Author Topic: Is it possible to use Octospi for simple 4 lane reads on STM32U5?  (Read 2719 times)

0 Members and 1 Guest are viewing this topic.

Offline CurtisSeizertTopic starter

  • Regular Contributor
  • *
  • Posts: 146
  • Country: us
I have recently finished building up a board for a nanovoltmeter ( that uses an AD4032-34 as the core ADC to perform conversions, which gives the option for clocking data out over one, two, or four lines. I have attached a timing diagram for the a read over four lines. It is very simple - pull the NCS low and start clocking out the data. The MCU is an STM32U575. I had planned to use the octospi bus to perform data reads from the converter, being somewhat familiar with configuration of quadspi on the F446. My plan was to simply skip all the phases except the data phase, but this does not appear to work on the STM32U575. I can get the frame to look right on the scope using a board that was only populated with the MCU and associated oscillators, but when I move to a fully populated board, it becomes clear that the octospi IO pins remain low impedance during the transfer, with IO3 pulling high and the others pulling low. The setup code is below.

Code: [Select]
static void OCTOSPIMInit(void)


* @brief Configures OCTOSPI for indirect reads
* @param none
* @retvalue none

void OCTOSPIInit(void)


// Setup data length register

// Setup CCR

// Setup Alternate bytes register

// Setup Address Register

// Setup Device Control Register
(1U << OCTOSPI_DCR1_DEVSIZE_Pos); // Devsize = 4 bytes


// Setup control register

While I was attempting to debug this, I found this line in the U5 reference manual: "Any of these phases can be configured to be skipped but, in case of single-phase command, the only use case supported is instruction-phase-only." This is not the case with quadspi on F4, which mentions only that you need to keep at least one of the phases. Is it possible to use octospi to do simple four-lane data transfers that are otherwise equivalent to a SPI read, or is it not possible to use the octospi bus to interface with this peripheral? I have been able to use SPI to get data from the ADC fast enough for this to work at 500 kSPS, but I would have preferred to use octospi to be able to reduce the amount of time needed for the transfer and potentially run the MCU at a lower clock rate or use an AD4030-24 at a faster sampling rate.

Offline hans

  • Super Contributor
  • ***
  • Posts: 1659
  • Country: nl
Re: Is it possible to use Octospi for simple 4 lane reads on STM32U5?
« Reply #1 on: February 26, 2024, 10:22:05 pm »
Maybe you can fool the logic engine to still configure an instruction phase, but enable SIOO bit of CCR register?
That should prevent it from resending an instruction code, but perhaps it still thinks its in a 2 instruction phase mode, and so its legal to only keep operating in a data phase.
Maybe you can unmap the GPIOs to prevent driving 2 outputs (STM & ADC) into each other on the QSPI bus when it does send the first instruction word, or perhaps your hardware is protected against it.
« Last Edit: February 27, 2024, 08:20:16 am by hans »
The following users thanked this post: CurtisSeizert

Offline CurtisSeizertTopic starter

  • Regular Contributor
  • *
  • Posts: 146
  • Country: us
Re: Is it possible to use Octospi for simple 4 lane reads on STM32U5?
« Reply #2 on: February 27, 2024, 02:09:22 pm »
I am seeing SIOO as probably the only hope to do four lane transfers. From debugging this and reading the reference manual, there aren't really any handles you can use for running simultaneous execution synchronized with the phases of the transfer (at least that I could see), which makes sense because the peripheral seems to be structured to be very hands-off.

Thinking about this more yesterday, I feel that using the STM32 for this was kind of trying to fit a square peg in a round hole, as their line seems to be mainly focused on IOT, and various consumer-grade stuff. I will keep the U575 on the next minor revision of the board but probably switch to a different company's ARM MCU with more flexible peripheral interfaces if I want to hit higher sampling rates, assuming I will not be able to get the octospi to do what I want.

Share me

Digg  Facebook  SlashDot  Delicious  Technorati  Twitter  Google  Yahoo