Being able to read/write information from an SD card is probably the easiest way to get large amounts of non-volatile storage into an embedded project.
I'm using XMOS StartKit,, with the code from here
The card reader is a part from Wurth Elektronik, Farnell / CPC part number CN18143 available here.
I'm using XMOS StartKit,, with the code from here
The card reader is a part from Wurth Elektronik, Farnell / CPC part number CN18143 available here.
The data and clock lines have 120 ohm series resistors, as this can help to absorb transmission-line reflections on the connecting wires (even though they are fairly short).
In addition, pins 2 and 7 have 10K ohm pull up resistors.
Pins on an SD card are numbered from 9 (the chamfered end), then 1 to 8. This is because very early cards, like the one shown above, have no pin 9.
SD cards run from 3.3v, so this can be provided directly from the StartKit board.
The XMOS code supports both 1-bit (SPI mode) and 4-bit data access mode. Initially the code is set to use 1-bit SPI mode.
As well as GND and 3.3V, SPI mode only requires pins:
1 CS
2 MOSI
5 SCLK
7 MISO
2 MOSI
5 SCLK
7 MISO
These are connected up and monitored on the scope.
The signal quality looks OK.
The very old 16Mbyte card that I started with, would not read/write (it gave reason code=3).
A newer 16GB card read/wrote OK, as follows:
15026112 KB total drive space. 15748096 KB available. Deleting file Data.bin if existing...done. Creating a new file Data.bin...done. Writing data to the file...20480 bytes written. Write rate: 215KBytes/Sec Closing the file...done. Opening an existing file: Data.bin...done. Reading file content...20480 bytes read. Read rate: 275KBytes/Sec Closing the file...done. Open root directory. Directory listing... <dir> DCIM <dir> MISC <dir> PRIVATE 4096 ~1.TRA 20480 DATA.BIN <dir> TRASHE~1 <dir> SYSTEM~1 Test completed.
The file SDCardHostSPI.xc contains the XMOS port mappings for these lines, as follows. I've used these unchanged in this test.
static SDHostInterface SDif[] = // LIST HERE THE PORTS USED FOR THE INTERFACES // cs, sclk, Mosi, miso {XS1_CLKBLK_1, XS1_CLKBLK_2, XS1_PORT_1O, XS1_PORT_1M, XS1_PORT_1N, XS1_PORT_1P, 0, 0}; // resources used for interface #0
The ports map onto StartKit pins as follows:
SD card 1 CS = XMOS J7 pin 21 = Port 1O
SD card 2 MOSI = XMOS J7 pin 17 = Port 1N
SD card 5 SCLK = XMOS J7 pin 15 = Port 1M
SD card 7 MISO = XMOS J7 pin 23 = Port 1P
2 comments:
Good afternoon sir. I was wondering if you might be able to provide wiring and circuit diagrams for this project. I am trying to learn how to use the Startkit and SD cards as well. This is the only successful example I could find. Thank you.
Yes it does look interesting any more info would be good. Thanks
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