Difference between revisions of "STM32 SD card"
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[[File:sd1.jpg|thumb|200px|Micro-SD Adaptor with jumper leads soldered on]] | [[File:sd1.jpg|thumb|200px|Micro-SD Adaptor with jumper leads soldered on]] | ||
In this article we will be interfacing a SD-card using [[STM32]]. | In this article we will be interfacing a SD-card using [[STM32]]. | ||
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| + | For this purpose we have modified a SD to Micro-SD adaptor by soldering 9 jumper leads on it. | ||
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== SD-Card Pinout == | == SD-Card Pinout == | ||
Revision as of 08:11, 22 November 2024
In this article we will be interfacing a SD-card using STM32.
For this purpose we have modified a SD to Micro-SD adaptor by soldering 9 jumper leads on it.
SD-Card Pinout
The pinout of a SD-card and a MicroSD-card are as follows:
It is important to notice that all SD-cards can be interfaced in two different ways:
DIY SD-card Adaptor
A quick way to hook up a SD-card to a STM32 is to use one of those SD to Micro-SD adaptors that come with most Micro-SD's when you buy them. I made one looking like this:
Combining that with the pinout from the previous section, we can make the following table:
| Pin | Color | SDIO | SPI |
|---|---|---|---|
| 1 | White | CD/Dat3 | CS |
| 2 | Grey | CMD | DI |
| 3 | Purple | VSS1 | VSS1 |
| 4 | Blue | VDD | VDD |
| 5 | Green | CLK | SCLK |
| 6 | Yellow | VSS2 | VSS2 |
| 7 | Orange | DAT0 | DO |
| 8 | Red | DAT1 | |
| 9 | Black | DAT2 |
As per the SD-card specification in both the case of SPI and SDIO, all signals except the clock should be pulled up. Our DIY adaptor does not include pull-up resistors, so we will have to rely on the internal ones, which are really quite weak.
SPI
SDIO
1-bit
4-bit
Gallery
