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.
Fork of UniGraphic by
IST3020.cpp
00001 /* mbed UniGraphic library - Device specific class 00002 * Copyright (c) 2015 Giuliano Dianda 00003 * Released under the MIT License: http://mbed.org/license/mit 00004 */ 00005 #include "Protocols.h " 00006 #include "IST3020.h" 00007 00008 /*this is a quite standard config, similar to ST7565, except bigger screen and diff resistor ratio value*/ 00009 00010 ////////////////////////////////////////////////////////////////////////////////// 00011 // display settings /////////////////////////////////////////////////////// 00012 ///////////////////////////////////////////////////////////////////////// 00013 #define IC_X_SEGS 256 // IST3020 SEG has range 0-255 (255-0 if ADC=1), check your datasheet, important for the orientation 00014 #define IC_Y_COMS 64 // IST3020 COM has range 0-63 (63-0 if SHL=1), check your datasheet, important for the orientation 00015 // put in constructor 00016 //#define LCDSIZE_X 192 // display X pixels, IST3020 is advertised as 224x65 but display size could be smaller 00017 //#define LCDSIZE_Y 64 // display Y pixels, the 65th is for accessing "icons" 00018 00019 00020 00021 IST3020::IST3020(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) 00022 : LCD(displayproto, port, CS, reset, DC, WR, RD, LCDSIZE_X, LCDSIZE_Y, IC_X_SEGS, IC_Y_COMS, name) 00023 { 00024 hw_reset(); 00025 BusEnable(true); 00026 init(); 00027 cls(); 00028 set_orientation(1); 00029 locate(0,0); 00030 } 00031 IST3020::IST3020(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) 00032 : LCD(displayproto, Hz, mosi, miso, sclk, CS, reset, DC, LCDSIZE_X, LCDSIZE_Y, IC_X_SEGS, IC_Y_COMS, name) 00033 { 00034 hw_reset(); 00035 BusEnable(true); 00036 init(); 00037 cls(); 00038 set_orientation(1); 00039 locate(0,0); 00040 } 00041 // reset and init the lcd controller 00042 // init sequence is manufacturer specific 00043 void IST3020::init() 00044 { 00045 /* Start Initial Sequence ----------------------------------------------------*/ 00046 00047 wr_cmd8(0xE2); // sw reset 00048 wait_ms(10); 00049 00050 wr_cmd8(0xAE); // display off 00051 wr_cmd8(0xAB); // built-in OSC on 00052 wr_cmd8(0xA2); // bias voltage (1/9) 00053 // wr_cmd8(0xA3); // bias voltage (1/7) 00054 00055 wr_cmd8(0xA0); // ADC select seg0-seg223 00056 //wr_cmd8(0xA1); // ADC select seg223-seg0 00057 wr_cmd8(0xC8); // SHL select com63-com0 00058 //wr_cmd8(0xC0); // SHL select com0-com63 00059 00060 wr_cmd8(0x2C); // Internal Voltage Converter ON 00061 wait_ms(10); 00062 wr_cmd8(0x2E); // Internal Voltage Regulator ON 00063 wait_ms(10); 00064 wr_cmd8(0x2F); // Internal Voltage Follower ON 00065 wait_ms(10); 00066 wr_cmd8(0x20); // Regulor_Resistor_Select resistor ratio 20-27 20=4.5(default) 27=8.0, 0.5 steps 00067 set_contrast(46); 00068 //wr_cmd8(0x81); // set contrast (reference voltage register set) 00069 //wr_cmd8(0x20); // contrast 00-3F default 20 00070 00071 wr_cmd8(0xA4); // LCD display ram (EntireDisplayOn disable) 00072 //wr_cmd8(0x70); // External Capacitors Discharge function enable (should be enabled by default) 00073 //wr_cmd8(0x77); // External Capacitors Discharge function disable 00074 wr_cmd8(0x40); // start line = 0 00075 wr_cmd8(0xA6); // display normal (1 = illuminated) 00076 wr_cmd8(0xAF); // display ON 00077 00078 }
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