peb20534 Infineon Technologies Corporation, peb20534 Datasheet - Page 121
peb20534
Manufacturer Part Number
peb20534
Description
Dma Supported Serial Communication Controller With 4 Channels
Manufacturer
Infineon Technologies Corporation
Datasheet
1.PEB20534.pdf
(439 pages)
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PEB 20534
PEF 20534
Multi Function Port (MFP)
After performing all necessary initializations of the SSC, the serial interfaces can be
enabled. For a master device, the alternate clock line will now go to its programmed
polarity. The alternate data line will go to either '0' or '1', until the first transfer will start.
After a transfer the alternate data line will always remain at the logic level of the last
transmitted data bit.
When the serial interface is enabled, the master device can initiate the first data transfer
by writing the transmit data into register SSCTB. This value is copied into the shift
register (which is assumed to be empty at this time), and the selected first bit of the
transmit data will be placed onto the MTSR line on the next clock from the baudrate
generator (transmission only starts, if SSCEN=’1’). Depending on the selected clock
phase, a clock pulse will also be generated on the MSCLK line. With the opposite clock
edge the master at the same time latches and shifts in the data detected at its input line
MRST. This ’exchanges’ the transmit data with the receive data. Since the clock line is
connected to all slaves, their shift registers will be shifted synchronously with the
master's shift register, shifting out the data contained in the registers, and shifting in the
data detected at the input line. After the preprogrammed number of clock pulses (via the
data width selection) the data transmitted by the master is contained in all slaves’ shift
registers, while the master's shift register holds the data of the selected slave. In the
master and all slaves the content of the shift register is copied into the receive buffer
SSCRB and the receive interrupt vector is generated, if enabled.
A slave device will immediately output the selected first bit (MSB or LSB of the transfer
data) at pin MRST, when the content of the transmit buffer is copied into the slave's shift
register. It will not wait for the next clock from the baudrate generator, as the master
does. The reason is that, depending on the selected clock phase, the first clock edge
generated by the master may already be used to clock in the first data bit. Hence the
slave's first data bit must already be valid at this time.
Note: On the SSC always a transmission and a reception takes place at the same time,
regardless whether valid data has been transmitted or received.
The initialization of the MSCLK pin on the master requires some attention in order to
avoid undesired clock transitions, which may disturb the other receivers. The state of the
internal alternate output lines is '1' as long as the SSC is disabled. This alternate output
signal is ANDed with the respective port line output latch. Enabling the SSC with an idle-
low clock (SSCPO=’0’) will drive the alternate data output and (via the AND) the port pin
MSCLK immediately low. To avoid this, use the following sequence:
• select the clock idle level (SSCPO=’x’),
• load the port output latch with the desired clock idle level (GPDATA.p=’x’),
• switch the pin to output (GPDIR.p=’1’),
• enable the SSC (SSCEN=’1’), and
• if SSCPO=’0’: enable alternate data output (GPDATA.p=’1’).
Data Sheet
121
2000-05-30
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