SPRZ447D July   2017  – February 2021 AM5746 , AM5748 , AM5749

 

  1. 1Introduction
    1.     Related Documentation
    2.     Trademarks
    3.     Modules Impacted
  2. 2Silicon Advisories
    1.     Revisions SR 1.0 - Advisories List
    2.     i202
    3.     i378
    4.     i631
    5.     i694
    6.     i698
    7.     i699
    8.     i709
    9.     i727
    10.     i729
    11.     i734
    12.     i767
    13.     i782
    14.     i783
    15.     i802
    16.     i803
    17.     i807
    18.     i808
    19.     i809
    20.     i810
    21.     i813
    22.     i814
    23.     i815
    24.     i818
    25.     i819
    26.     i820
    27.     i824
    28.     i826
    29.     i829
    30.     i834
    31.     i849
    32.     i856
    33.     i862
    34.     i863
    35.     i869
    36.     i870
    37.     i871
    38.     i872
    39.     i874
    40.     i878
    41.     i879
    42.     i883
    43.     i889
    44.     i890
    45.     i893
    46.     i896
    47.     i897
    48.     i898
    49.     i899
    50.     i900
    51.     i903
    52.     i904
    53.     i916
    54.     i929
    55.     i930
    56.     i932
    57.     i933
    58.     i936
    59.     i940
  3. 3Silicon Limitations
    1.     Revisions SR 1.0 - Limitations List
    2.     i596
    3.     i641
    4.     i833
    5.     i838
    6.     i845
    7.     i848
    8.     i876
    9.     i877
    10.     i892
    11.     i909
    12.     i925
  4. 4Silicon Cautions
    1.     Revisions SR 1.0 - Cautions List
    2.     i827
    3.     i832
    4.     i836
    5.     i839
    6.     i864
    7.     i885
    8.     i886
    9.     i912
    10.     i926
    11.     i931
    12.     i935
    13.     i937
  5. 5Revision History

i930

I2C1 and I2C2 May Drive Low During Reset

CRITICALITY

Low

DESCRIPTION

While the SoC PORz signal is asserted, one or more I2C1 and I2C2 IOs (i2c1_scl, i2c1_sda, i2c2_clk, i2c2_sda) may drive low. The Data Manual specifies that these signals should be high-z during PORz assertion. This occurs due to an internal node floating to a random state inside of the I2C output buffer during PORz assertion.

Note that other I2C instances on the SoC are not affected by this issue since they use a different I/O buffer.

WORKAROUND

This issue has not resulted in any known issues in systems. Any workaround may be dependent on the characteristics of connected devices in a given system, and the external device(s) response in case a Start/Stop sequence occurs without an intermediate I2C handshake.

If the I2C devices connected to I2C1 or I2C2 are sensitive to a spurious Start/Stop sequence during SoC PORz assertion, then an external switch can be implemented on a PCB between the SoC SDA/SCL signals and the external I2C component(s). The switch can be controlled by a GPIO output of the SoC. The GPIO signal will be high-z during PORz and a pull-resistor should be used to cause the external switch to be open during PORz. After PORz deassertion, software can enable the GPIO to close the switch prior to using the I2C1 or I2C2 interface.

REVISIONS IMPACTED

AM574x SR 1.0
AM576x SR 1.0

AM574x: 1.0

DRA75xP, DRA74xP, DRA77xP, DRA76xP: 1.0

TDA2Px: 1.0

AM576x: 1.0