Dmitry Dzhafarkhanov
SEPS114A Driver
SEPS114A SPI Driver
class SPIPreInit : public SPI { public: SPIPreInit(PinName mosi, PinName miso, PinName clk) : SPI(mosi,miso,clk) { format(8,3); frequency(12000000); }; };
SPIPreInit gSpi(PB_15,NC,PB_13); PinName mosi(sda), PinName miso, PinName clk(scl) Adafruit_SEPS114A_Spi oled(gSpi,PB_14,PB_1,PB_2); PinName DC, PinName RST, PinName CS
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Adafruit_SEPS114A.cpp
- Committer:
- Dzhafarkhanov
- Date:
- 2016-05-10
- Revision:
- 1:a37035f55af3
- Parent:
- 0:f7b7f71865d1
File content as of revision 1:a37035f55af3:
#include "mbed.h"
#include "Adafruit_SEPS114A.h"
#define SEPS114A_SOFT_RESET 0x01
#define SEPS114A_DISPLAY_ON_OFF 0x02
#define SEPS114A_ANALOG_CONTROL 0x0F //
#define SEPS114A_STANDBY_ON_OFF 0x14
#define SEPS114A_OSC_ADJUST 0x1A
#define SEPS114A_ROW_SCAN_DIRECTION 0x09
#define SEPS114A_DISPLAY_X1 0x30
#define SEPS114A_DISPLAY_X2 0x31
#define SEPS114A_DISPLAY_Y1 0x32
#define SEPS114A_DISPLAY_Y2 0x33
#define SEPS114A_DISPLAYSTART_X 0x38
#define SEPS114A_DISPLAYSTART_Y 0x39
#define SEPS114A_CPU_IF 0x0D
#define SEPS114A_MEM_X1 0x34
#define SEPS114A_MEM_X2 0x35
#define SEPS114A_MEM_Y1 0x36
#define SEPS114A_MEM_Y2 0x37
#define SEPS114A_MEMORY_WRITE_READ 0x1D
#define SEPS114A_DDRAM_DATA_ACCESS_PORT 0x08
#define SEPS114A_DISCHARGE_TIME 0x18
#define SEPS114A_PEAK_PULSE_DELAY 0x16
#define SEPS114A_PEAK_PULSE_WIDTH_R 0x3A
#define SEPS114A_PEAK_PULSE_WIDTH_G 0x3B
#define SEPS114A_PEAK_PULSE_WIDTH_B 0x3C
#define SEPS114A_PRECHARGE_CURRENT_R 0x3D
#define SEPS114A_PRECHARGE_CURRENT_G 0x3E
#define SEPS114A_PRECHARGE_CURRENT_B 0x3F
#define SEPS114A_COLUMN_CURRENT_R 0x40
#define SEPS114A_COLUMN_CURRENT_G 0x41
#define SEPS114A_COLUMN_CURRENT_B 0x42
#define SEPS114A_ROW_OVERLAP 0x48
#define SEPS114A_SCAN_OFF_LEVEL 0x49
#define SEPS114A_ROW_SCAN_ON_OFF 0x17
#define SEPS114A_ROW_SCAN_MODE 0x13
#define SEPS114A_SCREEN_SAVER_CONTEROL 0xD0
#define SEPS114A_SS_SLEEP_TIMER 0xD1
#define SEPS114A_SCREEN_SAVER_MODE 0xD2
#define SEPS114A_SS_UPDATE_TIMER 0xD3
#define SEPS114A_RGB_IF 0xE0
#define SEPS114A_RGB_POL 0xE1
#define SEPS114A_DISPLAY_MODE_CONTROL 0xE5
void Adafruit_SEPS114A::set_region(int x, int y, int xs, int ys)
{
// draw region
writeCommand(SEPS114A_MEM_X1,x);
writeCommand(SEPS114A_MEM_X2,x+xs-1);
writeCommand(SEPS114A_MEM_Y1,y);
writeCommand(SEPS114A_MEM_Y2,y+ys-1);
// start position
writeCommand(SEPS114A_DISPLAYSTART_X,x);
writeCommand(SEPS114A_DISPLAYSTART_Y,y);
}
void Adafruit_SEPS114A::begin(void)//oled init
{
rst = 0;
// wait 10ms
wait_ms(10);
// bring out of reset
rst = 1;
// turn on VCC (13V?)
wait_ms(10);
/* Soft reser */
writeCommand(SEPS114A_SOFT_RESET,0x00);
/* Standby ON/OFF*/
writeCommand(SEPS114A_STANDBY_ON_OFF,0x01); // Standby on
wait_ms(5); // Wait for 5ms (1ms Delay Minimum)
writeCommand(SEPS114A_STANDBY_ON_OFF,0x00); // Standby off
wait_ms(5); // 1ms Delay Minimum (1ms Delay Minimum)
/* Display OFF */
writeCommand(SEPS114A_DISPLAY_ON_OFF,0x00);
/* Set Oscillator operation */
writeCommand(SEPS114A_ANALOG_CONTROL,0x40); // using external resistor and internal OSC
/* Set frame rate */
writeCommand(SEPS114A_OSC_ADJUST,0x03); // frame rate : 95Hz
/* Select the RGB data format and set the initial state of RGB interface port */
writeCommand(SEPS114A_RGB_IF,0x00); //0xE0 RGB 8bit interface
/* Set RGB polarity */
writeCommand(SEPS114A_RGB_POL,0x00);
/* Set display mode control */
writeCommand(SEPS114A_DISPLAY_MODE_CONTROL,0x80); // SWAP:BGR, Reduce current : Normal, DC[1:0] : Normal
/* Set MCU Interface */
writeCommand(SEPS114A_CPU_IF,0x00); // MPU External interface mode, 8bits
/* Set Memory Read/Write mode */
writeCommand(SEPS114A_MEMORY_WRITE_READ,0x00);
/* Set row scan direction */
// writeCommand(SEPS114A_ROW_SCAN_DIRECTION,0x00); // Column : 0 --> Max, Row : 0 Ѓ--> Max
writeCommand(SEPS114A_ROW_SCAN_DIRECTION,0x02); // Column : 0 --> Max, Row : 0 Ѓ--> Max
/* Set row scan mode */
writeCommand(SEPS114A_ROW_SCAN_MODE,0x00); // Alternate scan mode
/* Set column current */
// writeCommand(SEPS114A_COLUMN_CURRENT_R,0x32);
// writeCommand(SEPS114A_COLUMN_CURRENT_G,0x31);
// writeCommand(SEPS114A_COLUMN_CURRENT_B,0x31);
writeCommand(SEPS114A_COLUMN_CURRENT_R,0x6E);
writeCommand(SEPS114A_COLUMN_CURRENT_G,0x4F);
writeCommand(SEPS114A_COLUMN_CURRENT_B,0x77);
/* Set row overlap */
writeCommand(SEPS114A_ROW_OVERLAP,0x00); // Band gap only
/* Set discharge time */
writeCommand(SEPS114A_DISCHARGE_TIME,0x01); // Discharge time : normal discharge
/* Set peak pulse delay */
writeCommand(SEPS114A_PEAK_PULSE_DELAY,0x00);
/* Set peak pulse width */
writeCommand(SEPS114A_PEAK_PULSE_WIDTH_R,0x02);
writeCommand(SEPS114A_PEAK_PULSE_WIDTH_G,0x02);
writeCommand(SEPS114A_PEAK_PULSE_WIDTH_B,0x02);
/* Set precharge current */
writeCommand(SEPS114A_PRECHARGE_CURRENT_R,0x14);
writeCommand(SEPS114A_PRECHARGE_CURRENT_G,0x50);
writeCommand(SEPS114A_PRECHARGE_CURRENT_B,0x19);
/* Set row scan on/off */
writeCommand(SEPS114A_ROW_SCAN_ON_OFF,0x00); // Normal row scan
/* Set scan off level */
writeCommand(SEPS114A_SCAN_OFF_LEVEL,0x04); // VCC_C*0.75 //0x04
writeCommand(SEPS114A_MEM_X1,0x00);
writeCommand(SEPS114A_MEM_X2,0x5F);
writeCommand(SEPS114A_MEM_Y1,0x00);
writeCommand(SEPS114A_MEM_Y2,0x5F);
/* Set memory access point */
writeCommand(SEPS114A_DISPLAYSTART_X,0x00);
writeCommand(SEPS114A_DISPLAYSTART_Y,0x00);
// set_region(0, 0, 96, 96);
/* Set active display area of panel */
writeCommand(SEPS114A_DISPLAY_X1,0x00);
writeCommand(SEPS114A_DISPLAY_X2,0x5F);
writeCommand(SEPS114A_DISPLAY_Y1,0x00);
writeCommand(SEPS114A_DISPLAY_Y2,0x5F);
/* Display ON */
writeCommand(SEPS114A_DISPLAY_ON_OFF,0x01);
}
//Set memory area(address) to write a display data
void Adafruit_SEPS114A::MemorySize(uint8_t X1, uint8_t X2, uint8_t Y1, uint8_t Y2){
writeCommand(SEPS114A_MEM_X1,X1);
writeCommand(SEPS114A_MEM_X2,X2);
writeCommand(SEPS114A_MEM_Y1,Y1);
writeCommand(SEPS114A_MEM_Y2,Y2);
}
uint16_t Adafruit_SEPS114A::Color565(uint8_t r, uint8_t g, uint8_t b) {
uint16_t c;
c = r >> 3;
c <<= 6;
c |= g >> 2;
c <<= 5;
c |= b >> 3;
return c;
}
// Set a single pixel
void Adafruit_SEPS114A::drawPixel(int16_t x, int16_t y, uint16_t color)
{
if ((x < 0) || (x >= width()) || (y < 0) || (y >= height())) // Bounds check.
return;
// check rotation, move pixel around if necessary
switch (getRotation())
{
case 1: // Rotated 90 degrees clockwise.
swap(x, y);
x = _rawWidth - x - 1;
break;
case 2: // Rotated 180 degrees clockwise.
x = _rawWidth - x - 1;
y = _rawHeight - y - 1;
break;
case 3: // Rotated 270 degrees clockwise.
swap(x, y);
y = _rawHeight - y - 1;
break;
}
MemorySize( x, 1, y, 1);
DDRAM_access();
writeData(color >> 8) ;
writeData(color);
}
void Adafruit_SEPS114A::clearDisplay()
{
int j;
MemorySize(0x00,0x5F,0x00,0x5F);
DDRAM_access();
for(j=0;j<9216;j++){ //
writeData(Black >> 8) ;
writeData(Black);
}
}
void Adafruit_SEPS114A::setContrastControl(int brightness)
{
int r, g, b;
r = 2 + 16*brightness;
g = 1 + 10*brightness;
b = 1 + (23*brightness)/2;
writeCommand(SEPS114A_COLUMN_CURRENT_R,r);
writeCommand(SEPS114A_COLUMN_CURRENT_G,g);
writeCommand(SEPS114A_COLUMN_CURRENT_B,b);
}