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판매자 아크마스터 판매 납포인트 무료 평점 0점 / 총 0명 참여

 MMC card, CCS-C컴파일러용 소스

For applications where more storage is required I would definately reccomend MultiMediaCards (some times called SanDisk (SD) flash). The built in SPI interface only requires four data lines and they are available in sizes of up to 256MByte (at the moment). There are a few little quirks in making the cards work with a PIC but these are hopefully all sorted out within the code. The code is set to use the hardware SPI pins on the 16F876 and I haven't tried it any other way.


The MMC card has quite a large block size for writing, I think at the moment it is at least 512Bytes although I think I saw something about a new version of the specifcation that is more flexible. But at the moment this means that you need to buffer 512Bytes and write them all in one go, the eeprom code (above) is ideal for this. The write_block function just writes the lowest 512Bytes from the eeprom to the MMC. The same is true when reading the card and in my current application I only need to read the data to a PC so the read_block function just outputs every byte to RS232 although it wouldn't be hard to insert some processing or pass each byte to whatever function you wanted. This is just the functions you need to get some code working and then drop these in.

출처 : http://www.microchipc.com/sourcecode/

mmc_circuit.gif

 // Written by Ed Waugh 2004, www.edwaugh.co.uk
// for the original source, and hundreds more examples of PIC C code, see:
// http://www.microchipc.com/sourcecode/#mmc
int mmc_init();
int mmc_response(unsigned char response);
int mmc_read_block(unsigned long block_number);
int mmc_write_block(unsigned long block_number);
int mmc_get_status();
/************************** MMC Init **************************************/
/* Initialises the MMC into SPI mode and sets block size, returns 0 on success */
int mmc_init()
{
int i;
SETUP_SPI(SPI_MASTER | SPI_H_TO_L | SPI_CLK_DIV_4 | SPI_SS_DISABLED);
*0x94 |= 0x40;                          // set CKE = 1 - clock idle low
*0x14 &= 0xEF;                          // set CKP = 0 - data valid on rising edge
OUTPUT_HIGH(PIN_C2);                    // set SS = 1 (off)
for(i=0;i<10;i++)                       // initialise the MMC card into SPI mode by sending clks on
{
        SPI_WRITE(0xFF);
}
OUTPUT_LOW(PIN_C2);                     // set SS = 0 (on) tells card to go to spi mode when it receives reset
SPI_WRITE(0x40);                        // send reset command
SPI_WRITE(0x00);                        // all the arguments are 0x00 for the reset command
SPI_WRITE(0x00);
SPI_WRITE(0x00);
SPI_WRITE(0x00);
SPI_WRITE(0x95);                        // precalculated checksum as we are still in MMC mode
puts("Sent go to SPI\n\r");
if(mmc_response(0x01)==1) return 1;     // if = 1 then there was a timeout waiting for 0x01 from the mmc
puts("Got response from MMC\n\r");
i = 0;
while((i < 255) && (mmc_response(0x00)==1))     // must keep sending command if response
{
        SPI_WRITE(0x41);                // send mmc command one to bring out of idle state
        SPI_WRITE(0x00);                // all the arguments are 0x00 for command one
        SPI_WRITE(0x00);
        SPI_WRITE(0x00);
        SPI_WRITE(0x00);
        SPI_WRITE(0xFF);                // checksum is no longer required but we always send 0xFF
        i++;
}
if(i >= 254) return 1;                   // if >= 254 then there was a timeout waiting for 0x00 from the mmc
puts("Got out of idle response from MMC\n\r");
OUTPUT_HIGH(PIN_C2);                    // set SS = 1 (off)
SPI_WRITE(0xFF);                        // extra clocks to allow mmc to finish off what it is doing
OUTPUT_LOW(PIN_C2);                     // set SS = 0 (on)
        SPI_WRITE(0x50);                // send mmc command one to bring out of idle state
        SPI_WRITE(0x00);
        SPI_WRITE(0x00);
        SPI_WRITE(0x02);                // high block length bits - 512 bytes
        SPI_WRITE(0x00);                // low block length bits
        SPI_WRITE(0xFF);                // checksum is no longer required but we always send 0xFF
if((mmc_response(0x00))==1) return 1;
OUTPUT_HIGH(PIN_C2);            // set SS = 1 (off)
puts("Got set block length response from MMC\n\r");
return 0;
}
/************************** MMC Get Status **************************************/
/* Get the status register of the MMC, for debugging purposes */
int mmc_get_status()
{
OUTPUT_LOW(PIN_C2);                     // set SS = 0 (on)
        SPI_WRITE(0x58);                // send mmc command one to bring out of idle state
        SPI_WRITE(0x00);
        SPI_WRITE(0x00);
        SPI_WRITE(0x00);                //
        SPI_WRITE(0x00);                // always zero as mulitples of 512
        SPI_WRITE(0xFF);                // checksum is no longer required but we always send 0xFF
OUTPUT_HIGH(PIN_C2);                    // set SS = 1 (off)
return 0;
}
/************************** MMC Write Block **************************************/
int mmc_write_block(unsigned long block_number)
{
unsigned long i;
unsigned long varh,varl;
varl=((block_number&0x003F)<<9);
varh=((block_number&0xFFC0)>>7);
puts("Write block\n\r");                // block size has been set in mmc_init()
OUTPUT_LOW(PIN_C2);                     // set SS = 0 (on)
        SPI_WRITE(0x58);                // send mmc write block
        SPI_WRITE(HIGH(varh));
        SPI_WRITE(LOW(varh));
        SPI_WRITE(HIGH(varl));
        SPI_WRITE(0x00);                // always zero as mulitples of 512
        SPI_WRITE(0xFF);                // checksum is no longer required but we always send 0xFF
if((mmc_response(0x00))==1) return 1;
puts("Got response to write block\n\r");
SPI_WRITE(0xFE);                        // send data token
for(i=0;i<512;i++)
{
SPI_WRITE(i2c_eeprom_read(HIGH(i),LOW(i)));     // send data
}
SPI_WRITE(0xFF);                        // dummy CRC
SPI_WRITE(0xFF);
if((SPI_READ(0xFF)&0x0F)!=0x05) return 1;
puts("Got data response to write block\n\r");
OUTPUT_HIGH(PIN_C2);                    // set SS = 1 (off)
return 0;
}
/************************** MMC Read Block **************************************/
/**** Reads a 512 Byte block from the MMC and outputs each byte to RS232 ****/
int mmc_read_block(unsigned long block_number)
{
unsigned long i;
unsigned long varh,varl;
varl=((block_number&0x003F)<<9);
varh=((block_number&0xFFC0)>>7);
OUTPUT_LOW(PIN_C2);                     // set SS = 0 (on)
        SPI_WRITE(0x51);                // send mmc read single block command
        SPI_WRITE(HIGH(varh));      // arguments are address
        SPI_WRITE(LOW(varh));
        SPI_WRITE(HIGH(varl));
        SPI_WRITE(0x00);
        SPI_WRITE(0xFF);                // checksum is no longer required but we always send 0xFF
if((mmc_response(0x00))==1) return 1;   // if mmc_response returns 1 then we failed to get a 0x00 response (affirmative)
puts("Got response to read block command\n\r");
if((mmc_response(0xFE))==1) return 1;   // wait for data token
puts("Got data token\n\r");
        for(i=0;i<512;i++)
        {
                putc(SPI_READ(0xFF));               // we should now receive 512 bytes
        }
SPI_READ(0xFF);                 // CRC bytes that are not needed
SPI_READ(0xFF);
OUTPUT_HIGH(PIN_C2);            // set SS = 1 (off)
SPI_WRITE(0xFF);                // give mmc the clocks it needs to finish off
puts("\n\rEnd of read block\n\r");
return 0;
}
/************************** MMC get response **************************************/
/**** Repeatedly reads the MMC until we get the response we want or timeout ****/
int mmc_response(unsigned char response)
{
        unsigned long count = 0xFFFF;           // 16bit repeat, it may be possible to shrink this to 8 bit but there is not much point
        while(SPI_READ(0xFF) != response && --count > 0);
        if(count==0) return 1;                  // loop was exited due to timeout
        else return 0;                          // loop was exited before timeout
}



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올드뉴 2012.05.29 14:40
감사합니다.
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hideman 2012.09.12 14:12
좋은 자료 감사합니다.
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시나브로69 2016.07.16 16:05

좋은 자료 감사합니다.

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