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Tài trợ cho PIC Vietnam |
Giao tiếp USB, CAN, I2C, SPI, USART... Những giao tiếp được tích hợp trên PIC |
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Ðiều Chỉnh | Xếp Bài |
02-01-2014, 06:29 PM | #1 |
Nhập môn đệ tử
Tham gia ngày: Oct 2013
Bài gửi: 4
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(Help me) Mình gặp lỗi giao tiếp giữa pic 18f26k20 với thẻ nhớ sdcard
sơ đồ kết nối phần ngoại vi sdcard như sau:
Chân 1 (CS) nối với chân RA3 của pic Chân 2 (SDI) nối với chân SDO của pic (RC5) Chân 3 nối đất Chân 4 (VDD) nối với điện áp 3.3V Chân 5 (SCK) nối với chấn SCK của pic (RC3) Chân 6 nối đất Chân 7 (SDO) nối với SDI của pic (RC4) Phần cứng của mình kết nối như vậy ổn chưa các bạn,mình thấy nhiều sơ đồ người ta đều kéo chân sdi và sdo qua trở pull-up lên dương nguồn nhưng mình nối thẳng các chân luôn vì trong sơ đồ kết nối cảu mikro c for pic họ cũng chỉ phần áp rồi đưa thằng vào chân thẻ nhớ! Mình sử dụng trình dịch mikro C for pic,các modul uart,lcd,ps/2,zigbee của mình đều chạy ngon,còn phần thẻ nhớ này thì nó luôn báo là không tìm thấy thẻ nhớ,code mình sử dụng luôn thư viện mmc của mikro C for pic. Các bạn giúp mình với,mình sắp phải bảo vệ đồ án rồi ( Code:
// MMC module connections sbit Mmc_Chip_Select at LATA3_bit; // for writing to output pin always use latch (PIC18 family) sbit Mmc_Chip_Select_Direction at TRISA3_bit; // eof MMC module connections const LINE_LEN = 43; char err_txt[20] = "FAT16 not found"; char file_contents[LINE_LEN] = "XX MMC/SD FAT16 library by Anton Rieckertn"; char filename[14] = "MIKRO00x.TXT"; // File names unsigned short loop, loop2; unsigned long i, size; char Buffer[512]; // UART1 write text and new line (carriage return + line feed) void UART1_Write_Line(char *uart_text) { UART1_Write_Text(uart_text); UART1_Write(13); UART1_Write(10); } // Creates new file and writes some data to it void M_Create_New_File() { filename[7] = 'A'; Mmc_Fat_Set_File_Date(2010, 4, 19, 9, 0, 0); // Set file date & time info Mmc_Fat_Assign(&filename, 0xA0); // Find existing file or create a new one Mmc_Fat_Rewrite(); // To clear file and start with new data for(loop = 1; loop <= 99; loop++) { UART1_Write('.'); file_contents[0] = loop / 10 + 48; file_contents[1] = loop % 10 + 48; Mmc_Fat_Write(file_contents, LINE_LEN-1); // write data to the assigned file } } // Creates many new files and writes data to them void M_Create_Multiple_Files() { for(loop2 = 'B'; loop2 <= 'Z'; loop2++) { UART1_Write(loop2); // signal the progress filename[7] = loop2; // set filename Mmc_Fat_Set_File_Date(2010, 4, 19, 9, 0, 0); // Set file date & time info Mmc_Fat_Assign(&filename, 0xA0); // find existing file or create a new one Mmc_Fat_Rewrite(); // To clear file and start with new data for(loop = 1; loop <= 44; loop++) { file_contents[0] = loop / 10 + 48; file_contents[1] = loop % 10 + 48; Mmc_Fat_Write(file_contents, LINE_LEN-1); // write data to the assigned file } } } // Opens an existing file and rewrites it void M_Open_File_Rewrite() { filename[7] = 'C'; Mmc_Fat_Assign(&filename, 0); Mmc_Fat_Rewrite(); for(loop = 1; loop <= 55; loop++) { file_contents[0] = loop / 10 + 48; file_contents[1] = loop % 10 + 48; Mmc_Fat_Write(file_contents, LINE_LEN-1); // write data to the assigned file } } // Opens an existing file and appends data to it // (and alters the date/time stamp) void M_Open_File_Append() { filename[7] = 'B'; Mmc_Fat_Assign(&filename, 0); Mmc_Fat_Set_File_Date(2010, 4, 19, 9, 20, 0); Mmc_Fat_Append(); // Prepare file for append Mmc_Fat_Write(" for mikroElektronika 2010n", 27); // Write data to assigned file } // Opens an existing file, reads data from it and puts it to UART void M_Open_File_Read() { char character; filename[7] = 'B'; Mmc_Fat_Assign(&filename, 0); Mmc_Fat_Reset(&size); // To read file, procedure returns size of file for (i = 1; i <= size; i++) { Mmc_Fat_Read(&character); UART1_Write(character); // Write data to UART } } // Deletes a file. If file doesn't exist, it will first be created // and then deleted. void M_Delete_File() { filename[7] = 'F'; Mmc_Fat_Assign(filename, 0); Mmc_Fat_Delete(); } // Tests whether file exists, and if so sends its creation date // and file size via UART void M_Test_File_Exist() { unsigned long fsize; unsigned int year; unsigned short month, day, hour, minute; unsigned char outstr[12]; filename[7] = 'B'; //uncomment this line to search for file that DOES exists // filename[7] = 'F'; //uncomment this line to search for file that DOES NOT exist if (Mmc_Fat_Assign(filename, 0)) { //--- file has been found - get its create date Mmc_Fat_Get_File_Date(&year, &month, &day, &hour, &minute); UART1_Write_Text(" created: "); WordToStr(year, outstr); UART1_Write_Text(outstr); ByteToStr(month, outstr); UART1_Write_Text(outstr); WordToStr(day, outstr); UART1_Write_Text(outstr); WordToStr(hour, outstr); UART1_Write_Text(outstr); WordToStr(minute, outstr); UART1_Write_Text(outstr); //--- file has been found - get its modified date Mmc_Fat_Get_File_Date_Modified(&year, &month, &day, &hour, &minute); UART1_Write_Text(" modified: "); WordToStr(year, outstr); UART1_Write_Text(outstr); ByteToStr(month, outstr); UART1_Write_Text(outstr); WordToStr(day, outstr); UART1_Write_Text(outstr); WordToStr(hour, outstr); UART1_Write_Text(outstr); WordToStr(minute, outstr); UART1_Write_Text(outstr); //--- get file size fsize = Mmc_Fat_Get_File_Size(); LongToStr((signed long)fsize, outstr); UART1_Write_Line(outstr); } else { //--- file was not found - signal it UART1_Write(0x55); Delay_ms(1000); UART1_Write(0x55); } } // Tries to create a swap file, whose size will be at least 100 // sectors (see Help for details) void M_Create_Swap_File() { unsigned int i; for(i=0; i<512; i++) Buffer[i] = i; size = Mmc_Fat_Get_Swap_File(5000, "mikroE.txt", 0x20); // see help on this function for details if (size) { LongToStr((signed long)size, err_txt); UART1_Write_Line(err_txt); for(i=0; i<5000; i++) { Mmc_Write_Sector(size++, Buffer); UART1_Write('.'); } } } // Main. Uncomment the function(s) to test the desired operation(s) void main() { #define COMPLETE_EXAMPLE // comment this line to make simpler/smaller example ADCON1 |= 0x0F; // Configure AN pins as digital //CMCON |= 7; // Turn off comparators C1ON_bit = 0; // Disable comparators C2ON_bit = 0; // Initialize UART1 module UART1_Init(9600); Delay_ms(10); UART1_Write_Line("PIC-Started"); // PIC present report // Initialize SPI1 module SPI1_Init_Advanced(_SPI_MASTER_OSC_DIV64, _SPI_DATA_SAMPLE_MIDDLE, _SPI_CLK_IDLE_LOW, _SPI_LOW_2_HIGH); // use fat16 quick format instead of init routine if a formatting is needed if (Mmc_Fat_Init() == 0) { // reinitialize spi at higher speed SPI1_Init_Advanced(_SPI_MASTER_OSC_DIV64, _SPI_DATA_SAMPLE_MIDDLE, _SPI_CLK_IDLE_LOW, _SPI_LOW_2_HIGH); //--- Test start UART1_Write_Line("Test Start."); //--- Test routines. Uncomment them one-by-one to test certain features M_Create_New_File(); #ifdef COMPLETE_EXAMPLE M_Create_Multiple_Files(); M_Open_File_Rewrite(); M_Open_File_Append(); M_Open_File_Read(); M_Delete_File(); M_Test_File_Exist(); M_Create_Swap_File(); #endif UART1_Write_Line("Test End."); } else { UART1_Write_Line(err_txt); // Note: Mmc_Fat_Init tries to initialize a card more than once. // If card is not present, initialization may last longer (depending on clock speed) } } thay đổi nội dung bởi: caddish12, 04-01-2014 lúc 02:22 PM. Lý do: Vui lòng bỏ code vào thẻ [code] |
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