Hi all,
I have some questions about S32K148 SPI using.
The SPI2 configuration is
/* SPI Master Configurations */
spi_master_t spi2_MasterConfig0 =
{
.baudRate = 4000000U,
.ssPolarity = SPI_ACTIVE_LOW,
.frameSize = 8,
.clockPhase = READ_ON_EVEN_EDGE,
.clockPolarity = SPI_ACTIVE_HIGH,
.bitOrder = SPI_TRANSFER_MSB_FIRST,
.transferType = SPI_USING_DMA,
.rxDMAChannel = 2U,
.txDMAChannel = 3U,
.callback = NULL,
.callbackParam = NULL,
.ssPin = 1,
.extension = NULL,
.isPcsContinuous = true,
.isMasterDevicesDelayed = false,
};
I aim to control the time required for transmitting 24 bits of SPI data to be under 10 us. However, I am currently facing challenges in reducing the duration between the SPI command and the CS (Chip Select) pin going LOW.
void StartTransfer_SPI2(void* u8_tx_buff, void* u8_rx_buff, void* u16_len)
{
SPI_MasterTransfer(&spi2Instance, u8_tx_buff, u8_rx_buff, *(uint16_t*)u16_len);
}
How could I reduce the P1 P0 time for waiting the SPI Starting.
Regards,
Leon
Hi @Leon06,
The delay is caused by the overhead of the application SW and the LPSPI SDK driver.
You can either increase the system clock frequency or reduce the amount of code between Sample and CS assertion, for example by using you own code to drive the LPSPI.
https://www.nxp.com/docs/en/application-note/AN5413.pdf
AN5413SW
https://www.nxp.com/webapp/Download?colCode=AN5413SW&docLang=en
Regards,
Daniel