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HAL_OSPI_Transmit does not transmit (always HAL_ERROR)

JosepM Ribera
Associate III

Hi!

I'm trying to send this information: ADDRESS (3 bytes), Dummy Byte (1 byte), DATA (2 bytes), and the result of HAL_OSPI_Transmit is always--> HAL ERROR.

What do you think could be the issue? Below you have my code:

Thank you!

void FT813_memWrite16_QUAD(u32 ftAddress, u16 ftData16) {
s32	i;
u8 cTempAddr[3], cTempData[2];
 
 
cTempAddr[2] = (u8)(ftAddress >> 16) | MEM_WRITE;	// Compose the command and address to send
cTempAddr[1] = (u8)(ftAddress >> 8);				// middle byte
cTempAddr[0] = (u8)(ftAddress);						// low byte
	
cTempData[1] = (u8) (ftData16 >> 8);				// Compose data to be sent - high byte
cTempData[0] = (u8) (ftData16);						// low byte
	
 
ftAddress=Array_u32(cTempAddr);
 
 FT813_CS_ON
	
		sCommand.OperationType = HAL_OSPI_OPTYPE_COMMON_CFG;
		sCommand.InstructionMode=HAL_OSPI_INSTRUCTION_NONE;
		sCommand.Instruction=0x00;
		sCommand.AddressMode=HAL_OSPI_ADDRESS_1_LINE;
		sCommand.AddressSize=HAL_OSPI_ADDRESS_24_BITS;
		sCommand.Address=ftAddress; 
		sCommand.AlternateBytesMode=HAL_OSPI_ALTERNATE_BYTES_NONE;
		sCommand.AlternateBytes=0;
		sCommand.AlternateBytesSize=0;
		sCommand.DataMode=HAL_OSPI_DATA_1_LINE;
		sCommand.DataDtrMode=HAL_OSPI_DATA_DTR_DISABLE;
		sCommand.NbData=2; //2 bytes to send
		sCommand.DummyCycles= 8; //1 Byte dummy
 
 
if (HAL_OSPI_Command(&hospi1, &sCommand, HAL_OSPI_TIMEOUT_DEFAULT_VALUE) != HAL_OK)
	{
	 Error_Handler();
	}
			
if(HAL_OSPI_Transmit(&hospi1,&cTempData[0],HAL_OSPI_TIMEOUT_DEFAULT_VALUE)!=HAL_OK)			
      {
	Error_Handler();
      }	
	
FT813_CS_OFF
 
	}

4 REPLIES 4
TDK
Guru

Set breakpoints within HAL_OSPI_Transmit to determine where exactly it's failing and debug from there.

Next time include your chip part number in the post.

If you feel a post has answered your question, please click "Accept as Solution".

Thank you for the answer. The chip part number is: STM32H7A3ZIT6

Into the function, it fails at this point:

 /* Check the state */
    if (hospi->State == HAL_OSPI_STATE_CMD_CFG)
    {
 //it is false, State= 0x00000200 (HAL_OSPI_STATE_ERROR)
 
 
 
 

Show the configuration code, ideally a free standing and compilable example that demonstrates the issue.

Point of failure isn't necessarily where the real problem is.

Some up stream code, or hacky chip select implementation.

Dump OSPI register content.

Determine the point(s) at which HAL_OPSI_STATE_ERROR can occur, or occur here, grep the library source.

Tips, buy me a coffee, or three.. PayPal Venmo Up vote any posts that you find helpful, it shows what's working..
JosepM Ribera
Associate III

Thank you for the answers.

I've found the problem, it was due to the "Device Size" at the initial configuration. If the “device size�? is smaller than the memory size then it doesn’t transmit/receive. Now it is working fine.

However, I have another problem. If I receive 1 byte or 2 bytes (Nbdata =1 or Nbdata = 2), it works perfectly. But if I try to receive 4 bytes (Nbdata = 4), then it receive 8 bytes (checked by a logic analyzer) so it is not correct. Do you know what could be the reason?

u32	FT813_memRead32_QUAD(u32 ftAddress) {
	s32	i;
	u32	ftData32;
	u8 cTempAddr[4], cTempData[8], cZeroFill=0;
 
	cTempAddr[3] = 0;
	cTempAddr[2] = (u8)(ftAddress >> 16) | MEM_READ;	// Compose the command and address to send
	cTempAddr[1] = (u8)(ftAddress >> 8);				// middle byte
	cTempAddr[0] = (u8)(ftAddress);						// low byte
	
	ftAddress=Array_u32(cTempAddr);
 
		FT813_CS_ON
	
		sCommand.OperationType = HAL_OSPI_OPTYPE_COMMON_CFG;
		sCommand.InstructionMode=HAL_OSPI_INSTRUCTION_NONE;
		sCommand.Instruction=0x00;
		sCommand.AddressMode=HAL_OSPI_ADDRESS_1_LINE;
		sCommand.AddressSize=HAL_OSPI_ADDRESS_24_BITS;
		sCommand.Address=ftAddress; 
		sCommand.AlternateBytesMode=HAL_OSPI_ALTERNATE_BYTES_NONE;
		sCommand.AlternateBytes=0;
		sCommand.AlternateBytesSize=0;
		sCommand.DataMode=HAL_OSPI_DATA_1_LINE;
		sCommand.DataDtrMode=HAL_OSPI_DATA_DTR_DISABLE;
		sCommand.NbData=4; //Want to receive 4 bytes
		sCommand.DummyCycles= 8; //1 Byte
 
 
 
		if (HAL_OSPI_Command(&hospi1, &sCommand, HAL_OSPI_TIMEOUT_DEFAULT_VALUE) != HAL_OK)
		{
			Error_Handler();
		}
 
 
		if (HAL_OSPI_Receive(&hospi1,cTempData,HAL_OSPI_TIMEOUT_DEFAULT_VALUE) != HAL_OK)
		{
			Error_Handler();
		}	//<--- //Here, receive 8 bytes
 
 
		FT813_CS_OFF
		
	
 
ftData32 = (cTempData[3]<< 24) | 			// Compose value to return - high byte
					(cTempData[2]<< 16) | 
					(cTempData[1]<< 8) | 
					(cTempData[0]); 				// Low byte
	
	return ftData32;				
	}

 Here you can see the _Init:

static void MX_OCTOSPI1_Init(void)
{
 
  /* USER CODE BEGIN OCTOSPI1_Init 0 */
 
  /* USER CODE END OCTOSPI1_Init 0 */
 
  OSPIM_CfgTypeDef sOspiManagerCfg = {0};
 
  /* USER CODE BEGIN OCTOSPI1_Init 1 */
 
  /* USER CODE END OCTOSPI1_Init 1 */
  /* OCTOSPI1 parameter configuration*/
  hospi1.Instance = OCTOSPI1;
  hospi1.Init.FifoThreshold = 1;
  hospi1.Init.DualQuad = HAL_OSPI_DUALQUAD_DISABLE;
  hospi1.Init.MemoryType = HAL_OSPI_MEMTYPE_MICRON;
  hospi1.Init.DeviceSize = 24;
  hospi1.Init.ChipSelectHighTime = 1;
  hospi1.Init.FreeRunningClock = HAL_OSPI_FREERUNCLK_DISABLE;
  hospi1.Init.ClockMode = HAL_OSPI_CLOCK_MODE_0;
  hospi1.Init.WrapSize = HAL_OSPI_WRAP_NOT_SUPPORTED;
  hospi1.Init.ClockPrescaler = 12;
  hospi1.Init.SampleShifting = HAL_OSPI_SAMPLE_SHIFTING_NONE;
  hospi1.Init.DelayHoldQuarterCycle = HAL_OSPI_DHQC_DISABLE;
  hospi1.Init.ChipSelectBoundary = 1;
  hospi1.Init.ClkChipSelectHighTime = 0;
  hospi1.Init.DelayBlockBypass = HAL_OSPI_DELAY_BLOCK_BYPASSED;
  hospi1.Init.MaxTran = 0;
  hospi1.Init.Refresh = 0;
  if (HAL_OSPI_Init(&hospi1) != HAL_OK)
  {
    Error_Handler();
  }
  sOspiManagerCfg.ClkPort = 1;
  sOspiManagerCfg.IOLowPort = HAL_OSPIM_IOPORT_1_LOW;
  if (HAL_OSPIM_Config(&hospi1, &sOspiManagerCfg, HAL_OSPI_TIMEOUT_DEFAULT_VALUE) != HAL_OK)
  {
    Error_Handler();
  }
  /* USER CODE BEGIN OCTOSPI1_Init 2 */
 
  /* USER CODE END OCTOSPI1_Init 2 */
 
}

 And here the output at logic analyzer:

0693W000003BbqcQAC.png