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//***************************************************************************** // // osram128x64x4.c - Driver for the OSRAM 128x64x4 graphical OLED display. // // Copyright (c) 2006-2007 Luminary Micro, Inc. All rights reserved. // // Software License Agreement // // Luminary Micro, Inc. (LMI) is supplying this software for use solely and // exclusively on LMI's microcontroller products. // // The software is owned by LMI and/or its suppliers, and is protected under // applicable copyright laws. All rights are reserved. Any use in violation // of the foregoing restrictions may subject the user to criminal sanctions // under applicable laws, as well as to civil liability for the breach of the // terms and conditions of this license. // // THIS SOFTWARE IS PROVIDED "AS IS". NO WARRANTIES, WHETHER EXPRESS, IMPLIED // OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE. // LMI SHALL NOT, IN ANY CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL, OR // CONSEQUENTIAL DAMAGES, FOR ANY REASON WHATSOEVER. // // This is part of revision 1408 of the Stellaris Peripheral Driver Library. // //***************************************************************************** //***************************************************************************** // //! \addtogroup ek_lm3sx965_api //! @{ // //***************************************************************************** #include "hw_ssi.h" #include "hw_memmap.h" #include "hw_sysctl.h" #include "hw_types.h" #include "debug.h" #include "gpio.h" #include "ssi.h" #include "sysctl.h" #include "osram128x64x4.h" //***************************************************************************** // // Flag to indicate if SSI port is enabled for OSRAM usage. // //***************************************************************************** static volatile tBoolean g_bSSIEnabled = false; //***************************************************************************** // // Define the OSRAM 128x64x4 Remap Setting(s). This will be used in // several places in the code to switch between vertical and horizontal // address incrementing. // // The Remap Command (0xA0) takes one 8-bit parameter. The parameter is // defined as follows. // // Bit 7: Reserved // Bit 6: Disable(0)/Enable(1) COM Split Odd Even // When enabled, the COM signals are split Odd on one side, even on // the other. Otherwise, they are split 0-39 on one side, 40-79 on // the other. // Bit 5: Reserved // Bit 4: Disable(0)/Enable(1) COM Remap // When Enabled, ROW 0-79 map to COM 79-0 (i.e. reverse row order) // Bit 3: Reserved // Bit 2: Horizontal(0)/Vertical(1) Address Increment // When set, data RAM address will increment along the column rather // than along the row. // Bit 1: Disable(0)/Enable(1) Nibble Remap // When enabled, the upper and lower nibbles in the DATA bus for access // to the data RAM are swapped. // Bit 0: Disable(0)/Enable(1) Column Address Remap // When enabled, DATA RAM columns 0-63 are remapped to Segment Columns // 127-0. // //***************************************************************************** #define OSRAM_INIT_REMAP 0x52 #define OSRAM_INIT_OFFSET 0x4C static const unsigned char g_pucOSRAM128x64x4VerticalInc[] = { 0xA0, 0x56 }; static const unsigned char g_pucOSRAM128x64x4HorizontalInc[] = { 0xA0, 0x52 }; //***************************************************************************** // // A 5x7 font (in a 6x8 cell, where the sixth column is omitted from this // table) for displaying text on the OLED display. The data is organized as // bytes from the left column to the right column, with each byte containing // the top row in the LSB and the bottom row in the MSB. // // Note: This is the same font data that is used in the EK-LM3S811 // osram96x16x1 driver. The single bit-per-pixel is expaned in the StringDraw // function to the appropriate four bit-per-pixel gray scale format. // //***************************************************************************** static const unsigned char g_pucFont[96][5] = { { 0x00, 0x00, 0x00, 0x00, 0x00 }, // " " { 0x00, 0x00, 0x4f, 0x00, 0x00 }, // ! { 0x00, 0x07, 0x00, 0x07, 0x00 }, // " { 0x14, 0x7f, 0x14, 0x7f, 0x14 }, // # { 0x24, 0x2a, 0x7f, 0x2a, 0x12 }, // $ { 0x23, 0x13, 0x08, 0x64, 0x62 }, // % { 0x36, 0x49, 0x55, 0x22, 0x50 }, // & { 0x00, 0x05, 0x03, 0x00, 0x00 }, // ' { 0x00, 0x1c, 0x22, 0x41, 0x00 }, // ( { 0x00, 0x41, 0x22, 0x1c, 0x00 }, // ) { 0x14, 0x08, 0x3e, 0x08, 0x14 }, // * { 0x08, 0x08, 0x3e, 0x08, 0x08 }, // + { 0x00, 0x50, 0x30, 0x00, 0x00 }, // , { 0x08, 0x08, 0x08, 0x08, 0x08 }, // - { 0x00, 0x60, 0x60, 0x00, 0x00 }, // . { 0x20, 0x10, 0x08, 0x04, 0x02 }, // / { 0x3e, 0x51, 0x49, 0x45, 0x3e }, // 0 { 0x00, 0x42, 0x7f, 0x40, 0x00 }, // 1 { 0x42, 0x61, 0x51, 0x49, 0x46 }, // 2 { 0x21, 0x41, 0x45, 0x4b, 0x31 }, // 3 { 0x18, 0x14, 0x12, 0x7f, 0x10 }, // 4 { 0x27, 0x45, 0x45, 0x45, 0x39 }, // 5 { 0x3c, 0x4a, 0x49, 0x49, 0x30 }, // 6 { 0x01, 0x71, 0x09, 0x05, 0x03 }, // 7 { 0x36, 0x49, 0x49, 0x49, 0x36 }, // 8 { 0x06, 0x49, 0x49, 0x29, 0x1e }, // 9 { 0x00, 0x36, 0x36, 0x00, 0x00 }, // : { 0x00, 0x56, 0x36, 0x00, 0x00 }, // ; { 0x08, 0x14, 0x22, 0x41, 0x00 }, // < { 0x14, 0x14, 0x14, 0x14, 0x14 }, // = { 0x00, 0x41, 0x22, 0x14, 0x08 }, // > { 0x02, 0x01, 0x51, 0x09, 0x06 }, // ? { 0x32, 0x49, 0x79, 0x41, 0x3e }, // @ { 0x7e, 0x11, 0x11, 0x11, 0x7e }, // A { 0x7f, 0x49, 0x49, 0x49, 0x36 }, // B { 0x3e, 0x41, 0x41, 0x41, 0x22 }, // C { 0x7f, 0x41, 0x41, 0x22, 0x1c }, // D { 0x7f, 0x49, 0x49, 0x49, 0x41 }, // E { 0x7f, 0x09, 0x09, 0x09, 0x01 }, // F { 0x3e, 0x41, 0x49, 0x49, 0x7a }, // G { 0x7f, 0x08, 0x08, 0x08, 0x7f }, // H { 0x00, 0x41, 0x7f, 0x41, 0x00 }, // I { 0x20, 0x40, 0x41, 0x3f, 0x01 }, // J { 0x7f, 0x08, 0x14, 0x22, 0x41 }, // K { 0x7f, 0x40, 0x40, 0x40, 0x40 }, // L { 0x7f, 0x02, 0x0c, 0x02, 0x7f }, // M { 0x7f, 0x04, 0x08, 0x10, 0x7f }, // N { 0x3e, 0x41, 0x41, 0x41, 0x3e }, // O { 0x7f, 0x09, 0x09, 0x09, 0x06 }, // P { 0x3e, 0x41, 0x51, 0x21, 0x5e }, // Q { 0x7f, 0x09, 0x19, 0x29, 0x46 }, // R { 0x46, 0x49, 0x49, 0x49, 0x31 }, // S { 0x01, 0x01, 0x7f, 0x01, 0x01 }, // T { 0x3f, 0x40, 0x40, 0x40, 0x3f }, // U { 0x1f, 0x20, 0x40, 0x20, 0x1f }, // V { 0x3f, 0x40, 0x38, 0x40, 0x3f }, // W { 0x63, 0x14, 0x08, 0x14, 0x63 }, // X { 0x07, 0x08, 0x70, 0x08, 0x07 }, // Y { 0x61, 0x51, 0x49, 0x45, 0x43 }, // Z { 0x00, 0x7f, 0x41, 0x41, 0x00 }, // [ { 0x02, 0x04, 0x08, 0x10, 0x20 }, // "\" { 0x00, 0x41, 0x41, 0x7f, 0x00 }, // ] { 0x04, 0x02, 0x01, 0x02, 0x04 }, // ^ { 0x40, 0x40, 0x40, 0x40, 0x40 }, // _ { 0x00, 0x01, 0x02, 0x04, 0x00 }, // ` { 0x20, 0x54, 0x54, 0x54, 0x78 }, // a { 0x7f, 0x48, 0x44, 0x44, 0x38 }, // b { 0x38, 0x44, 0x44, 0x44, 0x20 }, // c { 0x38, 0x44, 0x44, 0x48, 0x7f }, // d { 0x38, 0x54, 0x54, 0x54, 0x18 }, // e { 0x08, 0x7e, 0x09, 0x01, 0x02 }, // f { 0x0c, 0x52, 0x52, 0x52, 0x3e }, // g { 0x7f, 0x08, 0x04, 0x04, 0x78 }, // h { 0x00, 0x44, 0x7d, 0x40, 0x00 }, // i { 0x20, 0x40, 0x44, 0x3d, 0x00 }, // j { 0x7f, 0x10, 0x28, 0x44, 0x00 }, // k { 0x00, 0x41, 0x7f, 0x40, 0x00 }, // l { 0x7c, 0x04, 0x18, 0x04, 0x78 }, // m { 0x7c, 0x08, 0x04, 0x04, 0x78 }, // n { 0x38, 0x44, 0x44, 0x44, 0x38 }, // o { 0x7c, 0x14, 0x14, 0x14, 0x08 }, // p { 0x08, 0x14, 0x14, 0x18, 0x7c }, // q { 0x7c, 0x08, 0x04, 0x04, 0x08 }, // r { 0x48, 0x54, 0x54, 0x54, 0x20 }, // s { 0x04, 0x3f, 0x44, 0x40, 0x20 }, // t { 0x3c, 0x40, 0x40, 0x20, 0x7c }, // u { 0x1c, 0x20, 0x40, 0x20, 0x1c }, // v { 0x3c, 0x40, 0x30, 0x40, 0x3c }, // w { 0x44, 0x28, 0x10, 0x28, 0x44 }, // x { 0x0c, 0x50, 0x50, 0x50, 0x3c }, // y { 0x44, 0x64, 0x54, 0x4c, 0x44 }, // z { 0x00, 0x08, 0x36, 0x41, 0x00 }, // { { 0x00, 0x00, 0x7f, 0x00, 0x00 }, // | { 0x00, 0x41, 0x36, 0x08, 0x00 }, // } { 0x02, 0x01, 0x02, 0x04, 0x02 }, // ~ { 0x02, 0x01, 0x02, 0x04, 0x02 }, // ~ }; //***************************************************************************** // // The sequence of commands used to initialize the SSD0303 controller. Each // command is described as follows: there is a byte specifying the number of // bytes in the command sequence, followed by that many bytes of command data. // Note: This initialization sequence is derived from OSRAM App Note AN018. // //***************************************************************************** static const unsigned char g_pucOSRAM128x64x4Init[] = { // // Column Address // 4, 0x15, 0, 63, 0xe3, // // Row Address // 4, 0x75, 0, 63, 0xe3, // // Contrast Control // 3, 0x81, 50, 0xe3, // // Half Current Range // 2, 0x85, 0xe3, // // Display Re-map // 3, 0xA0, OSRAM_INIT_REMAP, 0xe3, // // Display Start Line // 3, 0xA1, 0, 0xe3, // // Display Offset // 3, 0xA2, OSRAM_INIT_OFFSET, 0xe3, // // Display Mode Normal // 2, 0xA4, 0xe3, // // Multiplex Ratio // 3, 0xA8, 63, 0xe3, // // Phase Length // 3, 0xB1, 0x22, 0xe3, // // Row Period // 3, 0xB2, 70, 0xe3, // // Display Clock Divide // 3, 0xB3, 0xF1, 0xe3, // // VSL // 3, 0xBF, 0x0D, 0xe3, // // VCOMH // 3, 0xBE, 0x02, 0xe3, // // VP // 3, 0xBC, 0x10, 0xe3, // // Gamma // 10, 0xB8, 0x01, 0x11, 0x22, 0x32, 0x43, 0x54, 0x65, 0x76, 0xe3, // // Set DC-DC 3, 0xAD, 0x03, 0xe3, // // Display ON/OFF // 2, 0xAF, 0xe3, }; //***************************************************************************** // //! \internal //! //! Write a sequence of command bytes to the SSD0323 controller. //! //! The data is written in a polled fashion; this function will not return //! until the entire byte sequence has been written to the controller. //! //! \return None. // //***************************************************************************** static void OSRAMWriteCommand(const unsigned char *pucBuffer, unsigned long ulCount) { unsigned long ulTemp; // // Return iff SSI port is not enabled for OSRAM. // if(!g_bSSIEnabled) { return; } // // Clear the command/control bit to enable command mode. // GPIOPinWrite(GPIO_PORTC_BASE, GPIO_PIN_7, 0); // // Loop while there are more bytes left to be transferred. // while(ulCount != 0) { // // Write the next byte to the controller. // SSIDataPut(SSI0_BASE, *pucBuffer++); // // Dummy read to drain the fifo and time the GPIO signal. // SSIDataGet(SSI0_BASE, &ulTemp); // // Decrement the BYTE counter. // ulCount--; } } //***************************************************************************** // //! \internal //! //! Write a sequence of data bytes to the SSD0323 controller. //! //! The data is written in a polled fashion; this function will not return //! until the entire byte sequence has been written to the controller. //! //! \return None. // //***************************************************************************** static void OSRAMWriteData(const unsigned char *pucBuffer, unsigned long ulCount) { unsigned long ulTemp; // // Return iff SSI port is not enabled for OSRAM. // if(!g_bSSIEnabled) { return; } // // Set the command/control bit to enable data mode. // GPIOPinWrite(GPIO_PORTC_BASE, GPIO_PIN_7, GPIO_PIN_7); // // Loop while there are more bytes left to be transferred. // while(ulCount != 0) { // // Write the next byte to the controller. // SSIDataPut(SSI0_BASE, *pucBuffer++); // // Dummy read to drain the fifo and time the GPIO signal. // SSIDataGet(SSI0_BASE, &ulTemp); // // Decrement the BYTE counter. // ulCount--; } } //***************************************************************************** // //! Clears the OLED display. //! //! This function will clear the display RAM. All pixels in the display will //! be turned off. //! //! This function is contained in <tt>osram128x64x4.c</tt>, with //! <tt>osram128x64x4.h</tt> containing the API definition for use by //! applications. //! //! \return None. // //***************************************************************************** void OSRAM128x64x4Clear(void) { static const unsigned char pucCommand1[] = { 0x15, 0, 63 }; static const unsigned char pucCommand2[] = { 0x75, 0, 79 }; unsigned long ulRow, ulColumn; static unsigned char pucZeroBuffer[8] = { 0, 0, 0, 0, 0, 0, 0, 0}; // // Set the window to fill the entire display. // OSRAMWriteCommand(pucCommand1, sizeof(pucCommand1)); OSRAMWriteCommand(pucCommand2, sizeof(pucCommand2)); OSRAMWriteCommand(g_pucOSRAM128x64x4VerticalInc, sizeof(g_pucOSRAM128x64x4VerticalInc)); // // In vertical address increment mode, loop through each column, filling // each row with 0. // for(ulColumn = 0; ulColumn < (128/2); ulColumn++) { // // 8 rows (bytes) per row of text. // for(ulRow = 0; ulRow < 80; ulRow += 8) { OSRAMWriteData(pucZeroBuffer, sizeof(pucZeroBuffer)); } } } //***************************************************************************** // //! Displays a string on the OLED display. //! //! \param pcStr is a pointer to the string to display. //! \param ulX is the horizontal position to display the string, specified in //! columns from the left edge of the display. //! \param ulY is the vertical position to display the string, specified in //! rows from the top edge of the display. //! \param ucLevel is the 4-bit grey scale value to be used for displayed text. //! //! This function will draw a string on the display. Only the ASCII characters //! between 32 (space) and 126 (tilde) are supported; other characters will //! result in random data being draw on the display (based on whatever appears //! before/after the font in memory). The font is mono-spaced, so characters //! such as "i" and "l" have more white space around them than characters such //! as "m" or "w". //! //! If the drawing of the string reaches the right edge of the display, no more //! characters will be drawn. Therefore, special care is not required to avoid //! supplying a string that is "too long" to display. //! //! This function is contained in <tt>osram128x64x4.c</tt>, with //! <tt>osram128x64x4.h</tt> containing the API definition for use by //! applications. //! //! \note Because the OLED display packs 2 pixels of data in a single byte, the //! parameter \e ulX must be an even column number (e.g. 0, 2, 4, etc). //! //! \return None. // //***************************************************************************** void OSRAM128x64x4StringDraw(const char *pcStr, unsigned long ulX, unsigned long ulY, unsigned char ucLevel) { static unsigned char pucBuffer[8]; unsigned long ulIdx1, ulIdx2; unsigned char ucTemp; // // Check the arguments. // ASSERT(ulX < 128); ASSERT((ulX & 1) == 0); ASSERT(ulY < 64); ASSERT(ucLevel < 16); // // Setup a window starting at the specified column and row, ending // at the right edge of the display and 8 rows down (single character row). // pucBuffer[0] = 0x15; pucBuffer[1] = ulX / 2; pucBuffer[2] = 63; OSRAMWriteCommand(pucBuffer, 3); pucBuffer[0] = 0x75; pucBuffer[1] = ulY; pucBuffer[2] = ulY + 7; OSRAMWriteCommand(pucBuffer, 3); OSRAMWriteCommand(g_pucOSRAM128x64x4VerticalInc, sizeof(g_pucOSRAM128x64x4VerticalInc)); // // Loop while there are more characters in the string. // while(*pcStr != 0) { // // Get a working copy of the current character and convert to an // index into the character bit-map array. // ucTemp = *pcStr; ucTemp &= 0x7F; if(ucTemp < ' ') { ucTemp = ' '; } else { ucTemp -= ' '; } // // Build and display the character buffer. // for(ulIdx1 = 0; ulIdx1 < 3; ulIdx1++) { // // Convert two columns of 1-bit font data into a single data // byte column of 4-bit font data. // for(ulIdx2 = 0; ulIdx2 < 8; ulIdx2++) { pucBuffer[ulIdx2] = 0; if(g_pucFont[ucTemp][ulIdx1*2] & (1 << ulIdx2)) { pucBuffer[ulIdx2] = ((ucLevel << 4) & 0xf0); } if((ulIdx1 < 2) && (g_pucFont[ucTemp][ulIdx1*2+1] & (1 << ulIdx2))) { pucBuffer[ulIdx2] |= ((ucLevel << 0) & 0x0f); } } // // If there is room, dump the single data byte column to the // display. Otherwise, bail out. // if(ulX < 126) { OSRAMWriteData(pucBuffer, 8); ulX += 2; } else { return; } } // // Advance to the next character. // pcStr++; } } //***************************************************************************** // //! Displays an image on the OLED display. //! //! \param pucImage is a pointer to the image data. //! \param ulX is the horizontal position to display this image, specified in //! columns from the left edge of the display. //! \param ulY is the vertical position to display this image, specified in //! rows from the top of the display. //! \param ulWidth is the width of the image, specified in columns. //! \param ulHeight is the height of the image, specified in rows. //! //! This function will display a bitmap graphic on the display. Because of the //! format of the display RAM, the starting column (/e ulX) and the number of //! columns (/e ulWidth) must be an integer multiple of two. //! //! The image data is organized with the first row of image data appearing left //! to right, followed immediately by the second row of image data. Each byte //! contains the data for two columns in the current row, with the leftmost //! column being contained in bits 7:4 and the rightmost column being contained //! in bits 3:0. //! //! For example, an image six columns wide and seven scan lines tall would //! be arranged as follows (showing how the twenty one bytes of the image would //! appear on the display): //! //! \verbatim //! +-------------------+-------------------+-------------------+ //! | Byte 0 | Byte 1 | Byte 2 | //! +---------+---------+---------+---------+---------+---------+ //! | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | //! +---------+---------+---------+---------+---------+---------+ //! | Byte 3 | Byte 4 | Byte 5 | //! +---------+---------+---------+---------+---------+---------+ //! | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | //! +---------+---------+---------+---------+---------+---------+ //! | Byte 6 | Byte 7 | Byte 8 | //! +---------+---------+---------+---------+---------+---------+ //! | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | //! +---------+---------+---------+---------+---------+---------+ //! | Byte 9 | Byte 10 | Byte 11 | //! +---------+---------+---------+---------+---------+---------+ //! | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | //! +---------+---------+---------+---------+---------+---------+ //! | Byte 12 | Byte 13 | Byte 14 | //! +---------+---------+---------+--3------+---------+---------+ //! | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | //! +---------+---------+---------+---------+---------+---------+ //! | Byte 15 | Byte 16 | Byte 17 | //! +---------+---------+---------+---------+---------+---------+ //! | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | //! +---------+---------+---------+---------+---------+---------+ //! | Byte 18 | Byte 19 | Byte 20 | //! +---------+---------+---------+---------+---------+---------+ //! | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | 7 6 5 4 | 3 2 1 0 | //! +---------+---------+---------+---------+---------+---------+ //! \endverbatim //! //! This function is contained in <tt>osram128x64x4.c</tt>, with //! <tt>osram128x64x4.h</tt> containing the API definition for use by` //! applications. //! //! \return None. // //***************************************************************************** void OSRAM128x64x4ImageDraw(const unsigned char *pucImage, unsigned long ulX, unsigned long ulY, unsigned long ulWidth, unsigned long ulHeight) { static unsigned char pucBuffer[8]; // // Check the arguments. // ASSERT(ulX < 128); ASSERT((ulX & 1) == 0); ASSERT(ulY < 64); ASSERT((ulX + ulWidth) <= 128); ASSERT((ulY + ulHeight) <= 64); ASSERT((ulWidth & 1) == 0); // // Setup a window starting at the specified column and row, and ending // at the column + width and row+height. // pucBuffer[0] = 0x15; pucBuffer[1] = ulX / 2; pucBuffer[2] = (ulX + ulWidth - 2) / 2; OSRAMWriteCommand(pucBuffer, 3); pucBuffer[0] = 0x75; pucBuffer[1] = ulY; pucBuffer[2] = ulY + ulHeight - 1; OSRAMWriteCommand(pucBuffer, 3); OSRAMWriteCommand(g_pucOSRAM128x64x4HorizontalInc, sizeof(g_pucOSRAM128x64x4HorizontalInc)); // // Loop while there are more rows to display. // while(ulHeight--) { // // Write this row of image data. // OSRAMWriteData(pucImage, (ulWidth / 2)); // // Advance to the next row of the image. // pucImage += (ulWidth / 2); } } //***************************************************************************** // //! Enable the SSI component of the OLED display driver. //! //! \param ulFrequency specifies the SSI Clock Frequency to be used. //! //! This function initializes the SSI interface to the OLED display. //! //! This function is contained in <tt>osram128x64x4.c</tt>, with //! <tt>osram128x64x4.h</tt> containing the API definition for use by //! applications. //! //! \return None. // //***************************************************************************** void OSRAM128x64x4Enable(unsigned long ulFrequency) { unsigned long ulTemp; // // Disable the SSI port. // SSIDisable(SSI0_BASE); // // Configure the SSI0 port for master mode. // SSIConfig(SSI0_BASE, SSI_FRF_MOTO_MODE_2, SSI_MODE_MASTER, ulFrequency, 8); // // (Re)Enable SSI control of the FSS pin. // GPIOPinTypeSSI(GPIO_PORTA_BASE, GPIO_PIN_3); GPIOPadConfigSet(GPIO_PORTA_BASE, GPIO_PIN_3, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD_WPU); // // Enable the SSI port. // SSIEnable(SSI0_BASE); // // Drain the receive fifo. // while(SSIDataNonBlockingGet(SSI0_BASE, &ulTemp) != 0) { } // // Indicate that the OSRAM driver can use the SSI Port. // g_bSSIEnabled = true; } //***************************************************************************** // //! Enable the SSI component of the OLED display driver. //! //! \param ulFrequency specifies the SSI Clock Frequency to be used. //! //! This function initializes the SSI interface to the OLED display. //! //! This function is contained in <tt>osram128x64x4.c</tt>, with //! <tt>osram128x64x4.h</tt> containing the API definition for use by //! applications. //! //! \return None. // //***************************************************************************** void OSRAM128x64x4Disable(void) { unsigned long ulTemp; // // Indicate that the OSRAM driver can no longer use the SSI Port. // g_bSSIEnabled = false; // // Drain the receive fifo. // while(SSIDataNonBlockingGet(SSI0_BASE, &ulTemp) != 0) { } // // Disable the SSI port. // SSIDisable(SSI0_BASE); // // Disable SSI control of the FSS pin. // GPIODirModeSet(GPIO_PORTA_BASE, GPIO_PIN_3, GPIO_DIR_MODE_OUT); GPIOPadConfigSet(GPIO_PORTA_BASE, GPIO_PIN_3, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD_WPU); GPIOPinWrite(GPIO_PORTA_BASE, GPIO_PIN_3, GPIO_PIN_3); } //***************************************************************************** // //! Initialize the OLED display. //! //! \param ulFrequency specifies the SSI Clock Frequency to be used. //! //! This function initializes the SSI interface to the OLED display and //! configures the SSD0323 controller on the panel. //! //! This function is contained in <tt>osram128x64x4.c</tt>, with //! <tt>osram128x64x4.h</tt> containing the API definition for use by //! applications. //! //! \return None. // //***************************************************************************** void OSRAM128x64x4Init(unsigned long ulFrequency) { unsigned long ulIdx; // // Enable the SSI0 and GPIO port blocks as they are needed by this driver. // SysCtlPeripheralEnable(SYSCTL_PERIPH_SSI0); SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOA); SysCtlPeripheralEnable(SYSCTL_PERIPH_GPIOC); // // Configure the SSI0CLK and SSIOTX pins for SSI operation. // GPIOPinTypeSSI(GPIO_PORTA_BASE, GPIO_PIN_2 | GPIO_PIN_3 | GPIO_PIN_5); GPIOPadConfigSet(GPIO_PORTA_BASE, GPIO_PIN_2, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD_WPU); GPIOPadConfigSet(GPIO_PORTA_BASE, GPIO_PIN_3, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD_WPU); GPIOPadConfigSet(GPIO_PORTA_BASE, GPIO_PIN_5, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD_WPU); // // Configure the PC7 pin as a D/Cn signal for OLED device. // GPIODirModeSet(GPIO_PORTC_BASE, GPIO_PIN_7, GPIO_DIR_MODE_OUT); GPIOPadConfigSet(GPIO_PORTC_BASE, GPIO_PIN_7, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD); GPIOPinWrite(GPIO_PORTC_BASE, GPIO_PIN_7, GPIO_PIN_7); // // Configure and enable the SSI0 port for master mode. // OSRAM128x64x4Enable(ulFrequency); // // Clear the frame buffer. // OSRAM128x64x4Clear(); // // Initialize the SSD0323 controller. Loop through the initialization // sequence array, sending each command "string" to the controller. // for(ulIdx = 0; ulIdx < sizeof(g_pucOSRAM128x64x4Init); ulIdx += g_pucOSRAM128x64x4Init[ulIdx] + 1) { // // Send this command. // OSRAMWriteCommand(g_pucOSRAM128x64x4Init + ulIdx + 1, g_pucOSRAM128x64x4Init[ulIdx] - 1); } } //***************************************************************************** // //! Turns on the OLED display. //! //! This function will turn on the OLED display, causing it to display the //! contents of its internal frame buffer. //! //! This function is contained in <tt>osram128x64x4.c</tt>, with //! <tt>osram128x64x4.h</tt> containing the API definition for use by //! applications. //! //! \return None. // //***************************************************************************** void OSRAM128x64x4DisplayOn(void) { unsigned long ulIdx; // // Initialize the SSD0323 controller. Loop through the initialization // sequence array, sending each command "string" to the controller. // for(ulIdx = 0; ulIdx < sizeof(g_pucOSRAM128x64x4Init); ulIdx += g_pucOSRAM128x64x4Init[ulIdx] + 1) { // // Send this command. // OSRAMWriteCommand(g_pucOSRAM128x64x4Init + ulIdx + 1, g_pucOSRAM128x64x4Init[ulIdx] - 1); } } //***************************************************************************** // //! Turns off the OLED display. //! //! This function will turn off the OLED display. This will stop the scanning //! of the panel and turn off the on-chip DC-DC converter, preventing damage to //! the panel due to burn-in (it has similar characters to a CRT in this //! respect). //! //! This function is contained in <tt>osram128x64x4.c</tt>, with //! <tt>osram128x64x4.h</tt> containing the API definition for use by //! applications. //! //! \return None. // //***************************************************************************** void OSRAM128x64x4DisplayOff(void) { static const unsigned char pucCommand1[] = { 0xAE, 0xAD, 0x02 }; // // Turn off the DC-DC converter and the display. // OSRAMWriteCommand(pucCommand1, sizeof(pucCommand1)); } //***************************************************************************** // // Close the Doxygen group. //! @} // //*****************************************************************************
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