1 data size select (dss), 2 frame format (frf), 3 synchronous serial port enable (sse) – Intel STRONGARM SA-1100 User Manual
Page 325
SA-1100 Developer’s Manual
11-175
Peripheral Control Module
11.12.9.1
Data Size Select (DSS)
The 4-bit data size select (DSS) field is used to select the size of the data transmitted and received by
the SSP. Data can be 4 to 16 bits in length. When data is programmed to be less than 16 bits, received
data is automatically right justified and the upper bits in the receive FIFO are zero filled by the
receive logic. Transmit data must be right justified by the user before being placed into the transmit
FIFO; however, the upper unused bits are ignored by the SSP’s transmit logic. Although it is possible
to program data sizes of 1, 2, and 3 bits, these sizes are reserved and produce unpredictable results in
the SSP. When National Microwire
*
frame format is selected, this bit field selects the size of the
received data. Note that the size of the transmitted data is always 8 bits in this mode.
11.12.9.2
Frame Format (FRF)
The 2-bit frame format (FRF) bit field is used to select which frame format to use: Motorola
*
SPI
(FRF=00), Texas Instruments
*
synchronous serial (FRF=01), or National Microwire
*
(FRF=10).
See the preceding sections for a complete description of each frame format. Note that FRF=11 is
reserved and produces unpredictable results.
11.12.9.3
Synchronous Serial Port Enable (SSE)
The SSP enable (SSE) bit is used to enable and disable all SSP operation. When SSE=0, the SSP is
disabled; when SSE=1, it is enabled. Since the MCP and SSP both share the same pins, only one
can be enabled at a time. If the user enables both at the same time, the MCP has precedence and the
SSP remains disabled. However, both can be enabled when the SSP pin reassignment (SPR) bit
within the PPC unit is set, which assigns the SSP to GPIO pins.
When the SSP is disabled, all of its clocks are powered down to minimize power consumption. If
the MCP is also disabled, the TXD4, RXD4, SCLK, and SFRM pins can be used for
general-purpose input/output. See the
Section 11.13, “Peripheral Pin Controller (PPC)” on
for a description of how to program the PPC unit to reassign the SSP’s pins and use
serial port 4’s pins as I/Os. Note that SSE is the only control bit within the SSP that is reset to a
known state. It is cleared to zero to ensure the SSP is disabled following a reset of the SA-1100.
When the SSE bit is cleared during active operation, the SSP is disabled immediately, causing the
current frame, which is being transmitted, to be terminated and control of serial port 4’s pins to be
given to the PPC unit. Clearing SSE resets the SSP’s FIFOs. However the SSP’s control and status
registers are not reset. The user must ensure these registers are properly reconfigured before
reenabling the SSP.