class SPI – a Serial Peripheral Interface bus protocol (controller side)¶
SPI is a synchronous serial protocol that is driven by a controller. At the physical level, a bus consists of 3 lines: SCK, MOSI, MISO. Multiple devices can share the same bus. Each device should have a separate, 4th signal, CS (Chip Select), to select a particular device on a bus with which communication takes place. Management of a CS signal should happen in user code (via machine.Pin class).
Both hardware and software SPI implementations exist via the
machine.SPI and machine.SoftSPI
classes. Hardware SPI uses underlying
hardware support of the system to perform the reads/writes and is usually
efficient and fast but may have restrictions on which pins can be used.
Software SPI is implemented by bit-banging and can be used on any pin but
is not as efficient. These classes have the same methods available and
differ primarily in the way they are constructed.
Constructors¶
- class machine.SPI(id, ...)¶
Construct an SPI object on the given bus, id. Values of id depend on a particular port and its hardware. Values 0, 1, etc. are commonly used to select hardware SPI block #0, #1, etc.
With no additional parameters, the SPI object is created but not initialised (it has the settings from the last initialisation of the bus, if any). If extra arguments are given, the bus is initialised. See
init
for parameters of initialisation.
- class machine.SoftSPI(baudrate=500000, *, polarity=0, phase=0, bits=8, firstbit=MSB, sck=None, mosi=None, miso=None)¶
Construct a new software SPI object. Additional parameters must be given, usually at least sck, mosi and miso, and these are used to initialise the bus. See
SPI.init
for a description of the parameters.
Methods¶
- SPI.init(baudrate=1000000, *, polarity=0, phase=0, bits=8, firstbit=SPI.MSB, sck=None, mosi=None, miso=None, pins=(SCK, MOSI, MISO))¶
Initialise the SPI bus with the given parameters:
baudrate
is the SCK clock rate.polarity
can be 0 or 1, and is the level the idle clock line sits at.phase
can be 0 or 1 to sample data on the first or second clock edge respectively.bits
is the width in bits of each transfer. Only 8 is guaranteed to be supported by all hardware.firstbit
can beSPI.MSB
orSPI.LSB
.sck
,mosi
,miso
are pins (machine.Pin) objects to use for bus signals. For most hardware SPI blocks (as selected byid
parameter to the constructor), pins are fixed and cannot be changed. In some cases, hardware blocks allow 2-3 alternative pin sets for a hardware SPI block. Arbitrary pin assignments are possible only for a bitbanging SPI driver (id
= -1).pins
- WiPy port doesn’tsck
,mosi
,miso
arguments, and instead allows to specify them as a tuple ofpins
parameter.
In the case of hardware SPI the actual clock frequency may be lower than the requested baudrate. This is dependant on the platform hardware. The actual rate may be determined by printing the SPI object.
- SPI.deinit()¶
Turn off the SPI bus.
- SPI.read(nbytes, write=0x00)¶
Read a number of bytes specified by
nbytes
while continuously writing the single byte given bywrite
. Returns abytes
object with the data that was read.
- SPI.readinto(buf, write=0x00)¶
Read into the buffer specified by
buf
while continuously writing the single byte given bywrite
. ReturnsNone
.Note: on WiPy this function returns the number of bytes read.
- SPI.write(buf)¶
Write the bytes contained in
buf
. ReturnsNone
.Note: on WiPy this function returns the number of bytes written.
- SPI.write_readinto(write_buf, read_buf)¶
Write the bytes from
write_buf
while reading intoread_buf
. The buffers can be the same or different, but both buffers must have the same length. ReturnsNone
.Note: on WiPy this function returns the number of bytes written.