/* * Author: Yevgeniy Kiveisha * Copyright (c) 2014 Intel Corporation. * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include #include #include "ssd1327.h" using namespace upm; #define INIT_SLEEP 50000 #define CMD_SLEEP 10000 SSD1327::SSD1327 (int bus_in, int addr_in) : I2CLcd (bus_in, addr_in) { maa_result_t error = MAA_SUCCESS; usleep (INIT_SLEEP); i2Cmd (m_i2c_lcd_control, 0xFD); // Unlock OLED driver IC MCU interface from entering command. i.e: Accept commands usleep (INIT_SLEEP); i2Cmd (m_i2c_lcd_control, 0x12); usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xAE); // Set display off usleep (INIT_SLEEP); i2Cmd (m_i2c_lcd_control, 0xA8); // set multiplex ratio usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x5F); // 96 usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xA1); // set display start line usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x00); // usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xA2); // set display offset usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x60); usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xA0); // set remap usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x46); usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xAB); // set vdd internal usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x01); // usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x81); // set contrasr usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x53); // 100 nit usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xB1); // Set Phase Length usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0X51); // usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xB3); // Set Display Clock Divide Ratio/Oscillator Frequency usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x01); // usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xB9); // usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xBC); // set pre_charge voltage/VCOMH usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x08); // (0x08); usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xBE); // set VCOMH usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0X07); // (0x07); usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xB6); // Set second pre-charge period usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x01); // usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xD5); // enable second precharge and enternal vsl usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0X62); // (0x62); usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xA4); // Set Normal Display Mode usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x2E); // Deactivate Scroll usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0xAF); // Switch on display usleep (INIT_SLEEP); // Row Address error = i2Cmd (m_i2c_lcd_control, 0x75); // Set Row Address usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x00); // Start 0 usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x5f); // End 95 usleep (INIT_SLEEP); // Column Address error = i2Cmd (m_i2c_lcd_control, 0x15); // Set Column Address usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x08); // Start from 8th Column of driver IC. This is 0th Column for OLED usleep (INIT_SLEEP); error = i2Cmd (m_i2c_lcd_control, 0x37); // End at (8 + 47)th column. Each Column has 2 pixels(segments) usleep (INIT_SLEEP); clear (); setNormalDisplay (); setVerticalMode (); } SSD1327::~SSD1327 () { } maa_result_t SSD1327::draw (uint8_t *data, int bytes) { maa_result_t error = MAA_SUCCESS; setHorizontalMode (); for (int row = 0; row < bytes; row++) { for (uint8_t col = 0; col < 8; col+=2) { uint8_t value = 0x0; uint8_t bitOne = (data[row] << col) & 0x80; uint8_t bitTwo = (data[row] << (col + 1)) & 0x80; value |= (bitOne) ? grayHigh : 0x00; value |= (bitTwo) ? grayLow : 0x00; i2cData (m_i2c_lcd_control, value); usleep (CMD_SLEEP - 2000); } } return error; } /* * ************** * virtual area * ************** */ maa_result_t SSD1327::write (std::string msg) { maa_result_t error = MAA_SUCCESS; setVerticalMode (); for (std::string::size_type i = 0; i < msg.size(); ++i) { writeChar (m_i2c_lcd_control, msg[i]); } return error; } maa_result_t SSD1327::setCursor (int row, int column) { maa_result_t error = MAA_SUCCESS; //Column Address i2Cmd (m_i2c_lcd_control, 0x15); /* Set Column Address */ usleep (CMD_SLEEP); i2Cmd (m_i2c_lcd_control, 0x08 + (column * 4)); /* Start Column: Start from 8 */ usleep (CMD_SLEEP); i2Cmd (m_i2c_lcd_control, 0x37); /* End Column */ usleep (CMD_SLEEP); // Row Address i2Cmd (m_i2c_lcd_control, 0x75); /* Set Row Address */ usleep (CMD_SLEEP); i2Cmd (m_i2c_lcd_control, 0x00 + (row * 8)); /* Start Row*/ usleep (CMD_SLEEP); i2Cmd (m_i2c_lcd_control, 0x07 + (row * 8)); /* End Row*/ usleep (CMD_SLEEP); return error; } maa_result_t SSD1327::clear () { maa_result_t error = MAA_SUCCESS; uint8_t columnIdx, rowIdx; for(rowIdx = 0; rowIdx < 12; rowIdx++) { // clear all columns for(columnIdx = 0; columnIdx < 12; columnIdx++) { writeChar (m_i2c_lcd_control, ' '); } } return MAA_SUCCESS; } maa_result_t SSD1327::home () { return setCursor (0, 0); } maa_result_t SSD1327::setGrayLevel (uint8_t level) { grayHigh = (level << 4) & 0xF0; grayLow = level & 0x0F; } /* * ************** * private area * ************** */ maa_result_t SSD1327::writeChar (maa_i2c_context ctx, uint8_t value) { if (value < 0x20 || value > 0x7F) { value = 0x20; // space } for (uint8_t row = 0; row < 8; row=row+2) { for (uint8_t col = 0; col < 8; col++) { uint8_t data = 0x0; uint8_t bitOne = ((BasicFont[value - 32][row]) >> col) & 0x1; uint8_t bitTwo = ((BasicFont[value - 32][row + 1]) >> col) & 0x1; data |= (bitOne) ? grayHigh : 0x00; data |= (bitTwo) ? grayLow : 0x00; i2cData (m_i2c_lcd_control, data); usleep (CMD_SLEEP - 2000); } } } maa_result_t SSD1327::setNormalDisplay () { return i2Cmd (m_i2c_lcd_control, DISPLAY_CMD_SET_NORMAL); // set to normal display '1' is ON } maa_result_t SSD1327::setHorizontalMode () { i2Cmd (m_i2c_lcd_control, 0xA0); // remap to usleep (CMD_SLEEP); i2Cmd (m_i2c_lcd_control, 0x42); // horizontal mode usleep (CMD_SLEEP); // Row Address i2Cmd (m_i2c_lcd_control, 0x75); // Set Row Address usleep (CMD_SLEEP); i2Cmd (m_i2c_lcd_control, 0x00); // Start 0 usleep (CMD_SLEEP); i2Cmd (m_i2c_lcd_control, 0x5f); // End 95 usleep (CMD_SLEEP); // Column Address i2Cmd (m_i2c_lcd_control, 0x15); // Set Column Address usleep (CMD_SLEEP); i2Cmd (m_i2c_lcd_control, 0x08); // Start from 8th Column of driver IC. This is 0th Column for OLED usleep (CMD_SLEEP); i2Cmd (m_i2c_lcd_control, 0x37); // End at (8 + 47)th column. Each Column has 2 pixels(or segments) usleep (CMD_SLEEP); } maa_result_t SSD1327::setVerticalMode () { i2Cmd (m_i2c_lcd_control, 0xA0); // remap to usleep (CMD_SLEEP); i2Cmd (m_i2c_lcd_control, 0x46); // Vertical mode usleep (CMD_SLEEP); }