LM3S6G11 Datasheet, PDF(581/827 Page) Texas Instruments – Stellaris® LM3S6G11 Microcontroller

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LM3S6G11 Datasheet, PDF (581/827 Pages) Texas Instruments – Stellaris® LM3S6G11 Microcontroller

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OBSOLETE: TI has discontinued production of this device.

StellarisÂ® LM3S6G11 Microcontroller

The serial bit rate is derived by dividing down the input clock (SysClk). The clock is first divided by

an even prescale value CPSDVSR from 2 to 254, which is programmed in the SSI Clock Prescale

(SSICPSR) register (see page 600). The clock is further divided by a value from 1 to 256, which is

1 + SCR, where SCR is the value programmed in the SSI Control 0 (SSICR0) register (see page 593).

The frequency of the output clock SSIClk is defined by:

SSIClk = SysClk / (CPSDVSR * (1 + SCR))

Note: For master mode, the system clock must be at least two times faster than the SSIClk, with

the restriction that SSIClk cannot be faster than 25 MHz. For slave mode, the system clock

must be at least 12 times faster than the SSIClk.

See âSynchronous Serial Interface (SSI)â on page 784 to view SSI timing parameters.

13.3.2 FIFO Operation

13.3.2.1

Transmit FIFO

The common transmit FIFO is a 16-bit wide, 8-locations deep, first-in, first-out memory buffer. The

CPU writes data to the FIFO by writing the SSI Data (SSIDR) register (see page 597), and data is

stored in the FIFO until it is read out by the transmission logic.

When configured as a master or a slave, parallel data is written into the transmit FIFO prior to serial

conversion and transmission to the attached slave or master, respectively, through the SSITx pin.

In slave mode, the SSI transmits data each time the master initiates a transaction. If the transmit

FIFO is empty and the master initiates, the slave transmits the 8th most recent value in the transmit

FIFO. If less than 8 values have been written to the transmit FIFO since the SSI module clock was

enabled using the SSI bit in the RGCG1 register, then 0 is transmitted. Care should be taken to

ensure that valid data is in the FIFO as needed. The SSI can be configured to generate an interrupt

or a ÂµDMA request when the FIFO is empty.

13.3.2.2

Receive FIFO

The common receive FIFO is a 16-bit wide, 8-locations deep, first-in, first-out memory buffer.

Received data from the serial interface is stored in the buffer until read out by the CPU, which

accesses the read FIFO by reading the SSIDR register.

When configured as a master or slave, serial data received through the SSIRx pin is registered

prior to parallel loading into the attached slave or master receive FIFO, respectively.

13.3.3

Interrupts

The SSI can generate interrupts when the following conditions are observed:

â Transmit FIFO service (when the transmit FIFO is half full or less)

â Receive FIFO service (when the receive FIFO is half full or more)

â Receive FIFO time-out

â Receive FIFO overrun

â End of transmission

All of the interrupt events are ORed together before being sent to the interrupt controller, so the SSI

generates a single interrupt request to the controller regardless of the number of active interrupts.

July 24, 2012

581

Texas Instruments-Production Data

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