BUS_CONV_8244us\|INA226_SHUNT_CONV_8244us,0,1,15,1000000))
				{
				printf("Can't open 3.3V monitor\n\r");
				}
				if(-1==ina226open(&ina5VSens,i2c2,INA226_MODE_SHUNT_VOLTAGE_CONTINUOUS\|INA226_AVERAGES_16\|INA226_BUS_CONV_8244us\|INA226_SHUNT_CONV_8244us,0,0,15,1000000))
				{
				printf("Can't open 5V monitor\n\r");
				}
				if(-1==ina226open(&ina15VSens,i2c2,INA226_MODE_SHUNT_VOLTAGE_CONTINUOUS\|INA226_AVERAGES_16\|INA226_BUS_CONV_8244us\|INA226_SHUNT_CONV_8244us,1,0,15,1000000))
				{
				printf("Can't open 1.5V monitor\n\r");
				}
				int current5V,current33V,current15V,volt5v, volt33v, volt15v;
				while(1)
				{
				current5V = ina226getCurrent(&ina5VSens);
				current33V = ina226getCurrent(&ina33VSens);
				current15V = ina226getCurrent(&ina15VSens);
				volt5v = ina226getBusVoltage(&ina5VSens);
				volt33v = ina226getBusVoltage(&ina33VSens);
				volt15v = ina226getBusVoltage(&ina15VSens);
				printf("%fV\t%dmA\n\r",volt15v/1000000.0,current15V/1000);
				printf("%fV\t%dmA\n\r",volt33v/1000000.0,current33V/1000);
				printf("%fV\t%dmA\n\r",volt5v/1000000.0,current5V/1000);
				printSupplyStatus(current5V/1000,current33V/1000,current15V/1000,volt5v, volt33v, volt15v);
				delay_100us(10000);
				}
				printf("Exit\n\r");
				return 0;
				}