Analog Devices SHARC ADSP-214 Series Hardware Reference Manual page 620

SRU Programming
Table 15-2. SPI Pin Descriptions (Cont'd)
Internal Node
SPI_MOSI_I/O
SPIB_MOSI_I/O
SPI_MISO_I/O
SPIB_MISO_I/O
SPI_FLG3-0_O
SPIB_FLG3-0_O
SPI_CLK_PBEN_O
SPIB_CLK_PBEN_O
SPI_MOSI_PBEN_O
SPIB_MOSI_PBEN_O
SPI_MISO_PBEN_O
SPIB_MISO_PBEN_O
SPI_FLG3-0_PBEN_O
SPIB_FLG3-0_PBEN_O
SRU Programming
Both SPI and SPIB signals are available through the SRU2, and are routed
as described in
Since the SPI supports a gated clock, it is recommended that programs
enable the SPI clock output signal with its related pin buffer enable. This
can be done using the macro SRU (
signals are routed statically high as in SRU (high,
timing modes that are based on polarity and phase may not work correctly
because the timing is violated.
15-4
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Type Description
I/O SPI Master Out Slave In. This data line transmits the output data
from the master device and receives the input data to a slave
device. This data is shifted out from the MOSI pin of the master
and shifted into the MOSI input(s) of the slave(s).
I/O SPI Master In Slave Out. This data line transmits the output data
from the slave device and receives the input data to the master
device. This data is shifted out from the MISO pin of the slave
and shifted into the MISO input of the master. There may be no
more than one slave that is transmitting data during any particular
transfer.
O SPI Slave Select Out. The slave select pins are used to address up
to 4 slaves in a multi device system. This functionality can be
routed to any of the DPI pins. This frees up the multiplexed core
flags for other purposes.
O SPI Pin buffer Enable Out Signal. Only driven in master mode.
The SPIx_FLGx_PBEN_O signals are enabled if the correspond-
ing DSxEN bits in the SPIFLAG register are set.
Table 15-3.
ADSP-214xx SHARC Processor Hardware Reference
,
SPI_CLK_PBEN_O PBEN_03_I
PBEN_03_I
). If these
) some SPI