Ejemplo n.º 1
0
void lcd_init()
{
	GPIO_TypeDef *gpiod = GPIOD ;

  LCD_BL_Config();
  LCD_Hardware_Init();
#ifdef REVPLUS
	initLcdSpi() ;
#endif
  
	gpiod->BSRRL = PIN_LCD_RST ;		// RST high
  Delay(5);

  gpiod->BSRRH = PIN_LCD_RST ;		// RST low
  Delay(120); //11ms

	gpiod->BSRRL = PIN_LCD_RST ;		// RST high
  Delay(2500);
 
  AspiCmd(0xE2);			// System Reset

  Delay(2500);

  LCD_Init();
  Delay(120);
  AspiCmd(0xAF);	//dc2=1, IC into exit SLEEP MODE, dc3=1 gray=ON, dc4=1 Green Enhanc mode disabled

}
Ejemplo n.º 2
0
void lcd_set_row(int y)
{
  AspiCmd(0);	//Set Column Address LSB CA[3:0]
  AspiCmd(0x10);	//Set Column Address MSB CA[7:4]
    
  AspiCmd((y&0x0F)|0x60);	//Set Row Address LSB RA [3:0]
  AspiCmd(((y>>4)&0x0F)|0x70);    //Set Row Address MSB RA [7:4]
}
Ejemplo n.º 3
0
void Set_Address(uint8_t x, uint8_t y)
{
  AspiCmd(x&0x0F);	//Set Column Address LSB CA[3:0]
  AspiCmd((x>>4)|0x10);	//Set Column Address MSB CA[7:4]
  
  AspiCmd((y&0x0F)|0x60);	//Set Row Address LSB RA [3:0]
  AspiCmd(((y>>4)&0x0F)|0x70);    //Set Row Address MSB RA [7:4]

}
Ejemplo n.º 4
0
void LCD_Init()
{
    rcc_peripheral_enable_clock(&RCC_AHB1ENR, RCC_AHB1ENR_IOPDEN);
    //MOSI
    gpio_mode_setup(GPIOD, GPIO_MODE_OUTPUT,
                  GPIO_PUPD_NONE, GPIO10);
    //CLK
    gpio_mode_setup(GPIOD, GPIO_MODE_OUTPUT,
                  GPIO_PUPD_NONE, GPIO11);
    //RST
    gpio_mode_setup(GPIOD, GPIO_MODE_OUTPUT,
                  GPIO_PUPD_NONE, GPIO12);
    //A0
    gpio_mode_setup(GPIOD, GPIO_MODE_OUTPUT,
                  GPIO_PUPD_NONE, GPIO13);
    //CS
    gpio_mode_setup(GPIOD, GPIO_MODE_OUTPUT,
                  GPIO_PUPD_NONE, GPIO14);
    NCS_HI();

    RST_HI();
    lcd_delay(5);
    RST_LO();
    lcd_delay(120); //11ms
    RST_HI();
    lcd_delay(2500);
    AspiCmd(0xE2);
    lcd_delay(2500);

    lcd_screen_init();
    lcd_delay(120);
    lcd_screen_init();
    lcd_delay(120);
    AspiCmd(0xAF);        //dc2=1, IC into exit SLEEP MODE, dc3=1 gray=ON, dc4=1 Green Enhanc mode disabled

    memset(img, 0, sizeof(img));
    memset(dirty, 0, sizeof(dirty));

    //Clear screen
    for (int y = 0; y < LCD_HEIGHT; y++) {
        lcd_set_row(y);
        AspiCmd(0xAF);
        CLK_HI();
        A0_HI();
        NCS_LO();
        for (int x = 0; x < 212; x++) {
            //write_pixel(((x/53) % 2) ^ ((y / 16) %2));
            write_pixel(0);
        }
        NCS_HI();
        A0_HI();
        AspiData(0);
    }
}
Ejemplo n.º 5
0
void lcdRefresh()
{  
  for (uint32_t y=0; y<LCD_H; y++) {
    uint8_t *p = &displayBuf[(y>>3)*LCD_W];
    uint8_t mask = (1 << (y%8));

    Set_Address(0, y);
    AspiCmd(0xAF);

    LCD_CLK_HIGH();
    LCD_A0_HIGH();
    LCD_NCS_LOW();

    for (uint32_t x=0; x<LCD_W; x++) {
      LCD_WRITE_BIT(p[3*DISPLAY_PLAN_SIZE+x] & mask);
      LCD_WRITE_BIT(p[2*DISPLAY_PLAN_SIZE+x] & mask);
      LCD_WRITE_BIT(p[DISPLAY_PLAN_SIZE+x] & mask);
      LCD_WRITE_BIT(p[x] & mask);
    }

    LCD_NCS_HIGH();
    LCD_A0_HIGH();

    WriteData(0);
  }
}
Ejemplo n.º 6
0
void lcdInit()
{
  LCD_BL_Config();
  LCD_Hardware_Init();
  
  LCD_RST_HIGH();
  Delay(5);

  LCD_RST_LOW();
  Delay(120); //11ms

  LCD_RST_HIGH();
  Delay(2500);
 
  AspiCmd(0xE2);
  Delay(2500);
  LCD_Init();
  Delay(120);

  LCD_Init();
  Delay(120);
  AspiCmd(0xAF);	//dc2=1, IC into exit SLEEP MODE, dc3=1 gray=ON, dc4=1 Green Enhanc mode disabled
}
Ejemplo n.º 7
0
/* Screen is 212 x 64 with 4bpp */
void LCD_DrawStop(void)
{
    for (int y = 0; y < LCD_HEIGHT; y++) {
        if(! (dirty[y / 8] & (1 << (y % 8))))
            continue;
        u8 *p = &img[(y / 8) * LCD_WIDTH];
        u8 mask = 1 << (y % 8);

        lcd_set_row(y);
        AspiCmd(0xAF);
        CLK_HI();
        A0_HI();
        NCS_LO();
        for (int x = 0; x < LCD_WIDTH; x++) {
            write_pixel(p[x] & mask);
        }
        NCS_HI();
        A0_HI();
        AspiData(0);
    }
    memset(dirty, 0, sizeof(dirty));
}
Ejemplo n.º 8
0
void lcd_screen_init()
{
    AspiCmd(0x2b);   //Panel loading set ,Internal VLCD.
    AspiCmd(0x25);   //Temperature compensation curve definition: 0x25 = -0.05%/oC
    AspiCmd(0xEA);	//set bias=1/10 :Command table NO.27
    AspiCmd(0x81);	//Set Vop
    AspiCmd(0x80);      //Set contrast 0--255
    AspiCmd(0xA6);	//inverse display off
    AspiCmd(0xD1);	//SET RGB:Command table NO.21 .SET RGB or BGR.  D1=RGB
    AspiCmd(0xD5);	//set color mode 4K and 12bits  :Command table NO.22
    AspiCmd(0xA0);	//line rates,25.2 Klps
    AspiCmd(0xC8);	//SET N-LINE INVERSION
    AspiCmd(0x1D);	//Disable NIV
    AspiCmd(0xF1);	//Set CEN
    AspiCmd(0x3F);	// 1/64DUTY
    AspiCmd(0x84);	//Disable Partial Display
    AspiCmd(0xC4);	//MY=1,MX=0
    AspiCmd(0x89);	//WA=1,column (CA) increment (+1) first until CA reaches CA boundary, then RA will increment by (+1).

    AspiCmd(0xF8);	//Set Window Program Enable  ,inside modle
    AspiCmd(0xF4);   //starting column address of RAM program window.
    AspiCmd(0x00);
    AspiCmd(0xF5);   //starting row address of RAM program window.
    AspiCmd(0x60);
    AspiCmd(0xF6);   //ending column address of RAM program window.
    AspiCmd(0x47);
    AspiCmd(0xF7);   //ending row address of RAM program window.
    AspiCmd(0x9F);
}
Ejemplo n.º 9
0
void LCD_Contrast(u8 contrast)
{
    AspiCmd(0x81);	//Set Vop
    contrast *= 25 + 5;
    AspiCmd(contrast);
}
Ejemplo n.º 10
0
void lcdSetRefVolt(uint8_t val)
{
	AspiCmd(0x81);	//Set Vop
  AspiCmd(val+CONTRAST_OFS);		//0--255

}
Ejemplo n.º 11
0
static void LCD_Init()
{
  LCD_BL_Config() ;
  /*Hardware Reset need delay*/
  /*LCD_RST_LOW();
    Delay(50);    
    LCD_RST_HIGH();*/
    
  AspiCmd(0x25);   //Temperature compensation curve definition: 0x25 = -0.05%/oC
  AspiCmd(0x2b);   //Panel loading set ,Internal VLCD.
  AspiCmd(0xEA);	//set bias=1/10 :Command table NO.27
  AspiCmd(0x81);	//Set Vop
  AspiCmd(25+CONTRAST_OFS);		//0--255
  AspiCmd(0xA6);	//inverse display off
  AspiCmd(0xD1);	//SET RGB:Command table NO.21 .SET RGB or BGR.  D1=RGB
  AspiCmd(0xD5);	//set color mode 4K and 12bits  :Command table NO.22
  AspiCmd(0xA0);	//line rates,25.2 Klps
  AspiCmd(0xC8);	//SET N-LINE INVERSION
  AspiCmd(0x1D);	//Disable NIV
  AspiCmd(0xF1);	//Set CEN
  AspiCmd(0x3F);	// 1/64DUTY
  AspiCmd(0x84);	//Disable Partial Display
  AspiCmd(0xC4);	//MY=1,MX=0
  AspiCmd(0x89);	//WA=1,column (CA) increment (+1) first until CA reaches CA boundary, then RA will increment by (+1).

  AspiCmd(0xF8);	//Set Window Program Enable  ,inside modle
  AspiCmd(0xF4);   //starting column address of RAM program window.
  AspiCmd(0x00);
  AspiCmd(0xF5);   //starting row address of RAM program window.
  AspiCmd(0x60);
  AspiCmd(0xF6);   //ending column address of RAM program window.
  AspiCmd(0x47);
  AspiCmd(0xF7);   //ending row address of RAM program window.
  AspiCmd(0x9F);

  AspiCmd(0xAF);	//dc2=1,IC into exit SLEEP MODE,	 dc3=1  gray=ON 开灰阶	,dc4=1  Green Enhanc mode disabled	  绿色增强模式关

}
Ejemplo n.º 12
0
static void LCD_Init()
{
//  LCD_BL_Config() ;
  /*Hardware Reset need delay*/
  /*LCD_RST_LOW();
    Delay(50);    
    LCD_RST_HIGH();*/

// From LCD Manufacturer
//  WriteCommand(0x2F);   //Internal pump control
//  Delay(20);
//  WriteCommand(0x24);   //Temperature compensation
//  WriteCommand(0xE9);    //set bias=1/10
//  WriteCommand(0x81);    //Set Vop
//  WriteCommand(0xBF);   //13.9v//(g_eeGeneral.contrast+CONTRAST_OFS);        //0--255
//  WriteCommand(0xA2);    //set line rate:28KLPS
//  WriteCommand(0x28);    //set pannel loading
//  WriteCommand(0x40);    //scroll line LSB
//  WriteCommand(0x50);    //SCROLL LINE MSB
//  WriteCommand(0x89);    //ram address control
//  WriteCommand(0xc0);    //LCD mapping control
//  WriteCommand(0x04);    //MX=0,MY=1
//  WriteCommand(0xd0);    //DISPLAY PATTERN = 16-SCALE GRAY
//  WriteCommand(0xF1);    //SET COM end
//  WriteCommand(0x3F);    //64

//  WriteCommand(0xF8);    //Set Window Program dIsable.
 
//  WriteCommand(0xF5);   //starting row address of RAM program window.PAGE1
//  WriteCommand(0x00);
//  WriteCommand(0xF7);   //end row address of RAM program window.PAGE32
//  WriteCommand(0x1f);
//  WriteCommand(0xF4);   //start column address of RAM program window.
//  WriteCommand(0x00);
//  WriteCommand(0xF6);   //end column address of RAM program window.SEG212
//  WriteCommand(0xd3);
	    
	AspiCmd(0x24);   //(5) Temperature compensation curve definition: 0x25 = -0.05%/oC
	AspiCmd(0x2b);   //(6) Panel loading set ,Internal VLCD.
  AspiCmd(0xEA);	 //(27) set bias=1/10
  AspiCmd(0x81);	 //(11) Set Vop + next byte
  AspiCmd(25+CONTRAST_OFS);		//0--255
	AspiCmd(0xA6);	//inverse display off
	AspiCmd(0xA2);	//line rates,28 Klps
  AspiCmd(0x84);	//Disable Partial Display
  AspiCmd(0xC8);	//SET N-LINE INVERSION
  AspiCmd(0x00);	//Disable NIV
  AspiCmd(0xF1);	//Set CEN
  AspiCmd(0x3F);	// 1/64DUTY
  AspiCmd(0xC0);	//(21) Set mapping
  AspiCmd(0x04);	// MY=1, MX=0, MSF=0
  AspiCmd(0x89);	//(15) WA=1,column (CA) increment (+1) first until CA reaches CA boundary, then RA will increment by (+1).
  AspiCmd(0xF8);	//Set Window Program Enable  ,inside modle
  AspiCmd(0xD0);	 //(23) SET 4 bits/pixel, pattern 0
	AspiCmd(0xF4);   //starting column address of RAM program window.
  AspiCmd(0x00);
  AspiCmd(0xF5);   //starting row address of RAM program window.
  AspiCmd(0x00);
  AspiCmd(0xF6);   //ending column address of RAM program window.
  AspiCmd(0xD3);
  AspiCmd(0xF7);   //ending row address of RAM program window.
  AspiCmd(0x3F);
	AspiCmd(0xAF);	// Active and 16-grey scale
	
	
	
//	AspiCmd(0x28);    //set panel loading
//	AspiCmd(0x40);    //scroll line LSB
//	AspiCmd(0x50);    //SCROLL LINE MSB
}
Ejemplo n.º 13
0
void refreshDisplay()
{  
  for (uint32_t y=0; y<DISPLAY_H; y++)
	{
    uint8_t *p = &DisplayBuf[(y>>3)*DISPLAY_W];
    uint8_t mask = (1 << (y%8));
		
		GPIO_TypeDef *gpiod = GPIOD ;
		uint32_t *bsrr = (uint32_t *)&gpiod->BSRRL ;

		Set_Address(0, y);
    AspiCmd(0xAF);
    
		gpiod->BSRRL = PIN_LCD_CLK ;		// Clock high
		gpiod->BSRRL = PIN_LCD_A0 ;			// A0 high
    gpiod->BSRRH = PIN_LCD_NCS ;		// CS low

		for (uint32_t x=0; x<DISPLAY_W; x+=2)
		{
      uint32_t data ;
			data = 0 ;
			if ( p[x] & mask )
			{
				data = 0xF0 ;
			}
			if (p[x+1] & mask )
			{
				data += 0x0F ;
			}	
			
        if(data&0x80)
        {
					gpiod->BSRRL = PIN_LCD_MOSI ;
        }
				else
				{
					gpiod->BSRRH = PIN_LCD_MOSI ;
				}
				gpiod->BSRRH = PIN_LCD_CLK ;		// Clock low

        if(data&0x40)
        {
					gpiod->BSRRL = PIN_LCD_MOSI | PIN_LCD_CLK ;
        }
				else
				{
					*bsrr = (PIN_LCD_MOSI<<16) | PIN_LCD_CLK ;
				}
				__no_operation() ;
				gpiod->BSRRH = PIN_LCD_CLK ;		// Clock low

        if(data&0x20)
        {
					gpiod->BSRRL = PIN_LCD_MOSI | PIN_LCD_CLK ;
        }
				else
				{
					*bsrr = (PIN_LCD_MOSI<<16) | PIN_LCD_CLK ;
				}
				__no_operation() ;
				gpiod->BSRRH = PIN_LCD_CLK ;		// Clock low

        if(data&0x10)
        {
					gpiod->BSRRL = PIN_LCD_MOSI | PIN_LCD_CLK ;
        }
				else
				{
					*bsrr = (PIN_LCD_MOSI<<16) | PIN_LCD_CLK ;
				}
				__no_operation() ;
				gpiod->BSRRH = PIN_LCD_CLK ;		// Clock low

        if(data&0x08)
        {
					gpiod->BSRRL = PIN_LCD_MOSI | PIN_LCD_CLK ;
        }
				else
				{
					*bsrr = (PIN_LCD_MOSI<<16) | PIN_LCD_CLK ;
				}
				__no_operation() ;
				gpiod->BSRRH = PIN_LCD_CLK ;		// Clock low

        if(data&0x04)
        {
					gpiod->BSRRL = PIN_LCD_MOSI | PIN_LCD_CLK ;
        }
				else
				{
					*bsrr = (PIN_LCD_MOSI<<16) | PIN_LCD_CLK ;
				}
				__no_operation() ;
				gpiod->BSRRH = PIN_LCD_CLK ;		// Clock low

        if(data&0x02)
        {
					gpiod->BSRRL = PIN_LCD_MOSI | PIN_LCD_CLK ;
        }
				else
				{
					*bsrr = (PIN_LCD_MOSI<<16) | PIN_LCD_CLK ;
				}
				__no_operation() ;
				gpiod->BSRRH = PIN_LCD_CLK ;		// Clock low

        if(data&0x01)
        {
					gpiod->BSRRL = PIN_LCD_MOSI | PIN_LCD_CLK ;
        }
				else
				{
					*bsrr = (PIN_LCD_MOSI<<16) | PIN_LCD_CLK ;
				}
				__no_operation() ;
				gpiod->BSRRH = PIN_LCD_CLK ;		// Clock low
				__no_operation() ;
				gpiod->BSRRL = PIN_LCD_CLK ;		// Clock high

		}
    gpiod->BSRRL = PIN_LCD_NCS ;		// CS high
		gpiod->BSRRL = PIN_LCD_A0 ;
    AspiData(0);
  }
}
Ejemplo n.º 14
0
void LCD_OFF()
{
  AspiCmd(0xE2);
  Delay(20);	
}