Commit 3c6dab0a authored by Bodmer's avatar Bodmer

Add ability to set the RP2040 parallel interface speed

// For RP2040 processor and 8 or 16 bit parallel displays:
// The parallel interface write cycle period is derived from a division of the CPU clock
// speed so scales with the processor clock. This means that the divider ratio may need
// to be increased when overclocking. I may also need to be adjusted dependant on the
// display controller type (ILI94341, HX8357C etc). If RP2040_PIO_CLK_DIV is not defined
// the library will set default values which may not suit your display.
// The display controller data sheet will specify the minimum write cycle period. The
// controllers often work reliably for shorter periods, however if the period is too short
// the display may not initialise or graphics will become corrupted.
// PIO write cycle frequency = (CPU clock/(4 * RP2040_PIO_CLK_DIV))
//#define RP2040_PIO_CLK_DIV 1 // 32ns write cycle at 125MHz CPU clock
#define RP2040_PIO_CLK_DIV 2 // 64ns write cycle at 125MHz CPU clock
//#define RP2040_PIO_CLK_DIV 3 // 96ns write cycle at 125MHz CPU clock
parent 64a31ef2
...@@ -82,9 +82,18 @@ ...@@ -82,9 +82,18 @@
// Different controllers have different minimum write cycle periods, so the PIO clock is changed accordingly // Different controllers have different minimum write cycle periods, so the PIO clock is changed accordingly
// The PIO clock is a division of the CPU clock so scales when the processor is overclocked // The PIO clock is a division of the CPU clock so scales when the processor is overclocked
// PIO write frequency = (CPU clock/(4 * DIV_UNITS)) // PIO write frequency = (CPU clock/(4 * RP2040_PIO_CLK_DIV))
#if defined (TFT_PARALLEL_8_BIT) || defined (TFT_PARALLEL_16_BIT) || defined (RP2040_PIO_SPI) // The write cycle periods below assume a 125MHz CPU clock speed
#if defined (TFT_PARALLEL_16_BIT) #if defined (TFT_PARALLEL_8_BIT) || defined (TFT_PARALLEL_16_BIT)
#if defined (RP2040_PIO_CLK_DIV)
#if (RP2040_PIO_CLK_DIV > 0)
#define DIV_UNITS RP2040_PIO_CLK_DIV
#define DIV_FRACT 0
#else
#define DIV_UNITS 3
#define DIV_FRACT 0
#endif
#elif defined (TFT_PARALLEL_16_BIT)
// Different display drivers have different minimum write cycle times // Different display drivers have different minimum write cycle times
#if defined (HX8357C_DRIVER) || defined (SSD1963_DRIVER) #if defined (HX8357C_DRIVER) || defined (SSD1963_DRIVER)
#define DIV_UNITS 1 // 32ns write cycle time SSD1963, HX8357C (maybe HX8357D?) #define DIV_UNITS 1 // 32ns write cycle time SSD1963, HX8357C (maybe HX8357D?)
...@@ -94,14 +103,9 @@ ...@@ -94,14 +103,9 @@
#define DIV_UNITS 3 // 96ns write cycle time #define DIV_UNITS 3 // 96ns write cycle time
#endif #endif
#define DIV_FRACT 0 #define DIV_FRACT 0
#else // 8 bit parallel mode #else // 8 bit parallel mode default 64ns write cycle time
#ifdef ILI9481_DRIVER #define DIV_UNITS 2
#define DIV_UNITS 1 #define DIV_FRACT 0 // Note: Fractional values done with clock period dithering
#define DIV_FRACT 160 // Note: Fractional values done with clock period dithering
#else
#define DIV_UNITS 1
#define DIV_FRACT 0
#endif
#endif #endif
#endif #endif
......
...@@ -138,143 +138,3 @@ ...@@ -138,143 +138,3 @@
_height = _init_width; _height = _init_width;
break; break;
} }
// This is the command sequence that rotates the ST7789 driver coordinate frame
writecommand(TFT_MADCTL);
rotation = m % 4;
switch (rotation) {
case 0: // Portrait
#ifdef CGRAM_OFFSET
if (_init_width == 135)
{
colstart = 52;
rowstart = 40;
}
else if(_init_height == 280)
{
colstart = 0;
rowstart = 20;
}
else if(_init_width == 172)
{
colstart = 34;
rowstart = 0;
}
else if(_init_width == 170)
{
colstart = 35;
rowstart = 0;
}
else
{
colstart = 0;
rowstart = 0;
}
#endif
writedata(TFT_MAD_COLOR_ORDER);
_width = _init_width;
_height = _init_height;
break;
case 1: // Landscape (Portrait + 90)
#ifdef CGRAM_OFFSET
if (_init_width == 135)
{
colstart = 40;
rowstart = 53;
}
else if(_init_height == 280)
{
colstart = 20;
rowstart = 0;
}
else if(_init_width == 172)
{
colstart = 0;
rowstart = 34;
}
else if(_init_width == 170)
{
colstart = 0;
rowstart = 35;
}
else
{
colstart = 0;
rowstart = 0;
}
#endif
writedata(TFT_MAD_MX | TFT_MAD_MV | TFT_MAD_COLOR_ORDER);
_width = _init_height;
_height = _init_width;
break;
case 2: // Inverter portrait
#ifdef CGRAM_OFFSET
if (_init_width == 135)
{
colstart = 53;
rowstart = 40;
}
else if(_init_height == 280)
{
colstart = 0;
rowstart = 20;
}
else if(_init_width == 172)
{
colstart = 34;
rowstart = 0;
}
else if(_init_width == 170)
{
colstart = 35;
rowstart = 0;
}
else
{
colstart = 0;
rowstart = 80;
}
#endif
writedata(TFT_MAD_MX | TFT_MAD_MY | TFT_MAD_COLOR_ORDER);
_width = _init_width;
_height = _init_height;
break;
case 3: // Inverted landscape
#ifdef CGRAM_OFFSET
if (_init_width == 135)
{
colstart = 40;
rowstart = 52;
}
else if(_init_height == 280)
{
colstart = 20;
rowstart = 0;
}
else if(_init_width == 172)
{
colstart = 0;
rowstart = 34;
}
else if(_init_width == 170)
{
colstart = 0;
rowstart = 35;
}
else
{
colstart = 80;
rowstart = 0;
}
#endif
writedata(TFT_MAD_MV | TFT_MAD_MY | TFT_MAD_COLOR_ORDER);
_width = _init_height;
_height = _init_width;
break;
}
...@@ -103,7 +103,7 @@ ...@@ -103,7 +103,7 @@
writedata(0x00); writedata(0x00);
writedata(0x00); writedata(0x00);
writedata(0x00); writedata(0x00);
writedata(0xE5); // 239 writedata(0xEF); // 239
writecommand(ST7789_RASET); // Row address set writecommand(ST7789_RASET); // Row address set
writedata(0x00); writedata(0x00);
......
...@@ -324,6 +324,20 @@ ...@@ -324,6 +324,20 @@
// For RP2040 processor and SPI displays, uncomment the following line to use the PIO interface. // For RP2040 processor and SPI displays, uncomment the following line to use the PIO interface.
//#define RP2040_PIO_SPI // Leave commented out to use standard RP2040 SPI port interface //#define RP2040_PIO_SPI // Leave commented out to use standard RP2040 SPI port interface
// For RP2040 processor and 8 or 16 bit parallel displays:
// The parallel interface write cycle period is derived from a division of the CPU clock
// speed so scales with the processor clock. This means that the divider ratio may need
// to be increased when overclocking. I may also need to be adjusted dependant on the
// display controller type (ILI94341, HX8357C etc). If RP2040_PIO_CLK_DIV is not defined
// the library will set default values which may not suit your display.
// The display controller data sheet will specify the minimum write cycle period. The
// controllers often work reliably for shorter periods, however if the period is too short
// the display may not initialise or graphics will become corrupted.
// PIO write cycle frequency = (CPU clock/(4 * RP2040_PIO_CLK_DIV))
//#define RP2040_PIO_CLK_DIV 1 // 32ns write cycle at 125MHz CPU clock
//#define RP2040_PIO_CLK_DIV 2 // 64ns write cycle at 125MHz CPU clock
//#define RP2040_PIO_CLK_DIV 3 // 96ns write cycle at 125MHz CPU clock
// For the RP2040 processor define the SPI port channel used (default 0 if undefined) // For the RP2040 processor define the SPI port channel used (default 0 if undefined)
//#define TFT_SPI_PORT 1 // Set to 0 if SPI0 pins are used, or 1 if spi1 pins used //#define TFT_SPI_PORT 1 // Set to 0 if SPI0 pins are used, or 1 if spi1 pins used
......
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