NOTE: Similar documentation can be found on the official Raspberry Pi Documentation Project page.
The BCM2835 on the Raspberry Pi has 3 SPI Controllers. The main SPI (with two slave selects) is available on the header of all Pis. An additional auxiliary SPI (three slave selects) is available on Pis with the 40 pin header (and the compute module).
Chapter 10 in the BCM2835 ARM Peripherals datasheet describes the main controller. Chapter 2.3 describes the auxiliary controller.
Only the main controller (described in the following) has Linux kernel support.
This interface is referred to as SPI0 in the documentation.
- Standard mode
- In Standard SPI master mode the peripheral implements the standard 3 wire serial protocol.
- Signal names: Clock=CLK, ChipSelect=CE, SerialOut=MOSI (Master Out Slave In), SerialIn=MISO (Master In Slave Out)
- Bidirectional mode
- In bidirectional SPI master mode the same SPI standard is implemented except that a single wire is used for the data (MIMO) instead of the two as in standard mode (MISO and MOSI).
- Signal names: Clock=CLK, ChipSelect=CE, SerialINOut=MOMI (Master Out Master In) or MIMO (Master In Master Out)
- LoSSI mode (Low Speed Serial Interface)
- The LoSSI standard allows us to issue commands to peripherals and to transfer data to and from them.
- LoSSI commands and parameters are 8 bits long, but an extra bit is used to indicate whether the byte is a command or data.
- This extra bit is set high for a parameter and low for a command. The resulting 9-bit value is serialized to the output.
- When reading from a LoSSI peripheral the standard allows us to read bytes of data, as well as 24 and 32 bit words.
- Signal names: Clock=SCL, ChipSelect=CS, SerialOut=SDA (Serial DAta)
- The signal name SDA indicates that this could be a bidirectional bus.
- The Nokia 5800 schematics shows LoSSI Data In and LoSSI Data Out as connected.
- This post also supports this.
The CDIV (Clock Divider) field of the CLK register sets the SPI clock speed
SCLK = Core Clock / CDIV If CDIV is set to 0, the divisor is 65536. The divisor must be a power of 2. Odd numbers rounded down. The maximum SPI clock rate is of the APB clock.
Errata (http://elinux.org/BCM2835_datasheet_errata): "must be a power of 2" probably should be "must be a multiple of 2"
The controller supports 3 Chip selects, but only 2 is available on the header.
Setup and Hold times related to the automatic assertion and de-assertion of the CS lines when operating in DMA mode (DMAEN and ADCS set) are as follows:
- The CS line will be asserted at least 3 core clock cycles before the msb of the first byte of the transfer.
- The CS line will be de-asserted no earlier than 1 core clock cycle after the trailing edge of the final clock pulse.
The default Linux driver is spi_bcm2708. The following information was valid 2013-05-15.
The driver supports the following speeds
cdiv speed 2 125.0 MHz 4 62.5 MHz 8 31.2 MHz 16 15.6 MHz 32 7.8 MHz 64 3.9 MHz 128 1953 kHz 256 976 kHz 512 488 kHz 1024 244 kHz 2048 122 kHz 4096 61 kHz 8192 30.5 kHz 16384 15.2 kHz 32768 7629 Hz
When asking for say 24 MHz, the actual speed will be 15.6 MHz. The fastest reported working speed is 32 MHz.
Supported Mode bits
- SPI_CPOL - Clock polarity
- SPI_CPHA - Clock phase
- SPI_CS_HIGH - Chip Select active high
- SPI_NO_CS - 1 dev/bus, no chipselect
Supported bits per word
- 8 - Normal
- 9 - This is supported using LoSSI mode.
Only interrupt mode is supported.
The following appears in the kernel log on Linux version 3.6.11+
bcm2708_spi bcm2708_spi.0: master is unqueued, this is deprecated
SPI driver latency
This thread discusses latency problems.
DMA capable driver
This can be used to test SPI send and receive. Put a wire between MOSI and MISO. It does not test CE0 and CE1.
wget https://raw.github.com/torvalds/linux/master/Documentation/spi/spidev_test.c gcc -o spidev_test spidev_test.c ./spidev_test -D /dev/spidev0.0
If you get SPI_TX_QUAD undeclared, use this instead
- pigpio provides access to both the main and auxiliary SPI interfaces available on Pi's with the 40 pin expansion header.
# Write binary 1, 2 and 3 echo -ne "\x01\x02\x03" > /dev/spidev0.0