UM10562 Datasheet, PDF(600/942 Page) NXP Semiconductors – LPC408x/407x User manual

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UM10562 Datasheet, PDF (600/942 Pages) NXP Semiconductors – LPC408x/407x User manual

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NXP Semiconductors

UM10562

Chapter 21: LPC408x/407x SSP interfaces

One half SCK period later, valid master data is transferred to the MOSI pin. Now that both

the master and slave data have been set, the SCK master clock pin goes HIGH after one

further half SCK period.

The data is now captured on the rising and propagated on the falling edges of the SCK

signal.

In the case of a single word transmission, after all bits of the data word have been

transferred, the SSEL line is returned to its idle HIGH state one SCK period after the last

bit has been captured.

However, in the case of continuous back-to-back transmissions, the SSEL signal must be

pulsed HIGH between each data word transfer. This is because the slave select pin

freezes the data in its serial peripheral register and does not allow it to be altered if the

CPHA bit is logic zero. Therefore the master device must raise the SSEL pin of the slave

device between each data transfer to enable the serial peripheral data write. On

completion of the continuous transfer, the SSEL pin is returned to its idle state one SCK

period after the last bit has been captured.

21.5.2.3 SPI format with CPOL=0,CPHA=1

The transfer signal sequence for SPI format with CPOL = 0, CPHA = 1 is shown in

Figure 102, which covers both single and continuous transfers.

UM10562

User manual

SCK

SSEL

MOSI

MISO

MSB

Q MSB

LSB

LSB Q

4 to 16 bits

Fig 102. SPI frame format with CPOL=0 and CPHA=1

In this configuration, during idle periods:

â¢ The CLK signal is forced LOW.

â¢ SSEL is forced HIGH.

â¢ The transmit MOSI/MISO pad is in high impedance.

If the SSP is enabled and there is valid data within the transmit FIFO, the start of

transmission is signified by the SSEL master signal being driven LOW. Masterâs MOSI pin

is enabled. After a further one half SCK period, both master and slave valid data is

enabled onto their respective transmission lines. At the same time, the SCK is enabled

with a rising edge transition.

Data is then captured on the falling edges and propagated on the rising edges of the SCK

signal.

In the case of a single word transfer, after all bits have been transferred, the SSEL line is

returned to its idle HIGH state one SCK period after the last bit has been captured.

All information provided in this document is subject to legal disclaimers.

Rev. 1 â 13 September 2012

Â© NXP B.V. 2012. All rights reserved.

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