SPRZ398J November   2012  – February 2021 DRA744 , DRA745 , DRA746 , DRA750 , DRA756

 

  1. 1Introduction
    1.     Related Documentation
    2.     Trademarks
    3.     Modules Impacted
  2. 2Silicon Advisories
    1.     Revisions SR 2.0, 1.1, 1.0 - Advisories List
    2.     i202
    3.     i378
    4.     i631
    5.     i694
    6.     i698
    7.     i699
    8.     i727
    9.     i729
    10.     i734
    11.     i767
    12.     i782
    13.     i783
    14.     i802
    15.     i803
    16.     i807
    17.     i808
    18.     i809
    19.     i810
    20.     i813
    21.     i814
    22.     i815
    23.     i818
    24.     i819
    25.     i820
    26.     i824
    27.     i826
    28.     i829
    29.     i834
    30.     i837
    31.     i840
    32.     i841
    33.     i842
    34.     i843
    35.     i847
    36.     i849
    37.     i852
    38.     i854
    39.     i855
    40.     i856
    41.     i859
    42.     i861
    43.     i862
    44.     i863
    45.     i868
    46.     i869
    47.     i870
    48.     i871
    49.     i872
    50.     i874
    51.     i875
    52.     i878
    53.     i879
    54.     i880
    55.     i881
    56.     i882
    57.     i883
    58.     i884
    59.     i887
    60.     i889
    61.     i890
    62.     i893
    63.     i895
    64.     i896
    65.     i897
    66.     i898
    67.     i899
    68.     i900
    69.     i901
    70.     i903
    71.     i916
    72.     i927
    73.     i929
    74.     i930
    75.     i932
    76.     i933
    77.     i936
    78.     i940
  3. 3Silicon Limitations
    1.     Revisions SR 2.0, 1.1, 1.0 - Limitations List
    2.     i596
    3.     i641
    4.     i833
    5.     i838
    6.     i844
    7.     i845
    8.     i848
    9.     i850
    10.     i851
    11.     i853
    12.     i857
    13.     i858
    14.     i876
    15.     i877
    16.     i892
    17.     i909
  4. 4Silicon Cautions
    1.     Revisions SR 2.0, 1.1, 1.0 - Cautions List
    2.     i781
    3. 4.1 105
    4.     i827
    5.     i832
    6.     i836
    7.     i839
    8.     i864
    9.     i885
    10.     i886
    11.     i912
    12.     i926
    13.     i931
    14.     i935
  5. 5Revision History

i916

QSPI Reads Can Fail For Flash Devices with HOLD Function

CRITICALITY

High

DESCRIPTION

The default internal pull-up/pull-down on the SoC QSPI interface can interfere with the HOLD function implemented in some QSPI FLASH devices leading to Read Failures. This is most likely to be seen at higher clock rates, and with EDMA reads of greater than 128-Bytes.

In Quad SPI mode, the SoC QSPI IP transmits the command and address to the flash device on data line D0 and reads the data back on all four data lines D0, D1, D2 and D3. The default values of the data lines i.e. values when there is no driver on lines are LOW for D0 and D1 and HIGH for D2 and D3. These values are dictated by the internal and external pull ups.

When the last bit on the last read driven by the FLASH doesn't match the 'default value', the data lines D1, D2 and D3 transition slowly to their default values i.e. LOW for D1 and HIGH for D2 and D3. The transition time is in the order of 100 ns and depends on board loadings. At higher frequencies (typically above 64MHz QSPI clock rate) the time from the last bit of data transfer to the first bit of the next command is not long enough to allow for the pull-ups to get the data lines D1, D2 and D3 to the desired state. It is possible that the D3 line is still in a LOW state when the next command transmission begins.

The D3 line is used by some flash devices as a HOLD signal. If the D3 line has not reached HIGH state by the time CS is reasserted, flash devices can infer that a HOLD is in effect and fail to service the current command.

This issue is most easily seen with EDMA reads of length greater than 128 bytes. CPU reads typically provide sufficient time between reads for the data lines to reach their default values.

WORKAROUND

The software workaround is to disable the hold functionality on the QSPI device, preferably by setting a nonvolatile configuration register. On most flash devices, placing the QSPI device in Quad read mode automatically disables the HOLD functionality. On certain flash devices, there is a separate mode bit that can be set to disable the HOLD functionality. Typically this setting would be done in a Flash Writer utility that programs the flash with the customer’s boot image and sets appropriate non-volatile mode bits. Depending on the software architecture, this mode bit setting may also be done in the boot-loader or HLOS kernel.

Disabling the HOLD functionality prevents the slow ramp on the D3 line from interrupting the operation of the QSPI flash device and allows EDMA reads at high clock speeds (64 MHz).

There are no negative effects of the workaround as HOLD functionality is not supported by SoC QSPI IP.

REVISIONS IMPACTED

SR 2.0, 1.1, 1.0

TDA2x: 2.0, 1.1, 1.0

DRA75x, DRA74x: 2.0, 1.1, 1.0

AM572x: 2.0, 1.1