Hello,
I am experimenting with the S32K148 internal flash and ran into problems.
What I want to achieve is the following:
Partition the flash area which can be used to emulate EEProm such that it is available as 512K D-Flash partition (compare page 773 in chip's reference manual). After partitioning I want to write a little data at the beginning of this flash partition. From the memory map document attached to the reference manual this partition starts at address 0x1000_0000.
My problem is, that when I try to erase a flash block, I can see the access error bit set in status register of the flash controler. As I switched off memory protection (I set FTFC->FDPROT = 0b11111111; before I call my method Partition_Flash; compare to section 36.4.4.1.9 in chips reference manual) and used an address relative to the start of the flash partition, I do not understand, how this could lead to access error situations.
Here are some details on my problem.
My approach to achieve this goal is:
My clock settings are: 160 MHz SPLL, 80 MHz core clock, 40 MHz bus clock, 26,6 MHz flash clock.
This is how I partition the flash area:
void Partition_Flash() {
while (((FTFC->FSTAT & FTFC_FSTAT_CCIF_MASK) >> FTFC_FSTAT_CCIF_SHIFT) == 0)
;
// wait for CCIF == 1
uint8_t accerr = (FTFC->FSTAT & FTFC_FSTAT_ACCERR_MASK) >> FTFC_FSTAT_ACCERR_SHIFT;
uint8_t fpviol = (FTFC->FSTAT & FTFC_FSTAT_FPVIOL_MASK)
>> FTFC_FSTAT_FPVIOL_SHIFT;
if (accerr == 1 || fpviol == 1) {
FTFC->FSTAT = 0x30; // Clear old errors
}
// partition flash: see 36.5.11.14 Program Partition command p838ff RM
FTFC->FCCOB[0] = 0x80;
FTFC->FCCOB[1] = 0x0;
FTFC->FCCOB[2] = 0x0;
FTFC->FCCOB[3] = 0x1;
FTFC->FCCOB[4] = 0xF;
FTFC->FCCOB[5] = 0;
FTFC->FSTAT = 0x80; // launch command
while (((FTFC->FSTAT & FTFC_FSTAT_CCIF_MASK) >> FTFC_FSTAT_CCIF_SHIFT) == 0)
;
// wait for CCIF == 1
}
When debugging, the register view in S32 Design Studio does not show any error after the partition command has been executed.
Next step is to erase a flash block using the following code:
void EraseBlock()
{
// Erase flash block
while (((FTFC->FSTAT & FTFC_FSTAT_CCIF_MASK) >> FTFC_FSTAT_CCIF_SHIFT) == 0);
// wait for CCIF == 1
uint8_t accerr = (FTFC->FSTAT & FTFC_FSTAT_ACCERR_MASK) >> FTFC_FSTAT_ACCERR_SHIFT;
uint8_t fpviol = (FTFC->FSTAT & FTFC_FSTAT_FPVIOL_MASK) >> FTFC_FSTAT_FPVIOL_SHIFT;
if (accerr == 1 || fpviol == 1) {
FTFC->FSTAT = 0x30; // Clear old errors
}
FTFC->FCCOB[0] = 0x08;
// from my understanding this should be the first flash block
FTFC->FCCOB[1] = 0;
FTFC->FCCOB[2] = 0;
FTFC->FCCOB[3] = 0;
FTFC->FSTAT = 0x80; // launch command
while (((FTFC->FSTAT & FTFC_FSTAT_CCIF_MASK) >> FTFC_FSTAT_CCIF_SHIFT) == 0);
}
Howver, right after writing value 0x80 into FTFC->FSTAT, in the register view the access error bit in register FSTAT is set.
Now my questions are
Any help would be appreciated.
Best Regards,
Michael
已解决! 转到解答。
Hello Michael,
As you can see in Section 36.5.11 RM rev.9
When required by the command, address bit 23 selects between program flash memory (=0) and data flash memory (=1).
FTFC->FCCOB[3] = 0x08; // FCCOB0 ERSBLK
FTFC->FCCOB[2] = 0x80; // Flash address [23:16] of 0x1000_0000
FTFC->FCCOB[1] = 0x00; // Flash address [15:8]
FTFC->FCCOB[1] = 0x00; // Flash address [7:0]
Regards,
Daniel
Hello Michael,
As you can see in Section 36.5.11 RM rev.9
When required by the command, address bit 23 selects between program flash memory (=0) and data flash memory (=1).
FTFC->FCCOB[3] = 0x08; // FCCOB0 ERSBLK
FTFC->FCCOB[2] = 0x80; // Flash address [23:16] of 0x1000_0000
FTFC->FCCOB[1] = 0x00; // Flash address [15:8]
FTFC->FCCOB[1] = 0x00; // Flash address [7:0]
Regards,
Daniel
Hello Daniel,
I found this comment in the RM, so thank you for this hint.
Your code snippet works for me, only three more questions on that topic:
Best Regards,
Michael