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| LM3S6611 Datasheet, PDF (438/647 Pages) List of Unclassifed Manufacturers – Microcontroller | |||
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Synchronous Serial Interface (SSI)
12.5
4. Write the SSICR0 register with the following configuration:
â Serial clock rate (SCR)
â Desired clock phase/polarity, if using Freescale SPI mode (SPH and SPO)
â The protocol mode: Freescale SPI, TI SSF, MICROWIRE (FRF)
â The data size (DSS)
5. Enable the SSI by setting the SSE bit in the SSICR1 register.
As an example, assume the SSI must be configured to operate with the following parameters:
â Master operation
â Freescale SPI mode (SPO=1, SPH=1)
â 1 Mbps bit rate
â 8 data bits
Assuming the system clock is 20 MHz, the bit rate calculation would be:
FSSIClk = FSysClk / (CPSDVSR * (1 + SCR))
1x106 = 20x106 / (CPSDVSR * (1 + SCR))
In this case, if CPSDVSR=2, SCR must be 9.
The configuration sequence would be as follows:
1. Ensure that the SSE bit in the SSICR1 register is disabled.
2. Write the SSICR1 register with a value of 0x0000.0000.
3. Write the SSICPSR register with a value of 0x0000.0002.
4. Write the SSICR0 register with a value of 0x0000.09C7.
5. The SSI is then enabled by setting the SSE bit in the SSICR1 register to 1.
Register Map
Table 12-3 on page 439 lists the SSI registers. The offset listed is a hexadecimal increment to the
registerâs address, relative to that SSI moduleâs base address:
â SSI0: 0x4000.8000
â SSI1: 0x4000.9000
Note that the SSI module clock must be enabled before the registers can be programmed (see
page 209). There must be a delay of 3 system clocks after the SSI module clock is enabled before
any SSI module registers are accessed.
Note: The SSI must be disabled (see the SSE bit in the SSICR1 register) before any of the control
registers are reprogrammed.
438
July 16, 2014
Texas Instruments-Production Data
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