La Suno / UniGraphic

Basically i glued Peter Drescher and Simon Ford libs in a GraphicsDisplay class, then derived TFT or LCD class (which inherits Protocols class), then the most derived ones (Inits), which are per-display and are the only part needed to be adapted to diff hw.

Dependents:   afero_poc15_180216 afero_poc15_180223 afero_poc15_180302 afero_poc15_180403R ... more

Fork of UniGraphic by GraphicsDisplay

UniGraphic for La Suno Version.
To go with La Suno, WatchDog Reset functions were added in ILI9341.

Inits/ILI9341.cpp@11:b842b8e332cb, 2015-02-20 (annotated)

Committer:
Geremia
Date:
Fri Feb 20 21:32:25 2015 +0000
Revision:
11:b842b8e332cb
Parent:
10:668cf78ff93a
Child:
21:ae0a4eedfc90
added auto_gram_read_format() to TFt inits. Even if write is set to 16bit RGB color, for some controllers the read cmd outputs 18bit BGR. Now that function will autodetect and set internal flags accordingly, so pixelread() is always correct.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
Geremia 4:12ba0ecc2c1f 1 /* mbed UniGraphic library - Device specific class
Geremia 4:12ba0ecc2c1f 2 * Copyright (c) 2015 Giuliano Dianda
Geremia 4:12ba0ecc2c1f 3 * Released under the MIT License: http://mbed.org/license/mit
Geremia 4:12ba0ecc2c1f 4 */
Geremia 4:12ba0ecc2c1f 5
Geremia 2:713844a55c4e 6 #include "Protocols.h"
Geremia 2:713844a55c4e 7 #include "ILI9341.h"
Geremia 2:713844a55c4e 8
Geremia 2:713844a55c4e 9 //////////////////////////////////////////////////////////////////////////////////
Geremia 2:713844a55c4e 10 // display settings ///////////////////////////////////////////////////////
Geremia 2:713844a55c4e 11 /////////////////////////////////////////////////////////////////////////
Geremia 2:713844a55c4e 12
dreschpe 9:1749ae993cfe 13 // put in constructor
dreschpe 9:1749ae993cfe 14 //#define LCDSIZE_X 240 // display X pixels, TFTs are usually portrait view
dreschpe 9:1749ae993cfe 15 //#define LCDSIZE_Y 320 // display Y pixels
Geremia 2:713844a55c4e 16
Geremia 2:713844a55c4e 17
Geremia 2:713844a55c4e 18
dreschpe 9:1749ae993cfe 19 ILI9341::ILI9341(proto_t displayproto, PortName port, PinName CS, PinName reset, PinName DC, PinName WR, PinName RD, const char *name, unsigned int LCDSIZE_X, unsigned int LCDSIZE_Y)
Geremia 2:713844a55c4e 20 : TFT(displayproto, port, CS, reset, DC, WR, RD, LCDSIZE_X, LCDSIZE_Y, name)
Geremia 2:713844a55c4e 21 {
Geremia 2:713844a55c4e 22 hw_reset();
Geremia 2:713844a55c4e 23 BusEnable(true);
Geremia 7:bb0383b91104 24 identify(); // will collect tftID and set mipistd flag
Geremia 2:713844a55c4e 25 init();
Geremia 11:b842b8e332cb 26 auto_gram_read_format();
Geremia 4:12ba0ecc2c1f 27 set_orientation(0);
Geremia 2:713844a55c4e 28 cls();
Geremia 10:668cf78ff93a 29 FastWindow(true); // most but not all controllers support this, even if datasheet tells they should.
Geremia 2:713844a55c4e 30 locate(0,0);
Geremia 2:713844a55c4e 31 }
dreschpe 9:1749ae993cfe 32 ILI9341::ILI9341(proto_t displayproto, int Hz, PinName mosi, PinName miso, PinName sclk, PinName CS, PinName reset, PinName DC, const char *name, unsigned int LCDSIZE_X , unsigned int LCDSIZE_Y)
Geremia 2:713844a55c4e 33 : TFT(displayproto, Hz, mosi, miso, sclk, CS, reset, DC, LCDSIZE_X, LCDSIZE_Y, name)
Geremia 2:713844a55c4e 34 {
Geremia 2:713844a55c4e 35 hw_reset(); //TFT class forwards to Protocol class
Geremia 2:713844a55c4e 36 BusEnable(true); //TFT class forwards to Protocol class
Geremia 7:bb0383b91104 37 identify(); // will collect tftID and set mipistd flag
Geremia 2:713844a55c4e 38 init(); // per display custom init cmd sequence, implemented here
Geremia 11:b842b8e332cb 39 auto_gram_read_format();// try to get read gram pixel format, could be 16bit or 18bit, RGB or BGR. Will set flags accordingly
Geremia 4:12ba0ecc2c1f 40 set_orientation(0); //TFT class does for MIPI standard and some ILIxxx
Geremia 10:668cf78ff93a 41 FastWindow(true); // most but not all controllers support this, even if datasheet tells they should.
Geremia 2:713844a55c4e 42 cls();
Geremia 2:713844a55c4e 43 locate(0,0);
Geremia 2:713844a55c4e 44 }
Geremia 2:713844a55c4e 45 // reset and init the lcd controller
Geremia 2:713844a55c4e 46 void ILI9341::init()
Geremia 2:713844a55c4e 47 {
Geremia 2:713844a55c4e 48 /* Start Initial Sequence ----------------------------------------------------*/
Geremia 2:713844a55c4e 49
Geremia 2:713844a55c4e 50 wr_cmd8(0xCB); // POWER_ON_SEQ_CONTROL
Geremia 2:713844a55c4e 51 wr_data8(0x39);
Geremia 2:713844a55c4e 52 wr_data8(0x2C);
Geremia 2:713844a55c4e 53 wr_data8(0x00);
Geremia 2:713844a55c4e 54 wr_data8(0x34);
Geremia 2:713844a55c4e 55 wr_data8(0x02);
Geremia 2:713844a55c4e 56
Geremia 2:713844a55c4e 57 wr_cmd8(0xCF); // POWER_CONTROL_B
Geremia 2:713844a55c4e 58 wr_data8(0x00);
Geremia 2:713844a55c4e 59 wr_data8(0xC1); // Applic Notes 81, was 83, C1 enables PCEQ: PC and EQ operation for power saving
Geremia 2:713844a55c4e 60 wr_data8(0x30);
Geremia 2:713844a55c4e 61
Geremia 2:713844a55c4e 62 wr_cmd8(0xE8); // DRIVER_TIMING_CONTROL_A
Geremia 2:713844a55c4e 63 wr_data8(0x85);
Geremia 2:713844a55c4e 64 wr_data8(0x00); // AN 10, was 01
Geremia 2:713844a55c4e 65 wr_data8(0x78); // AN 7A, was 79
Geremia 2:713844a55c4e 66
Geremia 2:713844a55c4e 67 wr_cmd8(0xEA); // DRIVER_TIMING_CONTROL_B
Geremia 2:713844a55c4e 68 wr_data8(0x00);
Geremia 2:713844a55c4e 69 wr_data8(0x00);
Geremia 2:713844a55c4e 70
Geremia 2:713844a55c4e 71 wr_cmd8(0xED);
Geremia 2:713844a55c4e 72 wr_data8(0x64);
Geremia 2:713844a55c4e 73 wr_data8(0x03);
Geremia 2:713844a55c4e 74 wr_data8(0x12);
Geremia 2:713844a55c4e 75 wr_data8(0x81);
Geremia 2:713844a55c4e 76
Geremia 2:713844a55c4e 77 wr_cmd8(0xF7); // PUMP_RATIO_CONTROL
Geremia 2:713844a55c4e 78 wr_data8(0x20);
Geremia 2:713844a55c4e 79
Geremia 2:713844a55c4e 80 wr_cmd8(0xC0); // POWER_CONTROL_1
Geremia 2:713844a55c4e 81 wr_data8(0x23); // AN 21, was 26
Geremia 2:713844a55c4e 82
Geremia 2:713844a55c4e 83 wr_cmd8(0xC1); // POWER_CONTROL_2
Geremia 2:713844a55c4e 84 wr_data8(0x10); // AN 11, was 11
Geremia 2:713844a55c4e 85
Geremia 2:713844a55c4e 86 wr_cmd8(0xC5); // VCOM_CONTROL_1
Geremia 2:713844a55c4e 87 wr_data8(0x3E); // AN 3F, was 35
Geremia 2:713844a55c4e 88 wr_data8(0x28); // AN 3C, was 3E
Geremia 2:713844a55c4e 89
Geremia 2:713844a55c4e 90 wr_cmd8(0xC7); // VCOM_CONTROL_2
Geremia 2:713844a55c4e 91 wr_data8(0x86); // AN A7, was BE
Geremia 2:713844a55c4e 92
Geremia 2:713844a55c4e 93
Geremia 2:713844a55c4e 94
Geremia 2:713844a55c4e 95 wr_cmd8(0xB1); // Frame Rate
Geremia 2:713844a55c4e 96 wr_data8(0x00);
Geremia 2:713844a55c4e 97 wr_data8(0x18); // AN 1B, was 1B 1B=70hz
Geremia 2:713844a55c4e 98
Geremia 2:713844a55c4e 99 wr_cmd8(0xB6); // display function control, INTERESTING
Geremia 2:713844a55c4e 100 wr_data8(0x08); // AN 0A, was 0A
Geremia 2:713844a55c4e 101 wr_data8(0x82); // AN A2
Geremia 2:713844a55c4e 102 wr_data8(0x27); // AN not present
Geremia 2:713844a55c4e 103 // wr_data8(0x00); // was present
Geremia 2:713844a55c4e 104
Geremia 2:713844a55c4e 105 wr_cmd8(0xF2); // Gamma Function Disable
Geremia 2:713844a55c4e 106 wr_data8(0x00); // AN 00, was 08
Geremia 2:713844a55c4e 107
Geremia 2:713844a55c4e 108 wr_cmd8(0x26);
Geremia 2:713844a55c4e 109 wr_data8(0x01); // gamma set for curve 01/2/04/08
Geremia 2:713844a55c4e 110
Geremia 2:713844a55c4e 111 wr_cmd8(0xE0); // positive gamma correction
Geremia 2:713844a55c4e 112 wr_data8(0x0F);
Geremia 2:713844a55c4e 113 wr_data8(0x31);
Geremia 2:713844a55c4e 114 wr_data8(0x2B);
Geremia 2:713844a55c4e 115 wr_data8(0x0C);
Geremia 2:713844a55c4e 116 wr_data8(0x0E);
Geremia 2:713844a55c4e 117 wr_data8(0x08);
Geremia 2:713844a55c4e 118 wr_data8(0x4E);
Geremia 2:713844a55c4e 119 wr_data8(0xF1);
Geremia 2:713844a55c4e 120 wr_data8(0x37);
Geremia 2:713844a55c4e 121 wr_data8(0x07);
Geremia 2:713844a55c4e 122 wr_data8(0x10);
Geremia 2:713844a55c4e 123 wr_data8(0x03);
Geremia 2:713844a55c4e 124 wr_data8(0x0E);
Geremia 2:713844a55c4e 125 wr_data8(0x09);
Geremia 2:713844a55c4e 126 wr_data8(0x00);
Geremia 2:713844a55c4e 127
Geremia 2:713844a55c4e 128 wr_cmd8(0xE1); // negativ gamma correction
Geremia 2:713844a55c4e 129 wr_data8(0x00);
Geremia 2:713844a55c4e 130 wr_data8(0x0E);
Geremia 2:713844a55c4e 131 wr_data8(0x14);
Geremia 2:713844a55c4e 132 wr_data8(0x03);
Geremia 2:713844a55c4e 133 wr_data8(0x11);
Geremia 2:713844a55c4e 134 wr_data8(0x07);
Geremia 2:713844a55c4e 135 wr_data8(0x31);
Geremia 2:713844a55c4e 136 wr_data8(0xC1);
Geremia 2:713844a55c4e 137 wr_data8(0x48);
Geremia 2:713844a55c4e 138 wr_data8(0x08);
Geremia 2:713844a55c4e 139 wr_data8(0x0F);
Geremia 2:713844a55c4e 140 wr_data8(0x0C);
Geremia 2:713844a55c4e 141 wr_data8(0x31);
Geremia 2:713844a55c4e 142 wr_data8(0x36);
Geremia 2:713844a55c4e 143 wr_data8(0x0F);
Geremia 2:713844a55c4e 144
Geremia 2:713844a55c4e 145 //wr_cmd8(0x34); // tearing effect off
Geremia 2:713844a55c4e 146
Geremia 2:713844a55c4e 147 //wr_cmd8(0x35); // tearing effect on
Geremia 2:713844a55c4e 148
Geremia 2:713844a55c4e 149 // wr_cmd8(0xB7); // ENTRY_MODE_SET
Geremia 2:713844a55c4e 150 // wr_data8(0x07);
Geremia 4:12ba0ecc2c1f 151
Geremia 4:12ba0ecc2c1f 152 wr_cmd8(0x36); // MEMORY_ACCESS_CONTROL (orientation stuff)
Geremia 4:12ba0ecc2c1f 153 wr_data8(0x48);
Geremia 4:12ba0ecc2c1f 154
Geremia 4:12ba0ecc2c1f 155 wr_cmd8(0x3A); // COLMOD_PIXEL_FORMAT_SET
Geremia 4:12ba0ecc2c1f 156 wr_data8(0x55); // 16 bit pixel
Geremia 4:12ba0ecc2c1f 157
Geremia 4:12ba0ecc2c1f 158 wr_cmd8(0x13); // Nomal Displaymode
Geremia 4:12ba0ecc2c1f 159
Geremia 2:713844a55c4e 160 wr_cmd8(0x11); // sleep out
Geremia 2:713844a55c4e 161 wait_ms(150);
Geremia 2:713844a55c4e 162
Geremia 2:713844a55c4e 163 wr_cmd8(0x29); // display on
Geremia 2:713844a55c4e 164 wait_ms(150);
Geremia 2:713844a55c4e 165
Geremia 2:713844a55c4e 166 }