/*====================================================================================================*/
int main( void )
{
u8 UART_BUF[32] = {0};
System_Init();
System_Corr(SampleRateFreg); // SampleRateFreg = 500 Hz
LED_G = LED_ON;
Delay_100ms(5);
LED_G = LED_OFF;
while(1) {
LED_B = !LED_B;
UART_BUF[0] = Byte8L((s16)(Acc.TrueX*1000)); // Acc.X 1 mg/LSB
UART_BUF[1] = Byte8H((s16)(Acc.TrueX*1000));
UART_BUF[2] = Byte8L((s16)(Acc.TrueY*1000)); // Acc.Y 1 mg/LSB
UART_BUF[3] = Byte8H((s16)(Acc.TrueY*1000));
UART_BUF[4] = Byte8L((s16)(Acc.TrueZ*1000)); // Acc.Z 1 mg/LSB
UART_BUF[5] = Byte8H((s16)(Acc.TrueZ*1000));
UART_BUF[6] = Byte8L((s16)(Gyr.TrueX*100)); // Gyr.X 10 mdps/LSB
UART_BUF[7] = Byte8H((s16)(Gyr.TrueX*100));
UART_BUF[8] = Byte8L((s16)(Gyr.TrueY*100)); // Gyr.Y 10 mdps/LSB
UART_BUF[9] = Byte8H((s16)(Gyr.TrueY*100));
UART_BUF[10] = Byte8L((s16)(Gyr.TrueZ*100)); // Gyr.Z 10 mdps/LSB
UART_BUF[11] = Byte8H((s16)(Gyr.TrueZ*100));
// UART_BUF[12] = Byte8L((s16)(Mag.TrueX)); // 100 nTesla/LSB
// UART_BUF[13] = Byte8L((s16)(Mag.TrueX));
// UART_BUF[14] = Byte8L((s16)(Mag.TrueY)); // 100 nTesla/LSB
// UART_BUF[15] = Byte8H((s16)(Mag.TrueY));
// UART_BUF[16] = Byte8L((s16)(Mag.TrueZ)); // 100 nTesla/LSB
// UART_BUF[17] = Byte8H((s16)(Mag.TrueZ));
UART_BUF[18] = Byte8L((s16)(Temp.TrueT*100)); // 0.01 degC/LSB
UART_BUF[19] = Byte8H((s16)(Temp.TrueT*100));
UART_BUF[20] = Byte8L((s16)(AngE.Pitch*100)); // 0.01 deg/LSB
UART_BUF[21] = Byte8H((s16)(AngE.Pitch*100)); // 0.01 deg/LSB
UART_BUF[22] = Byte8L((s16)(AngE.Roll*100)); // 0.01 deg/LSB
UART_BUF[23] = Byte8H((s16)(AngE.Roll*100)); // 0.01 deg/LSB
UART_BUF[24] = Byte8L((s16)(AngE.Yaw*10)); // 100 nTesla/LSB
UART_BUF[25] = Byte8H((s16)(AngE.Yaw*10)); // 0.1 deg/LSB
// UART_BUF[26] = Byte8L((s16)(Baro.Temp*100)); // 0.01 degC/LSB
// UART_BUF[27] = Byte8H((s16)(Baro.Temp*100));
// UART_BUF[28] = Byte8L((s16)(Baro.Press*10)); // 0.1 mbar/LSB
// UART_BUF[29] = Byte8H((s16)(Baro.Press*10));
// UART_BUF[30] = Byte8L((s16)(Baro.Height));
// UART_BUF[31] = Byte8H((s16)(Baro.Height));
if(KEY == 1)
RS232_VisualScope(UART_BUF); // Print Acc
else
RS232_VisualScope(UART_BUF+20); // Print AngE
}
}
/*====================================================================================================*/
void LCD_SetCursor( uint16_t coordiX, uint16_t coordiY )
{
LCD_WriteCmd(0x2A);
LCD_WriteData(Byte8H(coordiX));
LCD_WriteData(Byte8L(coordiX));
LCD_WriteCmd(0x2B);
LCD_WriteData(Byte8H(coordiY));
LCD_WriteData(Byte8L(coordiY));
LCD_WriteCmd(0x2C);
}
/*=====================================================================================================*/
void LCD_SetCursor( u16 CoordiX, u16 CoordiY )
{
LCD_WriteCmd(0x2A);
LCD_WriteData(Byte8H(CoordiX));
LCD_WriteData(Byte8L(CoordiX));
LCD_WriteCmd(0x2B);
LCD_WriteData(Byte8H(CoordiY));
LCD_WriteData(Byte8L(CoordiY));
LCD_WriteCmd(0x2C);
}
/*=====================================================================================================*/
void LCD_SetWindow( u16 StartX, u16 StartY, u16 EndX, u16 EndY )
{
LCD_WriteCmd(0x2A);
LCD_WriteData(Byte8H(StartX));
LCD_WriteData(Byte8L(StartX));
LCD_WriteData(Byte8H(EndX));
LCD_WriteData(Byte8L(EndX));
LCD_WriteCmd(0x2B);
LCD_WriteData(Byte8H(StartY));
LCD_WriteData(Byte8L(StartY));
LCD_WriteData(Byte8H(EndY));
LCD_WriteData(Byte8L(EndY));
LCD_WriteCmd(0x2C);
}
/*====================================================================================================*/
void LCD_SetWindow( uint16_t startX, uint16_t startY, uint16_t endX, uint16_t endY )
{
LCD_WriteCmd(0x2A);
LCD_WriteData(Byte8H(startX));
LCD_WriteData(Byte8L(startX));
LCD_WriteData(Byte8H(endX));
LCD_WriteData(Byte8L(endX));
LCD_WriteCmd(0x2B);
LCD_WriteData(Byte8H(startY));
LCD_WriteData(Byte8L(startY));
LCD_WriteData(Byte8H(endY));
LCD_WriteData(Byte8L(endY));
LCD_WriteCmd(0x2C);
}
/*=====================================================================================================*/
static void LCD_WriteColor( u16 Color )
{
LCD_CST = 0;
LCD_DC = 1;
SPI_RW(SPI1, Byte8H(Color));
SPI_RW(SPI1, Byte8L(Color));
LCD_CST = 1;
}
/*====================================================================================================*/
static void LCD_WriteColor( uint16_t Color )
{
LCD_CST_L;
LCD_DC_H;
SPI_RW(LCD_SPIx, Byte8H(Color));
SPI_RW(LCD_SPIx, Byte8L(Color));
LCD_CST_H;
}
/*====================================================================================================*/
static void LCD_WriteColor( uint16_t color )
{
LCD_CST_L();
LCD_DC_H();
SPI_RW(LCD_SPIx, Byte8H(color));
SPI_RW(LCD_SPIx, Byte8L(color));
LCD_CST_H();
}
/*=====================================================================================================*/
void VisualScope_Send( USART_TypeDef* USARTx )
{
u8 VisualScopeBuf[8] = {0};
RF_SendData.Ang.X = (s16)(AngE.Pitch*100); // 10 mdeg/LSB
RF_SendData.Ang.Y = (s16)(AngE.Roll*100); // 10 mdeg/LSB
RF_SendData.Ang.Z = (s16)(AngE.Yaw*10); // 100 mdeg/LSB
VisualScopeBuf[0] = (u8)Byte8L(RF_SendData.Ang.X);
VisualScopeBuf[1] = (u8)Byte8H(RF_SendData.Ang.X);
VisualScopeBuf[2] = (u8)Byte8L(RF_SendData.Ang.Y);
VisualScopeBuf[3] = (u8)Byte8H(RF_SendData.Ang.Y);
VisualScopeBuf[4] = (u8)Byte8L(RF_SendData.Ang.Z);
VisualScopeBuf[5] = (u8)Byte8H(RF_SendData.Ang.Z);
VisualScopeBuf[6] = (u8)(0);
VisualScopeBuf[7] = (u8)(0);
RS232_VisualScope(USARTx, VisualScopeBuf, 8);
}
/*=====================================================================================================*/
void Flash_ReadPageU8(u32 ReadPage, u8 *ReadData, u32 DataLen)
{
u16 Count = 0;
u16 ReadBuf = 0;
while (Count < DataLen) {
ReadBuf = (u16)(*(vu32 *)(ReadPage + Count));
ReadData[Count++] = Byte8H(ReadBuf);
ReadData[Count++] = Byte8L(ReadBuf);
}
}
